[u/mrichter/AliRoot.git] / AliFluka / TFluka.h

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

// $Id$
//
// Author: I. Hrivnacova
//
// Class TFluka
// -------------
// Fluka implementation of the MonteCarlo interface.                      

#ifndef TFLUKA_H
#define TFLUKA_H

#include "TMCProcess.h"
#include "TVirtualMC.h"
#include <TArrayI.h>

class TG4GeometryManager;

class AliDecayer;

class TFluka: public TVirtualMC
{
  public:
    TFluka(const char* name, const char* title);
    // --> protected
    // TFluka();
    // TFluka(const TFluka& right);
    virtual ~TFluka();

    //
    // methods for building/management of geometry
    // ------------------------------------------------
    //

    // functions from GBASE 
    virtual void  FinishGeometry(); 
                  //Ggclos(); 

    // functions from GCONS 
    virtual void  Gfmate(Int_t imat, char *name, Float_t &a, Float_t &z,  
  		         Float_t &dens, Float_t &radl, Float_t &absl,
		         Float_t* ubuf, Int_t& nbuf); 

    // detector composition
    virtual void  Material(Int_t& kmat, const char* name, Float_t a, 
                     Float_t z, Float_t dens, Float_t radl, Float_t absl,
                     Float_t* buf, Int_t nwbuf);
    virtual void  Mixture(Int_t& kmat, const char *name, Float_t *a, 
                     Float_t *z, Float_t dens, Int_t nlmat, Float_t *wmat);
    virtual void  Medium(Int_t& kmed, const char *name, Int_t nmat, 
                     Int_t isvol, Int_t ifield, Float_t fieldm, Float_t tmaxfd, 
                     Float_t stemax, Float_t deemax, Float_t epsil, 
		     Float_t stmin, Float_t* ubuf, Int_t nbuf);
    virtual void  Matrix(Int_t& krot, Float_t thetaX, Float_t phiX, 
                     Float_t thetaY, Float_t phiY, Float_t thetaZ, 
		     Float_t phiZ);
    virtual void  Gstpar(Int_t itmed, const char *param, Float_t parval); 
    virtual void  SetCerenkov(Int_t itmed, Int_t npckov, Float_t *ppckov,
                     Float_t *absco, Float_t *effic, Float_t *rindex);

    // functions from GGEOM 
    virtual Int_t Gsvolu(const char *name, const char *shape, Int_t nmed,  
                         Float_t *upar, Int_t np); 
    virtual void  Gsdvn(const char *name, const char *mother, Int_t ndiv, 
                        Int_t iaxis); 
    virtual void  Gsdvn2(const char *name, const char *mother, Int_t ndiv, 
                         Int_t iaxis, Float_t c0i, Int_t numed); 
    virtual void  Gsdvt(const char *name, const char *mother, Float_t step, 
                        Int_t iaxis, Int_t numed, Int_t ndvmx); 
    virtual void  Gsdvt2(const char *name, const char *mother, Float_t step, 
                         Int_t iaxis, Float_t c0, Int_t numed, Int_t ndvmx); 
    virtual void  Gsord(const char *name, Int_t iax); 
    virtual void  Gspos(const char *name, Int_t nr, const char *mother,  
                        Float_t x, Float_t y, Float_t z, Int_t irot, 
                        const char *konly); 
    virtual void  Gsposp(const char *name, Int_t nr, const char *mother,  
                         Float_t x, Float_t y, Float_t z, Int_t irot,
                         const char *konly, Float_t *upar, Int_t np); 
    virtual void  Gsbool(const char* onlyVolName, const char* manyVolName) {}
    
    // Euclid		       
    virtual void WriteEuclid(const char* fileName, const char* topVol, 
                             Int_t number, Int_t nlevel);
		               
    // get methods
    virtual Int_t VolId(const Text_t* volName) const;
    virtual const char* VolName(Int_t id) const;
    virtual Int_t NofVolumes() const;
    virtual Int_t VolId2Mate(Int_t id) const;

    //
    // methods for physics management
    // ------------------------------------------------
    //
 
    virtual void BuildPhysics();

    // set methods
    virtual void SetCut(const char* cutName, Float_t cutValue);
    virtual void SetProcess(const char* flagName, Int_t flagValue);
    virtual Float_t Xsec(char* reac, Float_t energy, Int_t part, Int_t mate);
    virtual void SetExternalDecayer(AliDecayer* decayer); //NEW

    // get methods
    virtual AliDecayer* Decayer() const; //NEW
 
        // particle table usage         
    virtual Int_t IdFromPDG(Int_t pdgID) const;
    virtual Int_t PDGFromId(Int_t mcID) const;
    virtual void  DefineParticles();       

    //
    // methods for step management
    // ------------------------------------------------
    //

    // action methods
    virtual void StopTrack();
    virtual void StopEvent();   

    // set methods
    virtual void SetMaxStep(Float_t);
    virtual void SetMaxNStep(Int_t);
    virtual void SetUserDecay(Int_t);  //NEW

    // get methods
         // tracking volume(s) 
    virtual Int_t CurrentVolID(Int_t& copyNo) const;
    virtual Int_t CurrentVolOffID(Int_t off, Int_t& copyNo) const;
    virtual const char* CurrentVolName() const;
    virtual const char* CurrentVolOffName(Int_t off) const;
    virtual Int_t CurrentMaterial(Float_t &a, Float_t &z, 
                    Float_t &dens, Float_t &radl, Float_t &absl) const;  
    virtual void  Gmtod(Float_t* xm, Float_t* xd, Int_t iflag);
    virtual void  Gdtom(Float_t* xd, Float_t* xm, Int_t iflag);
    virtual Float_t MaxStep() const;
    virtual Int_t GetMaxNStep() const;
    virtual Int_t GetMedium() const;

        // tracking particle 
        // dynamic properties
    virtual void    TrackPosition(TLorentzVector& position) const;
    virtual void    TrackMomentum(TLorentzVector& momentum) const;
    virtual void    TrackVertexPosition(TLorentzVector& position) const;
    virtual void    TrackVertexMomentum(TLorentzVector& momentum) const;
    virtual Float_t TrackStep() const;
    virtual Float_t TrackLength() const; 
    virtual Float_t TrackTime() const;
    virtual Float_t Edep() const;
        // static properties
    virtual Int_t   TrackPid() const;
    virtual Float_t TrackCharge() const;
    virtual Float_t TrackMass() const;
    virtual Float_t Etot() const;

        // track status
    virtual Bool_t  IsTrackInside() const;
    virtual Bool_t  IsTrackEntering() const;
    virtual Bool_t  IsTrackExiting() const;
    virtual Bool_t  IsTrackOut() const;
    virtual Bool_t  IsTrackDisappeared() const;
    virtual Bool_t  IsTrackStop() const;
    virtual Bool_t  IsTrackAlive() const;
    virtual Bool_t  IsNewTrack() const;

        // secondaries
    virtual Int_t NSecondaries() const;
    virtual void  GetSecondary(Int_t isec, Int_t& particleId, 
                    TLorentzVector& position, TLorentzVector& momentum);
    virtual TMCProcess ProdProcess(Int_t isec) const; 
    virtual Int_t StepProcesses(TArrayI &proc) const;
  
    //
    // methods for visualization
    // ------------------------------------------------
    //
    // functions for drawing
    virtual void  DrawOneSpec(const char* name);
    virtual void  Gsatt(const char* name, const char* att, Int_t val);
    virtual void  Gdraw(const char* name, Float_t theta, Float_t phi,
		        Float_t psi, Float_t u0, Float_t v0,
		        Float_t ul, Float_t vl);

    //
    // NEW
    // Geant3 specific methods
    // !!! need to be transformed to common interface
    //
    virtual void Gdopt(const char* name , const char* value);
    virtual void SetClipBox(const char *name, Float_t xmin, Float_t xmax,
		       Float_t ymin, Float_t ymax, Float_t zmin, Float_t zmax);
    virtual void DefaultRange();
    virtual void Gdhead(Int_t isel, const char* name, Float_t chrsiz);   
    virtual void Gdman(Float_t u, Float_t v, const char* type);
    virtual void SetColors();
    virtual void Gtreve();
    virtual void GtreveRoot();
    virtual void Gckmat(Int_t itmed, char* natmed);
    virtual void InitLego();
    virtual void Gfpart(Int_t ipart, char *name, Int_t& itrtyp,  
		       Float_t& amass, Float_t& charge, Float_t& tlife);
    virtual void Gspart(Int_t ipart, const char *name, Int_t itrtyp,  
		       Float_t amass, Float_t charge, Float_t tlife); 

    //
    // methods for run control
    // ------------------------------------------------
    //

    virtual void Init();
    virtual void ProcessEvent();
    virtual void ProcessRun(Int_t nofEvents);

        // UI control methods
    void StartGeantUI();	
    void StartRootUI();	
    void ProcessGeantMacro(const char* macroName);
    void ProcessGeantCommand(const char* commandPath);

        // get methods
    virtual Int_t CurrentEvent() const; 
    virtual AliMCGeomType GetMCGeomType() const { return kGeant4; }

  protected:
    TFluka();
    TFluka(const TFluka& right);

    // operators
    TFluka& operator=(const TFluka& right);

  private:
    // data members
    TG4GeometryManager*  fGeometryManager; //geometry manager
};

#ifndef __CINT__

#endif
#endif // TFLUKA_H
Commit	Line	Data
16710643	1	/* Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. *
	2	* See cxx source for full Copyright notice */
	3
04c6e46a	4	// $Id$
	5	//
	6	// Author: I. Hrivnacova
	7	//
	8	// Class TFluka
	9	// -------------
	10	// Fluka implementation of the MonteCarlo interface.
	11
	12	#ifndef TFLUKA_H
	13	#define TFLUKA_H
	14
6b677e96	15	#include "TMCProcess.h"
6b677e96	16	#include "TVirtualMC.h"
04c6e46a	17	#include <TArrayI.h>
	18
	19	class TG4GeometryManager;
	20
	21	class AliDecayer;
	22
6b677e96	23	class TFluka: public TVirtualMC
04c6e46a	24	{
	25	public:
	26	TFluka(const char* name, const char* title);
	27	// --> protected
	28	// TFluka();
	29	// TFluka(const TFluka& right);
	30	virtual ~TFluka();
	31
	32	//
	33	// methods for building/management of geometry
	34	// ------------------------------------------------
	35	//
	36
	37	// functions from GBASE
	38	virtual void FinishGeometry();
	39	//Ggclos();
	40
	41	// functions from GCONS
	42	virtual void Gfmate(Int_t imat, char *name, Float_t &a, Float_t &z,
	43	Float_t &dens, Float_t &radl, Float_t &absl,
	44	Float_t* ubuf, Int_t& nbuf);
	45
	46	// detector composition
	47	virtual void Material(Int_t& kmat, const char* name, Float_t a,
	48	Float_t z, Float_t dens, Float_t radl, Float_t absl,
	49	Float_t* buf, Int_t nwbuf);
	50	virtual void Mixture(Int_t& kmat, const char name, Float_t a,
	51	Float_t z, Float_t dens, Int_t nlmat, Float_t wmat);
	52	virtual void Medium(Int_t& kmed, const char *name, Int_t nmat,
	53	Int_t isvol, Int_t ifield, Float_t fieldm, Float_t tmaxfd,
	54	Float_t stemax, Float_t deemax, Float_t epsil,
	55	Float_t stmin, Float_t* ubuf, Int_t nbuf);
	56	virtual void Matrix(Int_t& krot, Float_t thetaX, Float_t phiX,
	57	Float_t thetaY, Float_t phiY, Float_t thetaZ,
	58	Float_t phiZ);
	59	virtual void Gstpar(Int_t itmed, const char *param, Float_t parval);
	60	virtual void SetCerenkov(Int_t itmed, Int_t npckov, Float_t *ppckov,
	61	Float_t absco, Float_t effic, Float_t *rindex);
	62
	63	// functions from GGEOM
	64	virtual Int_t Gsvolu(const char name, const char shape, Int_t nmed,
	65	Float_t *upar, Int_t np);
	66	virtual void Gsdvn(const char name, const char mother, Int_t ndiv,
	67	Int_t iaxis);
	68	virtual void Gsdvn2(const char name, const char mother, Int_t ndiv,
	69	Int_t iaxis, Float_t c0i, Int_t numed);
	70	virtual void Gsdvt(const char name, const char mother, Float_t step,
	71	Int_t iaxis, Int_t numed, Int_t ndvmx);
	72	virtual void Gsdvt2(const char name, const char mother, Float_t step,
	73	Int_t iaxis, Float_t c0, Int_t numed, Int_t ndvmx);
	74	virtual void Gsord(const char *name, Int_t iax);
	75	virtual void Gspos(const char name, Int_t nr, const char mother,
	76	Float_t x, Float_t y, Float_t z, Int_t irot,
	77	const char *konly);
	78	virtual void Gsposp(const char name, Int_t nr, const char mother,
	79	Float_t x, Float_t y, Float_t z, Int_t irot,
	80	const char konly, Float_t upar, Int_t np);
	81	virtual void Gsbool(const char* onlyVolName, const char* manyVolName) {}
	82
	83	// Euclid
	84	virtual void WriteEuclid(const char* fileName, const char* topVol,
	85	Int_t number, Int_t nlevel);
	86
	87	// get methods
88	virtual Int_t VolId(const Text_t* volName) const;
89	virtual const char* VolName(Int_t id) const;
90	virtual Int_t NofVolumes() const;
91	virtual Int_t VolId2Mate(Int_t id) const;
92
93	//
94	// methods for physics management
95	// ------------------------------------------------
96	//
97
98	virtual void BuildPhysics();
99
100	// set methods
101	virtual void SetCut(const char* cutName, Float_t cutValue);
102	virtual void SetProcess(const char* flagName, Int_t flagValue);
103	virtual Float_t Xsec(char* reac, Float_t energy, Int_t part, Int_t mate);
104	virtual void SetExternalDecayer(AliDecayer* decayer); //NEW
105
106	// get methods
107	virtual AliDecayer* Decayer() const; //NEW
108
109	// particle table usage
110	virtual Int_t IdFromPDG(Int_t pdgID) const;
111	virtual Int_t PDGFromId(Int_t mcID) const;
112	virtual void DefineParticles();
113
114	//
115	// methods for step management
116	// ------------------------------------------------
117	//
118
119	// action methods
120	virtual void StopTrack();
121	virtual void StopEvent();
122
123	// set methods
124	virtual void SetMaxStep(Float_t);
125	virtual void SetMaxNStep(Int_t);
126	virtual void SetUserDecay(Int_t); //NEW
127
128	// get methods
129	// tracking volume(s)
130	virtual Int_t CurrentVolID(Int_t& copyNo) const;
131	virtual Int_t CurrentVolOffID(Int_t off, Int_t& copyNo) const;
132	virtual const char* CurrentVolName() const;
133	virtual const char* CurrentVolOffName(Int_t off) const;
134	virtual Int_t CurrentMaterial(Float_t &a, Float_t &z,
135	Float_t &dens, Float_t &radl, Float_t &absl) const;
136	virtual void Gmtod(Float_t* xm, Float_t* xd, Int_t iflag);
137	virtual void Gdtom(Float_t* xd, Float_t* xm, Int_t iflag);
138	virtual Float_t MaxStep() const;
139	virtual Int_t GetMaxNStep() const;
140	virtual Int_t GetMedium() const;
141
142	// tracking particle
143	// dynamic properties
144	virtual void TrackPosition(TLorentzVector& position) const;
145	virtual void TrackMomentum(TLorentzVector& momentum) const;
146	virtual void TrackVertexPosition(TLorentzVector& position) const;
147	virtual void TrackVertexMomentum(TLorentzVector& momentum) const;
148	virtual Float_t TrackStep() const;
149	virtual Float_t TrackLength() const;
150	virtual Float_t TrackTime() const;
151	virtual Float_t Edep() const;
152	// static properties
153	virtual Int_t TrackPid() const;
154	virtual Float_t TrackCharge() const;
155	virtual Float_t TrackMass() const;
156	virtual Float_t Etot() const;
157
158	// track status
159	virtual Bool_t IsTrackInside() const;
160	virtual Bool_t IsTrackEntering() const;
161	virtual Bool_t IsTrackExiting() const;
162	virtual Bool_t IsTrackOut() const;
163	virtual Bool_t IsTrackDisappeared() const;
164	virtual Bool_t IsTrackStop() const;
165	virtual Bool_t IsTrackAlive() const;
166	virtual Bool_t IsNewTrack() const;
167
168	// secondaries
169	virtual Int_t NSecondaries() const;
170	virtual void GetSecondary(Int_t isec, Int_t& particleId,
171	TLorentzVector& position, TLorentzVector& momentum);
6b677e96	172	virtual TMCProcess ProdProcess(Int_t isec) const;
04c6e46a	173	virtual Int_t StepProcesses(TArrayI &proc) const;
	174
	175	//
	176	// methods for visualization
	177	// ------------------------------------------------
	178	//
	179	// functions for drawing
	180	virtual void DrawOneSpec(const char* name);
	181	virtual void Gsatt(const char* name, const char* att, Int_t val);
	182	virtual void Gdraw(const char* name, Float_t theta, Float_t phi,
	183	Float_t psi, Float_t u0, Float_t v0,
	184	Float_t ul, Float_t vl);
	185
	186	//
	187	// NEW
	188	// Geant3 specific methods
	189	// !!! need to be transformed to common interface
	190	//
	191	virtual void Gdopt(const char* name , const char* value);
	192	virtual void SetClipBox(const char *name, Float_t xmin, Float_t xmax,
	193	Float_t ymin, Float_t ymax, Float_t zmin, Float_t zmax);
	194	virtual void DefaultRange();
	195	virtual void Gdhead(Int_t isel, const char* name, Float_t chrsiz);
	196	virtual void Gdman(Float_t u, Float_t v, const char* type);
	197	virtual void SetColors();
	198	virtual void Gtreve();
	199	virtual void GtreveRoot();
	200	virtual void Gckmat(Int_t itmed, char* natmed);
	201	virtual void InitLego();
	202	virtual void Gfpart(Int_t ipart, char *name, Int_t& itrtyp,
	203	Float_t& amass, Float_t& charge, Float_t& tlife);
	204	virtual void Gspart(Int_t ipart, const char *name, Int_t itrtyp,
	205	Float_t amass, Float_t charge, Float_t tlife);
	206
	207	//
	208	// methods for run control
	209	// ------------------------------------------------
	210	//
	211
	212	virtual void Init();
	213	virtual void ProcessEvent();
	214	virtual void ProcessRun(Int_t nofEvents);
	215
	216	// UI control methods
	217	void StartGeantUI();
	218	void StartRootUI();
	219	void ProcessGeantMacro(const char* macroName);
	220	void ProcessGeantCommand(const char* commandPath);
	221
	222	// get methods
	223	virtual Int_t CurrentEvent() const;
	224	virtual AliMCGeomType GetMCGeomType() const { return kGeant4; }
	225
	226	protected:
	227	TFluka();
	228	TFluka(const TFluka& right);
	229
	230	// operators
	231	TFluka& operator=(const TFluka& right);
	232
	233	private:
	234	// data members
	235	TG4GeometryManager* fGeometryManager; //geometry manager
	236	};
237
238	#ifndef __CINT__
239
240	#endif
241	#endif // TFLUKA_H
242