/************************************************************************** * Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. * * * * Author: The ALICE Off-line Project. * * Contributors are mentioned in the code where appropriate. * * * * Permission to use, copy, modify and distribute this software and its * * documentation strictly for non-commercial purposes is hereby granted * * without fee, provided that the above copyright notice appears in all * * copies and that both the copyright notice and this permission notice * * appear in the supporting documentation. The authors make no claims * * about the suitability of this software for any purpose. It is * * provided "as is" without express or implied warranty. * **************************************************************************/ //. // HMPID base class to reconstruct an event //. //. //. #include "AliHMPIDReconstructor.h" //class header #include "AliHMPID.h" //Reconstruct() #include "AliHMPIDCluster.h" //Dig2Clu() #include "AliHMPIDParam.h" //FillEsd() #include //ctor #include //ctor #include //FillEsd() #include //Reconstruct() for raw digits ClassImp(AliHMPIDReconstructor) //++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ AliHMPIDReconstructor::AliHMPIDReconstructor():AliReconstructor(),fUserCut(0),fDaqSig(0),fDig(0),fClu(0) { // //ctor // AliHMPIDParam::Instance(); //geometry loaded for reconstruction fUserCut = new Int_t(7); fClu=new TObjArray(AliHMPIDParam::kMaxCh+1); fClu->SetOwner(kTRUE); fDig=new TObjArray(AliHMPIDParam::kMaxCh+1); fDig->SetOwner(kTRUE); for(int i=AliHMPIDParam::kMinCh;i<=AliHMPIDParam::kMaxCh;i++){ fDig->AddAt(new TClonesArray("AliHMPIDDigit"),i); TClonesArray *pClus = new TClonesArray("AliHMPIDCluster"); pClus->SetUniqueID(i); fClu->AddAt(pClus,i); } AliCDBEntry *pUserCutEnt =AliCDBManager::Instance()->Get("HMPID/Calib/UserCut"); //contains TObjArray of 14 TObject with n. of sigmas to cut charge if(!pUserCutEnt) return; //No request from User to apply a more severe cut on pad charge TObjArray *pUserCut = (TObjArray*)pUserCutEnt->GetObject(); for(Int_t iCh=AliHMPIDParam::kMinCh;iCh<=AliHMPIDParam::kMaxCh;iCh++){ //chambers loop fUserCut[iCh] = pUserCut->At(iCh)->GetUniqueID(); Printf("HMPID: UserCut successfully loaded for chamber %i -> %i ",iCh,fUserCut[iCh]); } AliCDBEntry *pDaqSigEnt =AliCDBManager::Instance()->Get("HMPID/Calib/DaqSig"); //contains TObjArray of TObjArray 14 TMatrixF sigmas values for pads if(!pDaqSigEnt) AliFatal("No pedestals from DAQ!"); fDaqSig = (TObjArray*)pDaqSigEnt->GetObject(); for(Int_t iCh=AliHMPIDParam::kMinCh;iCh<=AliHMPIDParam::kMaxCh;iCh++){ //chambers loop Printf(" HMPID: DaqSigCut successfully loaded for chamber %i -> %i ",iCh,(Int_t)fDaqSig->At(iCh)->GetUniqueID()); } }//AliHMPIDReconstructor //++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ void AliHMPIDReconstructor::Dig2Clu(TObjArray *pDigAll,TObjArray *pCluAll,Bool_t isTryUnfold) { // Finds all clusters for a given digits list provided not empty. Currently digits list is a list of all digits for a single chamber. // Puts all found clusters in separate lists, one per clusters. // Arguments: pDigAll - list of digits for all chambers // pCluAll - list of clusters for all chambers // isTryUnfold - flag to choose between CoG and Mathieson fitting // Returns: none TMatrixF padMap(AliHMPIDParam::kMinPx,AliHMPIDParam::kMaxPcx,AliHMPIDParam::kMinPy,AliHMPIDParam::kMaxPcy); //pads map for single chamber 0..159 x 0..143 for(Int_t iCh=AliHMPIDParam::kMinCh;iCh<=AliHMPIDParam::kMaxCh;iCh++){ //chambers loop TClonesArray *pDigCur=(TClonesArray*)pDigAll->At(iCh); //get list of digits for current chamber if(pDigCur->GetEntriesFast()==0) continue; //no digits for current chamber padMap=(Float_t)-1; //reset map to -1 (means no digit for this pad) TClonesArray *pCluCur=(TClonesArray*)pCluAll->At(iCh); //get list of clusters for current chamber for(Int_t iDig=0;iDigGetEntriesFast();iDig++){ //digits loop to fill pads map AliHMPIDDigit *pDig= (AliHMPIDDigit*)pDigCur->At(iDig); //get current digit padMap( pDig->PadChX(), pDig->PadChY() )=iDig; //fill the map, (padx,pady) cell takes digit index }//digits loop to fill digits map AliHMPIDCluster clu; //tmp cluster to be used as current for(Int_t iDig=0;iDigGetEntriesFast();iDig++){ //digits loop for current chamber AliHMPIDDigit *pDig=(AliHMPIDDigit*)pDigCur->At(iDig); //take current digit if(!(pDig=UseDig(pDig->PadChX(),pDig->PadChY(),pDigCur,&padMap))) continue; //this digit is already taken in FormClu(), go after next digit FormClu(&clu,pDig,pDigCur,&padMap); //form cluster starting from this digit by recursion clu.Solve(pCluCur,isTryUnfold); //solve this cluster and add all unfolded clusters to provided list clu.Reset(); //empty current cluster }//digits loop for current chamber }//chambers loop }//Dig2Clu() //++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ void AliHMPIDReconstructor::FormClu(AliHMPIDCluster *pClu,AliHMPIDDigit *pDig,TClonesArray *pDigLst,TMatrixF *pDigMap) { // Forms the initial cluster as a combination of all adjascent digits. Starts from the given digit then calls itself recursevly for all neighbours. // Arguments: pClu - pointer to cluster being formed // Returns: none pClu->DigAdd(pDig);//take this digit in cluster Int_t cnt=0,cx[4],cy[4]; if(pDig->PadPcX() != AliHMPIDParam::kMinPx){cx[cnt]=pDig->PadChX()-1; cy[cnt]=pDig->PadChY() ;cnt++;} //left if(pDig->PadPcX() != AliHMPIDParam::kMaxPx){cx[cnt]=pDig->PadChX()+1; cy[cnt]=pDig->PadChY() ;cnt++;} //right if(pDig->PadPcY() != AliHMPIDParam::kMinPy){cx[cnt]=pDig->PadChX() ; cy[cnt]=pDig->PadChY()-1;cnt++;} //down if(pDig->PadPcY() != AliHMPIDParam::kMaxPy){cx[cnt]=pDig->PadChX() ; cy[cnt]=pDig->PadChY()+1;cnt++;} //up for (Int_t i=0;iBranch(Form("HMPID%d",iCh),&((*fClu)[iCh]),4000,0); pDigTree->SetBranchAddress(Form("HMPID%d",iCh),&((*fDig)[iCh])); } pDigTree->GetEntry(0); Dig2Clu(fDig,fClu); //cluster finder pCluTree->Fill(); //fill tree for current event for(Int_t iCh=AliHMPIDParam::kMinCh;iCh<=AliHMPIDParam::kMaxCh;iCh++){ fDig->At(iCh)->Clear(); fClu->At(iCh)->Clear(); } AliDebug(1,"Stop."); }//Reconstruct(for simulated digits) //++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ void AliHMPIDReconstructor::Reconstruct(AliRunLoader *pAL,AliRawReader* pRR)const { //Invoked by AliReconstruction to convert raw digits from DDL files to clusters //Arguments: pAL - ALICE run loader pointer // pRR - ALICE raw reader pointer // Returns: none AliLoader *pRL=pAL->GetDetectorLoader("HMPID"); AliHMPID *pRich=(AliHMPID*)pAL->GetAliRun()->GetDetector("HMPID");//get pointers for HMPID and HMPID loader AliHMPIDDigit dig; //tmp digit, raw digit will be converted to it TObjArray digLst; Int_t iDigCnt[7]; for(Int_t i=0;i<7;i++){digLst.AddAt(new TClonesArray("AliHMPIDDigit"),i); iDigCnt[i]=0;} //tmp list of digits for allchambers Int_t iEvtN=0; while(pRR->NextEvent()){//events loop pAL->GetEvent(iEvtN++); pRL->MakeTree("R"); pRich->MakeBranch("R"); for(Int_t iCh=0;iCh<7;iCh++){//chambers loop pRR->Select("HMPID",2*iCh,2*iCh+1);//select only DDL files for the current chamber UInt_t w32=0; while(pRR->ReadNextInt(w32)){//raw records loop (in selected DDL files) UInt_t ddl=pRR->GetDDLID(); //returns 0,1,2 ... 13 dig.Raw(w32,ddl,pRR); AliDebug(1,Form("Ch=%i DDL=%i raw=0x%x digit=(%3i,%3i,%3i,%3i) Q=%5.2f",iCh,ddl,w32,dig.Ch(),dig.Pc(),dig.PadPcX(),dig.PadPcY(),dig.Q())); if(!IsDigSurvive(&dig)) continue; //sigma cut test new((*((TClonesArray*)digLst.At(iCh)))[iDigCnt[iCh]++]) AliHMPIDDigit(dig); //add this digit to the tmp list }//raw records loop pRR->Reset(); }//chambers loop Dig2Clu(&digLst,pRich->CluLst());//cluster finder for all chambers for(Int_t i=0;i<7;i++){digLst.At(i)->Delete(); iDigCnt[i]=0;} //clean up list of digits for all chambers pRL->TreeR()->Fill(); //fill tree for current event pRL->WriteRecPoints("OVERWRITE");//write out clusters for current event pRich->CluReset(); }//events loop pRL->UnloadRecPoints(); }//Reconstruct raw data //++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ void AliHMPIDReconstructor::ConvertDigits(AliRawReader *pRR,TTree *pDigTree)const { //Invoked by AliReconstruction to convert raw digits from DDL files to digits //Arguments: pRR - ALICE raw reader pointer // pDigTree - pointer to Digit tree // Returns: none AliDebug(1,"Start."); AliHMPIDDigit dig; //tmp digit, raw digit will be converted to it for(Int_t iCh=AliHMPIDParam::kMinCh;iCh<=AliHMPIDParam::kMaxCh;iCh++) { pDigTree->Branch(Form("HMPID%d",iCh),&((*fDig)[iCh]),4000,0); pRR->Select("HMPID",2*iCh,2*iCh+1);//select only DDL files for the current chamber Int_t iDigCnt=0; UInt_t w32=0; while(pRR->ReadNextInt(w32)){//raw records loop (in selected DDL files) UInt_t ddl=pRR->GetDDLID(); //returns 0,1,2 ... 13 if(!dig.Raw(w32,ddl,pRR)) continue; AliDebug(1,Form("Ch=%i DDL=%i raw=0x%x digit=(%3i,%3i,%3i,%3i) Q=%5.2f",iCh,ddl,w32,dig.Ch(),dig.Pc(),dig.PadPcX(),dig.PadPcY(),dig.Q())); if(!IsDigSurvive(&dig)) continue; //sigma cut test new((*((TClonesArray*)fDig->At(iCh)))[iDigCnt++]) AliHMPIDDigit(dig); //add this digit to the tmp list }//raw records loop pRR->Reset(); }//chambers loop pDigTree->Fill(); for(Int_t iCh=AliHMPIDParam::kMinCh;iCh<=AliHMPIDParam::kMaxCh;iCh++)fDig->At(iCh)->Clear(); AliDebug(1,"Stop."); }//Reconstruct digits from raw digits //++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ void AliHMPIDReconstructor::FillESD(AliRunLoader *, AliESD *pESD) const { // Calculates probability to be a electron-muon-pion-kaon-proton // from the given Cerenkov angle and momentum assuming no initial particle composition // (i.e. apriory probability to be the particle of the given sort is the same for all sorts) AliPID ppp; //needed Double_t pid[AliPID::kSPECIES],h[AliPID::kSPECIES]; for(Int_t iTrk=0;iTrkGetNumberOfTracks();iTrk++){//ESD tracks loop AliESDtrack *pTrk = pESD->GetTrack(iTrk);// get next reconstructed track if(pTrk->GetHMPIDsignal()<=0){//HMPID does not find anything reasonable for this track, assign 0.2 for all species for(Int_t iPart=0;iPartSetHMPIDpid(pid); continue; } Double_t pmod = pTrk->GetP(); Double_t hTot=0; for(Int_t iPart=0;iPartMeanIdxRad()*pmod); if(cosThetaTh<1) //calculate the height of theoretical theta ckov on the gaus of experimental one h[iPart] =TMath::Gaus(TMath::ACos(cosThetaTh),pTrk->GetHMPIDsignal(),TMath::Sqrt(pTrk->GetHMPIDchi2()),kTRUE); else //beta < 1/ref. idx. => no light at all h[iPart] =0 ; hTot +=h[iPart]; //total height of all theoretical heights for normalization }//species loop Double_t hMin=TMath::Gaus(pTrk->GetHMPIDsignal()-4*TMath::Sqrt(pTrk->GetHMPIDchi2()),pTrk->GetHMPIDsignal(),TMath::Sqrt(pTrk->GetHMPIDchi2()),kTRUE);//5 sigma protection for(Int_t iPart=0;iParthMin) pid[iPart]=h[iPart]/hTot; else //all theoretical values are far away from experemental one pid[iPart]=1.0/AliPID::kSPECIES; pTrk->SetHMPIDpid(pid); }//ESD tracks loop }//FillESD() //++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++