Added functionalities in display the RICH event and pattern recognition. Minor bugs...
[u/mrichter/AliRoot.git] / RICH / AliRICHTracker.cxx
1 #include "AliRICHTracker.h"
2 #include <AliESD.h>
3 #include <TVector3.h>
4 #include <TTree.h>
5 #include "AliRICH.h"
6 #include "AliRICHHelix.h"
7 #include <AliMagF.h>
8 #include "AliRICHRecon.h"
9 #include <AliStack.h>
10 #include <TParticle.h>
11 #include <TDatabasePDG.h>
12 #include <TMath.h>
13 ClassImp(AliRICHTracker)
14 //__________________________________________________________________________________________________
15 Int_t AliRICHTracker::PropagateBack(AliESD *pESD)
16 {
17   //invoked by AliRecontruction for RICH
18   //if ESD doesn't contain tracks, try to reconstruct with particle from STACK 
19   //(this case is just to forsee a standalone RICH simulation
20   TNtupleD *hn=0;
21   AliDebug(1,"Start pattern recognition");
22   if(pESD->GetNumberOfTracks()) RecWithESD(pESD);
23   else
24     RecWithStack(hn);
25   AliDebug(1,"Stop pattern recognition");
26
27   return 0; // error code: 0=no error;
28 } //pure virtual from AliTracker
29 //__________________________________________________________________________________________________
30 void AliRICHTracker::RecWithESD(AliESD *pESD)
31 {
32   //recontruction from ESD
33   //
34   Int_t iNtracks=pESD->GetNumberOfTracks();
35   Double_t b=GetFieldMap()->SolenoidField()/10;// magnetic field in Tesla
36   AliDebug(1,Form("Start with %i tracks in %f Tesla field",iNtracks,b));
37   Double_t xb[3],pb[3];//tmp storage for track parameters
38   TVector3 x0(0,0,0); TVector3 p0(0,0,0);//tmp storage for AliRICHHelix
39   
40   AliRICH *pRich=((AliRICH*)gAlice->GetDetector("RICH"));
41   
42   for(Int_t iTrackN=0;iTrackN<iNtracks;iTrackN++){//ESD tracks loop
43     AliESDtrack *pTrack = pESD->GetTrack(iTrackN);// get next reconstructed track
44 //  if((pTrack->GetStatus()&AliESDtrack::kTOFout)==0) continue; //ignore tracks not recontructed by TOF
45     pTrack->GetXYZ(xb); 
46     pTrack->GetPxPyPz(pb); 
47     Int_t status=pTrack->GetStatus()&AliESDtrack::kTOFout;//get running track parameters
48     AliDebug(1,Form("Track %i pmod=%f mass=%f stat=%i",iTrackN,pTrack->GetP(),pTrack->GetMass(),status));
49     x0.SetXYZ(xb[0],xb[1],xb[2]); p0.SetXYZ(xb[0],xb[1],xb[2]);
50     AliRICHHelix helix(x0,p0,pTrack->GetSign(),b);   
51     Int_t iChamber=helix.RichIntersect(pRich->P());        
52     AliDebug(1,Form("intersection with %i chamber found",iChamber));
53     if(!iChamber) continue;//intersection with no chamber found
54     
55     Double_t distMip=9999; //min distance between clusters and track position on PC 
56     Int_t iMipId=0; //index of that min distance cluster 
57     for(Int_t iClusN=0;iClusN<pRich->Clusters(iChamber)->GetEntries();iClusN++){//clusters loop for intersected chamber
58       AliRICHcluster *pClus=(AliRICHcluster*)pRich->Clusters(iChamber)->UncheckedAt(iClusN);//get pointer to current cluster
59       Double_t distCurrent=pClus->DistTo(helix.PosPc());//ditance between current cluster and helix intersection with PC
60       if(distCurrent<distMip){distMip=distCurrent;iMipId=iClusN;}//find cluster nearest to the track 
61       
62       AliDebug(1,Form("Ploc (%f,%f,%f) dist= %f",helix.Ploc().Mag(),helix.Ploc().Theta()*TMath::RadToDeg(),
63                                                                     helix.Ploc().Phi()*TMath::RadToDeg(),pClus->DistTo(helix.PosPc())));
64     }////clusters loop for intersected chamber
65     
66     AliDebug(1,Form("Min distance cluster: %i dist is %f",iMipId,distMip));
67     
68     AliRICHRecon recon(&helix,pRich->Clusters(iChamber),iMipId);
69     Double_t thetaCerenkov=recon.ThetaCerenkov(); //search for mean Cerenkov angle for this track
70     AliDebug(1,Form("FINAL Theta Cerenkov=%f",thetaCerenkov));
71     pTrack->SetRICHsignal(thetaCerenkov);
72         
73 //    Double_t richPID[5]={0.2,0.2,0.2,0.2,0.2}; //start with equal probs for (e,mu,pi,k,p)
74 //    CalcProb(thetaCerenkov,p0.Mag(),richPID);
75 //    pTrack->SetRICHpid(richPID);         
76     
77   }//ESD tracks loop
78   AliDebug(1,"Stop.");  
79 } //RecWithESD
80 //__________________________________________________________________________________________________
81 void AliRICHTracker::RecWithStack(TNtupleD *hn)
82 {
83   // reconstruction for particles from STACK
84   //
85   AliRICH *pRich=((AliRICH*)gAlice->GetDetector("RICH"));
86   
87 //  pRich->GetLoader()->GetRunLoader()->LoadHeader();
88   pRich->GetLoader()->GetRunLoader()->LoadKinematics();
89   AliStack *pStack =   pRich->GetLoader()->GetRunLoader()->Stack();
90   Int_t iNtracks=pStack->GetNtrack();
91   AliDebug(1,Form(" Start reconstruction with %i track(s) from Stack",iNtracks));
92   
93   Double_t hnvec[12];
94   
95   Double_t b=GetFieldMap()->SolenoidField()/10;// magnetic field in Tesla
96   AliDebug(1,Form("Start with simulated %i tracks in %f Tesla field",iNtracks,b));
97   TVector3 x0(0,0,0); TVector3 p0(0,0,0);//tmp storage for AliRICHHelix
98   
99
100   if(pRich->GetLoader()->LoadRecPoints()) {AliDebug(1,Form("No clusters found in RICH"));return;}
101   pRich->GetLoader()->TreeR()->GetEntry(0);
102
103   for(Int_t iTrackN=0;iTrackN<iNtracks;iTrackN++){//ESD tracks loop
104     TParticle *pParticle = pStack->Particle(iTrackN);
105     if(pParticle->GetMother(0)!=-1) continue; //consider only primaries
106     if(pParticle->GetPDG()->Charge()==0) continue; //to avoid photons from stack...
107     hnvec[0]=pParticle->P();
108     hnvec[1]=pParticle->GetPDG()->Charge();
109     hnvec[2]=pParticle->Theta();
110     hnvec[3]=pParticle->Phi();
111     p0.SetMagThetaPhi(pParticle->P(),pParticle->Theta(),pParticle->Phi());
112     x0.SetXYZ(pParticle->Vx(),pParticle->Vy(),pParticle->Vz());
113     AliRICHHelix helix(x0,p0,Int_t(pParticle->GetPDG()->Charge()/3+0.1),b);   
114     Int_t iChamber=helix.RichIntersect(pRich->P());        
115     AliDebug(1,Form("intersection with %i chamber found",iChamber));
116     if(!iChamber) continue;// no intersection with RICH found
117     hnvec[4]=helix.PosPc().X();
118     hnvec[5]=helix.PosPc().Y();
119     Double_t distMip=9999;   //min distance between clusters and track position on PC 
120     Double_t mipX=kBad;      //min distance between clusters and track position on PC 
121     Double_t mipY=kBad;      //min distance between clusters and track position on PC 
122     Double_t chargeMip=kBad; // charge MIP to find
123     Int_t iMipId=kBad;       //index of that min distance cluster 
124     for(Int_t iClusN=0;iClusN<pRich->Clusters(iChamber)->GetEntries();iClusN++){//clusters loop for intersected chamber
125       AliRICHcluster *pClus=(AliRICHcluster*)pRich->Clusters(iChamber)->UncheckedAt(iClusN);//get pointer to current cluster
126       Double_t distCurrent=pClus->DistTo(helix.PosPc());//ditance between current cluster and helix intersection with PC
127       if(distCurrent<distMip){distMip=distCurrent;mipX=pClus->X();
128                                                   mipY=pClus->Y();
129                                                   chargeMip=pClus->Q();iMipId=1000000*iChamber+iClusN;}//find cluster nearest to the track 
130       
131       AliDebug(1,Form("Ploc (%f,%f,%f) dist= %f",helix.Ploc().Mag(),helix.Ploc().Theta()*TMath::RadToDeg(),
132                                                                     helix.Ploc().Phi()*TMath::RadToDeg(),pClus->DistTo(helix.PosPc())));
133     }////clusters loop for intersected chamber
134     
135     AliDebug(1,Form("Min distance cluster: %i dist is %f",iMipId,distMip));
136     hnvec[6]=mipX;hnvec[7]=mipY;
137     hnvec[8]=chargeMip;
138     AliRICHRecon recon(&helix,pRich->Clusters(iChamber),iMipId);
139     Double_t thetaCerenkov=recon.ThetaCerenkov(); //search for mean Cerenkov angle for this track
140     hnvec[9]=thetaCerenkov;
141     hnvec[10]=recon.GetHoughPhotons();
142     hnvec[11]=(Double_t)iMipId;
143     if(hn) hn->Fill(hnvec);
144     AliDebug(1,Form("FINAL Theta Cerenkov=%f",thetaCerenkov));
145 //    pTrack->SetRICHsignal(thetaCerenkov);
146
147 //    Double_t richPID[5]={0.2,0.2,0.2,0.2,0.2}; //start with equal probs for (e,mu,pi,k,p)
148 //    CalcProb(thetaCerenkov,p0.Mag(),richPID);
149     
150   }//ESD tracks loop
151   
152  pRich->GetLoader()->UnloadRecPoints();
153
154   AliDebug(1,"Stop.");  
155 } //RecWithStack
156
157 Int_t AliRICHTracker::LoadClusters(TTree *pTree)
158 {
159 // Load clusters for RICH
160   AliDebug(1,"Start.");  pTree->GetEntry(0);  AliDebug(1,"Stop."); return 0;
161 }
162
163 //__________________________________________________________________________________________________
164 void AliRICHTracker::CalcProb(Double_t thetaCer,Double_t pmod, Double_t *richPID)
165 {
166 // 
167   Double_t height[5];Double_t totalHeight=0;
168   Int_t code[5]={kElectron,kMuonPlus,kPiPlus,kKPlus,kProton};
169   TDatabasePDG *db = new TDatabasePDG();
170   for(Int_t iPart=0;iPart<4;iPart++){
171     Double_t mass = db->GetParticle(code[iPart])->Mass();
172     Double_t refIndex=AliRICHParam::IndOfRefC6F14(6.755);
173     Double_t cosThetaTh = TMath::Sqrt(mass*mass+pmod*pmod)/(refIndex*pmod);
174     if(cosThetaTh>=1) {break;}
175     Double_t thetaTh = TMath::ACos(cosThetaTh);
176     Double_t sinThetaThNorm = TMath::Sin(thetaTh)/TMath::Sqrt(1-1/(refIndex*refIndex));
177     Double_t sigmaThetaTh = (0.014*(1/sinThetaThNorm-1) + 0.0043)*1.25;
178     height[iPart] = TMath::Gaus(thetaCer,thetaTh,sigmaThetaTh);
179     totalHeight +=height[iPart];
180   }
181   for(Int_t iPart=0;iPart<5;iPart++) richPID[iPart] = height[iPart]/totalHeight;    
182 }//CalcProb