6880566ea237593d56eadfc18912c3daca50e4f1
[u/mrichter/AliRoot.git] / RICH / AliRICH.h
1 #ifndef AliRICH_h
2 #define AliRICH_h
3
4 /* Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. *
5  * See cxx source for full Copyright notice                               */
6
7 #include <TObjArray.h>
8 #include <TClonesArray.h>
9 #include <TLorentzVector.h>
10 #include <AliDetector.h>
11 #include <AliHit.h>
12 #include <AliDigit.h>
13 #include "AliRICHDigitizer.h"
14 #include "AliRICHParam.h"
15 #include <Riostream.h>
16
17 //__________________AliRICHhit______________________________________________________________________
18 class AliRICHhit : public AliHit
19 {
20 public:
21   AliRICHhit():AliHit() {fChamber=fPid=kBad;  fEloss=kBad;  fInX3.SetXYZ(0,0,0);fOutX3.SetXYZ(0,0,0);
22                          fMomX=fMomY=fMomZ=fNPads=fCerenkovAngle=fMomFreoX=fMomFreoY=fMomFreoZ=kBad;}
23   AliRICHhit(Int_t c,Int_t tid,TVector3 in,TVector3 out,Double_t e):AliHit(0,tid) {fInX3=in; fOutX3=out; fChamber=c; fEloss=e;
24                                                                                        fX=out.X();fY=out.Y();fZ=out.Z(); 
25                                             fPid=kBad;fMomX=fMomY=fMomZ=fNPads=fCerenkovAngle=fMomFreoX=fMomFreoY=fMomFreoZ=kBad;}
26   inline   AliRICHhit(Int_t fIshunt, Int_t track, Int_t *vol, Float_t *hits);                  //old version 3 ????? 
27   virtual ~AliRICHhit()         {;}
28
29   Int_t   C()                   const{return fChamber;}
30   Int_t   Chamber()             const{return fChamber;}
31   Int_t   Pid()                 const{return fPid;}    
32   Int_t   Particle()            const{return fPid;}
33   Float_t Eloss()               const{return fEloss;}
34   Float_t MomX()                const{return fMomX;}
35   Float_t MomY()                const{return fMomY;}
36   Float_t MomZ()                const{return fMomZ;}
37   Float_t CerenkovAngle()       const{return fCerenkovAngle;}
38   Float_t MomFreoX()            const{return fMomFreoX;}
39   Float_t MomFreoY()            const{return fMomFreoY;}
40   Float_t MomFreoZ()            const{return fMomFreoZ;}
41   TVector3 InX3()               const{return fInX3;}
42   TVector3 OutX3()              const{return fOutX3;}
43   Double_t Length()             const{return (fOutX3-fInX3).Mag();}
44   void    Print(Option_t *option="")const;      //virtual
45 protected:
46   Int_t     fChamber;                      //chamber number
47   Int_t     fPid;                          //particle code
48   Double_t  fEloss;                        //ionisation energy loss in GAP
49   Float_t   fMomX,fMomY,fMomZ;             //momentum at photochatode entry point
50   Float_t   fNPads;                        //Pads hit
51   Float_t   fCerenkovAngle;                //Dummy cerenkov angle
52   Float_t   fMomFreoX,fMomFreoY,fMomFreoZ; //momentum at freon entry point
53   TVector3  fInX3;                         //position at the entrance of the GAP   
54   TVector3  fOutX3;                        //position at exit of the GAP
55   ClassDef(AliRICHhit,2)                   //RICH hit class
56 };//class AliRICHhit
57 //__________________________________________________________________________________________________
58 AliRICHhit::AliRICHhit(Int_t shunt, Int_t track, Int_t *vol, Float_t *hit)
59            :AliHit(shunt, track)
60 {
61 // old ctor to be deleted
62   fChamber=vol[0];
63   fPid=(Int_t)hit[0];
64   fX=hit[1];fY=hit[2];fZ=hit[3];
65   fEloss=hit[7];
66   fMomX=hit[14];fMomY=hit[15];fMomZ=hit[16];
67   fCerenkovAngle=hit[18];
68   fMomFreoX=hit[19];fMomFreoY=hit[20];fMomFreoZ=hit[21];
69 }
70
71 //__________________AliRICHdigit____________________________________________________________________
72 class AliRICHdigit :public AliDigit
73 {
74 public:
75            AliRICHdigit() {fCombiPid=fChamber=fPadX=fPadY=fTracks[0]=fTracks[1]=fTracks[2]=kBad;fQdc=kBad;}
76            AliRICHdigit(Int_t c,Int_t x,Int_t y,Double_t q,Int_t cpid,Int_t tid0,Int_t tid1,Int_t tid2)
77            {fPadX=x;fPadY=y;fQdc=q;fChamber=10*c+AliRICHParam::Sector(x,y);fCombiPid=cpid;fTracks[0]=tid0;fTracks[1]=tid1;fTracks[2]=tid2;}        
78   virtual ~AliRICHdigit() {;}  
79   Int_t    Compare(const TObject *pObj) const                                         //virtual
80            {if(Id()==((AliRICHdigit*)pObj)->Id()) return 0; else if(Id()>((AliRICHdigit*)pObj)->Id()) return 1;  else return -1;} 
81            
82            Bool_t   IsSortable()                                  const{return kTRUE;}//virtual
83            Int_t    CombiPid()                                    const{return fCombiPid;}
84            Int_t    C()                                           const{return fChamber/10;}
85            Int_t    S()                                           const{return fChamber-(fChamber/10)*10;} 
86            Int_t    Chamber()                                     const{return C();}
87            Int_t    Sector()                                      const{return S();}
88            Int_t    X()                                           const{return fPadX;}
89            Int_t    Y()                                           const{return fPadY;}
90            Int_t    Id()                                          const{return fChamber*10000000+fPadX*1000+fPadY;}
91            Double_t Q()                                           const{return fQdc;}
92            Int_t    Tid(Int_t i)                                  const{return fTracks[i];}
93            void  Print(Option_t *option="")const;                 //virtual
94 protected:
95   Int_t    fCombiPid; //1000000*Ncerenkovs+1000*Nfeedbacks+Nmips  
96   Int_t    fChamber;  //10*chamber number+ sector number 
97   Int_t    fPadX;     //pad number along X
98   Int_t    fPadY;     //pad number along Y
99   Double_t fQdc;      //QDC value, fractions are permitted for summable procedure  
100   ClassDef(AliRICHdigit,2) //RICH digit class       
101 };//class AliRICHdigit
102
103 //__________________AliRICHcluster__________________________________________________________________
104 class AliRICHcluster :public TObject
105 {
106 public:
107   enum ClusterStatus {kEdge,kShape,kSize,kRaw,kResolved};
108                     AliRICHcluster()                                 {fSize=fQdc=fStatus=fChamber=fDimXY=0;fX=fY=kBad;fDigits=0;}
109   virtual          ~AliRICHcluster()                                 {delete fDigits;}  
110   AliRICHcluster&   operator=(const AliRICHcluster&)                 {return *this;}
111          Int_t      Nlocals()                                   const{return fSize - 10000*(fSize/10000);} //
112          Int_t      Size()                                      const{return fSize/10000;}                 //
113          Int_t      Fsize()                                     const{return fSize;}                       //
114          Int_t      DimXY()                                     const{return fDimXY;}                      //
115          Int_t      C()                                         const{return fChamber/10;}                 //
116          Int_t      S()                                         const{return fChamber-(fChamber/10)*10;}   //
117          Int_t      Fchamber()                                  const{return fChamber;}                    //
118          Int_t      Chamber()                                   const{return C();}                         //
119          Int_t      Sector()                                    const{return S();}                         //
120          Int_t      Q()                                         const{return fQdc;}                        // 
121          Double_t   X()                                         const{return fX;}                          //
122          Double_t   Y()                                         const{return fY;}                          // 
123          Int_t      Status()                                    const{return fStatus;}                     //
124          void       SetStatus(Int_t status)                          {fStatus=status;}                     //
125          Int_t      Nmips()                                     const{return fCombiPid-1000000*Ncerenkovs()-1000*Nfeedbacks();}  //
126          Int_t      Ncerenkovs()                                const{return fCombiPid/1000000;}           //
127          Int_t      Nfeedbacks()                                const{return (fCombiPid-1000000*Ncerenkovs())/1000;}      //
128          Bool_t     IsPureMip()                                 const{return fCombiPid<1000;}   
129          Bool_t     IsPureCerenkov()                            const{return Nmips()==0&&Nfeedbacks()==0;} //
130          Bool_t     IsPureFeedback()                            const{return Nmips()==0&&Ncerenkovs()==0;} //
131          Int_t      CombiPid()                                  const{return fCombiPid;} //
132          void       SetCombiPid(Int_t ckov,Int_t feeds,Int_t mips)   {fCombiPid=1000000*ckov+1000*feeds+mips;}            //
133          void       Fill(AliRICHcluster *pRaw,Double_t x,Double_t y, Double_t q, Int_t combipid)
134              {fCombiPid=combipid;fChamber=pRaw->Fchamber();fSize=pRaw->Fsize();
135               fQdc=(Int_t)(q*pRaw->Q());fX=x;fY=y;fStatus=kResolved;} //
136          TObjArray* Digits()                                    const{return fDigits;}                     //  
137          void       Print(Option_t *option="")const;                                                       //virtual
138   inline void       AddDigit(AliRICHdigit *pDig);                                                          //
139   inline void       CoG(Int_t nLocals);                                                                                 // 
140          void       Reset() {fSize=fQdc=fStatus=fChamber=fDimXY=kBad;fX=fY=kBad;delete fDigits;fDigits=0;} //
141 protected:
142   Int_t         fCombiPid;    //1000000*Ncerenkovs+1000*Nfeedbacks+Nmips  
143   Int_t         fSize;        //10000*(how many digits belong to this cluster) + nLocalMaxima     
144   Int_t         fDimXY;       //100*xdim+ydim box containing the cluster
145   Int_t         fQdc;         //QDC value
146   Int_t         fChamber;     //10*module number+sector number 
147   Double_t      fX;           //local x postion 
148   Double_t      fY;           //local y postion  
149   Int_t         fStatus;      //flag to mark the quality of the cluster   
150   TObjArray    *fDigits;      //! list of digits forming this cluster
151   ClassDef(AliRICHcluster,2)  //RICH cluster class       
152 };//class AliRICHcluster
153 //__________________________________________________________________________________________________
154 void AliRICHcluster::AddDigit(AliRICHdigit *pDig)
155 {//    
156   if(!fDigits) {fQdc=fSize=fCombiPid=0;fDigits = new TObjArray;}
157   fQdc+=(Int_t)pDig->Q(); fDigits->Add(pDig);
158   fChamber=10*pDig->C()+pDig->S();
159   fSize+=10000;
160 }
161 //__________________________________________________________________________________________________
162 void AliRICHcluster::CoG(Int_t nLocals)
163 {//
164   Int_t xmin=999,ymin=999,xmax=0,ymax=0;   
165   fX=fY=0;
166   for(Int_t iDig=0;iDig<Size();iDig++) {
167     AliRICHdigit *pDig=(AliRICHdigit*)fDigits->At(iDig);
168     Int_t padX = pDig->X();Int_t padY = pDig->Y();Double_t q=pDig->Q();
169     TVector2 x2=AliRICHParam::Pad2Loc(padX,padY);
170     fX += x2.X()*q;fY +=x2.Y()*q;
171     if(padX<xmin)xmin=padX;if(padX>xmax)xmax=padX;if(padY<ymin)ymin=padY;if(padY>ymax)ymax=padY;
172    }
173    fX/=fQdc;fY/=fQdc;//Center of Gravity
174    fDimXY = 100*(xmax-xmin+1)+ymax-ymin+1;//find box containing cluster
175    fSize+=nLocals;
176    fStatus=kRaw;
177 }//CoG()
178 //__________________________________________________________________________________________________
179 class AliRICHreco: public TObject
180 {
181 public:
182             AliRICHreco() {fTid=fNphotons=kBad; fThetaCherenkov=kBad;}
183             AliRICHreco(Int_t tid,Double_t thetaCherenkov,Int_t nPhotons) {fTid=tid;fThetaCherenkov=thetaCherenkov;fNphotons=nPhotons;}
184
185   virtual  ~AliRICHreco() {;}
186
187   void    Print(Option_t *option="")const;      //virtual print
188   
189 protected:
190    Int_t fTid;                 // track Id reference
191    Int_t fNphotons;            // number of photons contributed to the recontruction
192    Double_t fThetaCherenkov;   // reconstructed Theta Cerenkov for a given charged track
193
194    ClassDef(AliRICHreco,1)  //RICH reco class
195
196 };//class AliRICHreco
197 //__________________AliRICH_________________________________________________________________________
198 class AliRICHParam;
199 class AliRICHChamber;
200
201 class AliRICH : public AliDetector 
202 {
203 public:
204             AliRICH();                                            
205             AliRICH(const char *name, const char *title);
206             AliRICH(const AliRICH& RICH):AliDetector(RICH) {;}   
207   virtual  ~AliRICH();                                            
208           
209   AliRICH&  operator=(const AliRICH&)                 {return *this;}
210   virtual Int_t   IsVersion()                                            const =0;            
211           void    Hits2SDigits();                                                                                 //virtual
212   AliDigitizer*   CreateDigitizer(AliRunDigitizer* man) const {return new AliRICHDigitizer(man);}                 //virtual
213   
214   inline  void    CreateHits();    
215   inline  void    CreateSDigits();  
216   inline  void    CreateDigits();  
217   inline  void    CreateClusters();  
218   inline  void    CreateRecos();  
219   void AddHit(Int_t chamber,Int_t tid,TVector3 iX3,TVector3 oX3,Double_t eloss=0)
220              {TClonesArray &tmp=*fHits;new(tmp[fNhits++])AliRICHhit(chamber,tid,iX3,oX3,eloss);} 
221   inline void AddSDigit(Int_t c,Int_t x,Int_t y,Double_t q,Int_t pid,Int_t tid); 
222   void AddDigit(int c,int x,int y,int q,int cpid,int *tid){TClonesArray &tmp=*((TClonesArray*)fDigitsNew->At(c-1));new(tmp[fNdigitsNew[c-1]++])AliRICHdigit(c,x,y,q,cpid,tid[0],tid[1],tid[2]);}  
223   void AddCluster(AliRICHcluster &cl)                     {Int_t c=cl.C()-1;cout<<c<<endl;TClonesArray &tmp=*((TClonesArray*)fClusters->At(c));new(tmp[fNclusters[c]++])AliRICHcluster(cl);}
224   void AddReco(Int_t tid,Double_t thetaCherenkov,Int_t nPhotons) {TClonesArray &tmp=*(TClonesArray*)fRecos;new(tmp[fNrecos++])AliRICHreco(tid,thetaCherenkov,nPhotons);}  
225 //  void ResetHits()     {AliDetector::ResetHits();}  //virtual  
226   void ResetSDigits()  {fNsdigits=0;  if(fSdigits)  fSdigits ->Clear();}                                 
227   void ResetDigits()   {if(fDigitsNew)for(int i=0;i<kNCH;i++){fDigitsNew->At(i)->Clear();fNdigitsNew[i]=0;}}
228   void ResetClusters() {if(fClusters) for(int i=0;i<kNCH;i++){fClusters ->At(i)->Clear();fNclusters[i]=0;}}
229   void ResetRecos()    {if(fRecos) fRecos->Clear();fNrecos=0;}
230                   //Hits provided by AliDetector
231   TClonesArray*   SDigits()             const{return fSdigits;}
232   TClonesArray*   Digits(Int_t iC)      const{if(fDigitsNew) return (TClonesArray *)fDigitsNew->At(iC-1);else return 0;}
233   TClonesArray*   Clusters(Int_t iC)    const{if(fClusters)  return (TClonesArray *)fClusters->At(iC-1);else return 0;}
234   TClonesArray*   Recos()               const{return fRecos;}
235           
236   AliRICHChamber* C(Int_t iC)           const{return (AliRICHChamber*)fChambers->At(iC-1);}
237   AliRICHParam*   Param()               const{return fpParam;}
238   AliRICHParam*   P()                   const{return fpParam;}
239           void    CreateChambers();         
240           void    CreateMaterials(); //virtual
241   virtual void    BuildGeometry();   //virtual
242   virtual void    CreateGeometry();  //virtual
243           Float_t AbsoCH4(Float_t x)const;
244           Float_t Fresnel(Float_t ene,Float_t pdoti, Bool_t pola)const;
245   
246   virtual void    StepManager()=0;
247           void    GenerateFeedbacks(Int_t iChamber,Float_t eloss=0);//eloss=0 for photon
248           void    Print(Option_t *option)const;//virtual
249           void    MakeBranch(Option_t *opt=" ");
250           void    SetTreeAddress();//virtual
251             
252 //          Int_t DistancetoPrimitive(Int_t /*px*/, Int_t /*py*/)      {return 9999;}
253     
254 protected:  
255   enum       {kCSI=6,kGAP=9};
256   AliRICHParam         *fpParam;             //main RICH parametrization     
257   TObjArray            *fChambers;           //list of RICH chambers
258   //fHits and fDigits belong to AliDetector
259   TClonesArray         *fSdigits;            //! List of sdigits  
260   Int_t                 fNsdigits;           //! Current number of sdigits
261   
262   TObjArray            *fDigitsNew;          //! Each chamber holds it's one lists of digits
263   Int_t                 fNdigitsNew[kNCH];   //! Array of current numbers of digits
264   
265   TObjArray            *fClusters;           //! Each chamber holds it's one lists of clusters 
266   Int_t                 fNclusters[kNCH];    //! Array of current numbers of raw clusters
267   
268   TClonesArray         *fRecos;              //! pointer to the list of recos
269   Int_t                 fNrecos;             //! number of recos
270
271   ClassDef(AliRICH,5)                        //Main RICH class 
272 };//class AliRICH  
273
274 //__________________________________________________________________________________________________
275 void AliRICH::CreateHits()
276 {
277   if(fHits) return;
278   if(GetDebug())Info("CreateHits","creating hits container.");
279   fHits=new TClonesArray("AliRICHhit",10000);   fNhits=0;
280 }
281 //__________________________________________________________________________________________________
282 void AliRICH::CreateSDigits()
283 {
284   if(fSdigits) return;
285   if(GetDebug())Info("CreateSDigits","creating sdigits container.");
286   fSdigits=new TClonesArray("AliRICHdigit",10000); fNsdigits=0;
287 }
288 //__________________________________________________________________________________________________
289 void AliRICH::CreateDigits()
290 {
291   if(fDigitsNew) return;
292   if(GetDebug())Info("CreateDigits","creating digits containers.");
293   fDigitsNew = new TObjArray(kNCH);  
294   for(Int_t i=0;i<kNCH;i++) {fDigitsNew->AddAt(new TClonesArray("AliRICHdigit",10000), i); fNdigitsNew[i]=0;}
295 }
296 //__________________________________________________________________________________________________
297 void AliRICH::CreateClusters()
298 {
299   if(fClusters) return;
300   if(GetDebug())Info("CreateClusters","creating clusters containers.");
301   fClusters = new TObjArray(kNCH);  
302   for(Int_t i=0;i<kNCH;i++) {fClusters->AddAt(new TClonesArray("AliRICHcluster",10000), i); fNclusters[i]=0;}
303 }
304 //__________________________________________________________________________________________________
305 void AliRICH::CreateRecos()
306 {
307   if(fRecos) return;
308   if(GetDebug())Info("CreateRecos","creating recos containers.");
309   fRecos = new TClonesArray("AliRICHreco",1000);fNrecos=0;  
310 }
311 //__________________________________________________________________________________________________
312 void AliRICH::AddSDigit(Int_t c,Int_t x,Int_t y,Double_t q,Int_t pid,Int_t tid) 
313 {   
314   switch(pid){
315     case 50000050: pid=1000000;break;//cerenkov
316     case 50000051: pid=1000;   break;//feedback
317     default:       pid=1;      break;//mip
318   }   
319   TClonesArray &tmp=*fSdigits;
320   new(tmp[fNsdigits++])AliRICHdigit(c,x,y,q,pid,tid,kBad,kBad);
321 }//AddSDigit()   
322
323 #endif//#ifndef AliRICH_h