X-Git-Url: http://git.uio.no/git/?p=u%2Fmrichter%2FAliRoot.git;a=blobdiff_plain;f=PHOS%2FAliPHOSReconstructor.cxx;h=468e4176c90a10b17713c3f21650ef455e4ce383;hp=461e350a09d967a2dcacff1fc82500e3311bfbb7;hb=f1731579adf7c07dc59b41b159d7c7857a96c1c2;hpb=d76c31f4f41294d7ae5a31c2c56a682abef0b827 diff --git a/PHOS/AliPHOSReconstructor.cxx b/PHOS/AliPHOSReconstructor.cxx index 461e350a09d..468e4176c90 100644 --- a/PHOS/AliPHOSReconstructor.cxx +++ b/PHOS/AliPHOSReconstructor.cxx @@ -16,68 +16,91 @@ /* $Id$ */ //_________________________________________________________________________ -//*-- -//*-- Yves Schutz (SUBATECH) +//-- +//-- Yves Schutz (SUBATECH) // Reconstruction class. Redesigned from the old AliReconstructionner class and // derived from STEER/AliReconstructor. // // --- ROOT system --- +#include "TGeoManager.h" +#include "TGeoMatrix.h" // --- Standard library --- // --- AliRoot header files --- #include "AliLog.h" +#include "AliAltroMapping.h" #include "AliESDEvent.h" #include "AliESDCaloCluster.h" +#include "AliESDCaloCells.h" #include "AliPHOSReconstructor.h" #include "AliPHOSClusterizerv1.h" #include "AliPHOSTrackSegmentMakerv1.h" #include "AliPHOSPIDv1.h" #include "AliPHOSTracker.h" #include "AliRawReader.h" +#include "AliPHOSCalibData.h" +#include "AliCDBEntry.h" +#include "AliCDBManager.h" #include "AliPHOSTrigger.h" #include "AliPHOSGeometry.h" -#include "AliPHOSRecoParam.h" -#include "AliPHOSRecoParamEmc.h" -#include "AliPHOSRecoParamCpv.h" #include "AliPHOSDigit.h" #include "AliPHOSTrackSegment.h" #include "AliPHOSEmcRecPoint.h" #include "AliPHOSRecParticle.h" -#include "AliPHOSRawDecoder.h" +#include "AliPHOSRawFitterv0.h" +#include "AliPHOSRawFitterv1.h" +#include "AliPHOSRawFitterv2.h" +#include "AliPHOSRawFitterv3.h" +#include "AliPHOSRawFitterv4.h" #include "AliPHOSRawDigiProducer.h" #include "AliPHOSPulseGenerator.h" +#include "AliPHOSTriggerRawDigit.h" +#include "AliPHOSTriggerRawDigiProducer.h" +#include "AliPHOSTriggerParameters.h" ClassImp(AliPHOSReconstructor) Bool_t AliPHOSReconstructor::fgDebug = kFALSE ; -AliPHOSRecoParam* AliPHOSReconstructor::fgkRecoParamEmc =0; // EMC rec. parameters -AliPHOSRecoParam* AliPHOSReconstructor::fgkRecoParamCpv =0; // CPV rec. parameters +TClonesArray* AliPHOSReconstructor::fgDigitsArray = 0; // Array of PHOS digits +TObjArray* AliPHOSReconstructor::fgEMCRecPoints = 0; // Array of EMC rec.points +AliPHOSCalibData * AliPHOSReconstructor::fgCalibData = 0 ; +TClonesArray* AliPHOSReconstructor::fgTriggerDigits = 0; // Array of PHOS trigger digits //____________________________________________________________________________ AliPHOSReconstructor::AliPHOSReconstructor() : - fGeom(NULL) + fGeom(NULL),fClusterizer(NULL),fTSM(NULL),fPID(NULL),fTmpDigLG(NULL) { // ctor - - if (!fgkRecoParamEmc) { - AliWarning("The Reconstruction parameters for EMC nonitialized - Used default one"); - fgkRecoParamEmc = AliPHOSRecoParamEmc::GetEmcDefaultParameters(); - } - - if (!fgkRecoParamCpv) { - AliWarning("The Reconstruction parameters for CPV nonitialized - Used default one"); - fgkRecoParamCpv = AliPHOSRecoParamCpv::GetCpvDefaultParameters(); - } - - fGeom = AliPHOSGeometry::GetInstance("IHEP",""); -} + fGeom = AliPHOSGeometry::GetInstance("IHEP",""); + fClusterizer = new AliPHOSClusterizerv1 (fGeom); + fTSM = new AliPHOSTrackSegmentMakerv1(fGeom); + fPID = new AliPHOSPIDv1 (fGeom); + fTmpDigLG = new TClonesArray("AliPHOSDigit",100); + fgDigitsArray = new TClonesArray("AliPHOSDigit",100); + fgEMCRecPoints = new TObjArray(100) ; + if (!fgCalibData) + fgCalibData = new AliPHOSCalibData(-1); //use AliCDBManager's run number + + fgTriggerDigits = new TClonesArray("AliPHOSTriggerRawDigit",100); + + AliInfo(Form("PHOS bad channel map contains %d bad channel(s).\n", + fgCalibData->GetNumOfEmcBadChannels())); + +} //____________________________________________________________________________ - AliPHOSReconstructor::~AliPHOSReconstructor() +AliPHOSReconstructor::~AliPHOSReconstructor() { // dtor delete fGeom; + delete fClusterizer; + delete fTSM; + delete fPID; + delete fTmpDigLG; + delete fgDigitsArray; + delete fgEMCRecPoints; + delete fgTriggerDigits; } //____________________________________________________________________________ @@ -88,13 +111,13 @@ void AliPHOSReconstructor::Reconstruct(TTree* digitsTree, TTree* clustersTree) c // segment maker needs access to the AliESDEvent object to retrieve the tracks reconstructed by // the global tracking. - AliPHOSClusterizerv1 clu(fGeom); - clu.SetInput(digitsTree); - clu.SetOutput(clustersTree); + fClusterizer->InitParameters(); + fClusterizer->SetInput(digitsTree); + fClusterizer->SetOutput(clustersTree); if ( Debug() ) - clu.Digits2Clusters("deb all") ; + fClusterizer->Digits2Clusters("deb all") ; else - clu.Digits2Clusters("") ; + fClusterizer->Digits2Clusters("") ; } //____________________________________________________________________________ @@ -105,258 +128,562 @@ void AliPHOSReconstructor::FillESD(TTree* digitsTree, TTree* clustersTree, // then it creates AliESDtracks out of them and // write tracks to the ESD - AliPHOSTrackSegmentMaker *tsm = new AliPHOSTrackSegmentMakerv1(fGeom); - AliPHOSPID *pid = new AliPHOSPIDv1(fGeom); - + // do current event; the loop over events is done by AliReconstruction::Run() - tsm->SetESD(esd) ; - tsm->SetInput(clustersTree); + fTSM->SetESD(esd) ; + fTSM->SetInput(clustersTree); if ( Debug() ) - tsm->Clusters2TrackSegments("deb all") ; + fTSM->Clusters2TrackSegments("deb all") ; else - tsm->Clusters2TrackSegments("") ; + fTSM->Clusters2TrackSegments("") ; - pid->SetInput(clustersTree, tsm->GetTrackSegments()) ; - pid->SetESD(esd) ; + fPID->SetInput(clustersTree, fTSM->GetTrackSegments()) ; + fPID->SetESD(esd) ; if ( Debug() ) - pid->TrackSegments2RecParticles("deb all") ; + fPID->TrackSegments2RecParticles("deb all") ; else - pid->TrackSegments2RecParticles("") ; + fPID->TrackSegments2RecParticles("") ; - - // This function creates AliESDtracks from AliPHOSRecParticles - // and - // writes them to the ESD - - TClonesArray *recParticles = pid->GetRecParticles(); - Int_t nOfRecParticles = recParticles->GetEntries(); + TClonesArray *recParticles = fPID->GetRecParticles(); + Int_t nOfRecParticles = recParticles->GetEntriesFast(); + AliDebug(2,Form("%d rec. particles, option %s",nOfRecParticles,GetOption())); - esd->SetNumberOfPHOSClusters(nOfRecParticles) ; - esd->SetFirstPHOSCluster(esd->GetNumberOfCaloClusters()) ; + // Read digits array - AliDebug(2,Form("%d rec. particles, option %s",nOfRecParticles,GetOption())); + TBranch *branch = digitsTree->GetBranch("PHOS"); + if (!branch) { + AliError("can't get the branch with the PHOS digits !"); + return; + } + branch->SetAddress(&fgDigitsArray); + branch->GetEntry(0); + // Get the clusters array - //#########Calculate trigger and set trigger info########### - - AliPHOSTrigger tr ; - // tr.SetPatchSize(1);//create 4x4 patches - tr.Trigger(); + TBranch *emcbranch = clustersTree->GetBranch("PHOSEmcRP"); + if (!emcbranch) { + AliError("can't get the branch with the PHOS EMC clusters !"); + return; + } + + emcbranch->SetAddress(&fgEMCRecPoints); + emcbranch->GetEntry(0); + - Float_t maxAmp2x2 = tr.Get2x2MaxAmplitude(); - Float_t maxAmpnxn = tr.GetnxnMaxAmplitude(); - Float_t ampOutOfPatch2x2 = tr.Get2x2AmpOutOfPatch() ; - Float_t ampOutOfPatchnxn = tr.GetnxnAmpOutOfPatch() ; - - Int_t iSM2x2 = tr.Get2x2SuperModule(); - Int_t iSMnxn = tr.GetnxnSuperModule(); - Int_t iCrystalPhi2x2 = tr.Get2x2CrystalPhi(); - Int_t iCrystalPhinxn = tr.GetnxnCrystalPhi(); - Int_t iCrystalEta2x2 = tr.Get2x2CrystalEta(); - Int_t iCrystalEtanxn = tr.GetnxnCrystalEta(); - - AliDebug(2, Form("Trigger 2x2 max amp %f, out amp %f, SM %d, iphi %d ieta %d", maxAmp2x2, ampOutOfPatch2x2, iSM2x2,iCrystalPhi2x2, iCrystalEta2x2)); - AliDebug(2, Form("Trigger 4x4 max amp %f , out amp %f, SM %d, iphi %d, ieta %d", maxAmpnxn, ampOutOfPatchnxn, iSMnxn,iCrystalPhinxn, iCrystalEtanxn)); - - Int_t iRelId2x2 []= {iSM2x2+1,0,iCrystalPhi2x2,iCrystalEta2x2};// PHOS modules in order to calculate AbsId need to be 1-5 not 0-4 as returns trigger. - Int_t iAbsId2x2 =-1; - Int_t iRelIdnxn []= {iSMnxn+1,0,iCrystalPhinxn,iCrystalEtanxn};// PHOS modules in order to calculate AbsId need to be 1-5 not 0-4 as returns trigger. - Int_t iAbsIdnxn =-1; - TVector3 pos2x2(-1,-1,-1); - TVector3 posnxn(-1,-1,-1); - fGeom->RelToAbsNumbering(iRelId2x2, iAbsId2x2); - fGeom->RelToAbsNumbering(iRelIdnxn, iAbsIdnxn); - fGeom->RelPosInAlice(iAbsId2x2, pos2x2); - fGeom->RelPosInAlice(iAbsIdnxn, posnxn); - - TArrayF triggerPosition(6); - triggerPosition[0] = pos2x2(0) ; - triggerPosition[1] = pos2x2(1) ; - triggerPosition[2] = pos2x2(2) ; - triggerPosition[3] = posnxn(0) ; - triggerPosition[4] = posnxn(1) ; - triggerPosition[5] = posnxn(2) ; - - TArrayF triggerAmplitudes(4); - triggerAmplitudes[0] = maxAmp2x2 ; - triggerAmplitudes[1] = ampOutOfPatch2x2 ; - triggerAmplitudes[2] = maxAmpnxn ; - triggerAmplitudes[3] = ampOutOfPatchnxn ; - - //esd->SetPHOSTriggerCells(triggerPosition); - esd->AddPHOSTriggerPosition(triggerPosition); - esd->AddPHOSTriggerAmplitudes(triggerAmplitudes); + // Trigger - //###################################### + TBranch *tbranch = digitsTree->GetBranch("TPHOS"); + if (tbranch) { + + tbranch->SetAddress(&fgTriggerDigits); + tbranch->GetEntry(0); + + AliESDCaloTrigger* trgESD = esd->GetCaloTrigger("PHOS"); + + if (trgESD) { + trgESD->Allocate(fgTriggerDigits->GetEntriesFast()); + + for (Int_t i = 0; i < fgTriggerDigits->GetEntriesFast(); i++) { + AliPHOSTriggerRawDigit* tdig = (AliPHOSTriggerRawDigit*)fgTriggerDigits->At(i); + + Int_t mod,modX,modZ; + tdig->GetModXZ(mod,modX,modZ); + + const Int_t relId[4] = {5-mod,0,modX+1,modZ+1}; + Int_t absId; + + fGeom->RelToAbsNumbering(relId,absId); + trgESD->Add(mod,absId,tdig->GetAmp(),0.,(Int_t*)NULL,0,0,0); + } + } + } - //Fill CaloClusters - const Float_t kBigShort = std::numeric_limits::max() - 1; - const Float_t nsec100 = 1e9*100.; // units of 0.01 ns - const Float_t gev500 = 500.; // units of GeV/500 +// //#########Calculate trigger and set trigger info########### + +// AliPHOSTrigger tr ; +// // tr.SetPatchSize(1);//create 4x4 patches +// tr.SetSimulation(kFALSE); +// tr.Trigger(fgDigitsArray); + +// Float_t maxAmp2x2 = tr.Get2x2MaxAmplitude(); +// Float_t maxAmpnxn = tr.GetnxnMaxAmplitude(); +// Float_t ampOutOfPatch2x2 = tr.Get2x2AmpOutOfPatch() ; +// Float_t ampOutOfPatchnxn = tr.GetnxnAmpOutOfPatch() ; + +// Int_t iSM2x2 = tr.Get2x2SuperModule(); +// Int_t iSMnxn = tr.GetnxnSuperModule(); +// Int_t iCrystalPhi2x2 = tr.Get2x2CrystalPhi(); +// Int_t iCrystalPhinxn = tr.GetnxnCrystalPhi(); +// Int_t iCrystalEta2x2 = tr.Get2x2CrystalEta(); +// Int_t iCrystalEtanxn = tr.GetnxnCrystalEta(); + +// AliDebug(2, Form("Trigger 2x2 max amp %f, out amp %f, SM %d, iphi %d ieta %d", +// maxAmp2x2, ampOutOfPatch2x2, iSM2x2,iCrystalPhi2x2, iCrystalEta2x2)); +// AliDebug(2, Form("Trigger 4x4 max amp %f , out amp %f, SM %d, iphi %d, ieta %d", +// maxAmpnxn, ampOutOfPatchnxn, iSMnxn,iCrystalPhinxn, iCrystalEtanxn)); + +// // Attention! PHOS modules in order to calculate AbsId need to be 1-5 not 0-4 as returns trigger. +// Int_t iRelId2x2 []= {iSM2x2+1,0,iCrystalPhi2x2,iCrystalEta2x2}; +// Int_t iAbsId2x2 =-1; +// Int_t iRelIdnxn []= {iSMnxn+1,0,iCrystalPhinxn,iCrystalEtanxn}; +// Int_t iAbsIdnxn =-1; +// TVector3 pos2x2(-1,-1,-1); +// TVector3 posnxn(-1,-1,-1); +// fGeom->RelToAbsNumbering(iRelId2x2, iAbsId2x2); +// fGeom->RelToAbsNumbering(iRelIdnxn, iAbsIdnxn); +// fGeom->RelPosInAlice(iAbsId2x2, pos2x2); +// fGeom->RelPosInAlice(iAbsIdnxn, posnxn); + +// TArrayF triggerPosition(6); +// triggerPosition[0] = pos2x2(0) ; +// triggerPosition[1] = pos2x2(1) ; +// triggerPosition[2] = pos2x2(2) ; +// triggerPosition[3] = posnxn(0) ; +// triggerPosition[4] = posnxn(1) ; +// triggerPosition[5] = posnxn(2) ; + +// TArrayF triggerAmplitudes(4); +// triggerAmplitudes[0] = maxAmp2x2 ; +// triggerAmplitudes[1] = ampOutOfPatch2x2 ; +// triggerAmplitudes[2] = maxAmpnxn ; +// triggerAmplitudes[3] = ampOutOfPatchnxn ; + +// //esd->SetPHOSTriggerCells(triggerPosition); +// esd->AddPHOSTriggerPosition(triggerPosition); +// esd->AddPHOSTriggerAmplitudes(triggerAmplitudes); + + + //######################################## + //############# Fill CaloCells ########### + //######################################## + + Int_t nDigits = fgDigitsArray->GetEntries(); + Int_t idignew = 0 ; + AliDebug(1,Form("%d digits",nDigits)); + + const Int_t knEMC = fGeom->GetNModules()*fGeom->GetNPhi()*fGeom->GetNZ(); + AliESDCaloCells &phsCells = *(esd->GetPHOSCells()); + phsCells.CreateContainer(nDigits); + phsCells.SetType(AliESDCaloCells::kPHOSCell); + + // Add to CaloCells only EMC digits with non-zero energy + for (Int_t idig = 0 ; idig < nDigits ; idig++) { + const AliPHOSDigit * dig = (const AliPHOSDigit*)fgDigitsArray->At(idig); + if(dig->GetId() <= knEMC && + Calibrate(dig->GetEnergy(),dig->GetId()) > GetRecoParam()->GetEMCMinE() ){ + Int_t primary = dig->GetPrimary(1) ; + //For real data always primary==-1, we use this field to mark cells with overflow + //in HG channel. This is not needed in MC simulations, + if(primary==-1 && dig->IsLG()) + primary=-2 ; + phsCells.SetCell(idignew,dig->GetId(), Calibrate(dig->GetEnergy(),dig->GetId()), + CalibrateT(dig->GetTime(),dig->GetId(),dig->IsLG()), + primary) ; + idignew++; + } + } + phsCells.SetNumberOfCells(idignew); + phsCells.Sort(); + + //######################################## + //############## Fill CaloClusters ####### + //######################################## for (Int_t recpart = 0 ; recpart < nOfRecParticles ; recpart++) { - AliPHOSRecParticle * rp = dynamic_cast(recParticles->At(recpart)); + AliPHOSRecParticle *rp = static_cast(recParticles->At(recpart)); if (Debug()) rp->Print(); // Get track segment and EMC rec.point associated with this rec.particle - AliPHOSTrackSegment *ts = static_cast(tsm->GetTrackSegments()->At(rp->GetPHOSTSIndex())); - - // Get the clusters array - TBranch *emcbranch = clustersTree->GetBranch("PHOSEmcRP"); - if (!emcbranch) { - AliError("can't get the branch with the PHOS EMC clusters !"); - return; - } - TObjArray *emcRecPoints = new TObjArray(100) ; - emcbranch->SetAddress(&emcRecPoints); - emcbranch->GetEntry(0); + AliPHOSTrackSegment *ts = static_cast(fTSM->GetTrackSegments() + ->At(rp->GetPHOSTSIndex())); - AliPHOSEmcRecPoint *emcRP = static_cast(emcRecPoints->At(ts->GetEmcIndex())); + AliPHOSEmcRecPoint *emcRP = static_cast(fgEMCRecPoints->At(ts->GetEmcIndex())); AliESDCaloCluster *ec = new AliESDCaloCluster() ; - + Float_t xyz[3]; for (Int_t ixyz=0; ixyz<3; ixyz++) xyz[ixyz] = rp->GetPos()[ixyz]; AliDebug(2,Form("Global position xyz=(%f,%f,%f)",xyz[0],xyz[1],xyz[2])); - - //Create digits lists - Int_t digitMult = emcRP->GetDigitsMultiplicity(); - Int_t *digitsList = emcRP->GetDigitsList(); - Short_t *amplList = new Short_t[digitMult]; - Short_t *timeList = new Short_t[digitMult]; - Short_t *digiList = new Short_t[digitMult]; - - // Read digits array - TBranch *branch = digitsTree->GetBranch("PHOS"); - if (!branch) { - AliError("can't get the branch with the PHOS digits !"); - return; - } - TClonesArray *digitsArr = new TClonesArray("AliPHOSDigit",100); - branch->SetAddress(&digitsArr); - branch->GetEntry(0); - - // Convert Float_t* and Int_t* to Short_t* to save memory - for (Int_t iDigit=0; iDigit(digitsArr->At(digitsList[iDigit])); - amplList[iDigit] = - (Short_t)(TMath::Min(digit->GetEnergy()*gev500,kBigShort)); // Energy in units of GeV/500 - timeList[iDigit] = - (Short_t)(TMath::Min(digit->GetTime()*nsec100,kBigShort)); // time in units of 0.01 ns - digiList[iDigit] = (Short_t)(digit->GetId()); + + // Create cell lists + + Int_t cellMult = emcRP->GetDigitsMultiplicity(); + Int_t *digitsList = emcRP->GetDigitsList(); + Float_t *rpElist = emcRP->GetEnergiesList() ; + UShort_t *absIdList = new UShort_t[cellMult]; + Double_t *fracList = new Double_t[cellMult]; + + for (Int_t iCell=0; iCell(fgDigitsArray->At(digitsList[iCell])); + absIdList[iCell] = (UShort_t)(digit->GetId()); + if (digit->GetEnergy() > 0) + fracList[iCell] = rpElist[iCell]/(Calibrate(digit->GetEnergy(),digit->GetId())); + else + fracList[iCell] = 0; } - + //Primaries Int_t primMult = 0; - Int_t *primInts = emcRP->GetPrimaries(primMult); - Short_t *primList = new Short_t[primMult]; - for (Int_t ipr=0; iprGetPrimaries(primMult); + + Float_t energy=0.; + if (GetRecoParam()->EMCEcore2ESD()) + energy = emcRP->GetCoreEnergy(); + else + energy = rp->Energy(); + //Apply nonlinearity correction + if(GetRecoParam()->GetEMCEnergyCorrectionOn()) + energy=CorrectNonlinearity(energy) ; + // fills the ESDCaloCluster - - ec->SetPHOS(kTRUE); - ec->SetPosition(xyz); //rec.point position in MARS - ec->SetE(rp->Energy()); //total particle energy - ec->SetClusterDisp(emcRP->GetDispersion()); //cluster dispersion - ec->SetPid (rp->GetPID()) ; //array of particle identification + ec->SetType(AliVCluster::kPHOSNeutral); + ec->SetPosition(xyz); //rec.point position in MARS + ec->SetE(energy); //total or core particle energy + ec->SetDispersion(emcRP->GetDispersion()); //cluster dispersion + ec->SetPID(rp->GetPID()) ; //array of particle identification ec->SetM02(emcRP->GetM2x()) ; //second moment M2x ec->SetM20(emcRP->GetM2z()) ; //second moment M2z ec->SetNExMax(emcRP->GetNExMax()); //number of local maxima - ec->SetEmcCpvDistance(-1); //not yet implemented - ec->SetClusterChi2(-1); //not yet implemented - ec->SetM11(-1) ; //not yet implemented - - //Digits Lists - TArrayS arrayAmpList(digitMult,amplList); - TArrayS arrayTimeList(digitMult,timeList); - TArrayS arrayIndexList(digitMult,digiList); - ec->AddDigitAmplitude(arrayAmpList); - ec->AddDigitTime(arrayTimeList); - ec->AddDigitIndex(arrayIndexList); + ec->SetEmcCpvDistance(ts->GetCpvDistance("r")); //Only radius, what about separate x,z???? + ec->SetTrackDistance(ts->GetCpvDistance("x"),ts->GetCpvDistance("z")); + ec->SetChi2(-1); //not yet implemented + ec->SetTOF(emcRP->GetTime()); //Time of flight - already calibrated in EMCRecPoint + + //Cells contributing to clusters + ec->SetNCells(cellMult); + ec->SetCellsAbsId(absIdList); + ec->SetCellsAmplitudeFraction(fracList); //Distance to the nearest bad crystal ec->SetDistanceToBadChannel(emcRP->GetDistanceToBadCrystal()); //Array of MC indeces - TArrayS arrayPrim(primMult,primList); + TArrayI arrayPrim(primMult,primList); ec->AddLabels(arrayPrim); - - //Array of tracks uncomment when available in future - //TArrayS arrayTrackMatched(1);// Only one track, temporal solution. - //arrayTrackMatched[0]= (Short_t)(matchedTrack[iClust]); - //ec->AddTracksMatched(arrayTrackMatched); - // add the track to the esd object - esd->AddCaloCluster(ec); + //Matched ESD track + TArrayI arrayTrackMatched(1); + arrayTrackMatched[0]= ts->GetTrackIndex(); + ec->AddTracksMatched(arrayTrackMatched); + + Int_t index = esd->AddCaloCluster(ec); + + //Set pointer to this cluster in ESD track + Int_t nt=esd->GetNumberOfTracks(); + for (Int_t itr=0; itrGetTrack(itr); + if(!esdTrack->IsPHOS()) + continue ; + if(esdTrack->GetPHOScluster()==-recpart){ //we store negative cluster number + esdTrack->SetPHOScluster(index) ; +//no garatie that only one track matched this cluster +// break ; + } + } + delete ec; - delete [] primList; - delete [] amplList; - delete [] timeList; - delete [] digiList; - } + delete [] fracList; + delete [] absIdList; + } + fgDigitsArray ->Clear(); + fgEMCRecPoints->Clear("C"); + recParticles ->Clear(); + + //Store PHOS misalignment matrixes + FillMisalMatrixes(esd) ; + } +//____________________________________________________________________________ AliTracker* AliPHOSReconstructor::CreateTracker() const { // creates the PHOS tracker return new AliPHOSTracker(); } +//____________________________________________________________________________ void AliPHOSReconstructor::ConvertDigits(AliRawReader* rawReader, TTree* digitsTree) const { // Converts raw data to // PHOS digits // Works on a single-event basis - rawReader->Reset() ; - AliPHOSRawDecoder dc(rawReader); - TString option = GetOption(); - if (option.Contains("OldRCUFormat")) - dc.SetOldRCUFormat(kTRUE); + AliPHOSRawFitterv0 * fitter ; + + const TObjArray* maps = AliPHOSRecoParam::GetMappings(); + if(!maps) AliFatal("Cannot retrieve ALTRO mappings!!"); + + AliAltroMapping *mapping[20]; + for(Int_t i = 0; i < 20; i++) { + mapping[i] = (AliAltroMapping*)maps->At(i); + } + + if (strcmp(GetRecoParam()->EMCFitterVersion(),"v0")==0) + fitter=new AliPHOSRawFitterv0(); + else if (strcmp(GetRecoParam()->EMCFitterVersion(),"v1")==0) + fitter=new AliPHOSRawFitterv1(); + else if (strcmp(GetRecoParam()->EMCFitterVersion(),"v2")==0) + fitter=new AliPHOSRawFitterv2(); + else if (strcmp(GetRecoParam()->EMCFitterVersion(),"v3")==0) + fitter=new AliPHOSRawFitterv3(); else - dc.SetOldRCUFormat(kFALSE); - - dc.SubtractPedestals(fgkRecoParamEmc->SubtractPedestals()); - + fitter=new AliPHOSRawFitterv4(); + + fitter->SubtractPedestals(GetRecoParam()->EMCSubtractPedestals()); + fitter->SetAmpOffset (GetRecoParam()->GetGlobalAltroOffset()); + fitter->SetAmpThreshold (GetRecoParam()->GetGlobalAltroThreshold()); + TClonesArray *digits = new TClonesArray("AliPHOSDigit",1); digits->SetName("DIGITS"); Int_t bufsize = 32000; digitsTree->Branch("PHOS", &digits, bufsize); - AliPHOSRawDigiProducer pr; - pr.MakeDigits(digits,&dc); + AliPHOSRawDigiProducer rdp(rawReader,mapping); + + rdp.SetEmcMinAmp(GetRecoParam()->GetEMCRawDigitThreshold()); // in ADC + rdp.SetCpvMinAmp(GetRecoParam()->GetCPVMinE()); + rdp.SetSampleQualityCut(GetRecoParam()->GetEMCSampleQualityCut()); + rdp.MakeDigits(digits,fTmpDigLG,fitter); + + delete fitter ; - //ADC counts -> GeV - for(Int_t i=0; iGetEntries(); i++) { - AliPHOSDigit* digit = (AliPHOSDigit*)digits->At(i); - digit->SetEnergy(digit->GetEnergy()/AliPHOSPulseGenerator::GeV2ADC()); + TClonesArray *tdigits = new TClonesArray("AliPHOSTriggerRawDigit",1); + tdigits->SetName("TDIGITS"); + digitsTree->Branch("TPHOS", &tdigits, bufsize); + + rawReader->Reset(); + AliPHOSTriggerRawDigiProducer tdp(rawReader); + + AliPHOSTriggerParameters* parameters = (AliPHOSTriggerParameters*)AliPHOSRecoParam::GetTriggerParameters(); + + tdp.SetTriggerParameters(parameters); + tdp.ProcessEvent(tdigits); + + if (AliLog::GetGlobalDebugLevel() == 1) { + Int_t modMax=-111; + Int_t colMax=-111; + Int_t rowMax=-111; + Float_t eMax=-333; + //!!!for debug!!! + + Int_t relId[4]; + for(Int_t iDigit=0; iDigitGetEntries(); iDigit++) { + AliPHOSDigit* digit = (AliPHOSDigit*)digits->At(iDigit); + if(digit->GetEnergy()>eMax) { + fGeom->AbsToRelNumbering(digit->GetId(),relId); + eMax=digit->GetEnergy(); + modMax=relId[0]; + rowMax=relId[2]; + colMax=relId[3]; + } + } + + AliDebug(1,Form("Digit with max. energy: modMax %d colMax %d rowMax %d eMax %f\n\n", + modMax,colMax,rowMax,eMax)); } - //!!!!for debug!!! - Int_t modMax=-111; - Int_t colMax=-111; - Int_t rowMax=-111; - Float_t eMax=-333; - //!!!for debug!!! + digitsTree->Fill(); + + digits->Delete(); + delete digits; + + tdigits->Delete(); + delete tdigits; +} +//================================================================================== +Float_t AliPHOSReconstructor::Calibrate(Float_t amp, Int_t absId)const{ + // Calibrate EMC digit, i.e. multiply its Amp by a factor read from CDB + + const AliPHOSGeometry *geom = AliPHOSGeometry::GetInstance() ; + + //Determine rel.position of the cell absolute ID + Int_t relId[4]; + geom->AbsToRelNumbering(absId,relId); + Int_t module=relId[0]; + Int_t row =relId[2]; + Int_t column=relId[3]; + if(relId[1]){ //CPV + Float_t calibration = fgCalibData->GetADCchannelCpv(module,column,row); + return amp*calibration ; + } + else{ //EMC + Float_t calibration = fgCalibData->GetADCchannelEmc(module,column,row); + return amp*calibration ; + } +} +//================================================================================== +Float_t AliPHOSReconstructor::CalibrateT(Float_t time, Int_t absId,Bool_t isLG)const{ + // Calibrate EMC digit, i.e. multiply its Amp by a factor read from CDB + const AliPHOSGeometry *geom = AliPHOSGeometry::GetInstance() ; + + //Determine rel.position of the cell absolute ID Int_t relId[4]; - for(Int_t iDigit=0; iDigitGetEntries(); iDigit++) { - AliPHOSDigit* digit = (AliPHOSDigit*)digits->At(iDigit); - if(digit->GetEnergy()>eMax) { - fGeom->AbsToRelNumbering(digit->GetId(),relId); - eMax=digit->GetEnergy(); - modMax=relId[0]; - rowMax=relId[2]; - colMax=relId[3]; + geom->AbsToRelNumbering(absId,relId); + Int_t module=relId[0]; + Int_t row =relId[2]; + Int_t column=relId[3]; + if(relId[1]){ //CPV + return 0. ; + } + else{ //EMC + if(isLG) + time += fgCalibData->GetLGTimeShiftEmc(module,column,row); + else + time += fgCalibData->GetTimeShiftEmc(module,column,row); + return time ; + } +} +//================================================================================== +void AliPHOSReconstructor::FillMisalMatrixes(AliESDEvent* esd)const{ + //Store PHOS matrixes in ESD Header + + //Check, if matrixes was already stored + for(Int_t mod=0 ;mod<5; mod++){ + if(esd->GetPHOSMatrix(mod)!=0) + return ; + } + + //Create and store matrixes + if(!gGeoManager){ + AliError("Can not store misal. matrixes: no gGeoManager! \n") ; + return ; + } + //Note, that owner of copied marixes will be header + char path[255] ; + TGeoHMatrix * m ; + for(Int_t mod=0; mod<5; mod++){ + snprintf(path,255,"/ALIC_1/PHOS_%d",mod+1) ; //In Geometry modules numbered 1,2,.,5 + if (gGeoManager->cd(path)){ + m = gGeoManager->GetCurrentMatrix() ; + esd->SetPHOSMatrix(new TGeoHMatrix(*m),mod) ; + } + else{ + esd->SetPHOSMatrix(NULL,mod) ; } } - AliDebug(1,Form("Digit with max. energy: modMax %d colMax %d rowMax %d eMax %f\n\n", - modMax,colMax,rowMax,eMax)); +} +//================================================================================== +Float_t AliPHOSReconstructor::CorrectNonlinearity(Float_t en){ - digitsTree->Fill(); + //For backward compatibility, if no RecoParameters found + if(!GetRecoParam()){ + return 0.0241+1.0504*en+0.000249*en*en ; + } + + if(strcmp(GetRecoParam()->GetNonlinearityCorrectionVersion(),"NoCorrection")==0){ + return en ; + } + if(strcmp(GetRecoParam()->GetNonlinearityCorrectionVersion(),"Gustavo2005")==0){ + const Float_t *par=GetRecoParam()->GetNonlinearityParams() ; + return par[0]+par[1]*en + par[2]*en*en ; + } + if(strcmp(GetRecoParam()->GetNonlinearityCorrectionVersion(),"Henrik2010")==0){ + const Float_t *par=GetRecoParam()->GetNonlinearityParams() ; + return en*(par[0]+par[1]*TMath::Exp(-en*par[2]))*(1.+par[3]*TMath::Exp(-en*par[4]))*(1.+par[6]/(en*en+par[5])) ; + } + //For backward compatibility + if(strcmp(GetRecoParam()->GetNonlinearityCorrectionVersion(),"")==0){ + return 0.0241+1.0504*en+0.000249*en*en ; + } + return en ; +} + +void AliPHOSReconstructor::readTRUParameters(AliPHOSTriggerParameters* parameters) const +{ + //Read trigger parameters. + + TString path(gSystem->Getenv("ALICE_ROOT")); + path += "/PHOS/macros/Trigger/OCDB/"; + + for (Int_t mod = 2; mod < 5; ++mod) { // module + for (Int_t tru = 0; tru < 4; tru++) { // tru row + for (Int_t branch = 0; branch < 2; branch++) { // branch + + // Open the Appropriate pedestal file + TString fileName = path; + fileName += "pedestal_m"; + fileName = fileName += mod; + fileName+="_r"; + fileName+=tru; + fileName+="_b"; + fileName+=branch; + fileName+=".dat"; + std::ifstream instream; + instream.open(fileName.Data()); + + // Read pedestals from file + if( ! instream.is_open() ) + Printf("E-TRUPedestals: could not open %s", fileName.Data()); + else + { + Int_t ped[112]; + + char ch_s[36]; + char *ch_s_p = ch_s; + //Int_t nlines = 0; + + Int_t t_ped_0 =0; + Int_t t_ped_1 =0; + Int_t t_ped_2 =0; + + for(Int_t n=0; n<112; n++) + { + instream.getline(ch_s_p,36); + if (ch_s_p[23]<='9' && ch_s_p[23]>='0') + { + t_ped_0 = ch_s_p[23]-'0'; + } + else if (ch_s_p[23]>='A' && ch_s_p[23]<='Z') + { + t_ped_0 = ch_s_p[23]-'A'+10; + + } + + if (ch_s_p[22]<='9' && ch_s_p[22]>='0') + { + t_ped_1 = ch_s_p[22]-'0'; + } + else if (ch_s_p[22]<='Z' && ch_s_p[22]>='A') + { + t_ped_1 = ch_s_p[22]-'A'+10; + } + + if (ch_s_p[21]<='9' && ch_s_p[21]>='0') + { + t_ped_2 = ch_s_p[21]-'0'; + } + else if (ch_s_p[21]<='Z' && ch_s_p[21]>='A') + { + t_ped_2 = ch_s_p[21]-'A'+10; + } + + ped[n]=t_ped_2*256+t_ped_1*16+t_ped_0; + + + } + for (Int_t xrow = 0; xrow < 8; xrow++){ + for (Int_t zcol = 0; zcol < 14; zcol++){ + Int_t pedestal = ped[zcol*8+xrow]; + + if( pedestal < 612 && pedestal > 412 ) // resonable + parameters->SetTRUPedestal(pedestal, mod, tru, branch, xrow, zcol); + else // unresonable + continue; + } + } + } // Ends read of pedestals from branch from file. + instream.close(); + }// end branch + }// end tru + + }// end for mod } + + + +