X-Git-Url: http://git.uio.no/git/?a=blobdiff_plain;f=EMCAL%2FAliEMCALQADataMakerRec.cxx;h=5080fa4750fbfa4d041a7f98714ae9f200e79f5d;hb=b65291bf562b816b2ad32f54a6170eb90ba4a903;hp=c1501e6cf13f8b8a54abd1e6196221de33841f21;hpb=6252ceeb59406d4f518422dfad532f414e0a23c4;p=u%2Fmrichter%2FAliRoot.git diff --git a/EMCAL/AliEMCALQADataMakerRec.cxx b/EMCAL/AliEMCALQADataMakerRec.cxx index c1501e6cf13..5080fa4750f 100644 --- a/EMCAL/AliEMCALQADataMakerRec.cxx +++ b/EMCAL/AliEMCALQADataMakerRec.cxx @@ -17,7 +17,15 @@ Based on the QA code for PHOS written by Yves Schutz July 2007 Authors: J.Klay (Cal Poly) May 2008 S. Salur LBL April 2008 + +Created one histogram for QA shifter;-- Yaxian Mao: 11/2009 +The idea:average counts for all the towers should be flat +Change all existing histograms as experts +Change histograms for DQM shifter: -- Yaxian Mao 04/2010 +Calcuate the amplitude ratio from current run and the LED reference, for QAChecker use +Also calculate the ratio of amplitude from LED Monitor system (current/Reference), to check LED system + */ // --- ROOT system --- @@ -26,12 +34,16 @@ Authors: J.Klay (Cal Poly) May 2008 #include #include #include +#include +#include #include - +#include +#include // --- Standard library --- // --- AliRoot header files --- +#include "AliDAQ.h" #include "AliESDCaloCluster.h" #include "AliESDCaloCells.h" #include "AliESDEvent.h" @@ -45,25 +57,117 @@ Authors: J.Klay (Cal Poly) May 2008 #include "AliEMCALRecParam.h" #include "AliRawReader.h" #include "AliCaloRawStreamV3.h" +#include "AliEMCALGeoParams.h" +#include "AliRawEventHeaderBase.h" +#include "AliQAManager.h" +#include "AliCDBEntry.h" + +#include "AliCaloBunchInfo.h" +#include "AliCaloFitResults.h" +#include "AliCaloRawAnalyzerFastFit.h" +#include "AliCaloRawAnalyzerNN.h" +//#include "AliCaloRawAnalyzerLMS.h" +#include "AliCaloRawAnalyzerKStandard.h" +#include "AliCaloRawAnalyzerPeakFinder.h" +#include "AliCaloRawAnalyzerCrude.h" +#include "AliEMCALGeometry.h" +#include "AliEMCALTriggerSTURawStream.h" + +#include "AliCaloRawAnalyzerFactory.h" + +using namespace std; ClassImp(AliEMCALQADataMakerRec) //____________________________________________________________________________ - AliEMCALQADataMakerRec::AliEMCALQADataMakerRec() : - AliQADataMakerRec(AliQAv1::GetDetName(AliQAv1::kEMCAL), "EMCAL Quality Assurance Data Maker"), - fSuperModules(4) // FIXME!!! number of SuperModules; 4 for 2009; update default to 12 for later runs.. +AliEMCALQADataMakerRec::AliEMCALQADataMakerRec(fitAlgorithm fitAlgo) : + AliQADataMakerRec(AliQAv1::GetDetName(AliQAv1::kEMCAL), "EMCAL Quality Assurance Data Maker"), + fFittingAlgorithm(0), + fRawAnalyzer(0), + fRawAnalyzerTRU(0), + fGeom(0), + fSuperModules(10), // FIXME!!! number of SuperModules; 10 for 2011; update default for later runs + fFirstPedestalSample(0), + fLastPedestalSample(3), + fFirstPedestalSampleTRU(0), + fLastPedestalSampleTRU(3), + fMinSignalLG(0), + fMaxSignalLG(AliEMCALGeoParams::fgkSampleMax), + fMinSignalHG(0), + fMaxSignalHG(AliEMCALGeoParams::fgkSampleMax), + fMinSignalTRU(0), + fMaxSignalTRU(AliEMCALGeoParams::fgkSampleMax), + fMinSignalLGLEDMon(0), + fMaxSignalLGLEDMon(AliEMCALGeoParams::fgkSampleMax), + fMinSignalHGLEDMon(0), + fMaxSignalHGLEDMon(AliEMCALGeoParams::fgkSampleMax), + fCalibRefHistoPro(NULL), + fCalibRefHistoH2F(NULL), + fLEDMonRefHistoPro(NULL), + fHighEmcHistoH2F(NULL) +// fTextSM(new TText*[fSuperModules]) , +// fLineCol(NULL), +// fLineRow(NULL) + { // ctor + SetFittingAlgorithm(fitAlgo); + + //fRawAnalyzerTRU = new AliCaloRawAnalyzerLMS(); + + fRawAnalyzerTRU = ( AliCaloRawAnalyzerKStandard*)AliCaloRawAnalyzerFactory::CreateAnalyzer(kLMS); + + fRawAnalyzerTRU->SetFixTau(kTRUE); + fRawAnalyzerTRU->SetTau(2.5); // default for TRU shaper + + fGeom = new AliEMCALGeometry("EMCAL_COMPLETEV1", "EMCAL"); +// for (Int_t sm = 0 ; sm < fSuperModules ; sm++){ +// fTextSM[sm] = NULL ; +// } } //____________________________________________________________________________ AliEMCALQADataMakerRec::AliEMCALQADataMakerRec(const AliEMCALQADataMakerRec& qadm) : - AliQADataMakerRec(), fSuperModules() + AliQADataMakerRec(), + fFittingAlgorithm(0), + fRawAnalyzer(0), + fRawAnalyzerTRU(0), + fGeom(0), + fSuperModules(qadm.GetSuperModules()), + fFirstPedestalSample(qadm.GetFirstPedestalSample()), + fLastPedestalSample(qadm.GetLastPedestalSample()), + fFirstPedestalSampleTRU(qadm.GetFirstPedestalSampleTRU()), + fLastPedestalSampleTRU(qadm.GetLastPedestalSampleTRU()), + fMinSignalLG(qadm.GetMinSignalLG()), + fMaxSignalLG(qadm.GetMaxSignalLG()), + fMinSignalHG(qadm.GetMinSignalHG()), + fMaxSignalHG(qadm.GetMaxSignalHG()), + fMinSignalTRU(qadm.GetMinSignalTRU()), + fMaxSignalTRU(qadm.GetMaxSignalTRU()), + fMinSignalLGLEDMon(qadm.GetMinSignalLGLEDMon()), + fMaxSignalLGLEDMon(qadm.GetMaxSignalLGLEDMon()), + fMinSignalHGLEDMon(qadm.GetMinSignalHGLEDMon()), + fMaxSignalHGLEDMon(qadm.GetMaxSignalHGLEDMon()), + fCalibRefHistoPro(NULL), + fCalibRefHistoH2F(NULL), + fLEDMonRefHistoPro(NULL), + fHighEmcHistoH2F(NULL) +// fTextSM(new TText*[fSuperModules]) , +// fLineCol(NULL), +// fLineRow(NULL) { //copy ctor SetName((const char*)qadm.GetName()) ; SetTitle((const char*)qadm.GetTitle()); - fSuperModules = qadm.GetSuperModules(); + SetFittingAlgorithm(qadm.GetFittingAlgorithm()); + + //fRawAnalyzerTRU = new AliCaloRawAnalyzerLMS(); + fRawAnalyzerTRU = (AliCaloRawAnalyzerKStandard*)AliCaloRawAnalyzerFactory::CreateAnalyzer(kLMS); + fRawAnalyzerTRU->SetFixTau(kTRUE); + fRawAnalyzerTRU->SetTau(2.5); // default for TRU shaper +// for (Int_t sm = 0 ; sm < fSuperModules ; sm++){ +// fTextSM[sm] = qadm.fTextSM[sm] ; +// } } //__________________________________________________________________ @@ -72,6 +176,11 @@ AliEMCALQADataMakerRec& AliEMCALQADataMakerRec::operator = (const AliEMCALQAData // Equal operator. this->~AliEMCALQADataMakerRec(); new(this) AliEMCALQADataMakerRec(qadm); +// fLineCol = NULL; +// fLineRow = NULL; +// for (Int_t sm = 0 ; sm < fSuperModules ; sm++){ +// fTextSM[sm] = qadm.fTextSM[sm] ; +// } return *this; } @@ -79,10 +188,68 @@ AliEMCALQADataMakerRec& AliEMCALQADataMakerRec::operator = (const AliEMCALQAData void AliEMCALQADataMakerRec::EndOfDetectorCycle(AliQAv1::TASKINDEX_t task, TObjArray ** list) { //Detector specific actions at end of cycle + +// if(fCycleCounter) +// GetRawsData(kNEventsPerTower)->Scale(1./fCycleCounter); + // do the QA checking + ResetEventTrigClasses(); // reset triggers list to select all histos AliQAChecker::Instance()->Run(AliQAv1::kEMCAL, task, list) ; } +//____________________________________________________________________________ +void AliEMCALQADataMakerRec::GetCalibRefFromOCDB() +{ + //Get the reference histogram from OCDB + TString sName1("hHighEmcalRawMaxMinusMin") ; + TString sName2("hLowLEDMonEmcalRawMaxMinusMin") ; + sName1.Prepend(Form("%s_", AliRecoParam::GetEventSpecieName(AliRecoParam::kCalib))) ; + sName2.Prepend(Form("%s_", AliRecoParam::GetEventSpecieName(AliRecoParam::kCalib))) ; + + TString refStorage(AliQAv1::GetQARefStorage()) ; + if (!refStorage.Contains(AliQAv1::GetLabLocalOCDB()) && !refStorage.Contains(AliQAv1::GetLabAliEnOCDB())) { + AliFatal(Form("%s is not a valid location for reference data", refStorage.Data())) ; + } else { + AliQAManager* manQA = AliQAManager::QAManager(AliQAv1::kRAWS) ; + AliQAv1::SetQARefDataDirName(AliRecoParam::kCalib) ; + if ( ! manQA->GetLock() ) { + manQA->SetDefaultStorage(AliQAv1::GetQARefStorage()) ; + manQA->SetSpecificStorage("*", AliQAv1::GetQARefStorage()) ; + manQA->SetRun(AliCDBManager::Instance()->GetRun()) ; + manQA->SetLock() ; + } + char * detOCDBDir = Form("%s/%s/%s", GetName(), AliQAv1::GetRefOCDBDirName(), AliQAv1::GetRefDataDirName()) ; + AliCDBEntry * entry = manQA->Get(detOCDBDir, manQA->GetRun()) ; + if (entry) { + TList * listDetQAD =static_cast(entry->GetObject()) ; + if ( strcmp(listDetQAD->ClassName(), "TList") != 0 ) { + AliError(Form("Expected a Tlist and found a %s for detector %s", listDetQAD->ClassName(), GetName())) ; + listDetQAD = NULL ; + } + TObjArray * dirOCDB= NULL ; + if ( listDetQAD ) + dirOCDB = static_cast(listDetQAD->FindObject(Form("%s/%s", AliQAv1::GetTaskName(AliQAv1::kRAWS).Data(), AliRecoParam::GetEventSpecieName(AliRecoParam::kCalib)))) ; + if (dirOCDB){ + fCalibRefHistoPro = dynamic_cast(dirOCDB->FindObject(sName1.Data())) ; + fLEDMonRefHistoPro = dynamic_cast(dirOCDB->FindObject(sName2.Data())) ; + } + } + } + + if(fCalibRefHistoPro && fLEDMonRefHistoPro){ + + //Defining histograms binning, each 2D histogram covers all SMs + Int_t nSMSectors = fSuperModules / 2; // 2 SMs per sector + Int_t nbinsZ = 2*AliEMCALGeoParams::fgkEMCALCols; + Int_t nbinsPhi = nSMSectors * AliEMCALGeoParams::fgkEMCALRows; + + if(!fCalibRefHistoH2F) + fCalibRefHistoH2F = new TH2F("hCalibRefHisto", "hCalibRefHisto", nbinsZ, -0.5, nbinsZ - 0.5, nbinsPhi, -0.5, nbinsPhi -0.5); + ConvertProfile2H(fCalibRefHistoPro,fCalibRefHistoH2F) ; + } else { + AliFatal(Form("No reference object with name %s or %s found", sName1.Data(), sName2.Data())) ; + } +} //____________________________________________________________________________ void AliEMCALQADataMakerRec::InitESDs() { @@ -90,7 +257,7 @@ void AliEMCALQADataMakerRec::InitESDs() const Bool_t expert = kTRUE ; const Bool_t image = kTRUE ; - TH1F * h1 = new TH1F("hESDCaloClusterE", "ESDs CaloCluster energy in EMCAL;Energy [MeV];Counts", 200, 0., 20.) ; + TH1F * h1 = new TH1F("hESDCaloClusterE", "ESDs CaloCluster energy in EMCAL;Energy [GeV];Counts", 200, 0., 100.) ; h1->Sumw2() ; Add2ESDsList(h1, kESDCaloClusE, !expert, image) ; @@ -98,14 +265,15 @@ void AliEMCALQADataMakerRec::InitESDs() h2->Sumw2() ; Add2ESDsList(h2, kESDCaloClusM, !expert, image) ; - TH1F * h3 = new TH1F("hESDCaloCellA", "ESDs CaloCell amplitude in EMCAL;Energy [MeV];Counts", 500, 0., 250.) ; + TH1F * h3 = new TH1F("hESDCaloCellA", "ESDs CaloCell amplitude in EMCAL;Energy [GeV];Counts", 500, 0., 50.) ; h3->Sumw2() ; Add2ESDsList(h3, kESDCaloCellA, !expert, image) ; TH1I * h4 = new TH1I("hESDCaloCellM", "ESDs CaloCell multiplicity in EMCAL;# of Clusters;Entries", 200, 0, 1000) ; h4->Sumw2() ; Add2ESDsList(h4, kESDCaloCellM, !expert, image) ; - + // + ClonePerTrigClass(AliQAv1::kESDS); // this should be the last line } //____________________________________________________________________________ @@ -121,16 +289,18 @@ void AliEMCALQADataMakerRec::InitDigits() TH1I * h1 = new TH1I("hEmcalDigitsMul", "Digits multiplicity distribution in EMCAL;# of Digits;Entries", 200, 0, 2000) ; h1->Sumw2() ; Add2DigitsList(h1, 1, !expert, image) ; + // + ClonePerTrigClass(AliQAv1::kDIGITS); // this should be the last line } //____________________________________________________________________________ void AliEMCALQADataMakerRec::InitRecPoints() { - // create Reconstructed Points histograms in RecPoints subdir + // create Reconstructed PoInt_ts histograms in RecPoints subdir const Bool_t expert = kTRUE ; const Bool_t image = kTRUE ; - TH1F* h0 = new TH1F("hEMCALRpE","EMCAL RecPoint energies;Energy [MeV];Counts",200, 0.,20.); //GeV + TH1F* h0 = new TH1F("hEMCALRpE","EMCAL RecPoint energies;Energy [GeV];Counts",200, 0.,20.); //GeV h0->Sumw2(); Add2RecPointsList(h0,kRecPE, !expert, image); @@ -141,68 +311,232 @@ void AliEMCALQADataMakerRec::InitRecPoints() TH1I* h2 = new TH1I("hEMCALRpDigM","EMCAL RecPoint Digit Multiplicities;# of Digits;Entries",20,0,20); h2->Sumw2(); Add2RecPointsList(h2,kRecPDigM, !expert, image); - + // + ClonePerTrigClass(AliQAv1::kRECPOINTS); // this should be the last line } //____________________________________________________________________________ void AliEMCALQADataMakerRec::InitRaws() { // create Raws histograms in Raws subdir - const Bool_t expert = kTRUE ; - const Bool_t saveCorr = kTRUE ; - const Bool_t image = kTRUE ; - - int nTowersPerSM = 1152; // number of towers in a SuperModule; 24x48 - int nTot = fSuperModules * nTowersPerSM; // max number of towers in all SuperModules + const Bool_t expert = kTRUE ; + const Bool_t saveCorr = kTRUE ; + const Bool_t image = kTRUE ; + const Option_t *profileOption = "s"; - // counter info: number of channels per event (bins are SM index) + Int_t nTowersPerSM = AliEMCALGeoParams::fgkEMCALRows * AliEMCALGeoParams::fgkEMCALCols; // number of towers in a SuperModule; 24x48 + Int_t nTot = fSuperModules * nTowersPerSM; // max number of towers in all SuperModules + + //Defining histograms binning, each 2D histogram covers all SMs + Int_t nSMSectors = fSuperModules / 2; // 2 SMs per sector + Int_t nbinsZ = 2*AliEMCALGeoParams::fgkEMCALCols; + Int_t nbinsPhi = nSMSectors * AliEMCALGeoParams::fgkEMCALRows; + + Int_t nTRUCols = 2*AliEMCALGeoParams::fgkEMCALTRUCols; //total TRU columns for 2D TRU histos + Int_t nTRURows = nSMSectors*AliEMCALGeoParams::fgkEMCALTRUsPerSM*AliEMCALGeoParams::fgkEMCALTRURows; //total TRU rows for 2D TRU histos + // counter info: number of channels per event (bins are SM index) TProfile * h0 = new TProfile("hLowEmcalSupermodules", "Low Gain EMC: # of towers vs SuperMod;SM Id;# of towers", - fSuperModules, -0.5, fSuperModules-0.5) ; - Add2RawsList(h0, kNsmodLG, !expert, image, !saveCorr) ; + fSuperModules, -0.5, fSuperModules-0.5, profileOption) ; + Add2RawsList(h0, kNsmodLG, expert, !image, !saveCorr) ; TProfile * h1 = new TProfile("hHighEmcalSupermodules", "High Gain EMC: # of towers vs SuperMod;SM Id;# of towers", - fSuperModules, -0.5, fSuperModules-0.5) ; - Add2RawsList(h1, kNsmodHG, !expert, image, !saveCorr) ; + fSuperModules, -0.5, fSuperModules-0.5, profileOption) ; + Add2RawsList(h1, kNsmodHG, expert, !image, !saveCorr) ; // where did max sample occur? (bins are towers) - TProfile * h2 = new TProfile("hLowEmcalRawtime", "Low Gain EMC: Time at Max vs towerId;Tower Id;Time [ns]", - nTot, -0.5, nTot-0.5) ; - Add2RawsList(h2, kTimeLG, !expert, image, !saveCorr) ; - TProfile * h3 = new TProfile("hHighEmcalRawtime", "High Gain EMC: Time at Max vs towerId;Tower Id;Time [ns]", - nTot, -0.5, nTot-0.5) ; - Add2RawsList(h3, kTimeHG, !expert, image, !saveCorr) ; + TProfile * h2 = new TProfile("hLowEmcalRawtime", "Low Gain EMC: Time at Max vs towerId;Tower Id;Time [ticks]", + nTot, -0.5, nTot-0.5, profileOption) ; + Add2RawsList(h2, kTimeLG, expert, !image, !saveCorr) ; + TProfile * h3 = new TProfile("hHighEmcalRawtime", "High Gain EMC: Time at Max vs towerId;Tower Id;Time [ticks]", + nTot, -0.5, nTot-0.5, profileOption) ; + Add2RawsList(h3, kTimeHG, expert, !image, !saveCorr) ; // how much above pedestal was the max sample? (bins are towers) - TProfile * h4 = new TProfile("hLowEmcalRawMaxMinusMin", "Low Gain EMC: Max - Min vs towerId;Tower Id;??", - nTot, -0.5, nTot-0.5) ; - Add2RawsList(h4, kSigLG, !expert, image, !saveCorr) ; - TProfile * h5 = new TProfile("hHighEmcalRawMaxMinusMin", "High Gain EMC: Max - Min vs towerId;Tower Id;??", - nTot, -0.5, nTot-0.5) ; - Add2RawsList(h5, kSigHG, !expert, image, !saveCorr) ; + TProfile * h4 = new TProfile("hLowEmcalRawMaxMinusMin", "Low Gain EMC: Max - Min vs towerId;Tower Id;Max-Min [ADC counts]", + nTot, -0.5, nTot-0.5, profileOption) ; + Add2RawsList(h4, kSigLG, expert, !image, !saveCorr) ; + TProfile * h5 = new TProfile("hHighEmcalRawMaxMinusMin", "High Gain EMC: Max - Min vs towerId;Tower Id;Max-Min [ADC counts]", + nTot, -0.5, nTot-0.5, profileOption) ; + Add2RawsList(h5, kSigHG, expert, !image, !saveCorr) ; // total counter: channels per event TH1I * h6 = new TH1I("hLowNtot", "Low Gain EMC: Total Number of found towers;# of Towers;Counts", 200, 0, nTot) ; h6->Sumw2() ; - Add2RawsList(h6, kNtotLG, !expert, image, !saveCorr) ; + Add2RawsList(h6, kNtotLG, expert, !image, !saveCorr) ; TH1I * h7 = new TH1I("hHighNtot", "High Gain EMC: Total Number of found towers;# of Towers;Counts", 200,0, nTot) ; h7->Sumw2() ; - Add2RawsList(h7, kNtotHG, !expert, image, !saveCorr) ; + Add2RawsList(h7, kNtotHG, expert, !image, !saveCorr) ; // pedestal (bins are towers) TProfile * h8 = new TProfile("hLowEmcalRawPed", "Low Gain EMC: Pedestal vs towerId;Tower Id;Pedestal [ADC counts]", - nTot, -0.5, nTot-0.5) ; - Add2RawsList(h8, kPedLG, !expert, image, !saveCorr) ; + nTot, -0.5, nTot-0.5, profileOption) ; + Add2RawsList(h8, kPedLG, expert, !image, !saveCorr) ; TProfile * h9 = new TProfile("hHighEmcalRawPed", "High Gain EMC: Pedestal vs towerId;Tower Id;Pedestal [ADC counts]", - nTot, -0.5, nTot-0.5) ; - Add2RawsList(h9, kPedHG, !expert, image, !saveCorr) ; - - // pedestal rms (standard dev = sqrt of variance estimator for pedestal) (bins are towers) - TProfile * h10 = new TProfile("hLowEmcalRawPedRMS", "Low Gain EMC: Pedestal RMS vs towerId;Tower Id;Width [ADC counts]", - nTot, -0.5, nTot-0.5) ; - Add2RawsList(h10, kPedRMSLG, !expert, image, !saveCorr) ; - TProfile * h11 = new TProfile("hHighEmcalRawPedRMS", "High Gain EMC: Pedestal RMS vs towerId;Tower Id;Width [ADC counts]", - nTot, -0.5, nTot-0.5) ; - Add2RawsList(h11, kPedRMSHG, !expert, image, !saveCorr) ; + nTot, -0.5, nTot-0.5, profileOption) ; + Add2RawsList(h9, kPedHG, expert, !image, !saveCorr) ; + + + // now repeat the same for TRU and LEDMon data + Int_t nTot2x2 = fSuperModules * AliEMCALGeoParams::fgkEMCALTRUsPerSM * AliEMCALGeoParams::fgkEMCAL2x2PerTRU; // max number of TRU channels for all SuperModules + + // counter info: number of channels per event (bins are SM index) + TProfile * hT0 = new TProfile("hTRUEmcalSupermodules", "TRU EMC: # of TRU channels vs SuperMod;SM Id;# of TRU channels", + fSuperModules, -0.5, fSuperModules-0.5, profileOption) ; + Add2RawsList(hT0, kNsmodTRU, expert, !image, !saveCorr) ; + + // how much above pedestal was the max sample? (bins are TRU channels) + TProfile * hT1 = new TProfile("hTRUEmcalRawMaxMinusMin", "TRU EMC: Max - Min vs 2x2Id;2x2 Id;Max-Min [ADC counts]", + nTot2x2, -0.5, nTot2x2-0.5, profileOption) ; + Add2RawsList(hT1, kSigTRU, expert, !image, !saveCorr) ; + + // total counter: channels per event + TH1I * hT2 = new TH1I("hTRUNtot", "TRU EMC: Total Number of found TRU channels;# of TRU Channels;Counts", 200, 0, nTot2x2) ; + hT2->Sumw2() ; + Add2RawsList(hT2, kNtotTRU, expert, !image, !saveCorr) ; + + // L0 trigger hits: # of hits (bins are TRU channels) + TH2I * hT3 = new TH2I("hTRUEmcalL0hits", "L0 trigger hits: Total number of 2x2 L0 generated", nTRUCols, -0.5, nTRUCols - 0.5, nTRURows, -0.5, nTRURows-0.5); + hT3->SetOption("COLZ"); + //hT3->Sumw2(); + Add2RawsList(hT3, kNL0TRU, !expert, image, !saveCorr); + + // L0 trigger hits: average time (bins are TRU channels) + TProfile2D * hT4 = new TProfile2D("hTRUEmcalL0hitsAvgTime", "L0 trigger hits: average time bin", nTRUCols, -0.5, nTRUCols - 0.5, nTRURows, -0.5, nTRURows-0.5, profileOption); + hT4->SetOption("COLZ"); + Add2RawsList(hT4, kTimeL0TRU, !expert, image, !saveCorr); + + // L0 trigger hits: first in the event (bins are TRU channels) + TH1I * hT5 = new TH1I("hTRUEmcalL0hitsFirst", "L0 trigger hits: First hit in the event", nTot2x2, -0.5, nTot2x2); + hT5->Sumw2(); + Add2RawsList(hT5, kNL0FirstTRU, expert, !image, !saveCorr); + + // L0 trigger hits: average time of first hit in the event (bins are TRU channels) + TProfile * hT6 = new TProfile("hTRUEmcalL0hitsFirstAvgTime", "L0 trigger hits: average time of first hit", nTot2x2, -0.5, nTot2x2, profileOption); + Add2RawsList(hT6, kTimeL0FirstTRU, expert, !image, !saveCorr); + + // and also LED Mon.. + // LEDMon has both high and low gain channels, just as regular FEE/towers + Int_t nTotLEDMon = fSuperModules * AliEMCALGeoParams::fgkEMCALLEDRefs; // max number of LEDMon channels for all SuperModules + + // counter info: number of channels per event (bins are SM index) + TProfile * hL0 = new TProfile("hLowLEDMonEmcalSupermodules", "LowLEDMon Gain EMC: # of strips vs SuperMod;SM Id;# of strips", + fSuperModules, -0.5, fSuperModules-0.5, profileOption) ; + Add2RawsList(hL0, kNsmodLGLEDMon, expert, !image, !saveCorr) ; + TProfile * hL1 = new TProfile("hHighLEDMonEmcalSupermodules", "HighLEDMon Gain EMC: # of strips vs SuperMod;SM Id;# of strips", + fSuperModules, -0.5, fSuperModules-0.5, profileOption) ; + Add2RawsList(hL1, kNsmodHGLEDMon, expert, !image, !saveCorr) ; + + // where did max sample occur? (bins are strips) + TProfile * hL2 = new TProfile("hLowLEDMonEmcalRawtime", "LowLEDMon Gain EMC: Time at Max vs stripId;Strip Id;Time [ticks]", + nTotLEDMon, -0.5, nTotLEDMon-0.5, profileOption) ; + Add2RawsList(hL2, kTimeLGLEDMon, expert, !image, !saveCorr) ; + TProfile * hL3 = new TProfile("hHighLEDMonEmcalRawtime", "HighLEDMon Gain EMC: Time at Max vs stripId;Strip Id;Time [ticks]", + nTotLEDMon, -0.5, nTotLEDMon-0.5, profileOption) ; + Add2RawsList(hL3, kTimeHGLEDMon, expert, !image, !saveCorr) ; + + // how much above pedestal was the max sample? (bins are strips) + TProfile * hL4 = new TProfile("hLowLEDMonEmcalRawMaxMinusMin", "LowLEDMon Gain EMC: Max - Min vs stripId;Strip Id;Max-Min [ADC counts]", + nTotLEDMon, -0.5, nTotLEDMon-0.5, profileOption) ; + Add2RawsList(hL4, kSigLGLEDMon, expert, !image, !saveCorr) ; + TProfile * hL5 = new TProfile("hHighLEDMonEmcalRawMaxMinusMin", "HighLEDMon Gain EMC: Max - Min vs stripId;Strip Id;Max-Min [ADC counts]", + nTotLEDMon, -0.5, nTotLEDMon-0.5, profileOption) ; + Add2RawsList(hL5, kSigHGLEDMon, expert, !image, !saveCorr) ; + + // total counter: channels per event + TH1I * hL6 = new TH1I("hLowLEDMonNtot", "LowLEDMon Gain EMC: Total Number of found strips;# of Strips;Counts", 200, 0, nTotLEDMon) ; + hL6->Sumw2() ; + Add2RawsList(hL6, kNtotLGLEDMon, expert, !image, !saveCorr) ; + TH1I * hL7 = new TH1I("hHighLEDMonNtot", "HighLEDMon Gain EMC: Total Number of found strips;# of Strips;Counts", 200,0, nTotLEDMon) ; + hL7->Sumw2() ; + Add2RawsList(hL7, kNtotHGLEDMon, expert, !image, !saveCorr) ; + + // pedestal (bins are strips) + TProfile * hL8 = new TProfile("hLowLEDMonEmcalRawPed", "LowLEDMon Gain EMC: Pedestal vs stripId;Strip Id;Pedestal [ADC counts]", + nTotLEDMon, -0.5, nTotLEDMon-0.5, profileOption) ; + Add2RawsList(hL8, kPedLGLEDMon, expert, !image, !saveCorr) ; + TProfile * hL9 = new TProfile("hHighLEDMonEmcalRawPed", "HighLEDMon Gain EMC: Pedestal vs stripId;Strip Id;Pedestal [ADC counts]", + nTotLEDMon, -0.5, nTotLEDMon-0.5, profileOption) ; + Add2RawsList(hL9, kPedHGLEDMon, expert, !image, !saveCorr) ; + + //temp 2D amplitude histogram for the current run + fHighEmcHistoH2F = new TH2F("h2DHighEC2", "High Gain EMC:Max - Min [ADC counts]", nbinsZ, -0.5 , nbinsZ-0.5, nbinsPhi, -0.5, nbinsPhi-0.5); + fHighEmcHistoH2F->SetDirectory(0) ; // this histo must be memory resident + //add ratio histograms: to comapre the current run with the reference data + TH2F * h15 = new TH2F("h2DRatioAmp", "High Gain Ratio to Reference:Amplitude_{current run}/Amplitude_{reference run}", nbinsZ, -0.5 , nbinsZ-0.5, + nbinsPhi, -0.5, nbinsPhi-0.5); + //settings for display in amore + h15->SetTitle("Amplitude_{current run}/Amplitude_{reference run}"); + h15->SetMaximum(2.0); + h15->SetMinimum(0.1); + h15->SetOption("COLZ"); + gStyle->SetOptStat(0); + Int_t color[] = {4,3,2} ; + gStyle->SetPalette(3,color); + h15->GetZaxis()->SetNdivisions(3); + h15->UseCurrentStyle(); + h15->SetDirectory(0); + Add2RawsList(h15, k2DRatioAmp, !expert, image, !saveCorr) ; + + TH1F * h16 = new TH1F("hRatioDist", "Amplitude_{current run}/Amplitude_{reference run} ratio distribution", nTot, 0., 2.); + h16->SetMinimum(0.1); + h16->SetMaximum(100.); + gStyle->SetOptStat(0); + h16->UseCurrentStyle(); + h16->SetDirectory(0); + Add2RawsList(h16, kRatioDist, !expert, image, !saveCorr) ; + + //add two histograms for shifter from the LED monitor system: comapre LED monitor with the reference run + //to be used for decision whether we need to change reference data + TH1F * hL10 = new TH1F("hMaxMinusMinLEDMonRatio", "LEDMon amplitude, Ratio to reference run", nTotLEDMon, -0.5, nTotLEDMon-0.5) ; + //settings for display in amore + hL10->SetTitle("Amplitude_{LEDMon current}/Amplitude_{LEDMon reference}"); + hL10->SetMaximum(2.0); + hL10->SetMinimum(0.1); + gStyle->SetOptStat(0); + hL10->UseCurrentStyle(); + hL10->SetDirectory(0); +// hL10->SetOption("E"); + Add2RawsList(hL10, kLEDMonRatio, !expert, image, !saveCorr) ; + + TH1F * hL11 = new TH1F("hMaxMinusMinLEDMonRatioDist", "LEDMon amplitude, Ratio distribution", nTotLEDMon, 0, 2); + hL11->SetMinimum(0.1) ; + gStyle->SetOptStat(0); + hL11->UseCurrentStyle(); + hL11->SetDirectory(0); + Add2RawsList(hL11, kLEDMonRatioDist, !expert, image, !saveCorr) ; + GetCalibRefFromOCDB(); + + + //STU histgrams + + //histos + Int_t nSTUCols = AliEMCALGeoParams::fgkEMCALSTUCols; + Int_t nSTURows = AliEMCALGeoParams::fgkEMCALSTURows; +// kAmpL1, kGL1, kJL1, +// kGL1V0, kJL1V0, kSTUTRU + + TProfile2D *hS0 = new TProfile2D("hL1Amp", "Mean STU signal per Row and Column", nSTUCols, -0.5, nSTUCols-0.5, nSTURows, -0.5, nSTURows-0.5); + Add2RawsList(hS0, kAmpL1, expert, !image, !saveCorr) ; + + TH2F *hS1 = new TH2F("hL1Gamma", "L1 Gamma patch position (FastOR top-left)", nSTUCols, -0.50, nSTUCols-0.5, nSTURows, -0.5, nSTURows-0.5); + Add2RawsList(hS1, kGL1, expert, image, !saveCorr) ; + + TH2F *hS2 = new TH2F("hL1Jet", "L1 Jet patch position (FastOR top-left)", 12, -0.5, nSTUCols-0.5, 16, 0, nSTURows-0.5); + Add2RawsList(hS2, kJL1, expert, image, !saveCorr) ; + + TH2I *hS3 = new TH2I("hL1GV0", "L1 Gamma patch amplitude versus V0 signal", 500, 0, 50000, 1500, 0, 1500); + Add2RawsList(hS3, kGL1V0, expert, !image, !saveCorr) ; + + TH2I *hS4 = new TH2I("hL1JV0", "L1 Jet patch amplitude versus V0 signal", 500, 0, 50000, 1000, 0, 1000); + Add2RawsList(hS4, kJL1V0, expert, !image, !saveCorr) ; + + TH1I *hS5 = new TH1I("hFrameR","Link between TRU and STU", 32, 0, 32); + Add2RawsList(hS5, kSTUTRU, expert, !image, !saveCorr) ; + + + + // + ClonePerTrigClass(AliQAv1::kRAWS); // this should be the last line } //____________________________________________________________________________ @@ -214,177 +548,364 @@ void AliEMCALQADataMakerRec::MakeESDs(AliESDEvent * esd) for ( Int_t index = 0; index < esd->GetNumberOfCaloClusters() ; index++ ) { AliESDCaloCluster * clu = esd->GetCaloCluster(index) ; if( clu->IsEMCAL() ) { - GetESDsData(kESDCaloClusE)->Fill(clu->E()) ; + FillESDsData(kESDCaloClusE,clu->E()) ; nTot++ ; } } - GetESDsData(kESDCaloClusM)->Fill(nTot) ; + FillESDsData(kESDCaloClusM,nTot) ; //fill calo cells AliESDCaloCells* cells = esd->GetEMCALCells(); - GetESDsData(kESDCaloCellM)->Fill(cells->GetNumberOfCells()) ; + FillESDsData(kESDCaloCellM,cells->GetNumberOfCells()) ; for ( Int_t index = 0; index < cells->GetNumberOfCells() ; index++ ) { - GetESDsData(kESDCaloCellA)->Fill(cells->GetAmplitude(index)) ; + FillESDsData(kESDCaloCellA,cells->GetAmplitude(index)) ; } - + // + IncEvCountCycleESDs(); + IncEvCountTotalESDs(); } //____________________________________________________________________________ void AliEMCALQADataMakerRec::MakeRaws(AliRawReader* rawReader) { - //Fill prepared histograms with Raw digit properties - - //Raw histogram filling not yet implemented - // - //Need to figure out how to get the info we want without having to - //actually run Raw2Digits twice. - //I suspect what we actually want is a raw digits method, not a true - //emcal raw data method, but this doesn't seem to be allowed in - //AliQADataMakerRec.h + // Check that all the reference histograms exist before we try to use them - otherwise call InitRaws + // RS: Attention: the counters are increments after custom modification of eventSpecie + if (!fCalibRefHistoPro || !fCalibRefHistoH2F || !fLEDMonRefHistoPro || !fHighEmcHistoH2F) { + InitRaws(); + } - // For now, to avoid redoing the expensive signal fits we just - // look at max vs min of the signal spextra, a la online usage in - // AliCaloCalibPedestal + // make sure EMCal was readout during the event + Int_t emcID = AliDAQ::DetectorID("EMCAL"); // bit 18.. + const UInt_t *detPattern = rawReader->GetDetectorPattern(); + UInt_t emcInReadout = ( ((1 << emcID) & detPattern[0]) >> emcID); + if (! emcInReadout) return; // no poInt_t in looking at this event, if no EMCal data + // setup rawReader->Reset() ; AliCaloRawStreamV3 in(rawReader,"EMCAL"); + rawReader->Select("EMCAL", 0, AliEMCALGeoParams::fgkLastAltroDDL) ; //select EMCAL DDL's - // setup - int nTowersPerSM = 1152; // number of towers in a SuperModule; 24x48 - int nRows = 24; // number of rows per SuperModule - int sampleMin = 0; - int sampleMax = 0x3ff; // 1023 = 10-bit range - - // for the pedestal calculation - Bool_t selectPedestalSamples = kTRUE; - int firstPedestalSample = 0; - int lastPedestalSample = 15; - - // SM counters; decl. should be safe, assuming we don't get more than 12 SuperModules.. - int nTotalSMLG[12] = {0}; - int nTotalSMHG[12] = {0}; - - // indices for the reading - int iSM = 0; - int sample = 0; - int gain = 0; - int time = 0; - // counters, on sample level - int i = 0; // the sample number in current event. - int maxTime = 0; - int startBin = 0; - - // calc. quantities - double meanPed = 0, squaredMean = 0, rmsPed = 0; + AliRecoParam::EventSpecie_t saveSpecie = fEventSpecie ; + if (rawReader->GetType() == AliRawEventHeaderBase::kCalibrationEvent) { + SetEventSpecie(AliRecoParam::kCalib) ; + } + + const Int_t nTowersPerSM = AliEMCALGeoParams::fgkEMCALRows * AliEMCALGeoParams::fgkEMCALCols; // number of towers in a SuperModule; 24x48 + const Int_t nRows = AliEMCALGeoParams::fgkEMCALRows; // number of rows per SuperModule + const Int_t nStripsPerSM = AliEMCALGeoParams::fgkEMCALLEDRefs; // number of strips per SuperModule + const Int_t n2x2PerSM = AliEMCALGeoParams::fgkEMCALTRUsPerSM * AliEMCALGeoParams::fgkEMCAL2x2PerTRU; // number of TRU 2x2's per SuperModule + const Int_t n2x2PerTRU = AliEMCALGeoParams::fgkEMCAL2x2PerTRU; + const Int_t nTot2x2 = fSuperModules * n2x2PerSM; // total TRU channel + + // SM counters; decl. should be safe, assuming we don't get more than expected SuperModules.. + Int_t nTotalSMLG[AliEMCALGeoParams::fgkEMCALModules] = {0}; + Int_t nTotalSMHG[AliEMCALGeoParams::fgkEMCALModules] = {0}; + Int_t nTotalSMTRU[AliEMCALGeoParams::fgkEMCALModules] = {0}; + Int_t nTotalSMLGLEDMon[AliEMCALGeoParams::fgkEMCALModules] = {0}; + Int_t nTotalSMHGLEDMon[AliEMCALGeoParams::fgkEMCALModules] = {0}; + const Int_t nTRUL0ChannelBits = 10; // used for L0 trigger bits checks + int firstL0TimeBin = 999; + int triggers[nTot2x2][24]; //auxiliary array for L0 trigger - TODO remove hardcoded 24 + memset(triggers, 0, sizeof(int) * 24 * nTot2x2); + + Int_t iSM = 0; // SuperModule index // start loop over input stream while (in.NextDDL()) { + Int_t iRCU = in.GetDDLNumber() % 2; // RCU0 or RCU1, within SuperModule + Int_t iDDL = in.GetDDLNumber(); + fRawAnalyzer->SetIsZeroSuppressed( in.GetZeroSupp() ); + while (in.NextChannel()) { - - // counters - int max = sampleMin, min = sampleMax; // min and max sample values - - // for the pedestal calculation - int sampleSum = 0; // sum of samples - int squaredSampleSum = 0; // sum of samples squared - int nSum = 0; // number of samples in sum + Int_t iBranch = in.GetBranch(); - while (in.NextBunch()) { - const UShort_t *sig = in.GetSignals(); - startBin = in.GetStartTimeBin(); - for (i = 0; i < in.GetBunchLength(); i++) { - sample = sig[i]; - time = startBin--; - - // check if it's a min or max value - if (sample < min) min = sample; - if (sample > max) { - max = sample; - maxTime = time; - } - - // should we add it for the pedestal calculation? - if ( (firstPedestalSample<=time && time<=lastPedestalSample) || // sample time in range - !selectPedestalSamples ) { // or we don't restrict the sample range.. - then we'll take all - sampleSum += sample; - squaredSampleSum += sample*sample; - nSum++; - } - - } // loop over samples in bunch - } // loop over bunches - - // calculate pedesstal estimate: mean of possibly selected samples - if (nSum > 0) { - meanPed = sampleSum / (1.0 * nSum); - squaredMean = squaredSampleSum / (1.0 * nSum); - // The variance (rms squared) is equal to the mean of the squares minus the square of the mean.. - rmsPed = sqrt(squaredMean - meanPed*meanPed); - } - else { - meanPed = 0; - squaredMean = 0; - rmsPed = 0; - } + iSM = in.GetModule(); // SuperModule + //prInt_tf("iSM %d DDL %d", iSM, in.GetDDLNumber()); + if (iSM>=0 && iSM bunchlist; + while (in.NextBunch()) { + nsamples += in.GetBunchLength(); + bunchlist.push_back( AliCaloBunchInfo(in.GetStartTimeBin(), in.GetBunchLength(), in.GetSignals() ) ); + } + + if (nsamples > 0) { // this check is needed for when we have zero-supp. on, but not sparse readout + Float_t time = 0.; + Float_t amp = 0.; + // indices for pedestal calc. + Int_t firstPedSample = 0; + Int_t lastPedSample = 0; + bool isTRUL0IdData = false; - if (iSM>=0 && iSMEvaluate( bunchlist, in.GetAltroCFG1(), in.GetAltroCFG2()); + amp = fitResults.GetAmp(); + time = fitResults.GetTof(); + firstPedSample = fFirstPedestalSample; + lastPedSample = fLastPedestalSample; + } + else { // TRU data is special, needs its own analyzer + AliCaloFitResults fitResults = fRawAnalyzerTRU->Evaluate( bunchlist, in.GetAltroCFG1(), in.GetAltroCFG2()); + amp = fitResults.GetAmp(); + time = fitResults.GetTof(); + firstPedSample = fFirstPedestalSampleTRU; + lastPedSample = fLastPedestalSampleTRU; + if (in.GetColumn() >= n2x2PerTRU) { + isTRUL0IdData = true; + } + } + + // pedestal samples + Int_t nPed = 0; + vector pedSamples; + + // select earliest bunch + unsigned int bunchIndex = 0; + unsigned int startBin = bunchlist.at(0).GetStartBin(); + if (bunchlist.size() > 0) { + for(unsigned int ui=1; ui < bunchlist.size(); ui++ ) { + if (startBin > bunchlist.at(ui).GetStartBin() ) { + startBin = bunchlist.at(ui).GetStartBin(); + bunchIndex = ui; + } + } + } - int towerId = iSM*nTowersPerSM + in.GetColumn()*nRows + in.GetRow(); + // check bunch for entries in the pedestal sample range + Int_t bunchLength = bunchlist.at(bunchIndex).GetLength(); + const UShort_t *sig = bunchlist.at(bunchIndex).GetData(); + Int_t timebin = 0; - if (gain == 0) { - //fill the low gain histograms, and counters - nTotalSMLG[iSM]++; // one more channel found - GetRawsData(kSigLG)->Fill(towerId, max - min); - GetRawsData(kTimeLG)->Fill(towerId, maxTime); - if (nSum>0) { // only fill pedestal info in case it could be calculated - GetRawsData(kPedLG)->Fill(towerId, meanPed); - GetRawsData(kPedRMSLG)->Fill(towerId, rmsPed); + if (! isTRUL0IdData) { // regular data, can look at pedestals + for (Int_t i = 0; iFill(towerId, max - min); - GetRawsData(kTimeHG)->Fill(towerId, maxTime); - if (nSum>0) { // only fill pedestal info in case it could be calculated - GetRawsData(kPedHG)->Fill(towerId, meanPed); - GetRawsData(kPedRMSHG)->Fill(towerId, rmsPed); + else { // TRU L0 Id Data + // which TRU the channel belongs to? + Int_t iTRUId = in.GetModule()*3 + (iRCU*in.GetBranch() + iRCU); + + for (Int_t i = 0; i< bunchLength; i++) { + for( Int_t j = 0; j < nTRUL0ChannelBits; j++ ){ + // check if the bit j is 1 + if( (sig[i] & ( 1 << j )) > 0 ){ + Int_t iTRUIdInSM = (in.GetColumn() - n2x2PerTRU)*nTRUL0ChannelBits+j; + if(iTRUIdInSM < n2x2PerTRU) { + Int_t iTRUAbsId = iTRUIdInSM + n2x2PerTRU * iTRUId; + // Fill the histograms + Int_t globTRUCol, globTRURow; + GetTruChannelPosition(globTRURow, globTRUCol, iSM, iDDL, iBranch, iTRUIdInSM ); + + FillRawsData(kNL0TRU, globTRUCol, globTRURow); + FillRawsData(kTimeL0TRU, globTRUCol, globTRURow, startBin); + triggers[iTRUAbsId][startBin] = 1; + + if((int)startBin < firstL0TimeBin) firstL0TimeBin = startBin; + } + } + } + startBin--; + } // i + } // TRU L0 Id data + + // fill histograms + if ( in.IsLowGain() || in.IsHighGain() ) { // regular towers + Int_t towerId = iSM*nTowersPerSM + in.GetColumn()*nRows + in.GetRow(); + if ( in.IsLowGain() ) { + nTotalSMLG[iSM]++; + if ( (amp > fMinSignalLG) && (amp < fMaxSignalLG) ) { + FillRawsData(kSigLG,towerId, amp); + FillRawsData(kTimeLG,towerId, time); + } + if (nPed > 0) { + for (Int_t i=0; i fMinSignalHG) && (amp < fMaxSignalHG) ) { + FillRawsData(kSigHG,towerId, amp); + FillRawsData(kTimeHG,towerId, time); + } + if (nPed > 0) { + for (Int_t i=0; i fMinSignalTRU) && (amp < fMaxSignalTRU) ) { + FillRawsData(kSigTRU,iTRU2x2Id, amp); + //FillRawsData(kTimeTRU,iTRU2x2Id, time); + } + //if (nPed > 0) { + //for (Int_t i=0; i fMinSignalLGLEDMon) && (amp < fMaxSignalLGLEDMon) ) { + FillRawsData(kSigLGLEDMon,stripId, amp); + FillRawsData(kTimeLGLEDMon,stripId, time); + } + if (nPed > 0) { + for (Int_t i=0; i fMinSignalHGLEDMon) && (amp < fMaxSignalHGLEDMon) ) { + FillRawsData(kSigHGLEDMon,stripId, amp); + FillRawsData(kTimeHGLEDMon,stripId, time); + } + if (nPed > 0) { + for (Int_t i=0; i0 check, some data found for this channel; not only trailer/header }// end while over channel }//end while over DDL's, of input stream + //filling some L0 trigger histos + if( firstL0TimeBin < 999 ){ + for(Int_t i = 0; i < nTot2x2; i++) { + if( triggers[i][firstL0TimeBin] > 0 ) { + //histo->Fill(i,j); + FillRawsData(kNL0FirstTRU, i); + FillRawsData(kTimeL0FirstTRU, i, firstL0TimeBin); + } + } + } + + //calculate the ratio of the amplitude and fill the histograms, only if the events type is Calib + // RS: operation on the group of histos kSigHG,k2DRatioAmp,kRatioDist,kLEDMonRatio,kLEDMonRatio,kSigLGLEDMon + const int hGrp[] = {kSigHG,k2DRatioAmp,kRatioDist,kLEDMonRatio,kLEDMonRatioDist,kSigLGLEDMon}; + if ( rawReader->GetType() == AliRawEventHeaderBase::kCalibrationEvent && + CheckCloningConsistency(fRawsQAList, hGrp, sizeof(hGrp)/sizeof(int)) ) { // RS converting original code to loop over all matching triggers + int nTrig =IsClonedPerTrigClass(kSigHG,fRawsQAList) ? GetNEventTrigClasses() : 0; // loop over triggers only if histos were cloned + // + for (int itr=-1;itrAt(0); //kSigHG + TH1* th2DRatioAmp = (TH1*) trArr->At(1); //k2DRatioAmp + TH1* thRatioDist = (TH1*) trArr->At(2); //kRatioDist + TH1* thLEDMonRatio = (TH1*) trArr->At(3); //kLEDMonRatio + TH1* thLEDMonRatioDist = (TH1*) trArr->At(4); //kLEDMonRatio + TH1* hSigLGLEDMon = (TH1*) trArr->At(5); //kSigLGLEDMon + th2DRatioAmp->Reset("ICE"); + thRatioDist->Reset("ICE"); + thLEDMonRatio->Reset("ICE"); + thLEDMonRatioDist->Reset("ICE"); + th2DRatioAmp->ResetStats(); + thRatioDist->ResetStats(); + thLEDMonRatio->ResetStats(); + thLEDMonRatioDist->ResetStats(); + ConvertProfile2H(prSigHG, fHighEmcHistoH2F); + // + for(Int_t ix = 1; ix <= fHighEmcHistoH2F->GetNbinsX(); ix++) { + for(Int_t iy = 1; iy <= fHighEmcHistoH2F->GetNbinsY(); iy++) { + if(fCalibRefHistoH2F->GetBinContent(ix, iy)) + binContent = fHighEmcHistoH2F->GetBinContent(ix, iy)/fCalibRefHistoH2F->GetBinContent(ix, iy); + th2DRatioAmp->SetBinContent(ix, iy, binContent); + thRatioDist->Fill(binContent); + } + } + // + //Now for LED monitor system, to calculate the ratio as well + Double_t binError = 0. ; + // for the binError, we add the relative errors, squared + Double_t relativeErrorSqr = 0. ; + // + for(int ib = 1; ib <= fLEDMonRefHistoPro->GetNbinsX(); ib++) { + // + if(fLEDMonRefHistoPro->GetBinContent(ib) != 0) { + binContent = hSigLGLEDMon->GetBinContent(ib) / fLEDMonRefHistoPro->GetBinContent(ib); + relativeErrorSqr = TMath::Power( (fLEDMonRefHistoPro->GetBinError(ib) / fLEDMonRefHistoPro->GetBinContent(ib)), 2); + if( hSigLGLEDMon->GetBinContent(ib) != 0) { + relativeErrorSqr += TMath::Power( (hSigLGLEDMon->GetBinError(ib)/hSigLGLEDMon->GetBinContent(ib)), 2); + } + } + else { // ref. run info is zero + binContent = -1; + relativeErrorSqr = 1; + } + thLEDMonRatio->SetBinContent(ib, binContent); + + binError = sqrt(relativeErrorSqr) * binContent; + thLEDMonRatio->SetBinError(ib, binError); + thLEDMonRatioDist->Fill(thLEDMonRatio->GetBinContent(ib)); + } + } // loop over eventual trigger clones + } // let's also fill the SM and event counter histograms - int nTotalHG = 0; - int nTotalLG = 0; + Int_t nTotalHG = 0; + Int_t nTotalLG = 0; + Int_t nTotalTRU = 0; + Int_t nTotalHGLEDMon = 0; + Int_t nTotalLGLEDMon = 0; for (iSM=0; iSMFill(iSM, nTotalSMLG[iSM]); - GetRawsData(kNsmodHG)->Fill(iSM, nTotalSMHG[iSM]); + nTotalTRU += nTotalSMTRU[iSM]; + nTotalLGLEDMon += nTotalSMLGLEDMon[iSM]; + nTotalHGLEDMon += nTotalSMHGLEDMon[iSM]; + FillRawsData(kNsmodLG,iSM, nTotalSMLG[iSM]); + FillRawsData(kNsmodHG,iSM, nTotalSMHG[iSM]); + FillRawsData(kNsmodTRU,iSM, nTotalSMTRU[iSM]); + FillRawsData(kNsmodLGLEDMon,iSM, nTotalSMLGLEDMon[iSM]); + FillRawsData(kNsmodHGLEDMon,iSM, nTotalSMHGLEDMon[iSM]); } - GetRawsData(kNtotLG)->Fill(nTotalLG); - GetRawsData(kNtotHG)->Fill(nTotalHG); + + FillRawsData(kNtotLG,nTotalLG); + FillRawsData(kNtotHG,nTotalHG); + FillRawsData(kNtotTRU,nTotalTRU); + FillRawsData(kNtotLGLEDMon,nTotalLGLEDMon); + FillRawsData(kNtotHGLEDMon,nTotalHGLEDMon); + + IncEvCountCycleESDs(); + IncEvCountTotalESDs(); + SetEventSpecie(saveSpecie) ; + + MakeRawsSTU(rawReader); // just in case the next rawreader consumer forgets to reset; let's do it here again.. rawReader->Reset() ; - return; } @@ -392,34 +913,35 @@ void AliEMCALQADataMakerRec::MakeRaws(AliRawReader* rawReader) void AliEMCALQADataMakerRec::MakeDigits() { // makes data from Digits - - GetDigitsData(1)->Fill(fDigitsArray->GetEntriesFast()) ; + FillDigitsData(1,fDigitsArray->GetEntriesFast()) ; TIter next(fDigitsArray) ; AliEMCALDigit * digit ; while ( (digit = dynamic_cast(next())) ) { - GetDigitsData(0)->Fill( digit->GetAmp()) ; + FillDigitsData(0, digit->GetAmplitude()) ; } - + // } //____________________________________________________________________________ void AliEMCALQADataMakerRec::MakeDigits(TTree * digitTree) { // makes data from Digit Tree + // RS: Attention: the counters are increments in the MakeDigits() if (fDigitsArray) - fDigitsArray->Clear() ; + fDigitsArray->Clear("C") ; else fDigitsArray = new TClonesArray("AliEMCALDigit", 1000) ; TBranch * branch = digitTree->GetBranch("EMCAL") ; - if ( ! branch ) { - AliWarning("EMCAL branch in Digit Tree not found") ; - } else { - branch->SetAddress(&fDigitsArray) ; - branch->GetEntry(0) ; - MakeDigits() ; - } - + if ( ! branch ) { AliWarning("EMCAL branch in Digit Tree not found"); return; } + // + branch->SetAddress(&fDigitsArray) ; + branch->GetEntry(0) ; + MakeDigits() ; + // + IncEvCountCycleDigits(); + IncEvCountTotalDigits(); + // } //____________________________________________________________________________ @@ -432,20 +954,21 @@ void AliEMCALQADataMakerRec::MakeRecPoints(TTree * clustersTree) return; } - TObjArray * emcrecpoints = new TObjArray(100) ; - emcbranch->SetAddress(&emcrecpoints); + TObjArray * emcRecPoints = new TObjArray(100) ; + emcbranch->SetAddress(&emcRecPoints); emcbranch->GetEntry(0); - GetRecPointsData(kRecPM)->Fill(emcrecpoints->GetEntriesFast()) ; - TIter next(emcrecpoints) ; + FillRecPointsData(kRecPM,emcRecPoints->GetEntriesFast()) ; + TIter next(emcRecPoints) ; AliEMCALRecPoint * rp ; while ( (rp = dynamic_cast(next())) ) { - GetRecPointsData(kRecPE)->Fill( rp->GetEnergy()) ; - GetRecPointsData(kRecPDigM)->Fill(rp->GetMultiplicity()); + FillRecPointsData(kRecPE,rp->GetEnergy()) ; + FillRecPointsData(kRecPDigM,rp->GetMultiplicity()); } - emcrecpoints->Delete(); - delete emcrecpoints; - + emcRecPoints->Delete(); + delete emcRecPoints; + IncEvCountCycleRecPoints(); + IncEvCountTotalRecPoints(); } //____________________________________________________________________________ @@ -455,3 +978,288 @@ void AliEMCALQADataMakerRec::StartOfDetectorCycle() } +//____________________________________________________________________________ +void AliEMCALQADataMakerRec::SetFittingAlgorithm(Int_t fitAlgo) +{ + //Set fitting algorithm and initialize it if this same algorithm was not set before. + //printf("**** Set Algorithm , number %d ****\n",fitAlgo); + + + fRawAnalyzer = AliCaloRawAnalyzerFactory::CreateAnalyzer(fitAlgo); + fFittingAlgorithm = fitAlgo; + + /* + if(fitAlgo == fFittingAlgorithm && fRawAnalyzer) { + //Do nothing, this same algorithm already set before. + //printf("**** Algorithm already set before, number %d, %s ****\n",fitAlgo, fRawAnalyzer->GetName()); + return; + } + //Initialize the requested algorithm + if(fitAlgo != fFittingAlgorithm || !fRawAnalyzer) { + //printf("**** Init Algorithm , number %d ****\n",fitAlgo); + + fFittingAlgorithm = fitAlgo; + if (fRawAnalyzer) delete fRawAnalyzer; // delete prev. analyzer if existed. + + if (fitAlgo == kFastFit) { + fRawAnalyzer = new AliCaloRawAnalyzerFastFit(); + } + else if (fitAlgo == kNeuralNet) { + fRawAnalyzer = new AliCaloRawAnalyzerNN(); + } + else if (fitAlgo == kLMS) { + fRawAnalyzer = new AliCaloRawAnalyzerLMS(); + } + else if (fitAlgo == kPeakFinder) { + fRawAnalyzer = new AliCaloRawAnalyzerPeakFinder(); + } + else if (fitAlgo == kCrude) { + fRawAnalyzer = new AliCaloRawAnalyzerCrude(); + } + else { + AliWarning("EMCAL QA invalid fit algorithm choice") ; + } + + } + return; + */ +} + +//_____________________________________________________________________________________ +void AliEMCALQADataMakerRec::ConvertProfile2H(TProfile * p, TH2 * histo) +{ + // reset histogram + histo->Reset("ICE") ; + histo->ResetStats(); + + Int_t nbinsProf = p->GetNbinsX(); + + // loop through the TProfile p and fill the TH2F histo + Int_t row = 0; + Int_t col = 0; + Double_t binContent = 0; + Int_t towerNum = 0; // global tower Id + // i = 0; // tower Id within SuperModule + Int_t iSM = 0; // SuperModule index + Int_t iSMSide = 0; // 0=A, 1=C side + Int_t iSMSector = 0; // 2 SM's per sector + + // indices for 2D plots + Int_t col2d = 0; + Int_t row2d = 0; + + for (Int_t ibin = 1; ibin <= nbinsProf; ibin++) { + towerNum = (Int_t) p->GetBinCenter(ibin); + binContent = p->GetBinContent(ibin); + + // figure out what the tower indices are: col, row within a SuperModule + iSM = towerNum/(AliEMCALGeoParams::fgkEMCALRows * AliEMCALGeoParams::fgkEMCALCols); + col = (towerNum/AliEMCALGeoParams::fgkEMCALRows) % (AliEMCALGeoParams::fgkEMCALCols); + row = towerNum % (AliEMCALGeoParams::fgkEMCALRows); + + //DecodeTowerNum(towerNum, &SM, &col, &row); + // then we calculate what the global 2D coord are, based on which SM + // we are in + iSMSector = iSM / 2; + iSMSide = iSM % 2; + + if (iSMSide == 1) { // C side, shown to the right + col2d = col + AliEMCALGeoParams::fgkEMCALCols; + } + else { // A side, shown to the left + col2d = col; + } + + row2d = row + iSMSector * AliEMCALGeoParams::fgkEMCALRows; + + histo->SetBinContent(col2d+1, row2d+1, binContent); + } +} +//____________________________________________________________________________ +void AliEMCALQADataMakerRec::GetTruChannelPosition( Int_t &globRow, Int_t &globColumn, Int_t module, Int_t ddl, Int_t branch, Int_t column ) +{ + Int_t mrow; + Int_t mcol; + Int_t trow; + Int_t tcol; + Int_t drow; + Int_t rcu; + // RCU 0 or 1 + rcu = ddl % 2; + + // 12 rows of 2x2s in a module (3 TRUs by 4 rows) + mrow = (module/2) * 12; + // 24 columns per module, odd module numbers increased by 24 + mcol = (module%2) * 24; + + // position within TRU coordinates + tcol = column / 4; + trow = column % 4; + + //.combine + if( module%2 == 0 ){ // A side + // mirror rows + trow = 3 - trow; + + // TRU in module row addition + drow = (rcu*branch+rcu) * 4; + + } + else{ // C side + // mirror columns + tcol = 23 - tcol; + + // TRU in module row addition + drow = (2 - (rcu*branch+rcu)) * 4; + } + + // output global row/collumn position (0,0 = SMA0, phi = 0, |eta| = max) + globRow = mrow + drow + trow; + globColumn = mcol + tcol; + return; + +} +//____________________________________________________________________________ +void AliEMCALQADataMakerRec::MakeRawsSTU(AliRawReader* rawReader){ + + AliEMCALTriggerSTURawStream* inSTU = new AliEMCALTriggerSTURawStream(rawReader); + + rawReader->Reset(); + rawReader->Select("EMCAL", 44); + + + //L1 segmentation + Int_t sizeL1gsubr = 1; + Int_t sizeL1gpatch = 2; + Int_t sizeL1jsubr = 4; + + Int_t EMCALtrig[AliEMCALGeoParams::fgkEMCALSTUCols][AliEMCALGeoParams::fgkEMCALSTURows]; + + memset(EMCALtrig, 0, sizeof(int) * AliEMCALGeoParams::fgkEMCALSTUCols * AliEMCALGeoParams::fgkEMCALSTURows); + + + + + if (inSTU->ReadPayLoad()) + { + + //Fw version (use in case of change in L1 jet + Int_t fw = inSTU->GetFwVersion(); + Int_t sizeL1jpatch = 2+(fw >> 16); + + //To check link + + Int_t mask = inSTU->GetFrameReceived(); + + + for (int i = 0; i < 32; i++) + { + if ((mask >> i) & 0x1) FillRawsData(kSTUTRU, i); + } + + + //V0 signal in STU + Int_t V0Sig = inSTU->GetV0A()+inSTU->GetV0C(); + + //FastOR amplitude receive from TRU + for (Int_t i = 0; i < 32; i++) + { + UInt_t adc[96]; + for (Int_t j = 0; j < 96; j++) adc[j] = 0; + + inSTU->GetADC(i, adc); + + Int_t iTRU = fGeom->GetTRUIndexFromSTUIndex(i); + + for (Int_t j = 0; j < 96; j++) + { + Int_t idx; + fGeom->GetAbsFastORIndexFromTRU(iTRU, j, idx); + + Int_t px, py; + fGeom->GetPositionInEMCALFromAbsFastORIndex(idx, px, py); + + EMCALtrig[px][py] = adc[j]; + } + } + + //L1 Gamma patches + Int_t iTRU_STU, x, y; + for (Int_t i = 0; i < inSTU->GetNL1GammaPatch(); i++) + { + if (inSTU->GetL1GammaPatch(i, iTRU_STU, x, y)) // col (0..23), row (0..3) + { + Int_t iTRU; + iTRU = fGeom->GetTRUIndexFromSTUIndex(iTRU_STU); + + Int_t etaG = 23-x, phiG = y + 4 * int(iTRU/2); //position in EMCal + + if (iTRU%2) etaG += 24; //C-side + + etaG = etaG - sizeL1gsubr * sizeL1gpatch + 1; + + //Position of patch L1G (bottom-left FastOR of the patch) + FillRawsData(kGL1, etaG, phiG); + + //loop to sum amplitude of FOR in the gamma patch + Int_t L1G_PatchAmp = 0; + for (Int_t L1Gx = 0; L1Gx < sizeL1gpatch; L1Gx ++) + { + for (Int_t L1Gy = 0; L1Gy < sizeL1gpatch; L1Gy ++) + { + if (etaG+L1Gx < 48 && phiG+L1Gy < 64) L1G_PatchAmp += EMCALtrig[etaG+L1Gx][phiG+L1Gy]; + //cout << EMCALtrig[etaG+L1Gx][phiG+L1Gy] << endl; + } + } + + //if (L1G_PatchAmp > 500) cout << "L1G amp =" << L1G_PatchAmp << endl; + FillRawsData(kGL1V0, V0Sig, L1G_PatchAmp); + + } + } + + + //L1 Jet patches + for (Int_t i = 0; i < inSTU->GetNL1JetPatch(); i++) + { + if (inSTU->GetL1JetPatch(i, x, y)) // col (0,15), row (0,11) + { + + Int_t etaJ = sizeL1jsubr * (11-y-sizeL1jpatch + 1); + Int_t phiJ = sizeL1jsubr * (15-x-sizeL1jpatch + 1); + + //position of patch L1J (FOR bottom-left) + FillRawsData(kJL1, etaJ, phiJ); + + //loop the sum aplitude of FOR in the jet patch + Int_t L1J_PatchAmp = 0; + for (Int_t L1Jx = 0; L1Jx < sizeL1jpatch*4; L1Jx ++) + { + for (Int_t L1Jy = 0; L1Jy < sizeL1jpatch*4; L1Jy ++) + { + if (etaJ+L1Jx < 48 && phiJ+L1Jy < 64) L1J_PatchAmp += EMCALtrig[etaJ+L1Jx][phiJ+L1Jy]; + } + } + + //cout << "L1J amp =" << L1J_PatchAmp << endl; + FillRawsData(kJL1V0, V0Sig, L1J_PatchAmp); + + } + } + + } + + //Fill FOR amplitude histo + for (Int_t i = 0; i < 48; i++) + { + for (Int_t j = 0; j < 60; j++) + { + if (EMCALtrig[i][j] != 0) FillRawsData(kAmpL1, i, j, EMCALtrig[i][j]); + } + } + + delete inSTU; + return; +} + +