[u/mrichter/AliRoot.git] / STEER / AliGenerator.h

#ifndef ALIGENERATOR_H
#define ALIGENERATOR_H
///////////////////////////////////////////////////////////
//                                                       //
//  Class to generate the particles for the MC           //
//  The base class is empty                              //
//                                                       //
///////////////////////////////////////////////////////////

#include "TLorentzVector.h"
#include "TArrayF.h"
#include "TGenerator.h"

typedef enum { none, perEvent, perTrack } VertexSmear_t;

class AliGenerator : public TNamed
{

protected:
    static TGenerator* fgMCEvGen;
    Float_t     fThetaMin;     //Minimum theta of generation in radians
    Float_t     fThetaMax;     //Maximum theta of generation in radians
    Float_t     fPhiMin;       //Minimum phi of generation in radians
    Float_t     fPhiMax;       //Maximum phi of generation in radians
    Float_t     fPMin;         //Minimum momentum of generation in GeV/c
    Float_t     fPMax;         //Minimum momentum of generation in GeV/c
    Float_t     fPtMin;        //Minimum transverse momentum
    Float_t     fPtMax;        //Maximum transverse momentum
    Float_t     fYMin;         //Minimum rapidity
    Float_t     fYMax;         //Maximum rapidity
    TArrayF     fVMin;         //Minimum Decaylength
    TArrayF     fVMax;         //Minimum Decaylength    
    Int_t       fNpart;        //Maximum number of particles per event
    Float_t     fParentWeight; //Parent Weight
    Float_t     fChildWeight;  //ChildWeight
    Int_t       fTrackit;      // Track the generated final state particle if 1
    Int_t       fAnalog;       //Flaf for anolog or pt-weighted generation
   //
    VertexSmear_t     fVertexSmear; //Vertex Smearing mode
    Int_t       fTrackIt;    // if 1 Track final state particles 
    TArrayF     fOrigin;     //Origin of event
    TArrayF     fOsigma;     //Sigma of the Origin of event

 public:
    AliGenerator();
    AliGenerator(Int_t npart);
    virtual ~AliGenerator();
    virtual void Init();
    virtual void SetOrigin(Float_t ox, Float_t oy, Float_t oz)
	{fOrigin[0]=ox;fOrigin[1]=oy;fOrigin[2]=oz;}
    virtual void SetOrigin(const TLorentzVector &o)
	{fOrigin[0]=o[0];fOrigin[1]=o[1];fOrigin[2]=o[2];}
    virtual void SetSigma(Float_t sx, Float_t sy, Float_t sz)
	{fOsigma[0]=sx;fOsigma[1]=sy;fOsigma[2]=sz;}
    virtual void SetMomentumRange(Float_t pmin=0, Float_t pmax=1.e10)
	{fPMin = pmin; fPMax = pmax;}
    virtual void SetPtRange(Float_t ptmin=0, Float_t ptmax=20.)
	{fPtMin = ptmin; fPtMax = ptmax;}
    virtual void SetPhiRange(Float_t phimin=-180., Float_t phimax=180)
	{fPhiMin = TMath::Pi()*phimin/180;
	fPhiMax = TMath::Pi()*phimax/180;}
    virtual void SetYRange(Float_t ymin=-100, Float_t ymax=100)
	{fYMin=ymin; fYMax=ymax;}
    virtual void SetVRange(Float_t vxmin, Float_t vxmax,
			   Float_t vymin, Float_t vymax,
			   Float_t vzmin, Float_t vzmax)
	{
	    fVMin[0]=vxmin; fVMin[1]=vymin; fVMin[2]=vzmin;
	    fVMax[0]=vxmax; fVMax[1]=vymax; fVMax[2]=vzmax;
	}
    virtual void SetNumberParticles(Int_t npart=100) {fNpart=npart;}
    virtual Int_t NumberParticles() {return fNpart;}
    virtual void SetThetaRange(Float_t thetamin=0, Float_t thetamax=180)
	{fThetaMin = TMath::Pi()*thetamin/180;
	fThetaMax = TMath::Pi()*thetamax/180;}
    virtual void Generate()=0;
    virtual void SetParentWeight(Float_t wgt) {fParentWeight=wgt;}
    virtual void SetChildWeight(Float_t wgt)  {fChildWeight=wgt;}    
    virtual void SetAnalog(Int_t flag=1) {fAnalog=flag;}	
    virtual void SetVertexSmear(VertexSmear_t smear) {fVertexSmear = smear;}
    virtual void SetTrackingFlag(Int_t flag=1) {fTrackIt=flag;}
 	    
    virtual void SetMC(TGenerator *theMC) 
	{if (!fgMCEvGen) fgMCEvGen =theMC;}

  // Getters

    virtual void GetOrigin(Float_t &ox, Float_t &oy, Float_t &oz)
	{ox=fOrigin[0];oy=fOrigin[1];oz=fOrigin[2];}
    virtual void GetOrigin(TLorentzVector &o)
	{o[0]=fOrigin[0];o[1]=fOrigin[1];o[2]=fOrigin[2];o[3]=0;}

    ClassDef(AliGenerator,1)
};

#endif
Commit	Line	Data
fe4da5cc	1	#ifndef ALIGENERATOR_H
	2	#define ALIGENERATOR_H
	3	///////////////////////////////////////////////////////////
	4	// //
	5	// Class to generate the particles for the MC //
	6	// The base class is empty //
	7	// //
	8	///////////////////////////////////////////////////////////
	9
c9001868	10	#include "TLorentzVector.h"
fe4da5cc	11	#include "TArrayF.h"
	12	#include "TGenerator.h"
	13
	14	typedef enum { none, perEvent, perTrack } VertexSmear_t;
	15
	16	class AliGenerator : public TNamed
	17	{
	18
	19	protected:
	20	static TGenerator* fgMCEvGen;
	21	Float_t fThetaMin; //Minimum theta of generation in radians
	22	Float_t fThetaMax; //Maximum theta of generation in radians
	23	Float_t fPhiMin; //Minimum phi of generation in radians
	24	Float_t fPhiMax; //Maximum phi of generation in radians
	25	Float_t fPMin; //Minimum momentum of generation in GeV/c
	26	Float_t fPMax; //Minimum momentum of generation in GeV/c
	27	Float_t fPtMin; //Minimum transverse momentum
	28	Float_t fPtMax; //Maximum transverse momentum
	29	Float_t fYMin; //Minimum rapidity
	30	Float_t fYMax; //Maximum rapidity
	31	TArrayF fVMin; //Minimum Decaylength
	32	TArrayF fVMax; //Minimum Decaylength
	33	Int_t fNpart; //Maximum number of particles per event
	34	Float_t fParentWeight; //Parent Weight
	35	Float_t fChildWeight; //ChildWeight
4a3ba9d2	36	Int_t fTrackit; // Track the generated final state particle if 1
fe4da5cc	37	Int_t fAnalog; //Flaf for anolog or pt-weighted generation
	38	//
	39	VertexSmear_t fVertexSmear; //Vertex Smearing mode
4a3ba9d2	40	Int_t fTrackIt; // if 1 Track final state particles
fe4da5cc	41	TArrayF fOrigin; //Origin of event
	42	TArrayF fOsigma; //Sigma of the Origin of event
	43
	44	public:
	45	AliGenerator();
	46	AliGenerator(Int_t npart);
	47	virtual ~AliGenerator();
	48	virtual void Init();
	49	virtual void SetOrigin(Float_t ox, Float_t oy, Float_t oz)
	50	{fOrigin[0]=ox;fOrigin[1]=oy;fOrigin[2]=oz;}
c9001868	51	virtual void SetOrigin(const TLorentzVector &o)
c9001868	52	{fOrigin[0]=o[0];fOrigin[1]=o[1];fOrigin[2]=o[2];}
fe4da5cc	53	virtual void SetSigma(Float_t sx, Float_t sy, Float_t sz)
	54	{fOsigma[0]=sx;fOsigma[1]=sy;fOsigma[2]=sz;}
	55	virtual void SetMomentumRange(Float_t pmin=0, Float_t pmax=1.e10)
	56	{fPMin = pmin; fPMax = pmax;}
	57	virtual void SetPtRange(Float_t ptmin=0, Float_t ptmax=20.)
	58	{fPtMin = ptmin; fPtMax = ptmax;}
	59	virtual void SetPhiRange(Float_t phimin=-180., Float_t phimax=180)
	60	{fPhiMin = TMath::Pi()*phimin/180;
	61	fPhiMax = TMath::Pi()*phimax/180;}
	62	virtual void SetYRange(Float_t ymin=-100, Float_t ymax=100)
	63	{fYMin=ymin; fYMax=ymax;}
	64	virtual void SetVRange(Float_t vxmin, Float_t vxmax,
	65	Float_t vymin, Float_t vymax,
	66	Float_t vzmin, Float_t vzmax)
	67	{
	68	fVMin[0]=vxmin; fVMin[1]=vymin; fVMin[2]=vzmin;
	69	fVMax[0]=vxmax; fVMax[1]=vymax; fVMax[2]=vzmax;
	70	}
	71	virtual void SetNumberParticles(Int_t npart=100) {fNpart=npart;}
	72	virtual Int_t NumberParticles() {return fNpart;}
	73	virtual void SetThetaRange(Float_t thetamin=0, Float_t thetamax=180)
	74	{fThetaMin = TMath::Pi()*thetamin/180;
	75	fThetaMax = TMath::Pi()*thetamax/180;}
	76	virtual void Generate()=0;
	77	virtual void SetParentWeight(Float_t wgt) {fParentWeight=wgt;}
	78	virtual void SetChildWeight(Float_t wgt) {fChildWeight=wgt;}
	79	virtual void SetAnalog(Int_t flag=1) {fAnalog=flag;}
	80	virtual void SetVertexSmear(VertexSmear_t smear) {fVertexSmear = smear;}
4a3ba9d2	81	virtual void SetTrackingFlag(Int_t flag=1) {fTrackIt=flag;}
4a3ba9d2	82
fe4da5cc	83	virtual void SetMC(TGenerator *theMC)
fe4da5cc	84	{if (!fgMCEvGen) fgMCEvGen =theMC;}
c9001868	85
	86	// Getters
	87
	88	virtual void GetOrigin(Float_t &ox, Float_t &oy, Float_t &oz)
	89	{ox=fOrigin[0];oy=fOrigin[1];oz=fOrigin[2];}
	90	virtual void GetOrigin(TLorentzVector &o)
	91	{o[0]=fOrigin[0];o[1]=fOrigin[1];o[2]=fOrigin[2];o[3]=0;}
	92
fe4da5cc	93	ClassDef(AliGenerator,1)
	94	};
	95
	96	#endif