[u/mrichter/AliRoot.git] / RICH / AliRICH.h

#ifndef AliRICH_h
#define AliRICH_h

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

/* $Id$ */


////////////////////////////////////////////////
//  Manager and hits classes for set:RICH     //
////////////////////////////////////////////////

#include <TObjArray.h>
#include <AliDetector.h>
#include <AliRICHConst.h>
#include <AliRICHChamber.h>
static const int kNCH=7;

class TFile;

class AliRICHHit;
class AliRICHSDigit;
class AliRICHRawCluster;
class AliRICHRecHit1D;
class AliRICHRecHit3D;
class AliRICHClusterFinder;
class AliRICHDetect;
class AliRICHChamber;
class AliRICHCerenkov;
class AliSegmentation;
class AliRICHResponse;
class AliRICHGeometry;
class AliRICHMerger;

class AliRICH : public AliDetector 
{
   
enum EDebugBits {kDebugStart=BIT(0),kDebugParam=BIT(1),kDebugHit=BIT(2),kDebugDigit=BIT(3),kDebugReco=BIT(4)}; // Debug flags
   
public:
             AliRICH();                                    // default ctor
             AliRICH(const char *name, const char *title); // named ctor
             AliRICH(const AliRICH& RICH);                 // copy ctor  
   virtual  ~AliRICH();                     // dtor
// Pure vituls methods     
   virtual Int_t  IsVersion() const =0;
// The following staff is defined in AliRICHChamber.cxx      
   virtual void   AddHit(Int_t track, Int_t *vol, Float_t *hits);
   virtual void   AddCerenkov(Int_t track, Int_t *vol, Float_t *cerenkovs);
   virtual void   AddSDigit(Int_t *clhits);
   virtual void   AddDigits(Int_t id, Int_t *tracks, Int_t *charges, Int_t *digits);
   virtual void   AddRawCluster(Int_t id, const AliRICHRawCluster& cluster);
   virtual void   AddRecHit1D(Int_t id, Float_t* rechit, Float_t* photons, Int_t* padsx, Int_t* padsy);
   virtual void   AddRecHit3D(Int_t id, Float_t* rechit);

   virtual void   BuildGeometry();   // TNode ROOT variant for event display
   virtual void   CreateGeometry();  // GEANT volumes tree for simulation
   virtual void   CreateMaterials(); // GEANT materials definition
   virtual Float_t AbsoCH4(Float_t x);
   virtual Float_t Fresnel(Float_t ene,Float_t pdoti, Bool_t pola);
   virtual void   StepManager();
   Int_t          DistancetoPrimitive(Int_t px, Int_t py);
   virtual void   MakeBranch(Option_t *opt=" ", const char *file=0);
   virtual void   MakeBranchInTreeD(TTree *treeD, const char *file=0);
   void           SetTreeAddress();
   virtual void   ResetHits();
   virtual void   ResetDigits();
   virtual void   ResetRawClusters();
   virtual void   ResetRecHits1D();
   virtual void   ResetRecHits3D();
   virtual void   FindClusters(Int_t nev,Int_t lastEntry);
// Converters    
   virtual void   Hits2SDigits();
   virtual Int_t  Hits2SDigits(Float_t xhit,Float_t yhit,Float_t eloss,Int_t id, ResponseType res);
   virtual void   SDigits2Digits();
   virtual void   SDigits2Digits(Int_t nev, Int_t flag);
   virtual void   Digits2Reco();
// Retrieve pad hits for a given Hit
    virtual        AliRICHSDigit* FirstPad(AliRICHHit *hit, TClonesArray *clusters);
    virtual        AliRICHSDigit* NextPad(TClonesArray *clusters);
// inline methods   
   TClonesArray  *SDigits()   const{return fSDigits;}
   TClonesArray  *Cerenkovs() const{return fCerenkovs;}

// Models for chambers
   virtual void     SetGeometryModel(Int_t iChamberN, AliRICHGeometry *pRICHGeo)    {       GetChamber(iChamberN)->SetGeometryModel(pRICHGeo);}
   AliRICHGeometry* GetGeometryModel(Int_t iChamberN=0)                        const{return GetChamber(iChamberN)->GetGeometryModel();}
    
   virtual void     SetSegmentationModel(Int_t iChamberN, AliSegmentation *pAliSeg) {       GetChamber(iChamberN)->SetSegmentationModel(pAliSeg);}
   AliSegmentation* GetSegmentationModel(Int_t iChamberN=0)                    const{return GetChamber(iChamberN)->GetSegmentationModel();}
	 
   virtual void     SetResponseModel(Int_t iChamberN, AliRICHResponse *pRICHRes)    {       GetChamber(iChamberN)->SetResponseModel(pRICHRes);}
   AliRICHResponse* GetResponseModel(Int_t iChamberN)                          const{return GetChamber(iChamberN)->GetResponseModel();}

   virtual void     SetReconstructionModel(Int_t iChamberN, AliRICHClusterFinder *pRICHReco){GetChamber(iChamberN)->SetReconstructionModel(pRICHReco);}
// Debug staff
   void   SetDebugLevel(Int_t level) {fDebugLevel=level;}
   Int_t  GetDebugLevel()       const{return fDebugLevel;}
   
   void   SetDebugStart()     {fDebugLevel+=kDebugStart;}        // Controls debug message at the entring point of methods
   void ResetDebugStart()     {fDebugLevel-=kDebugStart;}        // Controls debug message at the entring point of methods
   Bool_t  IsDebugStart()const{return fDebugLevel&kDebugStart;}  // Controls debug message at the entring point of methods
   
   void   SetDebugParam()     {fDebugLevel+=kDebugParam;}        // Controls debug printout for the parameters
   void ResetDebugParam()     {fDebugLevel-=kDebugParam;}        // Controls debug printout for the parameters
   Bool_t  IsDebugParam()const{return fDebugLevel&kDebugParam;}  // Controls debug printout for the parameters
   
   void   SetDebugHit()       {fDebugLevel+=kDebugHit;}          // Controls debug printout for hits
   void ResetDebugHit()       {fDebugLevel-=kDebugHit;}          // Controls debug printout for hits
   Bool_t  IsDebugHit()  const{return fDebugLevel&kDebugHit;}    // Controls debug printout for hits
   
   void   SetDebugDigit()     {fDebugLevel+=kDebugDigit;}        // Controls debug printout for digits
   void ResetDebugDigit()     {fDebugLevel-=kDebugDigit;}        // Controls debug printout for digits
   Bool_t  IsDebugDigit()const{return fDebugLevel&kDebugDigit;}  // Controls debug printout for digits
   
   void   SetDebugReco()      {fDebugLevel+=kDebugReco;}         // Controls debug printout for reco
   void ResetDebugReco()      {fDebugLevel-=kDebugReco;}         // Controls debug printout for reco
   Bool_t  IsDebugReco() const{return fDebugLevel&kDebugReco;}   // Controls debug printout for reco
   

    virtual void   SetMerger(AliRICHMerger* thisMerger) {fMerger=thisMerger;}  
// Return reference to Chamber #id
    virtual        AliRICHChamber& Chamber(Int_t id) {return *((AliRICHChamber *) (*fChambers)[id]);}
    AliRICHChamber* GetChamber(Int_t iChamberN)     const{return (AliRICHChamber*) (*fChambers)[iChamberN];}
// Return pointers to digits 
    TObjArray     *Dchambers() {return fDchambers;}
    Int_t         *Ndch() {return fNdch;}
    virtual TClonesArray *DigitsAddress(Int_t id) {return ((TClonesArray *) (*fDchambers)[id]);}
// Return pointers to rec. hits
    TObjArray     *RecHits1D()                      const{return fRecHits1D;}
    Int_t         *Nrechits1D()                          {return fNrechits1D;} // returns array
    Int_t         *Nrechits3D()                          {return fNrechits3D;} // returns array
   virtual TClonesArray *RecHitsAddress1D(Int_t id) const{return ((TClonesArray *) (*fRecHits1D)[id]);}
      TObjArray     *RecHits3D()                    const{return fRecHits3D;}
   virtual TClonesArray *RecHitsAddress3D(Int_t id) const{return ((TClonesArray *) (*fRecHits3D)[id]);}
   virtual TClonesArray *RawClustAddress(Int_t id)  const{return ((TClonesArray *) (*fRawClusters)[id]);}    
// Assignment operator
   AliRICH& operator=(const AliRICH& rhs);

   virtual void DiagnosticsFE(Int_t evNumber1=0,Int_t evNumber2=0);    // Full events
   virtual void DiagnosticsSE(Int_t diaglevel,Int_t evNumber1=0,Int_t evNumber2=0);    // Single events
 
   inline virtual void Print(Option_t *option)const; // Prints debug information
    
protected:
   TObjArray            *fChambers;           // List of RICH chambers aka modules
   Int_t                 fNSDigits;           // Number of clusters
   Int_t                 fNcerenkovs;         // Number of cerenkovs
   TClonesArray         *fSDigits;            // List of clusters
   TObjArray            *fDchambers;          // List of digits
   TClonesArray         *fCerenkovs;          // List of cerenkovs
   Int_t                 fNdch[kNCH];         // Number of digits
   TObjArray            *fRawClusters;        // List of raw clusters
   TObjArray            *fRecHits1D;          // List of rec. hits
   TObjArray            *fRecHits3D;          // List of rec. hits
   Int_t                 fNrawch[kNCH];       // Number of raw clusters
   Int_t                 fNrechits1D[kNCH];   // Number of rec hits 
   Int_t                 fNrechits3D[kNCH];   // Number of rec hits 
   Int_t                 fDebugLevel;         // Source debugging level

   Int_t fCkovNumber;                         // Number of Cerenkov photons
   Int_t fCkovQuarz;                          // Cerenkovs crossing quartz
   Int_t fCkovGap;                            // Cerenkovs crossing gap
   Int_t fCkovCsi;                            // Cerenkovs crossing csi
   Int_t fLostRfreo;                          // Cerenkovs reflected in freon
   Int_t fLostRquar;                          // Cerenkovs reflected in quartz
   Int_t fLostAfreo;                          // Cerenkovs absorbed in freon 
   Int_t fLostAquarz;                         // Cerenkovs absorbed in quartz
   Int_t fLostAmeta;                          // Cerenkovs absorbed in methane
   Int_t fLostCsi;                            // Cerenkovs below csi quantum efficiency 
   Int_t fLostWires;                          // Cerenkovs lost in wires
   Int_t fFreonProd;                          // Cerenkovs produced in freon
   Float_t fMipx;                             // x coord. of MIP
   Float_t fMipy;                             // y coord. of MIP
   Int_t fFeedbacks;                          // Number of feedback photons
   Int_t fLostFresnel;                        // Cerenkovs lost by Fresnel reflection


// Background event for event mixing
    Text_t *fFileName;                         //! File with background hits
    AliRICHMerger *fMerger;                    //! pointer to merger
    
   ClassDef(AliRICH,1)                        // Main RICH class 
};//class AliRICH
    
inline void AliRICH::Print(Option_t *option)const
{
   TObject::Print(option);
   if(IsDebugParam()){
      GetGeometryModel(0)->Print(option);
      GetSegmentationModel(0)->Print(option);
      GetResponseModel(0)->Print(option);
   }
}//inline void AliRICH::Print(Option_t *option)const

#endif
Commit	Line	Data
2f614988	1	#ifndef AliRICH_h
2f614988	2	#define AliRICH_h
2e5f0f7b	3
3da30618	4	/* Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. *
	5	* See cxx source for full Copyright notice */
	6
	7	/* $Id$ */
	8
2e5f0f7b	9
fe4da5cc	10	////////////////////////////////////////////////
	11	// Manager and hits classes for set:RICH //
	12	////////////////////////////////////////////////
c11ee6f0	13
	14	#include <TObjArray.h>
	15	#include <AliDetector.h>
	16	#include <AliRICHConst.h>
	17	#include <AliRICHChamber.h>
237c933d	18	static const int kNCH=7;
fe4da5cc	19
2ab0c725	20	class TFile;
fe4da5cc	21
237c933d	22	class AliRICHHit;
b251a2b5	23	class AliRICHSDigit;
2e5f0f7b	24	class AliRICHRawCluster;
a4622d0f	25	class AliRICHRecHit1D;
a4622d0f	26	class AliRICHRecHit3D;
2e5f0f7b	27	class AliRICHClusterFinder;
	28	class AliRICHDetect;
	29	class AliRICHChamber;
	30	class AliRICHCerenkov;
a2f7eaf6	31	class AliSegmentation;
2e5f0f7b	32	class AliRICHResponse;
237c933d	33	class AliRICHGeometry;
d8a72780	34	class AliRICHMerger;
ddae0931	35
2f614988	36	class AliRICH : public AliDetector
	37	{
	38
c11ee6f0	39	enum EDebugBits {kDebugStart=BIT(0),kDebugParam=BIT(1),kDebugHit=BIT(2),kDebugDigit=BIT(3),kDebugReco=BIT(4)}; // Debug flags
2f614988	40
2f614988	41	public:
c11ee6f0	42	AliRICH(); // default ctor
	43	AliRICH(const char name, const char title); // named ctor
	44	AliRICH(const AliRICH& RICH); // copy ctor
	45	virtual ~AliRICH(); // dtor
	46	// Pure vituls methods
	47	virtual Int_t IsVersion() const =0;
	48	// The following staff is defined in AliRICHChamber.cxx
	49	virtual void AddHit(Int_t track, Int_t vol, Float_t hits);
	50	virtual void AddCerenkov(Int_t track, Int_t vol, Float_t cerenkovs);
	51	virtual void AddSDigit(Int_t *clhits);
	52	virtual void AddDigits(Int_t id, Int_t tracks, Int_t charges, Int_t *digits);
	53	virtual void AddRawCluster(Int_t id, const AliRICHRawCluster& cluster);
	54	virtual void AddRecHit1D(Int_t id, Float_t* rechit, Float_t* photons, Int_t* padsx, Int_t* padsy);
	55	virtual void AddRecHit3D(Int_t id, Float_t* rechit);
	56
	57	virtual void BuildGeometry(); // TNode ROOT variant for event display
	58	virtual void CreateGeometry(); // GEANT volumes tree for simulation
	59	virtual void CreateMaterials(); // GEANT materials definition
	60	virtual Float_t AbsoCH4(Float_t x);
	61	virtual Float_t Fresnel(Float_t ene,Float_t pdoti, Bool_t pola);
	62	virtual void StepManager();
	63	Int_t DistancetoPrimitive(Int_t px, Int_t py);
	64	virtual void MakeBranch(Option_t opt=" ", const char file=0);
	65	virtual void MakeBranchInTreeD(TTree treeD, const char file=0);
	66	void SetTreeAddress();
	67	virtual void ResetHits();
	68	virtual void ResetDigits();
	69	virtual void ResetRawClusters();
	70	virtual void ResetRecHits1D();
	71	virtual void ResetRecHits3D();
	72	virtual void FindClusters(Int_t nev,Int_t lastEntry);
2f614988	73	// Converters
2f614988	74	virtual void Hits2SDigits();
c11ee6f0	75	virtual Int_t Hits2SDigits(Float_t xhit,Float_t yhit,Float_t eloss,Int_t id, ResponseType res);
2f614988	76	virtual void SDigits2Digits();
	77	virtual void SDigits2Digits(Int_t nev, Int_t flag);
	78	virtual void Digits2Reco();
c11ee6f0	79	// Retrieve pad hits for a given Hit
	80	virtual AliRICHSDigit* FirstPad(AliRICHHit hit, TClonesArray clusters);
	81	virtual AliRICHSDigit* NextPad(TClonesArray *clusters);
	82	// inline methods
	83	TClonesArray *SDigits() const{return fSDigits;}
	84	TClonesArray *Cerenkovs() const{return fCerenkovs;}
2f614988	85
2f614988	86	// Models for chambers
c11ee6f0	87	virtual void SetGeometryModel(Int_t iChamberN, AliRICHGeometry *pRICHGeo) { GetChamber(iChamberN)->SetGeometryModel(pRICHGeo);}
c11ee6f0	88	AliRICHGeometry* GetGeometryModel(Int_t iChamberN=0) const{return GetChamber(iChamberN)->GetGeometryModel();}
2f614988	89
c11ee6f0	90	virtual void SetSegmentationModel(Int_t iChamberN, AliSegmentation *pAliSeg) { GetChamber(iChamberN)->SetSegmentationModel(pAliSeg);}
c11ee6f0	91	AliSegmentation* GetSegmentationModel(Int_t iChamberN=0) const{return GetChamber(iChamberN)->GetSegmentationModel();}
2f614988	92
c11ee6f0	93	virtual void SetResponseModel(Int_t iChamberN, AliRICHResponse *pRICHRes) { GetChamber(iChamberN)->SetResponseModel(pRICHRes);}
c11ee6f0	94	AliRICHResponse* GetResponseModel(Int_t iChamberN) const{return GetChamber(iChamberN)->GetResponseModel();}
2f614988	95
c11ee6f0	96	virtual void SetReconstructionModel(Int_t iChamberN, AliRICHClusterFinder *pRICHReco){GetChamber(iChamberN)->SetReconstructionModel(pRICHReco);}
2f614988	97	// Debug staff
	98	void SetDebugLevel(Int_t level) {fDebugLevel=level;}
	99	Int_t GetDebugLevel() const{return fDebugLevel;}
	100
	101	void SetDebugStart() {fDebugLevel+=kDebugStart;} // Controls debug message at the entring point of methods
	102	void ResetDebugStart() {fDebugLevel-=kDebugStart;} // Controls debug message at the entring point of methods
	103	Bool_t IsDebugStart()const{return fDebugLevel&kDebugStart;} // Controls debug message at the entring point of methods
	104
	105	void SetDebugParam() {fDebugLevel+=kDebugParam;} // Controls debug printout for the parameters
	106	void ResetDebugParam() {fDebugLevel-=kDebugParam;} // Controls debug printout for the parameters
	107	Bool_t IsDebugParam()const{return fDebugLevel&kDebugParam;} // Controls debug printout for the parameters
	108
	109	void SetDebugHit() {fDebugLevel+=kDebugHit;} // Controls debug printout for hits
	110	void ResetDebugHit() {fDebugLevel-=kDebugHit;} // Controls debug printout for hits
	111	Bool_t IsDebugHit() const{return fDebugLevel&kDebugHit;} // Controls debug printout for hits
	112
	113	void SetDebugDigit() {fDebugLevel+=kDebugDigit;} // Controls debug printout for digits
	114	void ResetDebugDigit() {fDebugLevel-=kDebugDigit;} // Controls debug printout for digits
	115	Bool_t IsDebugDigit()const{return fDebugLevel&kDebugDigit;} // Controls debug printout for digits
	116
	117	void SetDebugReco() {fDebugLevel+=kDebugReco;} // Controls debug printout for reco
	118	void ResetDebugReco() {fDebugLevel-=kDebugReco;} // Controls debug printout for reco
	119	Bool_t IsDebugReco() const{return fDebugLevel&kDebugReco;} // Controls debug printout for reco
	120
c11ee6f0	121
d8a72780	122	virtual void SetMerger(AliRICHMerger* thisMerger) {fMerger=thisMerger;}
ddae0931	123	// Return reference to Chamber #id
34ead2dd	124	virtual AliRICHChamber& Chamber(Int_t id) {return ((AliRICHChamber ) (*fChambers)[id]);}
c11ee6f0	125	AliRICHChamber* GetChamber(Int_t iChamberN) const{return (AliRICHChamber) (fChambers)[iChamberN];}
ddae0931	126	// Return pointers to digits
34ead2dd	127	TObjArray *Dchambers() {return fDchambers;}
34ead2dd	128	Int_t *Ndch() {return fNdch;}
ddae0931	129	virtual TClonesArray DigitsAddress(Int_t id) {return ((TClonesArray ) (*fDchambers)[id]);}
2e5f0f7b	130	// Return pointers to rec. hits
c11ee6f0	131	TObjArray *RecHits1D() const{return fRecHits1D;}
	132	Int_t *Nrechits1D() {return fNrechits1D;} // returns array
	133	Int_t *Nrechits3D() {return fNrechits3D;} // returns array
	134	virtual TClonesArray RecHitsAddress1D(Int_t id) const{return ((TClonesArray ) (*fRecHits1D)[id]);}
	135	TObjArray *RecHits3D() const{return fRecHits3D;}
	136	virtual TClonesArray RecHitsAddress3D(Int_t id) const{return ((TClonesArray ) (*fRecHits3D)[id]);}
	137	virtual TClonesArray RawClustAddress(Int_t id) const{return ((TClonesArray ) (*fRawClusters)[id]);}
237c933d	138	// Assignment operator
c11ee6f0	139	AliRICH& operator=(const AliRICH& rhs);
52042918	140
c11ee6f0	141	virtual void DiagnosticsFE(Int_t evNumber1=0,Int_t evNumber2=0); // Full events
	142	virtual void DiagnosticsSE(Int_t diaglevel,Int_t evNumber1=0,Int_t evNumber2=0); // Single events
	143
	144	inline virtual void Print(Option_t *option)const; // Prints debug information
2f614988	145
2f614988	146	protected:
c11ee6f0	147	TObjArray *fChambers; // List of RICH chambers aka modules
	148	Int_t fNSDigits; // Number of clusters
	149	Int_t fNcerenkovs; // Number of cerenkovs
	150	TClonesArray *fSDigits; // List of clusters
	151	TObjArray *fDchambers; // List of digits
	152	TClonesArray *fCerenkovs; // List of cerenkovs
	153	Int_t fNdch[kNCH]; // Number of digits
	154	TObjArray *fRawClusters; // List of raw clusters
	155	TObjArray *fRecHits1D; // List of rec. hits
	156	TObjArray *fRecHits3D; // List of rec. hits
	157	Int_t fNrawch[kNCH]; // Number of raw clusters
	158	Int_t fNrechits1D[kNCH]; // Number of rec hits
	159	Int_t fNrechits3D[kNCH]; // Number of rec hits
	160	Int_t fDebugLevel; // Source debugging level
	161
	162	Int_t fCkovNumber; // Number of Cerenkov photons
	163	Int_t fCkovQuarz; // Cerenkovs crossing quartz
	164	Int_t fCkovGap; // Cerenkovs crossing gap
	165	Int_t fCkovCsi; // Cerenkovs crossing csi
	166	Int_t fLostRfreo; // Cerenkovs reflected in freon
	167	Int_t fLostRquar; // Cerenkovs reflected in quartz
	168	Int_t fLostAfreo; // Cerenkovs absorbed in freon
	169	Int_t fLostAquarz; // Cerenkovs absorbed in quartz
	170	Int_t fLostAmeta; // Cerenkovs absorbed in methane
	171	Int_t fLostCsi; // Cerenkovs below csi quantum efficiency
	172	Int_t fLostWires; // Cerenkovs lost in wires
	173	Int_t fFreonProd; // Cerenkovs produced in freon
	174	Float_t fMipx; // x coord. of MIP
	175	Float_t fMipy; // y coord. of MIP
	176	Int_t fFeedbacks; // Number of feedback photons
	177	Int_t fLostFresnel; // Cerenkovs lost by Fresnel reflection
d8a72780	178
d8a72780	179
2f614988	180	// Background event for event mixing
	181	Text_t *fFileName; //! File with background hits
	182	AliRICHMerger *fMerger; //! pointer to merger
ddae0931	183
c11ee6f0	184	ClassDef(AliRICH,1) // Main RICH class
c11ee6f0	185	};//class AliRICH
2f614988	186
	187	inline void AliRICH::Print(Option_t *option)const
	188	{
c11ee6f0	189	TObject::Print(option);
2f614988	190	if(IsDebugParam()){
c11ee6f0	191	GetGeometryModel(0)->Print(option);
	192	GetSegmentationModel(0)->Print(option);
	193	GetResponseModel(0)->Print(option);
2f614988	194	}
2f614988	195	}//inline void AliRICH::Print(Option_t *option)const
fe4da5cc	196
2f614988	197	#endif