[u/mrichter/AliRoot.git] / RICH / AliRICHResponseV0.h

#ifndef ALIRICHRESPONSEV0_H
#define ALIRICHRESPONSEV0_H


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

/* $Id$ */


#include "AliRICHResponse.h"
class AliSegmentation;


class AliRICHResponseV0 : //Mathieson response
public AliRICHResponse {
 public:
    AliRICHResponseV0(){}
    virtual ~AliRICHResponseV0(){}
    //
    // Configuration methods
    // 
    // Number of sigmas over which cluster didintegration is performed
    virtual void    SetSigmaIntegration(Float_t p1) {fSigmaIntegration=p1;}
    virtual Float_t SigmaIntegration() {return fSigmaIntegration;}    
    // charge slope in ADC/e
    virtual void    SetChargeSlope(Float_t p1) {fChargeSlope=p1;}
    virtual Float_t ChargeSlope()      {return fChargeSlope;}
    // sigma of the charge spread function
    virtual void    SetChargeSpread(Float_t p1, Float_t p2)
	{fChargeSpreadX=p1; fChargeSpreadY=p2;}
    virtual Float_t ChargeSpreadX()    {return fChargeSpreadX;}    
    virtual Float_t ChargeSpreadY()    {return fChargeSpreadY;}        
    // Adc-count saturation value
    virtual void    SetMaxAdc(Float_t p1) {fMaxAdc=p1;}
    virtual Float_t MaxAdc()           {return fMaxAdc;}
    // anode cathode Pitch
    virtual Float_t Pitch()            {return fPitch;}
    virtual void    SetPitch(Float_t p1) {fPitch=p1;};
    // alpha feedback
    virtual void    SetAlphaFeedback(Float_t alpha) {fAlphaFeedback=alpha;}
    virtual Float_t AlphaFeedback()  {return fAlphaFeedback;}
    // ionisation enrgy
    virtual void    SetEIonisation(Float_t e) {fEIonisation=e;}
    virtual Float_t EIonisation() {return fEIonisation;}                            
    // Mathieson parameters
    virtual void   SetSqrtKx3(Float_t p1) {fSqrtKx3=p1;};
    virtual void   SetKx2(Float_t p1) {fKx2=p1;};
    virtual void   SetKx4(Float_t p1) {fKx4=p1;};
    virtual void   SetSqrtKy3(Float_t p1) {fSqrtKy3=p1;};
    virtual void   SetKy2(Float_t p1) {fKy2=p1;};
    virtual void   SetKy4(Float_t p1) {fKy4=p1;};
    //  
    // Chamber response methods
    // Pulse height from scored quantity (eloss)
    virtual Float_t IntPH(Float_t eloss);
    virtual Float_t IntPH();
    // Charge disintegration
    virtual Float_t IntXY(AliSegmentation * segmentation);
    virtual Int_t   FeedBackPhotons(Float_t *source, Float_t qtot);
	protected:
    Float_t fChargeSlope;              // Slope of the charge distribution
    Float_t fChargeSpreadX;            // Width of the charge distribution in x
    Float_t fChargeSpreadY;            // Width of the charge distribution in y
    Float_t fSigmaIntegration;         // Number of sigma's used for charge distribution
    Float_t fAlphaFeedback;            // Feedback photons coefficient
    Float_t fEIonisation;              // Mean ionisation energy
    Float_t fMaxAdc;                   // Maximum ADC channel
    Float_t fSqrtKx3;         // Mathieson parameters for x
    Float_t fKx2;             // Mathieson parameters for x
    Float_t fKx4;             // Mathieson parameters for x
    Float_t fSqrtKy3;         // Mathieson parameters for y
    Float_t fKy2;             // Mathieson parameters for y 
    Float_t fKy4;             // Mathieson parameters for y
    Float_t fPitch;           //anode-cathode pitch
    ClassDef(AliRICHResponseV0,1)
};
#endif
Commit	Line	Data
237c933d	1	#ifndef ALIRICHRESPONSEV0_H
	2	#define ALIRICHRESPONSEV0_H
	3
	4
	5	/* Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. *
	6	* See cxx source for full Copyright notice */
	7
	8	/* $Id$ */
	9
	10
	11	#include "AliRICHResponse.h"
a2f7eaf6	12	class AliSegmentation;
a2f7eaf6	13
237c933d	14
	15	class AliRICHResponseV0 : //Mathieson response
	16	public AliRICHResponse {
	17	public:
	18	AliRICHResponseV0(){}
	19	virtual ~AliRICHResponseV0(){}
	20	//
	21	// Configuration methods
	22	//
	23	// Number of sigmas over which cluster didintegration is performed
	24	virtual void SetSigmaIntegration(Float_t p1) {fSigmaIntegration=p1;}
	25	virtual Float_t SigmaIntegration() {return fSigmaIntegration;}
	26	// charge slope in ADC/e
	27	virtual void SetChargeSlope(Float_t p1) {fChargeSlope=p1;}
	28	virtual Float_t ChargeSlope() {return fChargeSlope;}
	29	// sigma of the charge spread function
	30	virtual void SetChargeSpread(Float_t p1, Float_t p2)
	31	{fChargeSpreadX=p1; fChargeSpreadY=p2;}
	32	virtual Float_t ChargeSpreadX() {return fChargeSpreadX;}
	33	virtual Float_t ChargeSpreadY() {return fChargeSpreadY;}
	34	// Adc-count saturation value
	35	virtual void SetMaxAdc(Float_t p1) {fMaxAdc=p1;}
	36	virtual Float_t MaxAdc() {return fMaxAdc;}
	37	// anode cathode Pitch
	38	virtual Float_t Pitch() {return fPitch;}
	39	virtual void SetPitch(Float_t p1) {fPitch=p1;};
	40	// alpha feedback
	41	virtual void SetAlphaFeedback(Float_t alpha) {fAlphaFeedback=alpha;}
	42	virtual Float_t AlphaFeedback() {return fAlphaFeedback;}
	43	// ionisation enrgy
	44	virtual void SetEIonisation(Float_t e) {fEIonisation=e;}
	45	virtual Float_t EIonisation() {return fEIonisation;}
	46	// Mathieson parameters
	47	virtual void SetSqrtKx3(Float_t p1) {fSqrtKx3=p1;};
	48	virtual void SetKx2(Float_t p1) {fKx2=p1;};
	49	virtual void SetKx4(Float_t p1) {fKx4=p1;};
	50	virtual void SetSqrtKy3(Float_t p1) {fSqrtKy3=p1;};
	51	virtual void SetKy2(Float_t p1) {fKy2=p1;};
	52	virtual void SetKy4(Float_t p1) {fKy4=p1;};
	53	//
	54	// Chamber response methods
	55	// Pulse height from scored quantity (eloss)
	56	virtual Float_t IntPH(Float_t eloss);
	57	virtual Float_t IntPH();
	58	// Charge disintegration
a2f7eaf6	59	virtual Float_t IntXY(AliSegmentation * segmentation);
237c933d	60	virtual Int_t FeedBackPhotons(Float_t *source, Float_t qtot);
	61	protected:
	62	Float_t fChargeSlope; // Slope of the charge distribution
	63	Float_t fChargeSpreadX; // Width of the charge distribution in x
	64	Float_t fChargeSpreadY; // Width of the charge distribution in y
	65	Float_t fSigmaIntegration; // Number of sigma's used for charge distribution
	66	Float_t fAlphaFeedback; // Feedback photons coefficient
	67	Float_t fEIonisation; // Mean ionisation energy
	68	Float_t fMaxAdc; // Maximum ADC channel
	69	Float_t fSqrtKx3; // Mathieson parameters for x
	70	Float_t fKx2; // Mathieson parameters for x
	71	Float_t fKx4; // Mathieson parameters for x
	72	Float_t fSqrtKy3; // Mathieson parameters for y
	73	Float_t fKy2; // Mathieson parameters for y
	74	Float_t fKy4; // Mathieson parameters for y
	75	Float_t fPitch; //anode-cathode pitch
	76	ClassDef(AliRICHResponseV0,1)
	77	};
	78	#endif