[u/mrichter/AliRoot.git] / EVGEN / AliGenPythia.h

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

/* $Id$ */

//
// Generator using the TPythia interface (via AliPythia)
// to generate pp collisions.
// Using SetNuclei() also nuclear modifications to the structure functions
// can be taken into account. This makes, of course, only sense for the
// generation of the products of hard processes (heavy flavor, jets ...)
//
// andreas.morsch@cern.ch
//

#include "AliGenMC.h"
#include "AliPythia.h"

class AliPythia;
class TParticle;

class AliGenPythia : public AliGenMC
{
 public:

  typedef enum {kFlavorSelection, kParentSelection} StackFillOpt_t;
  typedef enum {kCountAll, kCountParents, kCountTrackables} CountMode_t;

    AliGenPythia();
    AliGenPythia(Int_t npart);
    AliGenPythia(const AliGenPythia &Pythia);
    virtual ~AliGenPythia();
    virtual void    Generate();
    virtual void    Init();
    // set a cut on the Z coord. of the primary vertex (cm)
    //
    virtual void    SetEventListRange(Int_t eventFirst=-1, Int_t eventLast=-1);
    // select process type
    virtual void    SetProcess(Process_t proc = kPyCharm) {fProcess = proc;}
    // select structure function
    virtual void    SetStrucFunc(StrucFunc_t func = kGRVHO) {fStrucFunc = func;}
    // select pt of hard scattering 
    virtual void    SetPtHard(Float_t ptmin = 0, Float_t ptmax = 1.e10)
	{fPtHardMin = ptmin; fPtHardMax = ptmax; }
    virtual void    SetYHard(Float_t ymin = -1.e10, Float_t ymax = 1.e10)
	{fYHardMin = ymin; fYHardMax = ymax; }
    // set centre of mass energy
    virtual void    SetEnergyCMS(Float_t energy = 5500) {fEnergyCMS = energy;}
    // treat protons as inside nuclei
    virtual void    SetNuclei(Int_t a1, Int_t a2);
    virtual void    SetJetEtaRange(Float_t etamin = -20., Float_t etamax = 20.)
	{fEtaMinJet = etamin; fEtaMaxJet = etamax;}
    virtual void    SetJetPhiRange(Float_t phimin = -180., Float_t phimax = 180.)
	{fPhiMinJet = TMath::Pi()*phimin/180.; fPhiMaxJet = TMath::Pi()*phimax/180.;}
    virtual void    SetGammaEtaRange(Float_t etamin = -20., Float_t etamax = 20.)
	{fEtaMinGamma = etamin; fEtaMaxGamma = etamax;}
    virtual void    SetGammaPhiRange(Float_t phimin = -180., Float_t phimax = 180.)
	{fPhiMinGamma = TMath::Pi()*phimin/180.; fPhiMaxGamma = TMath::Pi()*phimax/180.;}
    // Set option for feed down from higher family
    virtual void SetFeedDownHigherFamily(Bool_t opt) {
      fFeedDownOpt = opt;
    }
    // Set option for selecting particles kept in stack according to flavor
    // or to parent selection
    virtual void SetStackFillOpt(StackFillOpt_t opt) {
      fStackFillOpt = opt;
    }
    // Set fragmentation option
    virtual void SetFragmentation(const Bool_t opt) {
      fFragmentation = opt;
    }
    // Set counting mode
    virtual void SetCountMode(const CountMode_t mode) {
      fCountMode = mode;
    }
    
    // get cross section of process
    virtual Float_t GetXsection() const {return fXsection;}
    // Getters
    virtual Process_t    GetProcess() {return fProcess;}
    virtual StrucFunc_t  GetStrucFunc() {return fStrucFunc;}
    virtual void         GetPtHard(Float_t& ptmin, Float_t& ptmax)
	{ptmin = fPtHardMin; ptmax = fPtHardMax = ptmax;}
    virtual Float_t      GetEnergyCMS() {return fEnergyCMS;}
    virtual void         GetNuclei(Int_t&  a1, Int_t& a2)
	{a1 = fNucA1; a2 = fNucA2;}
    virtual void         GetJetEtaRange(Float_t& etamin, Float_t& etamax)
	{etamin = fEtaMinJet; etamax = fEtaMaxJet;}
    virtual void         GetJetPhiRange(Float_t& phimin, Float_t& phimax)
	{phimin = fPhiMinJet*180./TMath::Pi(); phimax = fPhiMaxJet*180/TMath::Pi();}
    virtual void         GetGammaEtaRange(Float_t& etamin, Float_t& etamax)
	{etamin = fEtaMinGamma; etamax = fEtaMaxGamma;}
    virtual void         GetGammaPhiRange(Float_t& phimin, Float_t& phimax)
	{phimin = fPhiMinGamma*180./TMath::Pi(); phimax = fPhiMaxGamma*180./TMath::Pi();}
    //
    virtual void FinishRun();
    Bool_t CheckTrigger(TParticle* jet1, TParticle* jet2) const;
    
    // Assignment Operator
    AliGenPythia & operator=(const AliGenPythia & rhs);
 protected:
    // adjust the weight from kinematic cuts
    void   AdjustWeights();
    Int_t  GenerateMB();
    void   MakeHeader() const;    

    TClonesArray* fParticles;     //Particle  List
    
    Process_t   fProcess;         //Process type
    StrucFunc_t fStrucFunc;       //Structure Function
    Float_t     fEnergyCMS;       //Centre of mass energy
    Float_t     fKineBias;        //!Bias from kinematic selection
    Int_t       fTrials;          //!Number of trials for current event
    Int_t       fTrialsRun;       //!Number of trials for run
    Float_t     fQ;               //Mean Q
    Float_t     fX1;              //Mean x1
    Float_t     fX2;              //Mean x2
    Int_t       fNev;             //Number of events 
    Int_t       fFlavorSelect;    //Heavy Flavor Selection
    Float_t     fXsection;        //Cross-section
    AliPythia   *fPythia;         //!Pythia 
    Float_t     fPtHardMin;       //lower pT-hard cut 
    Float_t     fPtHardMax;       //higher pT-hard cut
    Float_t     fYHardMin;        //lower  y-hard cut 
    Float_t     fYHardMax;        //higher y-hard cut
    Int_t       fNucA1;           //mass number nucleus side 1
    Int_t       fNucA2;           //mass number nucleus side 2
    Bool_t      fFullEvent;       //!Write Full event if true
    AliDecayer  *fDecayer;        //!Pointer to the decayer instance
    Int_t       fDebugEventFirst; //!First event to debug
    Int_t       fDebugEventLast;  //!Last  event to debug
    Float_t     fEtaMinJet;       //Minimum eta of triggered Jet
    Float_t     fEtaMaxJet;       //Maximum eta of triggered Jet
    Float_t     fPhiMinJet;       //Minimum phi of triggered Jet
    Float_t     fPhiMaxJet;       //Maximum phi of triggered Jet

    Float_t     fEtaMinGamma;     // Minimum eta of triggered gamma
    Float_t     fEtaMaxGamma;     // Maximum eta of triggered gamma
    Float_t     fPhiMinGamma;     // Minimum phi of triggered gamma
    Float_t     fPhiMaxGamma;     // Maximum phi of triggered gamma

    StackFillOpt_t fStackFillOpt; // Stack filling with all particles with
                                  // that flavour or only with selected
                                  // parents and their decays
    Bool_t fFeedDownOpt;          // Option to set feed down from higher
                                  // quark families (e.g. b->c)
    Bool_t fFragmentation;        // Option to activate fragmentation by Pythia
    //

    CountMode_t fCountMode;        // Options for counting when the event will be finished.
    // fCountMode = kCountAll         --> All particles that end up in the
    //                                    stack are counted
    // fCountMode = kCountParents     --> Only selected parents are counted
    // fCountMode = kCountTrackabless --> Only particles flagged for tracking
    //                                     are counted
    //
    ClassDef(AliGenPythia,3) // AliGenerator interface to Pythia
};
#endif
Commit	Line	Data
	1	#ifndef ALIGENPYTHIA_H
	2	#define ALIGENPYTHIA_H
	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	// Generator using the TPythia interface (via AliPythia)
	10	// to generate pp collisions.
	11	// Using SetNuclei() also nuclear modifications to the structure functions
	12	// can be taken into account. This makes, of course, only sense for the
	13	// generation of the products of hard processes (heavy flavor, jets ...)
	14	//
	15	// andreas.morsch@cern.ch
	16	//
	17
	18	#include "AliGenMC.h"
	19	#include "AliPythia.h"
	20
	21	class AliPythia;
	22	class TParticle;
	23
	24	class AliGenPythia : public AliGenMC
	25	{
	26	public:
	27
	28	typedef enum {kFlavorSelection, kParentSelection} StackFillOpt_t;
	29	typedef enum {kCountAll, kCountParents, kCountTrackables} CountMode_t;
	30
	31	AliGenPythia();
	32	AliGenPythia(Int_t npart);
	33	AliGenPythia(const AliGenPythia &Pythia);
	34	virtual ~AliGenPythia();
	35	virtual void Generate();
	36	virtual void Init();
	37	// set a cut on the Z coord. of the primary vertex (cm)
	38	//
	39	virtual void SetEventListRange(Int_t eventFirst=-1, Int_t eventLast=-1);
	40	// select process type
	41	virtual void SetProcess(Process_t proc = kPyCharm) {fProcess = proc;}
	42	// select structure function
	43	virtual void SetStrucFunc(StrucFunc_t func = kGRVHO) {fStrucFunc = func;}
	44	// select pt of hard scattering
	45	virtual void SetPtHard(Float_t ptmin = 0, Float_t ptmax = 1.e10)
	46	{fPtHardMin = ptmin; fPtHardMax = ptmax; }
	47	virtual void SetYHard(Float_t ymin = -1.e10, Float_t ymax = 1.e10)
	48	{fYHardMin = ymin; fYHardMax = ymax; }
	49	// set centre of mass energy
	50	virtual void SetEnergyCMS(Float_t energy = 5500) {fEnergyCMS = energy;}
	51	// treat protons as inside nuclei
	52	virtual void SetNuclei(Int_t a1, Int_t a2);
	53	virtual void SetJetEtaRange(Float_t etamin = -20., Float_t etamax = 20.)
	54	{fEtaMinJet = etamin; fEtaMaxJet = etamax;}
	55	virtual void SetJetPhiRange(Float_t phimin = -180., Float_t phimax = 180.)
	56	{fPhiMinJet = TMath::Pi()phimin/180.; fPhiMaxJet = TMath::Pi()phimax/180.;}
	57	virtual void SetGammaEtaRange(Float_t etamin = -20., Float_t etamax = 20.)
	58	{fEtaMinGamma = etamin; fEtaMaxGamma = etamax;}
	59	virtual void SetGammaPhiRange(Float_t phimin = -180., Float_t phimax = 180.)
	60	{fPhiMinGamma = TMath::Pi()phimin/180.; fPhiMaxGamma = TMath::Pi()phimax/180.;}
	61	// Set option for feed down from higher family
	62	virtual void SetFeedDownHigherFamily(Bool_t opt) {
	63	fFeedDownOpt = opt;
	64	}
	65	// Set option for selecting particles kept in stack according to flavor
	66	// or to parent selection
	67	virtual void SetStackFillOpt(StackFillOpt_t opt) {
	68	fStackFillOpt = opt;
	69	}
	70	// Set fragmentation option
	71	virtual void SetFragmentation(const Bool_t opt) {
	72	fFragmentation = opt;
	73	}
	74	// Set counting mode
	75	virtual void SetCountMode(const CountMode_t mode) {
	76	fCountMode = mode;
	77	}
	78
	79	// get cross section of process
	80	virtual Float_t GetXsection() const {return fXsection;}
	81	// Getters
	82	virtual Process_t GetProcess() {return fProcess;}
	83	virtual StrucFunc_t GetStrucFunc() {return fStrucFunc;}
	84	virtual void GetPtHard(Float_t& ptmin, Float_t& ptmax)
	85	{ptmin = fPtHardMin; ptmax = fPtHardMax = ptmax;}
	86	virtual Float_t GetEnergyCMS() {return fEnergyCMS;}
	87	virtual void GetNuclei(Int_t& a1, Int_t& a2)
	88	{a1 = fNucA1; a2 = fNucA2;}
	89	virtual void GetJetEtaRange(Float_t& etamin, Float_t& etamax)
	90	{etamin = fEtaMinJet; etamax = fEtaMaxJet;}
	91	virtual void GetJetPhiRange(Float_t& phimin, Float_t& phimax)
	92	{phimin = fPhiMinJet180./TMath::Pi(); phimax = fPhiMaxJet180/TMath::Pi();}
	93	virtual void GetGammaEtaRange(Float_t& etamin, Float_t& etamax)
	94	{etamin = fEtaMinGamma; etamax = fEtaMaxGamma;}
	95	virtual void GetGammaPhiRange(Float_t& phimin, Float_t& phimax)
	96	{phimin = fPhiMinGamma180./TMath::Pi(); phimax = fPhiMaxGamma180./TMath::Pi();}
	97	//
	98	virtual void FinishRun();
	99	Bool_t CheckTrigger(TParticle* jet1, TParticle* jet2) const;
	100
	101	// Assignment Operator
	102	AliGenPythia & operator=(const AliGenPythia & rhs);
	103	protected:
	104	// adjust the weight from kinematic cuts
	105	void AdjustWeights();
	106	Int_t GenerateMB();
	107	void MakeHeader() const;
	108
	109	TClonesArray* fParticles; //Particle List
	110
	111	Process_t fProcess; //Process type
	112	StrucFunc_t fStrucFunc; //Structure Function
	113	Float_t fEnergyCMS; //Centre of mass energy
	114	Float_t fKineBias; //!Bias from kinematic selection
	115	Int_t fTrials; //!Number of trials for current event
	116	Int_t fTrialsRun; //!Number of trials for run
	117	Float_t fQ; //Mean Q
	118	Float_t fX1; //Mean x1
	119	Float_t fX2; //Mean x2
	120	Int_t fNev; //Number of events
	121	Int_t fFlavorSelect; //Heavy Flavor Selection
	122	Float_t fXsection; //Cross-section
	123	AliPythia *fPythia; //!Pythia
	124	Float_t fPtHardMin; //lower pT-hard cut
	125	Float_t fPtHardMax; //higher pT-hard cut
	126	Float_t fYHardMin; //lower y-hard cut
	127	Float_t fYHardMax; //higher y-hard cut
	128	Int_t fNucA1; //mass number nucleus side 1
	129	Int_t fNucA2; //mass number nucleus side 2
	130	Bool_t fFullEvent; //!Write Full event if true
	131	AliDecayer *fDecayer; //!Pointer to the decayer instance
	132	Int_t fDebugEventFirst; //!First event to debug
	133	Int_t fDebugEventLast; //!Last event to debug
	134	Float_t fEtaMinJet; //Minimum eta of triggered Jet
	135	Float_t fEtaMaxJet; //Maximum eta of triggered Jet
	136	Float_t fPhiMinJet; //Minimum phi of triggered Jet
	137	Float_t fPhiMaxJet; //Maximum phi of triggered Jet
	138
	139	Float_t fEtaMinGamma; // Minimum eta of triggered gamma
	140	Float_t fEtaMaxGamma; // Maximum eta of triggered gamma
	141	Float_t fPhiMinGamma; // Minimum phi of triggered gamma
	142	Float_t fPhiMaxGamma; // Maximum phi of triggered gamma
	143
	144	StackFillOpt_t fStackFillOpt; // Stack filling with all particles with
	145	// that flavour or only with selected
	146	// parents and their decays
	147	Bool_t fFeedDownOpt; // Option to set feed down from higher
	148	// quark families (e.g. b->c)
	149	Bool_t fFragmentation; // Option to activate fragmentation by Pythia
	150	//
	151
	152	CountMode_t fCountMode; // Options for counting when the event will be finished.
	153	// fCountMode = kCountAll --> All particles that end up in the
	154	// stack are counted
	155	// fCountMode = kCountParents --> Only selected parents are counted
	156	// fCountMode = kCountTrackabless --> Only particles flagged for tracking
	157	// are counted
	158	//
	159	ClassDef(AliGenPythia,3) // AliGenerator interface to Pythia
	160	};
	161	#endif
	162
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