[u/mrichter/AliRoot.git] / EMCAL / AliEMCALGeometry.h

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

/* $Id$ */

//_________________________________________________________________________
// Geometry class  for EMCAL : singleton
// EMCAL consists of a layers of scintillator, and lead.
//                  
//*-- Author: Sahal Yacoob (LBL / UCT)
//*--   and : Yves Schutz (Subatech)

#include <assert.h> 

// --- ROOT system ---
#include "TString.h"
#include "TObjArray.h"
#include "TVector3.h"

// --- AliRoot header files ---

#include "AliGeometry.h"

class AliEMCALGeometry : public AliGeometry {
 public:
    AliEMCALGeometry() {
	// default ctor,  must be kept public for root persistency purposes,
	// but should never be called by the outside world
    };
    AliEMCALGeometry(const AliEMCALGeometry & geom) {
	// cpy ctor requested by Coding Convention but not yet needed
	assert(0==1);
    };
    virtual ~AliEMCALGeometry(void) ; 
    static AliEMCALGeometry * GetInstance(const Text_t* name,
					  const Text_t* title="") ; 
    static AliEMCALGeometry * GetInstance() ;
    AliEMCALGeometry & operator = (const AliEMCALGeometry  & rvalue) const {
	// assignement operator requested by coding convention but not needed
	assert(0==1) ;
	return *(GetInstance()) ; 
    };
    virtual void GetGlobal(const AliRecPoint *, TVector3 &, TMatrix &) const {}
    virtual void GetGlobal(const AliRecPoint *, TVector3 &) const {}
    // General
    Bool_t  IsInitialized(void) const { return fgInit ; }
    // Return EMCA geometrical parameters
    // geometry
    const Float_t GetAirGap() const { return fAirGap ; }
    const Float_t GetAlFrontThickness() const { return fAlFrontThick;}
    const Float_t GetArm1PhiMin() const { return fArm1PhiMin ; }
    const Float_t GetArm1PhiMax() const { return fArm1PhiMax ; }
    const Float_t GetArm1EtaMin() const { return fArm1EtaMin;}
    const Float_t GetArm1EtaMax() const { return fArm1EtaMax;}
    const Float_t GetIPDistance()   const { return  fIPDistance  ; } 
    const Float_t GetEnvelop(Int_t index) const { return fEnvelop[index] ; }  
    const Float_t GetShellThickness() const { return fShellThickness ; }
    const Float_t GetZLength() const { return fZLength ; } 
    const Float_t GetGap2Active() const {return  fGap2Active ; }
    const Float_t GetDeltaEta() const {return (fArm1EtaMax-fArm1EtaMin)/
					   ((Float_t)fNZ);}
    const Float_t GetDeltaPhi() const {return (fArm1PhiMax-fArm1PhiMin)/
					   ((Float_t)fNPhi);}
    const Int_t   GetNLayers() const {return fNLayers ;}
    const Int_t   GetNZ() const {return fNZ ;}
    const Int_t   GetNEta() const {return fNZ ;}
    const Int_t   GetNPhi() const {return fNPhi ;}
    const Int_t   GetNTowers() const {return fNPhi * fNZ ;}
    const Float_t GetPbRadThick(){ // returns Pb radiator thickness in cm.
	return fPbRadThickness;
    }
    const Float_t GetFullSintThick(){ // returns Full tower sintilator
	                              // thickness in cm.
	return fFullShowerSintThick;
    }
    const Float_t GetPreSintThick(){ // returns PreShower tower sintilator
	                              // thickness in cm.
	return fPreShowerSintThick;
    }
    Float_t AngleFromEta(Float_t eta){ // returns angle in radians for a given
	// pseudorapidity.
	return 2.0*TMath::ATan(TMath::Exp(-eta));
	}
    Float_t ZFromEtaR(Float_t r,Float_t eta){ // returns z in for a given
	// pseudorapidity and r=sqrt(x*x+y*y).
	return r/TMath::Tan(AngleFromEta(eta));
	}
    Int_t TowerIndex(Int_t iz,Int_t iphi,Int_t ipre) const; // returns tower index
    // returns tower indexs iz, iphi.
    void TowerIndexes(Int_t index,Int_t &iz,Int_t &iphi,Int_t &ipre) const;
    // for a given tower index it returns eta and phi of center of that tower.
    void EtaPhiFromIndex(Int_t index,Float_t &eta,Float_t &phi) const;
    // returns x, y, and z (cm) on the inner surface of a given EMCAL Cell specified by relid.
    void XYZFromIndex(const Int_t *relid,Float_t &x,Float_t &y, Float_t &z) const;
    // for a given eta and phi in the EMCAL it returns the tower index.
    Int_t TowerIndexFromEtaPhi(Float_t eta,Float_t phi) const;
    // for a given eta and phi in the EMCAL it returns the pretower index.
    Int_t PreTowerIndexFromEtaPhi(Float_t eta,Float_t phi) const;
    // Returns theta and phi (degree) for a given EMCAL cell indecated by relid
    void PosInAlice(const Int_t *relid,Float_t &theta,Float_t &phi) const ;
    // Returns an array indicating the Tower/preshower, iz, and iphi for a
    // specific EMCAL indes.
    Bool_t AbsToRelNumbering(Int_t AbsId, Int_t *relid) const;
    /*
    // Returns kTRUE if the two indexs are neighboring towers or preshowers.
    Boot_t AliEMCALGeometry::AreNeighbours(Int_t index1,Int_t index2) const;
 */

 protected:
    AliEMCALGeometry(const Text_t* name, const Text_t* title="") :
	AliGeometry(name, title) {// ctor only for internal usage (singleton)
	Init();
    };
    void Init(void) ;            // initializes the parameters of EMCAL

 private:
    static AliEMCALGeometry * fgGeom ; // pointer to the unique instance
                                       // of the singleton 
    static Bool_t fgInit;// Tells if geometry has been succesfully set up.
    Float_t fAirGap;     // Distance between envelop and active material
    Float_t fAlFrontThick; // Thickness of the front Al face of the support box
    Float_t fPreShowerSintThick; // Thickness of the sintilator for the
                                 // preshower part of the calorimeter
    Float_t fFullShowerSintThick;// Thickness of the sintilaor for the full
                                 // shower part of the calorimeter
    Float_t fPbRadThickness; // Thickness of Pb radiators cm.
    Float_t fArm1PhiMin; // Minimum angular position of EMCAL in Phi (degrees)
    Float_t fArm1PhiMax; // Maximum angular position of EMCAL in Phi (degrees)
    Float_t fArm1EtaMin; // Minimum pseudorapidity position of EMCAL in Eta
    Float_t fArm1EtaMax; // Maximum pseudorapidity position of EMCAL in Eta

    // It is assumed that Arm1 and Arm2 have the same following parameters
    Float_t fEnvelop[3];      // the GEANT TUB for the detector 
    Float_t fIPDistance; // Radial Distance of the inner surface of the EMCAL
    Float_t fShellThickness; // Total thickness in (x,y) direction
    Float_t fZLength;        // Total length in z direction
    Float_t fGap2Active;     // Gap between the envelop and the active material
    Int_t   fNLayers;        // Number of layers of material in the R direction
    Int_t   fNZ;             // Number of Towers in the Z direction
    Int_t   fNPhi;           //Number of Towers in the Phi Direction
 
    ClassDef(AliEMCALGeometry,3) // EMCAL geometry class 

};

#endif // AliEMCALGEOMETRY_H
Commit	Line	Data
2012850d	1	#ifndef ALIEMCALGEOMETRY_H
	2	#define ALIEMCALGEOMETRY_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
	8	//_________________________________________________________________________
	9	// Geometry class for EMCAL : singleton
b13bbe81	10	// EMCAL consists of a layers of scintillator, and lead.
2012850d	11	//
b13bbe81	12	//*-- Author: Sahal Yacoob (LBL / UCT)
b13bbe81	13	//*-- and : Yves Schutz (Subatech)
ca8f5bd0	14
2012850d	15	#include <assert.h>
	16
	17	// --- ROOT system ---
b13bbe81	18	#include "TString.h"
	19	#include "TObjArray.h"
	20	#include "TVector3.h"
2012850d	21
2012850d	22	// --- AliRoot header files ---
	23
	24	#include "AliGeometry.h"
	25
2012850d	26	class AliEMCALGeometry : public AliGeometry {
ca8f5bd0	27	public:
	28	AliEMCALGeometry() {
	29	// default ctor, must be kept public for root persistency purposes,
	30	// but should never be called by the outside world
	31	};
	32	AliEMCALGeometry(const AliEMCALGeometry & geom) {
	33	// cpy ctor requested by Coding Convention but not yet needed
	34	assert(0==1);
	35	};
	36	virtual ~AliEMCALGeometry(void) ;
	37	static AliEMCALGeometry * GetInstance(const Text_t* name,
	38	const Text_t* title="") ;
	39	static AliEMCALGeometry * GetInstance() ;
	40	AliEMCALGeometry & operator = (const AliEMCALGeometry & rvalue) const {
	41	// assignement operator requested by coding convention but not needed
	42	assert(0==1) ;
	43	return *(GetInstance()) ;
	44	};
	45	virtual void GetGlobal(const AliRecPoint *, TVector3 &, TMatrix &) const {}
	46	virtual void GetGlobal(const AliRecPoint *, TVector3 &) const {}
	47	// General
	48	Bool_t IsInitialized(void) const { return fgInit ; }
	49	// Return EMCA geometrical parameters
	50	// geometry
	51	const Float_t GetAirGap() const { return fAirGap ; }
e908f07f	52	const Float_t GetAlFrontThickness() const { return fAlFrontThick;}
ca8f5bd0	53	const Float_t GetArm1PhiMin() const { return fArm1PhiMin ; }
ca8f5bd0	54	const Float_t GetArm1PhiMax() const { return fArm1PhiMax ; }
e908f07f	55	const Float_t GetArm1EtaMin() const { return fArm1EtaMin;}
e908f07f	56	const Float_t GetArm1EtaMax() const { return fArm1EtaMax;}
ca8f5bd0	57	const Float_t GetIPDistance() const { return fIPDistance ; }
	58	const Float_t GetEnvelop(Int_t index) const { return fEnvelop[index] ; }
	59	const Float_t GetShellThickness() const { return fShellThickness ; }
	60	const Float_t GetZLength() const { return fZLength ; }
	61	const Float_t GetGap2Active() const {return fGap2Active ; }
e908f07f	62	const Float_t GetDeltaEta() const {return (fArm1EtaMax-fArm1EtaMin)/
	63	((Float_t)fNZ);}
	64	const Float_t GetDeltaPhi() const {return (fArm1PhiMax-fArm1PhiMin)/
	65	((Float_t)fNPhi);}
ca8f5bd0	66	const Int_t GetNLayers() const {return fNLayers ;}
ca8f5bd0	67	const Int_t GetNZ() const {return fNZ ;}
e908f07f	68	const Int_t GetNEta() const {return fNZ ;}
ca8f5bd0	69	const Int_t GetNPhi() const {return fNPhi ;}
6119e5db	70	const Int_t GetNTowers() const {return fNPhi * fNZ ;}
e908f07f	71	const Float_t GetPbRadThick(){ // returns Pb radiator thickness in cm.
	72	return fPbRadThickness;
	73	}
	74	const Float_t GetFullSintThick(){ // returns Full tower sintilator
	75	// thickness in cm.
	76	return fFullShowerSintThick;
	77	}
	78	const Float_t GetPreSintThick(){ // returns PreShower tower sintilator
	79	// thickness in cm.
	80	return fPreShowerSintThick;
	81	}
	82	Float_t AngleFromEta(Float_t eta){ // returns angle in radians for a given
	83	// pseudorapidity.
	84	return 2.0*TMath::ATan(TMath::Exp(-eta));
	85	}
	86	Float_t ZFromEtaR(Float_t r,Float_t eta){ // returns z in for a given
	87	// pseudorapidity and r=sqrt(xx+yy).
	88	return r/TMath::Tan(AngleFromEta(eta));
	89	}
da98933e	90	Int_t TowerIndex(Int_t iz,Int_t iphi,Int_t ipre) const; // returns tower index
ca8f5bd0	91	// returns tower indexs iz, iphi.
da98933e	92	void TowerIndexes(Int_t index,Int_t &iz,Int_t &iphi,Int_t &ipre) const;
ca8f5bd0	93	// for a given tower index it returns eta and phi of center of that tower.
da98933e	94	void EtaPhiFromIndex(Int_t index,Float_t &eta,Float_t &phi) const;
6119e5db	95	// returns x, y, and z (cm) on the inner surface of a given EMCAL Cell specified by relid.
6119e5db	96	void XYZFromIndex(const Int_t *relid,Float_t &x,Float_t &y, Float_t &z) const;
ca8f5bd0	97	// for a given eta and phi in the EMCAL it returns the tower index.
da98933e	98	Int_t TowerIndexFromEtaPhi(Float_t eta,Float_t phi) const;
ca8f5bd0	99	// for a given eta and phi in the EMCAL it returns the pretower index.
da98933e	100	Int_t PreTowerIndexFromEtaPhi(Float_t eta,Float_t phi) const;
ca8f5bd0	101	// Returns theta and phi (degree) for a given EMCAL cell indecated by relid
a34b7b9f	102	void PosInAlice(const Int_t *relid,Float_t &theta,Float_t &phi) const ;
ca8f5bd0	103	// Returns an array indicating the Tower/preshower, iz, and iphi for a
ca8f5bd0	104	// specific EMCAL indes.
da98933e	105	Bool_t AbsToRelNumbering(Int_t AbsId, Int_t *relid) const;
ca8f5bd0	106	/*
ca8f5bd0	107	// Returns kTRUE if the two indexs are neighboring towers or preshowers.
da98933e	108	Boot_t AliEMCALGeometry::AreNeighbours(Int_t index1,Int_t index2) const;
ca8f5bd0	109	*/
	110
	111	protected:
	112	AliEMCALGeometry(const Text_t* name, const Text_t* title="") :
e908f07f	113	AliGeometry(name, title) {// ctor only for internal usage (singleton)
e908f07f	114	Init();
ca8f5bd0	115	};
ca8f5bd0	116	void Init(void) ; // initializes the parameters of EMCAL
e908f07f	117
ca8f5bd0	118	private:
	119	static AliEMCALGeometry * fgGeom ; // pointer to the unique instance
	120	// of the singleton
e908f07f	121	static Bool_t fgInit;// Tells if geometry has been succesfully set up.
	122	Float_t fAirGap; // Distance between envelop and active material
	123	Float_t fAlFrontThick; // Thickness of the front Al face of the support box
	124	Float_t fPreShowerSintThick; // Thickness of the sintilator for the
	125	// preshower part of the calorimeter
	126	Float_t fFullShowerSintThick;// Thickness of the sintilaor for the full
	127	// shower part of the calorimeter
	128	Float_t fPbRadThickness; // Thickness of Pb radiators cm.
	129	Float_t fArm1PhiMin; // Minimum angular position of EMCAL in Phi (degrees)
	130	Float_t fArm1PhiMax; // Maximum angular position of EMCAL in Phi (degrees)
	131	Float_t fArm1EtaMin; // Minimum pseudorapidity position of EMCAL in Eta
	132	Float_t fArm1EtaMax; // Maximum pseudorapidity position of EMCAL in Eta
ca8f5bd0	133
ca8f5bd0	134	// It is assumed that Arm1 and Arm2 have the same following parameters
e908f07f	135	Float_t fEnvelop[3]; // the GEANT TUB for the detector
	136	Float_t fIPDistance; // Radial Distance of the inner surface of the EMCAL
	137	Float_t fShellThickness; // Total thickness in (x,y) direction
	138	Float_t fZLength; // Total length in z direction
	139	Float_t fGap2Active; // Gap between the envelop and the active material
	140	Int_t fNLayers; // Number of layers of material in the R direction
	141	Int_t fNZ; // Number of Towers in the Z direction
	142	Int_t fNPhi; //Number of Towers in the Phi Direction
2012850d	143
e908f07f	144	ClassDef(AliEMCALGeometry,3) // EMCAL geometry class
2012850d	145
e908f07f	146	};
2012850d	147
2012850d	148	#endif // AliEMCALGEOMETRY_H