[u/mrichter/AliRoot.git] / ITS / AliITSresponseSSD.h

#ifndef ALIITSRESPONSESSD_H
#define ALIITSRESPONSESSD_H
 
#include "AliITSresponse.h"

class TString;

// response for SSD

//-----------------------------
class AliITSresponseSSD : public AliITSresponse {

 public:
    AliITSresponseSSD();
    AliITSresponseSSD(const char *dataType);
    virtual ~AliITSresponseSSD();
    AliITSresponseSSD(const AliITSresponseSSD &source); // copy constructor
    AliITSresponseSSD& operator=(const AliITSresponseSSD &source); // ass. op.

    virtual void    SetDiffCoeff(Float_t p1=0.,Float_t dummy=0.) {
	// Diffusion coefficient
	fDiffCoeff=p1;
    }
    virtual void    DiffCoeff(Float_t &diffc,Float_t &dummy) {
	// Get diffusion coefficient
	diffc= fDiffCoeff;
    }

    virtual  void   SetNoiseParam(Float_t np=420., Float_t nn=625.) {
	// set noise par
	fNoiseP=np; fNoiseN=nn;
    }
    virtual void    GetNoiseParam(Float_t &np, Float_t &nn) {
	// get noise par
	np=fNoiseP; nn=fNoiseN;
    }

    virtual void    SetParamOptions(const char *opt1="", const char *opt2="") {
	// parameters: "SetInvalid" to simulate the invalid strips
	fOption1=opt1; fOption2=opt2;
    }
    virtual void    ParamOptions(char *opt1,char *opt2) {
	// options
	strcpy(opt1,fOption1.Data());  strcpy(opt2,fOption2.Data());
    }

    // Number of parameters to be set
    // 4 couplings, mean number of invalid strips, RMS of invalid strips
    virtual  void   SetNDetParam(Int_t npar=6) {
	// set number of param
	fNPar=npar;
    }

    virtual  void   SetDetParam(Float_t *par);

    // Parameters options
    virtual Int_t   NDetParam() {
	// number of param
	return fNPar;
    }
    virtual void    GetDetParam(Float_t *dpar); 

    virtual void    SetDataType(const char *data="simulated") {
	// Type of data - real or simulated
	fDataType=data;
    }
    virtual const char  *DataType() const {
	// Get data type
	return fDataType.Data();
    }

    virtual void    SetSigmaSpread(Float_t p1=3., Float_t p2=2.) {
	// Set sigmas of the charge spread function: Pside-Nside
	// square of (microns)
	fSigmaP=p1; fSigmaN=p2;
    }
    virtual void    SigmaSpread(Float_t &sP, Float_t &sN) {
	// Get sigmas for the charge spread 
	sP=fSigmaP; sN=fSigmaN;
    }
    virtual void SetADCpereV(Float_t a=50./30000.0){ // Sets electron-hole
	// pairs to ADC value conversion factor are rather arbitrary
	// (need tuning) minimum ionizing particle--> ~30000 pairs--> ADC
	// channel 50
	fADCpereV = a;
    }
    virtual Double_t DEvToADC(Double_t eV){ // Converts electron-hole pairs to
	// ADC value conversion factor are rather arbitrary (need tuning)
	// minimum ionizing particle--> ~30000 pairs--> ADC channel 50
	return eV*fADCpereV;
    }
    virtual Int_t IEvToADC(Double_t eV){ // Converts electron-hole pairs to
	// ADC value
	return ((Int_t) DEvToADC(eV));
    }
  
 protected:
    Int_t   fNPar;            // Number of detector param 
    Float_t *fDetPar;         //[fNPar] Array of parameters

    Float_t fNoiseP;          // Noise on Pside
    Float_t fNoiseN;          // Noise on Nside

    Float_t fSigmaP;          // Sigma charge spread on Pside
    Float_t fSigmaN;          // Sigma charge spread on Nside
    Float_t fDiffCoeff;       // Diffusion Coefficient

    Float_t fADCpereV;        // Constant to convert eV to ADC.

    TString fOption1;         // Simulate invalid strips option
    TString fOption2;         // Not used for the moment
    TString fDataType;       // Type of data - real or simulated

    ClassDef(AliITSresponseSSD,1) //Response class for SSD
};
#endif
Commit	Line	Data
b0f5e3fc	1	#ifndef ALIITSRESPONSESSD_H
	2	#define ALIITSRESPONSESSD_H
	3
	4	#include "AliITSresponse.h"
	5
1ca7869b	6	class TString;
1ca7869b	7
b0f5e3fc	8	// response for SSD
	9
	10	//-----------------------------
6a407881	11	class AliITSresponseSSD : public AliITSresponse {
	12
	13	public:
	14	AliITSresponseSSD();
9de0700b	15	AliITSresponseSSD(const char *dataType);
6a407881	16	virtual ~AliITSresponseSSD();
	17	AliITSresponseSSD(const AliITSresponseSSD &source); // copy constructor
	18	AliITSresponseSSD& operator=(const AliITSresponseSSD &source); // ass. op.
	19
	20	virtual void SetDiffCoeff(Float_t p1=0.,Float_t dummy=0.) {
	21	// Diffusion coefficient
	22	fDiffCoeff=p1;
	23	}
	24	virtual void DiffCoeff(Float_t &diffc,Float_t &dummy) {
	25	// Get diffusion coefficient
	26	diffc= fDiffCoeff;
	27	}
	28
	29	virtual void SetNoiseParam(Float_t np=420., Float_t nn=625.) {
	30	// set noise par
	31	fNoiseP=np; fNoiseN=nn;
	32	}
	33	virtual void GetNoiseParam(Float_t &np, Float_t &nn) {
	34	// get noise par
	35	np=fNoiseP; nn=fNoiseN;
	36	}
	37
	38	virtual void SetParamOptions(const char opt1="", const char opt2="") {
	39	// parameters: "SetInvalid" to simulate the invalid strips
	40	fOption1=opt1; fOption2=opt2;
	41	}
	42	virtual void ParamOptions(char opt1,char opt2) {
	43	// options
	44	strcpy(opt1,fOption1.Data()); strcpy(opt2,fOption2.Data());
	45	}
	46
	47	// Number of parameters to be set
	48	// 4 couplings, mean number of invalid strips, RMS of invalid strips
	49	virtual void SetNDetParam(Int_t npar=6) {
	50	// set number of param
	51	fNPar=npar;
	52	}
	53
	54	virtual void SetDetParam(Float_t *par);
	55
	56	// Parameters options
	57	virtual Int_t NDetParam() {
	58	// number of param
	59	return fNPar;
	60	}
	61	virtual void GetDetParam(Float_t *dpar);
	62
	63	virtual void SetDataType(const char *data="simulated") {
	64	// Type of data - real or simulated
	65	fDataType=data;
	66	}
	67	virtual const char *DataType() const {
	68	// Get data type
	69	return fDataType.Data();
	70	}
	71
	72	virtual void SetSigmaSpread(Float_t p1=3., Float_t p2=2.) {
	73	// Set sigmas of the charge spread function: Pside-Nside
	74	// square of (microns)
	75	fSigmaP=p1; fSigmaN=p2;
	76	}
	77	virtual void SigmaSpread(Float_t &sP, Float_t &sN) {
	78	// Get sigmas for the charge spread
	79	sP=fSigmaP; sN=fSigmaN;
80	}
2aea926d	81	virtual void SetADCpereV(Float_t a=50./30000.0){ // Sets electron-hole
	82	// pairs to ADC value conversion factor are rather arbitrary
	83	// (need tuning) minimum ionizing particle--> ~30000 pairs--> ADC
	84	// channel 50
6a407881	85	fADCpereV = a;
6a407881	86	}
2aea926d	87	virtual Double_t DEvToADC(Double_t eV){ // Converts electron-hole pairs to
2aea926d	88	// ADC value conversion factor are rather arbitrary (need tuning)
6a407881	89	// minimum ionizing particle--> ~30000 pairs--> ADC channel 50
	90	return eV*fADCpereV;
	91	}
2aea926d	92	virtual Int_t IEvToADC(Double_t eV){ // Converts electron-hole pairs to
2aea926d	93	// ADC value
6a407881	94	return ((Int_t) DEvToADC(eV));
6a407881	95	}
b0f5e3fc	96
6a407881	97	protected:
	98	Int_t fNPar; // Number of detector param
	99	Float_t *fDetPar; //[fNPar] Array of parameters
	100
	101	Float_t fNoiseP; // Noise on Pside
	102	Float_t fNoiseN; // Noise on Nside
b0f5e3fc	103
6a407881	104	Float_t fSigmaP; // Sigma charge spread on Pside
	105	Float_t fSigmaN; // Sigma charge spread on Nside
	106	Float_t fDiffCoeff; // Diffusion Coefficient
b0f5e3fc	107
6a407881	108	Float_t fADCpereV; // Constant to convert eV to ADC.
b0f5e3fc	109
6a407881	110	TString fOption1; // Simulate invalid strips option
	111	TString fOption2; // Not used for the moment
	112	TString fDataType; // Type of data - real or simulated
b0f5e3fc	113
6a407881	114	ClassDef(AliITSresponseSSD,1) //Response class for SSD
6a407881	115	};
b0f5e3fc	116	#endif