[u/mrichter/AliRoot.git] / TMEVSIM / TMevSimPartTypeParams.h

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

/* $Id$ */

//////////////////////////////////////////////////////////////////////////
//                                                                      //
// TMevSimPartTypeParams                                                //
//                                                                      //
// This class is a helper class for TMevSim interface. It stores        //
// (and writes out on demand) the properties of a single particle       //
// type.                                                                //
//                                                                      //
//////////////////////////////////////////////////////////////////////////

#ifndef ROOT_TObject
#include <TObject.h>
#endif

#include "MevSimCommon.h"

class TMevSimPartTypeParams : public TObject {

 public:
  
   // Constructors and destructors
   
   TMevSimPartTypeParams();
   TMevSimPartTypeParams(Int_t agpid, Int_t amultmean, Int_t amultvc, 
			 Float_t atempmean, Float_t atempstdev, Float_t asigmamean,
			 Float_t asigmastdev, Float_t aexpvelmean, Float_t aexpvelstdev);
   virtual ~TMevSimPartTypeParams();
   
   // Copy and assignment operators;
   
   TMevSimPartTypeParams (const TMevSimPartTypeParams& pars);                    // copy constructor
   virtual TMevSimPartTypeParams& operator=(const TMevSimPartTypeParams& pars);  // assignment operator 
   
   // Parameters of the particle type
   
   virtual void        SetGPid(Int_t gpid);
   virtual Int_t       GetGPid() const;
   
   virtual void        SetMultMean(Int_t multmean);
   virtual Int_t       GetMultMean() const;
   
   virtual void        SetMultVarianceControl(Int_t multvc);
   virtual Int_t       GetMultVarianceControl() const;
   
   virtual void        SetTempParams(Float_t tempmean, Float_t tempstdev);
   virtual Float_t     GetTempMean() const;
   virtual Float_t     GetTempStDev() const;
   
   virtual void        SetSigmaPrams(Float_t sigmamean, Float_t sigmastdev);
   virtual Float_t     GetSigmaMean() const;
   virtual Float_t     GetSigmaStDev() const;
   
   virtual void        SetExpVelParams(Float_t expvelmean, Float_t expvelstdev);
   virtual Float_t     GetExpVelMean() const;
   virtual Float_t     GetExpVelStDev() const;
   
   virtual void        SetVnMeanComponent(Int_t nComponent, Float_t mean1, Float_t mean2, 
					  Float_t mean3, Float_t mean4);
   virtual void        SetVnStDevComponent(Int_t nComponent, Float_t stdev1, Float_t stdev2, 
					   Float_t stdev3, Float_t stdev4);
					   
   virtual void        SetVnMeanComponent (Int_t nComponent, Float_t mean[4]); 
   virtual void        SetVnStDevComponent(Int_t nComponent, Float_t stdev[4]);			   
					   
   virtual Float_t     GetVnMeanComponent(Int_t nComponent, Int_t nMean) const;
   virtual Float_t     GetVnStDevComponent(Int_t nComponent, Int_t nStDev) const;
   

 protected:
  
  Int_t       fGPid;                  //PID 
  Int_t       fMultMean;              //mean multiplicy control   
  Int_t       fMultVarianceControl;   //mean variance 
  Float_t     fTempMean;//Temperature parameter mean (in GeV) (Gaussian distribution assumed) 
  Float_t     fTempStDev;//Temperature parameter standard deviation (in GeV) (Gaussian distribution assumed) 
  Float_t     fSigmaMean;// Rapidity distribution width (sigma) (Gaussian distribution assumed) 
  Float_t     fSigmaStDev;// Rapidity distribution standard deviation  (Gaussian distribution assumed) 
  Float_t     fExpVelMean;// Expansion velocity ala Scott Pratt (in units of c)   mean 
  Float_t     fExpVelStDev;//Expansion velocity ala Scott Pratt (in units of c)  standard deviation 
  Float_t     fVnMean[NFLOWTERMS][4];// Anisotropic flow parameters for Fourier components NFLOWTERMS=1,6 mean 
  Float_t     fVnStDev[NFLOWTERMS][4];//Anisotropic flow parameters for Fourier components NFLOWTERMS=1,6  standard deviation
 
  // GPid : particle ID ala geant3
  // MultMean, MultVarianceControl: mean multiplicy and variance control
  //           MultVarianceControl 0; for no variance in multiplicity
  //           MultVarianceControl 1; to allow Poisson distribution for particle multiplicities 
  // TempMean, TempStDev: Temperature parameter (in GeV)
  //           mean and standard deviation (Gaussian distribution assumed) 
  // SigmaMean, SigmaStDev: Rapidity distribution width (sigma)  
  //           mean and standard deviation (Gaussian distribution assumed) 
  // ExpVelMean, ExpVelStDev: Expansion velocity ala Scott Pratt (in units of c)  
  //           mean and standard deviation (Gaussian distribution assumed) 
  // VnMean VnStDev: Anisotropic flow parameters for Fourier components NFLOWTERMS=1,6
  //                 mean and standard deviation
  //                 include all 6 sets of parameters, set them to 0 if not used                                


   ClassDef(TMevSimPartTypeParams,1)            //Parameters of the type of particle for MevSim event generator

     
};
#endif
Commit	Line	Data
1a2762e8	1	#ifndef ROOT_TMevSimPartTypeParams
	2	#define ROOT_TMevSimPartTypeParams
	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	// //
	10	// TMevSimPartTypeParams //
	11	// //
	12	// This class is a helper class for TMevSim interface. It stores //
	13	// (and writes out on demand) the properties of a single particle //
	14	// type. //
	15	// //
	16	//////////////////////////////////////////////////////////////////////////
	17
1a2762e8	18	#ifndef ROOT_TObject
	19	#include <TObject.h>
	20	#endif
	21
	22	#include "MevSimCommon.h"
	23
	24	class TMevSimPartTypeParams : public TObject {
	25
1a2762e8	26	public:
	27
	28	// Constructors and destructors
	29
	30	TMevSimPartTypeParams();
	31	TMevSimPartTypeParams(Int_t agpid, Int_t amultmean, Int_t amultvc,
	32	Float_t atempmean, Float_t atempstdev, Float_t asigmamean,
	33	Float_t asigmastdev, Float_t aexpvelmean, Float_t aexpvelstdev);
	34	virtual ~TMevSimPartTypeParams();
	35
	36	// Copy and assignment operators;
	37
	38	TMevSimPartTypeParams (const TMevSimPartTypeParams& pars); // copy constructor
	39	virtual TMevSimPartTypeParams& operator=(const TMevSimPartTypeParams& pars); // assignment operator
	40
	41	// Parameters of the particle type
	42
	43	virtual void SetGPid(Int_t gpid);
	44	virtual Int_t GetGPid() const;
	45
	46	virtual void SetMultMean(Int_t multmean);
	47	virtual Int_t GetMultMean() const;
	48
	49	virtual void SetMultVarianceControl(Int_t multvc);
	50	virtual Int_t GetMultVarianceControl() const;
	51
	52	virtual void SetTempParams(Float_t tempmean, Float_t tempstdev);
	53	virtual Float_t GetTempMean() const;
	54	virtual Float_t GetTempStDev() const;
	55
	56	virtual void SetSigmaPrams(Float_t sigmamean, Float_t sigmastdev);
	57	virtual Float_t GetSigmaMean() const;
	58	virtual Float_t GetSigmaStDev() const;
	59
	60	virtual void SetExpVelParams(Float_t expvelmean, Float_t expvelstdev);
	61	virtual Float_t GetExpVelMean() const;
	62	virtual Float_t GetExpVelStDev() const;
	63
	64	virtual void SetVnMeanComponent(Int_t nComponent, Float_t mean1, Float_t mean2,
	65	Float_t mean3, Float_t mean4);
	66	virtual void SetVnStDevComponent(Int_t nComponent, Float_t stdev1, Float_t stdev2,
	67	Float_t stdev3, Float_t stdev4);
	68
	69	virtual void SetVnMeanComponent (Int_t nComponent, Float_t mean[4]);
	70	virtual void SetVnStDevComponent(Int_t nComponent, Float_t stdev[4]);
	71
	72	virtual Float_t GetVnMeanComponent(Int_t nComponent, Int_t nMean) const;
	73	virtual Float_t GetVnStDevComponent(Int_t nComponent, Int_t nStDev) const;
	74
	75
26d0099f	76	protected:
	77
	78	Int_t fGPid; //PID
	79	Int_t fMultMean; //mean multiplicy control
	80	Int_t fMultVarianceControl; //mean variance
	81	Float_t fTempMean;//Temperature parameter mean (in GeV) (Gaussian distribution assumed)
	82	Float_t fTempStDev;//Temperature parameter standard deviation (in GeV) (Gaussian distribution assumed)
	83	Float_t fSigmaMean;// Rapidity distribution width (sigma) (Gaussian distribution assumed)
	84	Float_t fSigmaStDev;// Rapidity distribution standard deviation (Gaussian distribution assumed)
	85	Float_t fExpVelMean;// Expansion velocity ala Scott Pratt (in units of c) mean
	86	Float_t fExpVelStDev;//Expansion velocity ala Scott Pratt (in units of c) standard deviation
	87	Float_t fVnMean[NFLOWTERMS][4];// Anisotropic flow parameters for Fourier components NFLOWTERMS=1,6 mean
	88	Float_t fVnStDev[NFLOWTERMS][4];//Anisotropic flow parameters for Fourier components NFLOWTERMS=1,6 standard deviation
	89
	90	// GPid : particle ID ala geant3
	91	// MultMean, MultVarianceControl: mean multiplicy and variance control
	92	// MultVarianceControl 0; for no variance in multiplicity
	93	// MultVarianceControl 1; to allow Poisson distribution for particle multiplicities
	94	// TempMean, TempStDev: Temperature parameter (in GeV)
	95	// mean and standard deviation (Gaussian distribution assumed)
	96	// SigmaMean, SigmaStDev: Rapidity distribution width (sigma)
	97	// mean and standard deviation (Gaussian distribution assumed)
	98	// ExpVelMean, ExpVelStDev: Expansion velocity ala Scott Pratt (in units of c)
	99	// mean and standard deviation (Gaussian distribution assumed)
	100	// VnMean VnStDev: Anisotropic flow parameters for Fourier components NFLOWTERMS=1,6
	101	// mean and standard deviation
	102	// include all 6 sets of parameters, set them to 0 if not used
	103
	104
1a2762e8	105	ClassDef(TMevSimPartTypeParams,1) //Parameters of the type of particle for MevSim event generator
	106
	107
	108	};
	109	#endif
	110
	111
	112
	113
	114
	115
	116
	117
	118
	119
	120
	121