clean up warnings
[u/mrichter/AliRoot.git] / FMD / AliFMDReconstruction.cxx
index db64cc08a89fe9de7e409c565fda67f39b9a656c..e34b88758636082882cd0d6e0d06e717844d7cea 100644 (file)
@@ -27,6 +27,7 @@
 #include "TFile.h"
 #include "TROOT.h"
 #include "TFolder.h"
+#include "TH2F.h"
 
 // --- Standard library ---
 #include <stdlib.h>
 
 // --- AliRoot header files ---
 
+#include "AliRunLoader.h"
+#include "AliLoader.h"
+
 #include "AliFMDdigit.h"
+#include "AliFMDhit.h"
 #include "AliFMDReconstParticles.h"
 #include "AliFMD.h"
 #include "AliFMDv1.h"
 #include "AliFMDReconstruction.h"
 #include "AliRun.h"
+#include "AliConfig.h"
+#include "AliHeader.h"
+#include "AliGenEventHeader.h"
 
 ClassImp(AliFMDReconstruction)
 
@@ -49,142 +57,246 @@ ClassImp(AliFMDReconstruction)
 AliFMDReconstruction::AliFMDReconstruction():TTask("AliFMDReconstruction","") 
 {
   fNevents = 0 ;  // Number of events to rreconnstraction, 0 means all events in current file
-  // add Task to //root/Tasks folder
-  TTask * roottasks = (TTask*)gROOT->GetRootFolder()->FindObject("Tasks") ; 
-  roottasks->Add(this) ; 
+  fRunLoader = 0x0;
+  
 }
 //____________________________________________________________________________ 
 
-AliFMDReconstruction::AliFMDReconstruction(char* HeaderFile, char *ReconstParticlesFile):TTask("AliFMDReconstruction","")
+AliFMDReconstruction::AliFMDReconstruction(AliRunLoader* rl):TTask("AliFMDReconstruction","")
 {
+
+  if (rl == 0x0)
+   {
+     Fatal("AliFMDReconstruction","Argument AliRunLoader* is null!");
+     return;
+   }
+   
   fNevents = 0 ;    // Number of events to rreconnstraction, 0 means all events in current file
-  fReconstParticlesFile=ReconstParticlesFile ;
-  fHeadersFile=HeaderFile ;
+
+  fRunLoader = rl;
+  AliLoader* gime = fRunLoader->GetLoader("FMDLoader");
+  if (gime == 0x0)
+   {
+     Fatal("AliFMDReconstruction","Can not find FMD (loader) in specified event");
+     return;//never reached
+   }
   //add Task to //root/Tasks folder
-  TTask * roottasks = (TTask*)gROOT->GetRootFolder()->FindObject("Tasks") ; 
-  roottasks->Add(this) ;     
+  gime->PostReconstructioner(this);
 }
 
 //____________________________________________________________________________ 
 
 AliFMDReconstruction::~AliFMDReconstruction()
 {
 }
 
 //____________________________________________________________________________
 
-void AliFMDReconstruction::Exec(Option_t *option
+void AliFMDReconstruction::Exec() 
 { 
  //Collects all digits in the same active volume into number of particles
-
-  AliFMD * FMD = (AliFMD *) gAlice->GetDetector("FMD");
-  TClonesArray *fReconParticles=FMD->ReconParticles();
-  if(fNevents == 0) fNevents=(Int_t)gAlice->TreeD()->GetEntries(); 
-  for(Int_t ievent=0;ievent<fNevents;ievent++)
+  /*
+    Reconstruct number of particles 
+    in given group of pads for given FMDvolume
+    determine by numberOfVolume , 
+    numberOfMinSector,numberOfMaxSector,
+    numberOfMinRing, numberOgMaxRing
+    Reconstruction method choose dependence on number of empty pads  
+  */
+
+
+  cout<<"\nStart AliFMDReconstruction::Exec(...)"<<endl;
+  Int_t const knumVolumes=5;
+  Int_t padADC;
+  Float_t eta, etain,etaout,rad,theta;
+  Int_t ivol, iSector, iRing;
+  Float_t rin[5]={4.2,15.4,4.2,15.4,4.2};
+  Float_t rout[5]={17.4,28.4,17.4,28.4,17.4};
+  Float_t z[5]={-62.8, -75.2, 83.4, 75.2, 340.};
+  Int_t numberOfRings[5]={512,256,512,256,512};
+  Int_t numberOfSectors[5]=  {20,40,20,40,20};
+  Int_t numberOfEtaIntervals[5];
+  // number of ring for boundary 0.1 eta
+
+  
+  if (fRunLoader == 0x0)
+   {
+    Error("Exec","Run Loader loader is NULL - Session not opened");
+    return;
+   }
+ AliLoader* gime = fRunLoader->GetLoader("FMDLoader");
+  if (gime == 0x0)
+   {
+     Fatal("AliFMDReconstruction","Can not find FMD (loader) in specified event");
+     return;//never reached
+   }
+   
+  fRunLoader->LoadgAlice();
+  fRunLoader->LoadHeader();
+  Int_t retval;
+  TDirectory* cwd = gDirectory;
+  gDirectory = 0x0;
+    Text_t buf1[20];
+  TH2F* hTotal[10];
+  for (Int_t j=1; j<=5; j++){
+    sprintf(buf1,"hTotal%d",j);
+    
+    hTotal[j] = new TH2F(buf1," Number of primary particles ",
+                        numberOfSectors[j-1],1,numberOfSectors[j-1],
+                        numberOfRings[j-1],1,numberOfRings[j-1]);
+  }   
+  gDirectory = cwd;
+       
+  if(fNevents == 0) fNevents=Int_t (fRunLoader->TreeE()->GetEntries()); 
+  cout<<" fNevents "<<fNevents<<endl;
+   for(Int_t ievent=0;ievent<fNevents;ievent++)
     { 
-      gAlice->GetEvent(ievent) ;
-      if(gAlice->TreeH()==0) return; 
-      if(gAlice->TreeR()==0) gAlice->MakeTree("R");
-      //Make branches
-      FMD->MakeBranch("R");
+      fRunLoader->GetEvent(ievent) ;
+
+      cout<<" ievent "<<ievent<<endl;
+    for (Int_t i=0; i<5; i++)
+        hTotal[i+1]->Reset();
       
-      Int_t threshold[]={ 0,     14,  28,    42,   57, 
-                         72,    89,  104,  124,  129, 
-                         164,  174,  179,  208,  228, 
-                         248,  268,   317,  337,  357, 
-                         392,  407,  416,  426,  436, 
-                         461,  468,  493,  506,  515, 
-                         541,  566,  592,  617,  642, 
-                         668,  693,  719,  744,  770, 
-                         795,  821,  846,  871,  897, 
-                         922,  948,  973,  999, 1024};
+      retval = gime->LoadDigits("READ"); 
+      if (retval)
+       {
+         Error("Exec","Error occured while loading digits. Exiting.");
+         return;
+       }
       
+      AliFMD * fFMD = (AliFMD *) gAlice->GetDetector("FMD");
+      TClonesArray *fReconParticles=fFMD->ReconParticles();
+      TClonesArray *fDigits=fFMD->Digits();
+      TTree* treeD = gime->TreeD();
+      if (treeD == 0x0)
+       {
+         Error("Exec","Can not get Tree with Digits. Nothing to reconstruct - Exiting");
+         return;
+       }
+      
+      TBranch *brDigits=0;
+           
+      brDigits=treeD->GetBranch("FMD");
+      cout<<" brDigits "<<brDigits<<endl;
+      if (brDigits) {
+       brDigits->SetAddress(&fDigits);
+       //        fFMD->SetHitsAddressBranch(brHits);
+      }else{
+       cerr<<"EXEC Branch FMD digits not found"<<endl;
+       return;
+      } 
+         
+      if(gime->TreeR()==0) gime->MakeTree("R");
+
+      //Make branches
+      fFMD->MakeBranch("R");
 
-      /*
-       Int_t threshold[]={    0,  18,  37,  56,   76, 
-                             96, 119, 138, 165,  172, 
-                                    218, 231, 238, 277,  304, 
-                            330, 357, 423, 449,  476, 
-                            522, 542, 555, 568,  581, 
-                             614, 624, 657, 674,  687, 
-                            700, 713, 720, 727,  733, 
-                            740, 759, 778, 797,  816, 
-                            834, 853, 872, 891,  910, 
-                            929, 948, 967, 986,  1024};
-      */
       
-      int threshold_array_size=sizeof(threshold)/sizeof(threshold[0]);
+      Int_t zeroADC=6;
       AliFMDdigit  *fmdDigit;
-      //    cout<<" AliFMDdigit "<<AliFMDdigit<<endl;
-      if (FMD)
+       if (fFMD)
        {
-         gAlice->TreeD()->GetEvent(0); 
-         TClonesArray *FMDdigits=FMD->Digits();
-         Int_t nDigits=FMDdigits->GetEntries();
-          Int_t RecParticles[4];
-          Int_t nRecPart=0 ;
+         gime->TreeD()->GetEvent(0); 
+                 
+         Int_t nDigits=fDigits->GetEntries();
+         cout<<" nDigits "<<nDigits<<endl;
+         Int_t recParticles[6];
+         Int_t nRecPart=0 ;
+          Int_t zeroPads=0;
+          Int_t numberOfPads=0; //To avoid warning
+          Int_t pedestal;
+          Float_t channelWidth=(22400*50)/1024;
           for (Int_t digit=0;digit<nDigits;digit++) 
             {
-             fmdDigit=(AliFMDdigit*)FMDdigits->UncheckedAt(digit);    
-             RecParticles[0] = fmdDigit->Volume();
-             RecParticles[1] = fmdDigit->NumberOfSector();
-             RecParticles[2] = fmdDigit->NumberOfRing();
-             Int_t ADC=fmdDigit->ADCsignal(); 
-             RecParticles[3]=0; //case when fmdDigit->ADCsignal()==0
-             for (int i=0;i<threshold_array_size-1;i++)
-                   {
-                     if(ADC>threshold[i]&&ADC<=threshold[i+1])
-                        RecParticles[3]=i;              
-                   }
-             new((*fReconParticles)[nRecPart++]) AliFMDReconstParticles(RecParticles); 
-            } //digit loop
-        }//if FMD
-       gAlice->TreeR()->Reset();
-       gAlice->TreeR()->Fill(); 
-       gAlice->TreeR()->Write(0,TObject::kOverwrite);
+              fmdDigit=(AliFMDdigit*)fDigits->UncheckedAt(digit);    
+              ivol=fmdDigit->Volume();
+              iSector=fmdDigit->NumberOfSector();
+              iRing=fmdDigit->NumberOfRing();
+              pedestal=Int_t(gRandom->Gaus(500,250));
+              padADC= fmdDigit->ADCsignal()
+                -Int_t(Float_t(pedestal)/channelWidth);
+              if (padADC<0) padADC=0;
+              hTotal[ivol]->Fill(iSector,iRing,padADC);
+            } //digit loop
+          Int_t rmin=0; Int_t rmax=0; //To avoid warning
+          Int_t smin=0; Int_t smax=0; //To avoid warning
+          AliHeader *header = fRunLoader->GetHeader();
+          AliGenEventHeader* genHeader = header->GenEventHeader();
+          TArrayF *o = new TArrayF(3); 
+          genHeader->PrimaryVertex(*o);
+          Float_t zVertex=o->At(2);
+          for (ivol=0; ivol<knumVolumes; ivol++)
+            {
+               Float_t ring2number=Float_t (numberOfRings[ivol])/
+                 (rout[ivol]-rin[ivol]);
+               Float_t realZ=zVertex+z[ivol];
+               theta=TMath::ATan(rout[ivol]/TMath::Abs(realZ));
+               etain = - TMath::Log( TMath::Tan(theta/2.));
+               theta=TMath::ATan(rin[ivol]/TMath::Abs(realZ));
+               etaout=- TMath::Log( TMath::Tan(theta/2.));
+               numberOfEtaIntervals[ivol]=Int_t((etaout-etain)*10)-1;
+               eta=etain;
+               for (Int_t e1=0;e1<=numberOfEtaIntervals[ivol];e1++) 
+                 {
+                   theta = 2.*TMath::ATan (TMath::Exp (-eta));
+                   Float_t radmin = TMath::Abs(realZ) * (TMath::Tan (theta));
+                   rmax= Int_t ( (radmin-rin[ivol])*ring2number+0.5);
+                   cout<<ivol<<" "<<" eta "<<eta<<" radmin "<<radmin<<
+
+                     " Rmax "<<rmax<<" "<<endl;;
+                   eta=eta+0.1;
+                   theta = 2.*TMath::ATan (TMath::Exp (-eta));
+                   rad = TMath::Abs(realZ) * (TMath::Tan (theta));
+                   rmin=Int_t( (rad-rin[ivol])*ring2number+0.5);
+                   cout<<"eta "<<eta<<" rad "<<rad<<" Rmin "<<rmin<<endl;
+                   //      if(ivol==2&&e1==13) rmin=0;
+                   zeroPads=0;
+                   smin=0;
+                   smax=numberOfSectors[ivol]; 
+                   numberOfPads=(rmax-rmin)*(smax-smin);
+                   for (Int_t iring=rmin; iring<rmax; iring++) 
+                     {
+                       for 
+                         (Int_t isector=0;
+                          isector<numberOfSectors[ivol]; 
+                          isector++) 
+                         {
+                          if(hTotal[ivol+1]->GetBinContent(isector+1,iring+1)
+                            <zeroADC) zeroPads++;}
+
+                     } //ring
+                   Float_t numberOfPads=Float_t(smax-smin)*Float_t(rmax-rmin);
+
+                   cout<<" zero "<<zeroPads++<<" pads "<<numberOfPads;
+                   Double_t lambda=-TMath::Log(Double_t(zeroPads)/numberOfPads);
+                   Int_t fRecon=Int_t (lambda*numberOfPads+0.5);
+                   
+                   Float_t zerosRatio= 
+                     (Float_t)zeroPads/(Float_t)numberOfPads;
+                   cout<<" zerosRatio "<<zerosRatio<<" recon "<<fRecon<<endl;
+                   recParticles[0]=ivol+1;
+                   recParticles[1]=smin;
+                   recParticles[2]=smax;
+                   recParticles[3]=rmin;
+                   recParticles[4]=rmax;
+                   recParticles[5]= fRecon;
+                   new((*fReconParticles)[nRecPart++]) 
+                     AliFMDReconstParticles(recParticles);             
+
+
+                } // eta
+            } // volume
+          
+       }//if FMD
+       gime->TreeR()->Reset();
+       gime->TreeR()->Fill(); 
+       gime->WriteRecPoints("OVERWRITE");
     } //event loop
   cout<<"\nAliFMDReconstruction::Exec finished"<<endl;
 }
-//__________________________________________________________________
-
-void AliFMDReconstruction::SetReconstParticlesFile(char * file )
-{
-   if (!fReconstParticlesFile.IsNull()) 
-    cout<<"\nChanging reconstructed particles file from "<<
-      (char *) fReconstParticlesFile.Data()<< " to "<<file<<endl;
-    fReconstParticlesFile=file;
-}
-//__________________________________________________________________
-void AliFMDReconstruction::Print(Option_t* option)const
-{
-  cout<<"------------------- "<<GetName() <<" -------------"<< endl ;
-  if(fReconstParticlesFile.IsNull())
-    cout<<"\nWriting reconstructed particles to file"<<endl ;
-  else
-    cout<<"\nWriting reconstructed particles to file  "<<
-      (char*) fReconstParticlesFile.Data() << endl ;
-}
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