/*************************************************************************** * 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. * **************************************************************************/ //-----------------------------------------------------// // // // Date : August 05 2003 // // This reads the file PMD.digits.root(TreeD), // // calls the Clustering algorithm and stores the // // clustering output in PMD.RecPoints.root(TreeR) // // // //-----------------------------------------------------// #include #include #include #include #include #include "AliLog.h" #include "AliRunLoader.h" #include "AliLoader.h" #include "AliRawReader.h" #include "AliPMDdigit.h" #include "AliPMDClusterFinder.h" #include "AliPMDClustering.h" #include "AliPMDClusteringV1.h" #include "AliPMDcluster.h" #include "AliPMDrecpoint1.h" #include "AliPMDrechit.h" #include "AliPMDRawStream.h" #include "AliPMDCalibData.h" #include "AliPMDPedestal.h" #include "AliPMDddldata.h" #include "AliPMDHotData.h" #include "AliPMDNoiseCut.h" #include "AliPMDddlinfoData.h" #include "AliPMDRecoParam.h" #include "AliPMDReconstructor.h" #include "AliDAQ.h" #include "AliCDBManager.h" #include "AliCDBEntry.h" ClassImp(AliPMDClusterFinder) AliPMDClusterFinder::AliPMDClusterFinder(): fRunLoader(0), fPMDLoader(0), fCalibGain(GetCalibGain()), fCalibPed(GetCalibPed()), fCalibHot(GetCalibHot()), fNoiseCut(GetNoiseCut()), fDdlinfo(GetDdlinfoData()), fRecoParam(0x0), fTreeD(0), fTreeR(0), fDigits(new TClonesArray("AliPMDdigit", 1000)), fRecpoints(new TClonesArray("AliPMDrecpoint1", 1000)), fRechits(new TClonesArray("AliPMDrechit", 1000)), fNpoint(0), fNhit(0), fDetNo(0) { // // Constructor // } // ------------------------------------------------------------------------- // AliPMDClusterFinder::AliPMDClusterFinder(AliRunLoader* runLoader): fRunLoader(runLoader), fPMDLoader(runLoader->GetLoader("PMDLoader")), fCalibGain(GetCalibGain()), fCalibPed(GetCalibPed()), fCalibHot(GetCalibHot()), fNoiseCut(GetNoiseCut()), fDdlinfo(GetDdlinfoData()), fRecoParam(0x0), fTreeD(0), fTreeR(0), fDigits(new TClonesArray("AliPMDdigit", 1000)), fRecpoints(new TClonesArray("AliPMDrecpoint1", 1000)), fRechits(new TClonesArray("AliPMDrechit", 1000)), fNpoint(0), fNhit(0), fDetNo(0) { // // Constructor // } // ------------------------------------------------------------------------- // AliPMDClusterFinder::AliPMDClusterFinder(const AliPMDClusterFinder & finder): TObject(finder), fRunLoader(0), fPMDLoader(0), fCalibGain(GetCalibGain()), fCalibPed(GetCalibPed()), fCalibHot(GetCalibHot()), fNoiseCut(GetNoiseCut()), fDdlinfo(GetDdlinfoData()), fRecoParam(0x0), fTreeD(0), fTreeR(0), fDigits(NULL), fRecpoints(NULL), fRechits(NULL), fNpoint(0), fNhit(0), fDetNo(0) { // copy constructor AliError("Copy constructor not allowed"); } // ------------------------------------------------------------------------- // AliPMDClusterFinder &AliPMDClusterFinder::operator=(const AliPMDClusterFinder & /*finder*/) { // assignment op AliError("Assignment Operator not allowed"); return *this; } // ------------------------------------------------------------------------- // AliPMDClusterFinder::~AliPMDClusterFinder() { // Destructor if (fDigits) { fDigits->Clear(); } if (fRecpoints) { fRecpoints->Clear(); } if (fRechits) { fRechits->Clear(); } } // ------------------------------------------------------------------------- // void AliPMDClusterFinder::Digits2RecPoints(TTree *digitsTree, TTree *clustersTree) { // Converts digits to recpoints after running clustering // algorithm on CPV plane and PREshower plane // // This algorithm is called during the reconstruction from digits Int_t det = 0, smn = 0; Int_t xpos = 0, ypos = 0; Int_t ismn = 0; Int_t idet = 0; Float_t adc = 0.; Float_t clusdata[6] = {0.,0.,0.,0.,0.,0.}; AliPMDcluster *pmdcl = 0x0; TObjArray *pmdcont = new TObjArray(); AliPMDClustering *pmdclust = new AliPMDClusteringV1(); // Fetch the reco param object fRecoParam = AliPMDReconstructor::GetRecoParam(); if(fRecoParam == 0x0) { AliFatal("No Reco Param found for PMD!!!"); } AliPMDdigit *pmddigit; TBranch *branch = digitsTree->GetBranch("PMDDigit"); branch->SetAddress(&fDigits); ResetRecpoint(); Int_t bufsize = 16000; TBranch * branch1 = clustersTree->Branch("PMDRecpoint", &fRecpoints, bufsize); TBranch * branch2 = clustersTree->Branch("PMDRechit", &fRechits, bufsize); Int_t nmodules = (Int_t) digitsTree->GetEntries(); for (Int_t imodule = 0; imodule < nmodules; imodule++) { Int_t totADCMod = 0; ResetCellADC(); digitsTree->GetEntry(imodule); Int_t nentries = fDigits->GetLast(); for (Int_t ient = 0; ient < nentries+1; ient++) { pmddigit = (AliPMDdigit*)fDigits->UncheckedAt(ient); det = pmddigit->GetDetector(); smn = pmddigit->GetSMNumber(); xpos = pmddigit->GetRow(); ypos = pmddigit->GetColumn(); adc = pmddigit->GetADC(); if(det < 0 || det > 1) { AliError(Form("*CPV/PRE NUMBER WRONG %d *",det)); continue; } if(smn == -1 || smn > 23) { AliError(Form("*MODULE NUMBER WRONG %d *",smn)); continue; } if(xpos < 0 || xpos > 47 || ypos < 0 || ypos > 95) { AliError(Form("*Row %d and Column NUMBER %d NOT Valid *", xpos, ypos)); continue; } // Pedestal Subtraction Int_t pedmeanrms = fCalibPed->GetPedMeanRms(det,smn,xpos,ypos); Int_t pedrms1 = (Int_t) pedmeanrms%100; Float_t pedrms = (Float_t)pedrms1/10.; Float_t pedmean = (Float_t) (pedmeanrms - pedrms1)/1000.0; //printf("%f %f\n",pedmean, pedrms); Float_t adc1 = adc - (pedmean + 3.0*pedrms); // Hot cell - set the cell adc = 0 Float_t hotflag = fCalibHot->GetHotChannel(det,smn,xpos,ypos); if (hotflag == 1.) adc1 = 0; // CALIBRATION Float_t gain = fCalibGain->GetGainFact(det,smn,xpos,ypos); // printf("adc = %d gain = %f\n",adc,gain); adc = adc1*gain; fCellTrack[xpos][ypos] = pmddigit->GetTrackNumber(); fCellPid[xpos][ypos] = pmddigit->GetTrackPid(); fCellADC[xpos][ypos] = (Double_t) adc; totADCMod += (Int_t) adc; } idet = det; ismn = smn; if (totADCMod <= 0) continue; // Set the minimum noise cut per module before clustering // Int_t imod = idet*24 + ismn; // Int_t cluspar = fRecoParam->GetPbPbParam()->GetClusteringParam(); Int_t cluspar = fRecoParam->GetPPParam()->GetClusteringParam(); // Int_t cluspar = fRecoParam->GetCosmicParam()->GetClusteringParam(); pmdclust->SetClusteringParam(cluspar); Float_t encut = 4.; pmdclust->SetEdepCut(encut); pmdclust->DoClust(idet,ismn,fCellTrack,fCellPid,fCellADC,pmdcont); Int_t nentries1 = pmdcont->GetEntries(); AliDebug(1,Form("Total number of clusters/module = %d",nentries1)); for (Int_t ient1 = 0; ient1 < nentries1; ient1++) { pmdcl = (AliPMDcluster*)pmdcont->UncheckedAt(ient1); idet = pmdcl->GetDetector(); ismn = pmdcl->GetSMN(); clusdata[0] = pmdcl->GetClusX(); clusdata[1] = pmdcl->GetClusY(); clusdata[2] = pmdcl->GetClusADC(); clusdata[3] = pmdcl->GetClusCells(); clusdata[4] = pmdcl->GetClusSigmaX(); clusdata[5] = pmdcl->GetClusSigmaY(); AddRecPoint(idet,ismn,clusdata); Int_t ncell = (Int_t) clusdata[3]; if (ncell > 19) ncell = 19; for(Int_t ihit = 0; ihit < ncell; ihit++) { Int_t celldataX = pmdcl->GetClusCellX(ihit); Int_t celldataY = pmdcl->GetClusCellY(ihit); Int_t celldataTr = pmdcl->GetClusCellTrack(ihit); Int_t celldataPid = pmdcl->GetClusCellPid(ihit); Float_t celldataAdc = pmdcl->GetClusCellAdc(ihit); AddRecHit(celldataX, celldataY, celldataTr, celldataPid, celldataAdc); } branch2->Fill(); ResetRechit(); } pmdcont->Delete(); branch1->Fill(); ResetRecpoint(); } // modules ResetCellADC(); // delete the pointers delete pmdclust; delete pmdcont; } // ------------------------------------------------------------------------- // void AliPMDClusterFinder::Digits2RecPoints(AliRawReader *rawReader, TTree *clustersTree) { // Converts RAW data to recpoints after running clustering // algorithm on CPV and PREshower plane // // This method is called at the time of reconstruction from RAW data AliPMDddldata *pmdddl = 0x0; AliPMDcluster *pmdcl = 0x0; Float_t clusdata[6]; TObjArray pmdddlcont; TObjArray *pmdcont = new TObjArray(); AliPMDClustering *pmdclust = new AliPMDClusteringV1(); // access the ddlinfo database to fetch the no of modules per DDL Int_t moduleddl[6] = {0,0,0,0,0,0}; for(Int_t jddl = 0; jddl < 6; jddl++) { moduleddl[jddl] = fDdlinfo->GetNoOfModulePerDdl(jddl); } // Set the minimum noise cut per module before clustering fRecoParam = AliPMDReconstructor::GetRecoParam(); if(fRecoParam == 0x0) { AliFatal("No Reco Param found for PMD!!!"); } ResetRecpoint(); Int_t bufsize = 16000; TBranch *branch1 = clustersTree->Branch("PMDRecpoint", &fRecpoints, bufsize); TBranch * branch2 = clustersTree->Branch("PMDRechit", &fRechits, bufsize); const Int_t kRow = 48; const Int_t kCol = 96; Int_t idet = 0; Int_t iSMN = 0; Int_t indexDDL = -1; AliPMDRawStream pmdinput(rawReader); while ((indexDDL = pmdinput.DdlData(&pmdddlcont)) >=0) { iSMN = moduleddl[indexDDL]; Int_t ***precpvADC; precpvADC = new int **[iSMN]; for (Int_t i=0; iGetDetector(); Int_t smn = pmdddl->GetSMN(); //Int_t mcm = pmdddl->GetMCM(); //Int_t chno = pmdddl->GetChannel(); Int_t row = pmdddl->GetRow(); Int_t col = pmdddl->GetColumn(); Int_t sig = pmdddl->GetSignal(); if(det < 0 || det > 1) { AliError(Form("*CPV/PRE NUMBER WRONG %d *",det)); continue; } if(smn < 0 || smn > 23) { AliError(Form("*MODULE NUMBER WRONG %d *",smn)); continue; } if(row < 0 || row > 47 || col < 0 || col > 95) { AliError(Form("*Row %d and Column NUMBER %d NOT Valid *", row, col)); continue; } // Pedestal Subtraction Int_t pedmeanrms = fCalibPed->GetPedMeanRms(det,smn,row,col); Int_t pedrms1 = (Int_t) pedmeanrms%100; Float_t pedrms = (Float_t)pedrms1/10.; Float_t pedmean = (Float_t) (pedmeanrms - pedrms1)/1000.0; //printf("%f %f\n",pedmean, pedrms); // Float_t sig1 = (Float_t) sig; Float_t sig1 = (Float_t) sig - (pedmean + 3.0*pedrms); // Hot cell - set the cell adc = 0 Float_t hotflag = fCalibHot->GetHotChannel(det,smn,row,col); if (hotflag == 1.) sig1 = 0; // CALIBRATION Float_t gain = fCalibGain->GetGainFact(det,smn,row,col); //printf("sig = %d gain = %f\n",sig,gain); sig = (Int_t) (sig1*gain); if (indexDDL == 0) { if (det != 0) AliError(Form("*DDL %d and Detector NUMBER %d NOT MATCHING *", indexDDL, det)); if (iSMN == 6) { indexsmn = smn; } else if (iSMN == 12) { if (smn < 6) indexsmn = smn; else if (smn >= 18 && smn < 24) indexsmn = smn-12; } } else if (indexDDL >= 1 && indexDDL < 4) { if (det != 0) AliError(Form("*DDL %d and Detector NUMBER %d NOT MATCHING *", indexDDL, det)); indexsmn = smn - indexDDL * 6; } else if (indexDDL == 4) { if (det != 1) AliError(Form("*DDL %d and Detector NUMBER %d NOT MATCHING *", indexDDL, det)); if (smn < 6) { indexsmn = smn; } else if (smn >= 18 && smn < 24) { indexsmn = smn - 12; } } else if (indexDDL == 5) { if (det != 1) AliError(Form("*DDL %d and Detector NUMBER %d NOT MATCHING *", indexDDL, det)); if (smn >= 6 && smn < 18) { indexsmn = smn - 6; } } precpvADC[indexsmn][row][col] = sig; } pmdddlcont.Delete(); Int_t totAdcMod = 0; Int_t ismn = 0; for (indexsmn = 0; indexsmn < iSMN; indexsmn++) { ResetCellADC(); totAdcMod = 0; for (Int_t irow = 0; irow < kRow; irow++) { for (Int_t icol = 0; icol < kCol; icol++) { fCellTrack[irow][icol] = -1; fCellPid[irow][icol] = -1; fCellADC[irow][icol] = (Double_t) precpvADC[indexsmn][irow][icol]; totAdcMod += precpvADC[indexsmn][irow][icol]; } // row } // col if (indexDDL == 0) { if (iSMN == 6) { ismn = indexsmn; } else if (iSMN == 12) { if (indexsmn < 6) ismn = indexsmn; else if (indexsmn >= 6 && indexsmn < 12) ismn = indexsmn + 12; } idet = 0; } else if (indexDDL >= 1 && indexDDL < 4) { ismn = indexsmn + indexDDL * 6; idet = 0; } else if (indexDDL == 4) { if (indexsmn < 6) { ismn = indexsmn; } else if (indexsmn >= 6 && indexsmn < 12) { ismn = indexsmn + 12; } idet = 1; } else if (indexDDL == 5) { ismn = indexsmn + 6; idet = 1; } if (totAdcMod <= 0) continue; Int_t imod = idet*24 + ismn; // Int_t cluspar = fRecoParam->GetPbPbParam()->GetClusteringParam(); Int_t cluspar = fRecoParam->GetPPParam()->GetClusteringParam(); // Int_t cluspar = fRecoParam->GetCosmicParam()->GetClusteringParam(); pmdclust->SetClusteringParam(cluspar); Float_t encut = fNoiseCut->GetNoiseCut(imod); pmdclust->SetEdepCut(encut); pmdclust->DoClust(idet,ismn,fCellTrack,fCellPid,fCellADC,pmdcont); Int_t nentries1 = pmdcont->GetEntries(); AliDebug(1,Form("Total number of clusters/module = %d",nentries1)); for (Int_t ient1 = 0; ient1 < nentries1; ient1++) { pmdcl = (AliPMDcluster*)pmdcont->UncheckedAt(ient1); idet = pmdcl->GetDetector(); ismn = pmdcl->GetSMN(); clusdata[0] = pmdcl->GetClusX(); clusdata[1] = pmdcl->GetClusY(); clusdata[2] = pmdcl->GetClusADC(); clusdata[3] = pmdcl->GetClusCells(); clusdata[4] = pmdcl->GetClusSigmaX(); clusdata[5] = pmdcl->GetClusSigmaY(); AddRecPoint(idet,ismn,clusdata); Int_t ncell = (Int_t) clusdata[3]; if (ncell > 19) ncell = 19; for(Int_t ihit = 0; ihit < ncell; ihit++) { Int_t celldataX = pmdcl->GetClusCellX(ihit); Int_t celldataY = pmdcl->GetClusCellY(ihit); Int_t celldataTr = pmdcl->GetClusCellTrack(ihit); Int_t celldataPid = pmdcl->GetClusCellPid(ihit); Float_t celldataAdc = pmdcl->GetClusCellAdc(ihit); AddRecHit(celldataX, celldataY, celldataTr, celldataPid, celldataAdc); } branch2->Fill(); ResetRechit(); } pmdcont->Delete(); branch1->Fill(); ResetRecpoint(); } // smn for (Int_t i=0; iClear(); } // ------------------------------------------------------------------------- // void AliPMDClusterFinder::ResetRechit() { // Clear the list of reconstructed points fNhit = 0; if (fRechits) fRechits->Clear(); } // ------------------------------------------------------------------------- // void AliPMDClusterFinder::Load() { // Load all the *.root files // fPMDLoader->LoadDigits("READ"); fPMDLoader->LoadRecPoints("recreate"); } // ------------------------------------------------------------------------- // void AliPMDClusterFinder::LoadClusters() { // Load all the *.root files // fPMDLoader->LoadRecPoints("recreate"); } // ------------------------------------------------------------------------- // void AliPMDClusterFinder::UnLoad() { // Unload all the *.root files // fPMDLoader->UnloadDigits(); fPMDLoader->UnloadRecPoints(); } // ------------------------------------------------------------------------- // void AliPMDClusterFinder::UnLoadClusters() { // Unload all the *.root files // fPMDLoader->UnloadRecPoints(); } // ------------------------------------------------------------------------- // AliPMDCalibData* AliPMDClusterFinder::GetCalibGain() const { // The run number will be centralized in AliCDBManager, // you don't need to set it here! // Added by ZA AliCDBEntry *entry = AliCDBManager::Instance()->Get("PMD/Calib/Gain"); if(!entry) AliFatal("Calibration object retrieval failed! "); AliPMDCalibData *calibdata=0; if (entry) calibdata = (AliPMDCalibData*) entry->GetObject(); if (!calibdata) AliFatal("No calibration data from calibration database !"); return calibdata; } // ------------------------------------------------------------------------- // AliPMDPedestal* AliPMDClusterFinder::GetCalibPed() const { // The run number will be centralized in AliCDBManager, // you don't need to set it here! AliCDBEntry *entry = AliCDBManager::Instance()->Get("PMD/Calib/Ped"); if(!entry) AliFatal("Pedestal object retrieval failed!"); AliPMDPedestal *pedestal = 0; if (entry) pedestal = (AliPMDPedestal*) entry->GetObject(); if (!pedestal) AliFatal("No pedestal data from pedestal database !"); return pedestal; } //--------------------------------------------------------------------// AliPMDHotData* AliPMDClusterFinder::GetCalibHot() const { // The run number will be centralized in AliCDBManager, // you don't need to set it here! AliCDBEntry *entry = AliCDBManager::Instance()->Get("PMD/Calib/Hot"); if(!entry) AliFatal("HotData object retrieval failed!"); AliPMDHotData *hot = 0; if (entry) hot = (AliPMDHotData*) entry->GetObject(); if (!hot) AliFatal("No hot data from database !"); return hot; } //--------------------------------------------------------------------// AliPMDNoiseCut* AliPMDClusterFinder::GetNoiseCut() const { // The run number will be centralized in AliCDBManager, // you don't need to set it here! AliCDBEntry *entry = AliCDBManager::Instance()->Get("PMD/Calib/NoiseCut"); if(!entry) AliFatal("Noisecut object retrieval failed!"); AliPMDNoiseCut *ncut = 0; if (entry) ncut = (AliPMDNoiseCut*) entry->GetObject(); if (!ncut) AliFatal("No noise cut data from database !"); return ncut; } //--------------------------------------------------------------------// AliPMDddlinfoData* AliPMDClusterFinder::GetDdlinfoData() const { // The run number will be centralized in AliCDBManager, // you don't need to set it here! AliCDBEntry *entry = AliCDBManager::Instance()->Get("PMD/Calib/Ddlinfo"); if(!entry) AliFatal("ddlinfo object retrieval failed!"); AliPMDddlinfoData *ddlinfo = 0; if (entry) ddlinfo = (AliPMDddlinfoData*) entry->GetObject(); if (!ddlinfo) AliFatal("No ddl info data from database !"); return ddlinfo; }