[u/mrichter/AliRoot.git] / PHOS / AliPHOSv1.h

#ifndef ALIPHOSV1_H
#define ALIPHOSV1_H
/* Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. *
 * See cxx source for full Copyright notice                               */

/* $Id$ */

/* History of cvs commits:
 *
 * $Log$
 */

//_________________________________________________________________________
// Implementation version v1 of PHOS Manager class 
// Layout EMC + CPV  has name IHEP
//*--                  
//*-- Author: Yves Schutz (SUBATECH)

// --- ROOT system ---
class TClonesArray ;
class TLorentzVector ;
class TFile;

// --- AliRoot header files ---
#include "AliPHOSv0.h"

class AliPHOSv1 : public AliPHOSv0 {

public:

  AliPHOSv1(void) ;
  AliPHOSv1(const char *name, const char *title="") ;
  AliPHOSv1(AliPHOSv1 & phos) : AliPHOSv0(phos) {
    phos.Copy(*this) ; 
  }
  virtual ~AliPHOSv1(void) ;

  virtual void   Copy(TObject &phos) const; 

  using AliPHOSv0::AddHit;
  virtual void   AddHit( Int_t shunt, Int_t primary, Int_t id, Float_t *hits) ; 
  virtual void   FinishEvent() ;
  virtual void   FinishPrimary() ;
  virtual Int_t  IsVersion(void) const {
    // Gives the version number 
    return 1 ; 
  }

  virtual void   StepManager(void) ;                              
  virtual const TString Version(void)const { return TString("v1") ;  }

  AliPHOSv1 & operator = (const AliPHOSv1 & /*rvalue*/)  {
    // assignement operator requested by coding convention but not needed
    Fatal("operator =", "not implemented") ;
    return *this ; 
  }

  void       CPVDigitize (TLorentzVector p, Float_t *xy, TClonesArray *digits) ;
  Float_t    CPVPadResponseFunction(Float_t qhit, Float_t zg, Float_t xg) ;
  Double_t   CPVCumulPadResponse(Double_t x, Double_t y) ;

  //Variables conserning light yeild and APD efficiency
  Float_t GetLightYieldMean()         const { return  fLightYieldMean ;}
  Float_t GetLightYieldAttenuation()  const { return  fLightYieldAttenuation ;}
  Float_t GetRecalibrationFactor()    const { return  fRecalibrationFactor ;}
  Float_t GetAPDGain()                const { return  fAPDGain ;}
  Float_t GetIntrinsicPINEfficiency() const { return  fIntrinsicPINEfficiency ;}
  Float_t GetElectronsPerGeV()        const { return  fElectronsPerGeV ;}

  void    SetLightYieldMean(Float_t LightYieldMean) 
                                   {fLightYieldMean = LightYieldMean;}
  void    SetLightYieldAttenuation(Float_t LightYieldAttenuation)
                                   {fLightYieldAttenuation = LightYieldAttenuation;}
  void    SetIntrinsicPINEfficiency(Float_t IntrinsicPINEfficiency) 
                                   {fIntrinsicPINEfficiency = IntrinsicPINEfficiency;}
  void    SetRecalibrationFactor(Float_t RecalibrationFactor) 
                                   {fRecalibrationFactor = RecalibrationFactor;}
  void    SetElectronsPerGeV(Float_t ElectronsPerGeV) 
                                   {fElectronsPerGeV = ElectronsPerGeV;}
  void    SetAPDGain(Float_t APDGain)   {fAPDGain = APDGain;}

protected:

  Float_t fLightYieldMean ;         // Mean lightyield in the PbOW4 xtal per GeV (Poisson distribution)
  Float_t fIntrinsicPINEfficiency ; // Photo efficiency of the PIN diode   
  Float_t fLightYieldAttenuation ;  // Attenuation of the light through the crystal
  Float_t fRecalibrationFactor ;    // Recalibration factor
  Float_t fElectronsPerGeV ;        // Number of electrons per GeV created in the PIN by a ionizing particle
  Float_t fAPDGain ;                // APD Gain
  Float_t fLightFactor ;            //! a calculated factor
  Float_t fAPDFactor ;              //! a calculated factor

  ClassDef(AliPHOSv1,2)  // Implementation of PHOS manager class for layout EMC+PPSD

};

#endif // AliPHOSV1_H
Commit	Line	Data
7587f5a5	1	#ifndef ALIPHOSV1_H
7587f5a5	2	#define ALIPHOSV1_H
5f20d3fb	3	/* Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. *
7587f5a5	4	* See cxx source for full Copyright notice */
5f20d3fb	5
702ab87e	6	/* $Id$ */
	7
	8	/* History of cvs commits:
	9	*
	10	* $Log$
	11	*/
	12
b2a60966	13	//_________________________________________________________________________
5f20d3fb	14	// Implementation version v1 of PHOS Manager class
a3dfe79c	15	// Layout EMC + CPV has name IHEP
a3dfe79c	16	//*--
5f20d3fb	17	//*-- Author: Yves Schutz (SUBATECH)
7587f5a5	18
7587f5a5	19	// --- ROOT system ---
13add4de	20	class TClonesArray ;
13add4de	21	class TLorentzVector ;
2ab0c725	22	class TFile;
2ab0c725	23
7587f5a5	24	// --- AliRoot header files ---
7587f5a5	25	#include "AliPHOSv0.h"
7587f5a5	26
	27	class AliPHOSv1 : public AliPHOSv0 {
	28
	29	public:
	30
bea63bea	31	AliPHOSv1(void) ;
7587f5a5	32	AliPHOSv1(const char name, const char title="") ;
780fda6d	33	AliPHOSv1(AliPHOSv1 & phos) : AliPHOSv0(phos) {
780fda6d	34	phos.Copy(*this) ;
5f20d3fb	35	}
bea63bea	36	virtual ~AliPHOSv1(void) ;
bea63bea	37
702ab87e	38	virtual void Copy(TObject &phos) const;
	39
	40	using AliPHOSv0::AddHit;
2af5445a	41	virtual void AddHit( Int_t shunt, Int_t primary, Int_t id, Float_t *hits) ;
7b326aac	42	virtual void FinishEvent() ;
	43	virtual void FinishPrimary() ;
	44	virtual Int_t IsVersion(void) const {
037cc66d	45	// Gives the version number
	46	return 1 ;
	47	}
	48
0a6d52e3	49	virtual void StepManager(void) ;
bd46a237	50	virtual const TString Version(void)const { return TString("v1") ; }
5f20d3fb	51
8c140292	52	AliPHOSv1 & operator = (const AliPHOSv1 & /rvalue/) {
a3dfe79c	53	// assignement operator requested by coding convention but not needed
f1611b7c	54	Fatal("operator =", "not implemented") ;
5f20d3fb	55	return *this ;
5f20d3fb	56	}
bea63bea	57
90cceaf6	58	void CPVDigitize (TLorentzVector p, Float_t xy, TClonesArray digits) ;
fa412d9b	59	Float_t CPVPadResponseFunction(Float_t qhit, Float_t zg, Float_t xg) ;
	60	Double_t CPVCumulPadResponse(Double_t x, Double_t y) ;
	61
9688c1dd	62	//Variables conserning light yeild and APD efficiency
	63	Float_t GetLightYieldMean() const { return fLightYieldMean ;}
	64	Float_t GetLightYieldAttenuation() const { return fLightYieldAttenuation ;}
	65	Float_t GetRecalibrationFactor() const { return fRecalibrationFactor ;}
	66	Float_t GetAPDGain() const { return fAPDGain ;}
	67	Float_t GetIntrinsicPINEfficiency() const { return fIntrinsicPINEfficiency ;}
	68	Float_t GetElectronsPerGeV() const { return fElectronsPerGeV ;}
	69
	70	void SetLightYieldMean(Float_t LightYieldMean)
	71	{fLightYieldMean = LightYieldMean;}
	72	void SetLightYieldAttenuation(Float_t LightYieldAttenuation)
	73	{fLightYieldAttenuation = LightYieldAttenuation;}
	74	void SetIntrinsicPINEfficiency(Float_t IntrinsicPINEfficiency)
	75	{fIntrinsicPINEfficiency = IntrinsicPINEfficiency;}
	76	void SetRecalibrationFactor(Float_t RecalibrationFactor)
	77	{fRecalibrationFactor = RecalibrationFactor;}
	78	void SetElectronsPerGeV(Float_t ElectronsPerGeV)
	79	{fElectronsPerGeV = ElectronsPerGeV;}
	80	void SetAPDGain(Float_t APDGain) {fAPDGain = APDGain;}
	81
bea63bea	82	protected:
bea63bea	83
9688c1dd	84	Float_t fLightYieldMean ; // Mean lightyield in the PbOW4 xtal per GeV (Poisson distribution)
	85	Float_t fIntrinsicPINEfficiency ; // Photo efficiency of the PIN diode
	86	Float_t fLightYieldAttenuation ; // Attenuation of the light through the crystal
	87	Float_t fRecalibrationFactor ; // Recalibration factor
	88	Float_t fElectronsPerGeV ; // Number of electrons per GeV created in the PIN by a ionizing particle
	89	Float_t fAPDGain ; // APD Gain
27f33ee5	90	Float_t fLightFactor ; //! a calculated factor
27f33ee5	91	Float_t fAPDFactor ; //! a calculated factor
fa412d9b	92
184569b0	93	ClassDef(AliPHOSv1,2) // Implementation of PHOS manager class for layout EMC+PPSD
7587f5a5	94
	95	};
	96
	97	#endif // AliPHOSV1_H