/* Contact: Jean-Luc Charvet Link: http://aliceinfo.cern.ch/static/Offline/dimuon/muon_html/README_mchda.html Reference Runs: (station 3) Index Run 1 109303 2 109304 3 109305 4 109306 5 109307 6 109308 7 109309 8 109310 9 109311 10 109312 11 109313 Run Type: CALIBRATION DA Type: LDC Number of events needed: 400 events for each calibration run (11) Input Files: mutrkcalibvalues and config_ldc-MTRK-S3-0 in path : /afs/cern.ch/user/j/jcharvet/public/DA_validation Output Files: local dir (not persistent) -> MUONTRKGAINda.par FXS -> run<#>_MCH__GAINS Trigger types used: */ /************************************************************************** * 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. * **************************************************************************/ /* $Id$ */ /* ------------------------------------------------------------------------- 2012-02-29 New version: MUONTRKGAINda.cxx,v 1.7 ------------------------------------------------------------------------- Version for MUONTRKGAINda MUON tracking (A. Baldisseri, J.-L. Charvet) Rem: AliMUON2DMap stores all channels, even those which are not connected if pedMean == -1, channel not connected to a pad */ extern "C" { #include } #include "event.h" #include "monitor.h" #include #include #include #include #include //AliRoot #include "AliMUONRawStreamTrackerHP.h" #include "AliRawReader.h" #include "AliMUONVStore.h" #include "AliMUON2DMap.h" #include "AliMUONCalibParamND.h" #include "AliMpIntPair.h" #include "AliMpConstants.h" #include "AliRawDataErrorLog.h" #include "AliMUONTrackerIO.h" #include "AliLog.h" #include "AliMUONDspHeader.h" #include "AliDAQ.h" //ROOT #include "TFile.h" #include "TSystem.h" #include "TTree.h" #include "TH1F.h" #include "TString.h" #include "TStopwatch.h" #include "TMath.h" #include "TTimeStamp.h" #include "TGraphErrors.h" #include "TF1.h" #include "TROOT.h" #include "TPluginManager.h" #include "TFitter.h" #include "TObjString.h" #include "THashTable.h" #include // //AMORE // #ifdef ALI_AMORE #include #endif #include "AliMUONPedestal.h" #include "AliMUONGain.h" #include "AliMUONErrorCounter.h" // main routine int main(Int_t argc, const char** argv) { Int_t status=0 , status1=0 ; TStopwatch timers; timers.Start(kTRUE); const char* prefixDA = "MUONTRKGAINda"; // program prefix const char* prefixLDC = getenv("DATE_ROLE_NAME"); // LDC name if(prefixLDC == NULL) prefixLDC ="MCH" ; printf("%s : -------- Begin execution : %s -------- \n",prefixLDC,prefixDA); // const char* prefixDA = "MUONTRKGAINda"; // program prefix // printf(" ######## Begin execution : %s ######## \n\n",prefixDA); TString inputFile; // decode the input line if (argc!=2) { printf("Wrong number of arguments\n"); return -1; } inputFile = argv[1]; // needed for streamer application gROOT->GetPluginManager()->AddHandler("TVirtualStreamerInfo", "*", "TStreamerInfo", "RIO", "TStreamerInfo()"); // needed for Minuit plugin gROOT->GetPluginManager()->AddHandler("ROOT::Math::Minimizer", "Minuit", "TMinuitMinimizer", "Minuit", "TMinuitMinimizer(const char*)"); Int_t skipEvents = 0; Int_t maxEvents = 1000000; Int_t maxDateEvents = 1000000; Int_t errorDetail = 0; Int_t nDateEvents = 0; Int_t nDateRejEvents = 0; Int_t nGlitchErrors= 0; Int_t nParityErrors= 0; Int_t nPaddingErrors= 0; Int_t nTokenlostErrors= 0; Int_t nEventsRecovered = 0; Int_t nEvents = 0; Int_t nEvthreshold = 50; //below this nb_evt the mean of the charge is not calculated and forced to 4085 (sigma) Int_t statusDA = 0 ; // DA return code TString logOutputFile; Char_t* detail; Char_t flatFile[256]=""; TString shuttleFile; UInt_t runNumber = 0; ofstream filcout; Int_t nIndex = -1; // For DA Gain Int_t nEntries = daqDA_ECS_getTotalIteration(); // usually = 11 = Nb of calibration runs Int_t nInit=0; // = 0 all DAC values ; = 1 DAC=0 excluded (default=1) Int_t nbpf1=4; // nb of points for linear fit (default=6) Int_t printLevel = 0; // printout (default=0, =1 =>.ped , => .peak & .param) Int_t plotLevel = 1; // plotout (default=1 => tree , =2 tree+Tgraph+fit) Int_t nbev=0; Int_t injCharge; // Reading current iteration nIndex = daqDA_ECS_getCurrentIteration(); if(nIndex<0 || nIndex>nEntries) {printf("\n Failed: nIndex = %d\n",nIndex); return -1 ;} //Gain object AliMUONGain* muonGain = new AliMUONGain(); muonGain->SetprefixDA(prefixDA); muonGain->SetprefixLDC(prefixLDC); muonGain->SetAliRootDataFileName(); // MUONTRKGAINda_data.root muonGain->SetStatusDA(statusDA); // Output log file initialisations sprintf(flatFile,"%s.log",prefixDA); logOutputFile=flatFile; AliLog::SetStreamOutput(&filcout); // Print details on logfile filcout.open(logOutputFile.Data()); filcout<<"//=================================================" << endl; filcout<<"//" << prefixLDC << " " << prefixDA << endl; filcout<<"//=================================================" << endl; filcout<<"// * Date : " << muonGain->GetDate()->AsString("l") << "\n" << endl; muonGain->SetAlifilcout(&filcout); cout<GetDate()->AsString("l") << "\n" << endl; UShort_t manuId; UChar_t channelId; UShort_t charge; // DAC values stored in array vDAC (reading dbfile in DETDB) // Int_t vDAC[11] = {0,200,400,800,1200,1600,2000,2500,3000,3500,4000} Int_t nConfig = 1; // flag to read or not configuration ascii file in detDB Int_t vDAC[11]; // DAC values Char_t dbfile[256]=""; Int_t nEvthres; Char_t line[80]; sprintf(dbfile,"mutrkcalibvalues"); status=daqDA_DB_getFile(dbfile,dbfile); if(status) {printf(" Failed : input file %s is missing, status = %d\n",dbfile,status); return -1; } ifstream filein(dbfile,ios::in); Int_t k=0, kk; while (k> kk >> vDAC[k] ; k++; } injCharge=vDAC[nIndex-1]; filein >> line >> nInit ; cout << "mutrkcalibvalues: " << line << nInit << " " ; // = 0 all DAC values fitted ; = 1 DAC=0 excluded (default=1) filein >> line >> nbpf1; cout << line << nbpf1 << " " ; // nb of points for linear fit (default=6) filein >> line >> printLevel; cout << line << printLevel << " " ; // printout (default=0, =1 =>.ped /run, =2 => .peak & .param) filein >> line >> plotLevel; cout << line << plotLevel << " " ; // plotout (default=1 => tree , =2 tree+Tgraph+fit) filein >> line >> nConfig ; cout << line << nConfig << " " ; //nConfig (default=1 => read config in DetDB, otherwise =0) filein >> line >> nEvthres ; if(nEvthres !=0)nEvthreshold=nEvthres; cout << line << nEvthreshold << " " ; // (default = 0 <=> 50) below nEvthreshold calibration not performed filein >> line >> nbev ; if(nbev !=0){maxEvents=nbev; cout << line << maxEvents << " " ;} // Nb of events to read (default = 0 => reading all events) cout << endl; muonGain->SetAliPrintLevel(printLevel); muonGain->SetAliPlotLevel(plotLevel); muonGain->SetconfigDA(nConfig); muonGain->SetnEvthreshold(nEvthreshold); if(nConfig) { // Laod configuration ascii file from DetDB sprintf(dbfile,"config_%s",getenv("DATE_ROLE_NAME")); status=daqDA_DB_getFile(dbfile,dbfile); if(status) {printf(" Failed : Configuration file %s is missing, status = %d\n",dbfile,status); return -1; } // else printf(" *** Copy ascii config file: %s from DetDB to working directory and reading ...*** \n",dbfile); muonGain->LoadConfig(dbfile); } // Rawdeader, RawStreamHP AliRawReader* rawReader = AliRawReader::Create(inputFile.Data()); AliMUONRawStreamTrackerHP* rawStream = new AliMUONRawStreamTrackerHP(rawReader); // rawStream->DisableWarnings(); rawStream->EnabbleErrorLogger(); switch (errorDetail) { case 0: rawStream->SetLoggingDetailLevel(AliMUONRawStreamTrackerHP::kLowErrorDetail); break;/// Logs minimal information in the error messages. case 1: rawStream->SetLoggingDetailLevel(AliMUONRawStreamTrackerHP::kMediumErrorDetail); break;/// Logs a medium level of detail in the error messages. case 2: rawStream->SetLoggingDetailLevel(AliMUONRawStreamTrackerHP::kHighErrorDetail); break;/// Logs a medium level of detail in the error messages. default: rawStream->SetLoggingDetailLevel(AliMUONRawStreamTrackerHP::kMediumErrorDetail); break; } printf("\n%s : Reading data from file %s\n",prefixLDC,inputFile.Data()); Int_t tabTokenError[20][14]; for ( Int_t i=0 ; i<20 ; i++) { for ( Int_t j=0 ; j<14 ; j++) { tabTokenError[i][j]=0;} } while (rawReader->NextEvent()) { Int_t eventType = rawReader->GetType(); runNumber = rawReader->GetRunNumber(); if(nDateEvents==0) { filcout<<"// ----> RUN = " << runNumber << "\n" << endl;} if (nDateEvents >= maxDateEvents) break; if (nEvents >= maxEvents) break; if (nDateEvents>0 && nDateEvents % 100 == 0) cout<< prefixLDC << " : DATE events = " << nDateEvents << " Used events = " << nEvents << endl; // check shutdown condition if (daqDA_checkShutdown()) break; //Skip events while (skipEvents) { rawReader->NextEvent(); skipEvents--; } nDateEvents++; if (eventType != PHYSICS_EVENT) continue; // for the moment const char* detail = ""; // First lopp over DDL's to find good events // Error counters per event (counters in the decoding lib are for each DDL) Bool_t eventIsErrorMessage = kFALSE; int eventGlitchErrors = 0; int eventParityErrors = 0; int eventPaddingErrors = 0; int eventTokenlostErrors = 0; rawStream->First(); do { if (rawStream->IsErrorMessage()) eventIsErrorMessage = kTRUE; eventGlitchErrors += rawStream->GetGlitchErrors(); eventParityErrors += rawStream->GetParityErrors(); eventPaddingErrors += rawStream->GetPaddingErrors(); eventTokenlostErrors += rawStream->GetTokenLostErrors(); if (rawStream->GetTokenLostErrors()) { nTokenlostErrors++; const AliMUONRawStreamTrackerHP::AliBlockHeader* blkHeader = 0x0; const AliMUONRawStreamTrackerHP::AliDspHeader* dspHeader = 0x0; Int_t nBlock = rawStream->GetBlockCount(); for(Int_t iBlock = 0; iBlock < nBlock ;iBlock++) { blkHeader = rawStream->GetBlockHeader(iBlock); // printf("Block %d Total length %d\n",iBlock,blkHeader->GetTotalLength()); Int_t nDsp = rawStream->GetDspCount(iBlock); // printf("Block %d DSP %d\n",iBlock,nDsp); for(Int_t iDsp = 0; iDsp < nDsp ;iDsp++) { dspHeader = blkHeader->GetDspHeader(iDsp); // printf("Dsp %d Add %X\n",iDsp,dspHeader); if (dspHeader->GetErrorWord()) { Int_t ddl = rawStream->GetDDL() ; // Int_t ddl = AliDAQ::DdlID("MUONTRK", rawStream->GetDDL()) - 2560 ; // format 2560 + ddl Int_t frt = (dspHeader->GetErrorWord() & 0xFFFF0000) >> 16 ; // 4*4bits right shift tabTokenError[ddl][frt]++; // printf(" DDL %d error word %X %d %d\n",ddl,dspHeader->GetErrorWord(),frt,tabTokenError[8][4]); } } } } } while(rawStream->NextDDL()); AliMUONRawStreamTrackerHP::AliBusPatch* busPatch; if (!eventIsErrorMessage) { // Good events (no error) -> compute pedestal for all channels rawStream->First(); nEvents++; muonGain->SetAliNCurrentEvents(nEvents); while( (busPatch = (AliMUONRawStreamTrackerHP::AliBusPatch*) rawStream->Next())) { for(int i = 0; i < busPatch->GetLength(); ++i) { busPatch->GetData(i, manuId, channelId, charge); muonGain->MakePed(busPatch->GetBusPatchId(), (Int_t)manuId, (Int_t)channelId, (Int_t)charge); } } } else { // Events with errors if (eventParityErrors && !eventGlitchErrors&& !eventPaddingErrors) { filcout << " ----------- Date Event recovered = " << nDateEvents << " ----------------" << endl; // Recover parity errors -> compute pedestal for all good buspatches if ( TEST_SYSTEM_ATTRIBUTE( rawReader->GetAttributes(), ATTR_ORBIT_BC )) { filcout <<"Event recovered -> Period:"<GetEventId() ) <<" Orbit:"<GetEventId() ) <<" BunchCrossing:"<GetEventId() )< nbInRun:"<GetEventId() ) <<" burstNb:"<GetEventId() ) <<" nbInBurst:"<GetEventId() )<First(); nEvents++; muonGain->SetAliNCurrentEvents(nEvents); while( (busPatch = (AliMUONRawStreamTrackerHP::AliBusPatch*) rawStream->Next())) { // Check the buspatch -> if error not use it in the pedestal calculation int errorCount = 0; for(int i = 0; i < busPatch->GetLength(); ++i) { if (!busPatch->IsParityOk(i)) errorCount++; } if (!errorCount) { // Good buspatch for(int i = 0; i < busPatch->GetLength(); ++i) { busPatch->GetData(i, manuId, channelId, charge); muonGain->MakePed(busPatch->GetBusPatchId(), (Int_t)manuId, (Int_t)channelId, (Int_t)charge); } } else { char bpname[256]; AliMUONErrorCounter* errorCounter; // Bad buspatch -> not used (just print) filcout<<"bpId "<GetBusPatchId()<<" words "<GetLength() <<" parity errors "<GetBusPatchId()); if (!(errorCounter = (AliMUONErrorCounter*) (muonGain->GetErrorBuspatchTable()->FindObject(bpname)))) { // New buspatch errorCounter = new AliMUONErrorCounter(busPatch->GetBusPatchId()); errorCounter->SetName(bpname); muonGain->GetErrorBuspatchTable()->Add(errorCounter); } else { // Existing buspatch errorCounter->Increment(); } // errorCounter->Print(); } // end of if (!errorCount) } // end of while( (busPatch = (AliMUONRawStreamTrackerHP ... // nEvents++; nEventsRecovered++; } //end of if (eventParityErrors && !eventGlitchErrors&& !eventPaddingErrors) else { // Fatal errors reject the event detail = Form(" ----------- Date Event rejected = %d ----------------",nDateEvents); nDateRejEvents++; filcout << detail << endl; if ( TEST_SYSTEM_ATTRIBUTE( rawReader->GetAttributes(), ATTR_ORBIT_BC )) { filcout <<"Event rejected -> Period:"<GetEventId() ) <<" Orbit:"<GetEventId() ) <<" BunchCrossing:"<GetEventId() )< nbInRun:"<GetEventId() ) <<" burstNb:"<GetEventId() ) <<" nbInBurst:"<GetEventId() )<GetGlitchErrors() && !rawStream->GetPaddingErrors() ... filcout<<"Number of errors : Glitch "<IsErrorMessage()) if (eventGlitchErrors) nGlitchErrors++; if (eventParityErrors) nParityErrors++; if (eventPaddingErrors) nPaddingErrors++; //if (eventTokenlostErrors) nTokenlostErrors++; } // while (rawReader->NextEvent()) delete rawReader; delete rawStream; // process and store mean peak values in .root file sprintf(flatFile,"%s.par",prefixDA); if(shuttleFile.IsNull())shuttleFile=flatFile; injCharge=vDAC[nIndex-1]; muonGain->SetAliIndex(nIndex); // fIndex muonGain->SetAliInjCharge(injCharge); muonGain->SetAliNEvents(nEvents); muonGain->SetAliRunNumber(runNumber); muonGain->MakePedStoreForGain(shuttleFile); // writing some counters detail=Form("\n%s : Nb of DATE events = %d",prefixLDC,nDateEvents) ; cout << detail; filcout << detail ; detail=Form("\n%s : Nb of Glitch errors = %d",prefixLDC,nGlitchErrors) ; cout << detail; filcout << detail ; detail=Form("\n%s : Nb of Parity errors = %d",prefixLDC,nParityErrors) ; cout << detail; filcout << detail ; detail=Form("\n%s : Nb of Token lost errors = %d",prefixLDC,nTokenlostErrors) ; cout << detail; filcout << detail ; detail=Form("\n%s : Nb of Rejected DATE events = %d",prefixLDC,nDateRejEvents) ; cout << detail; filcout << detail ; detail=Form("\n%s : Nb of recovered events = %d",prefixLDC,nEventsRecovered) ; cout << detail; filcout << detail ; detail=Form("\n%s : Nb of events without errors = %d",prefixLDC,nEvents-nEventsRecovered) ; cout << detail; filcout << detail ; detail=Form("\n%s : Nb of used events = %d (threshold= %d)\n\n",prefixLDC,nEvents,nEvthreshold); cout << detail; filcout << detail ; // Writing Token Error table if(nTokenlostErrors) { char* detail=Form("\nWarning: Token Lost occurence \n"); printf("%s",detail); filcout << detail ; for ( Int_t i=0 ; i<20 ; i++) { for ( Int_t j=4 ; j<14 ; j++) { if(tabTokenError[i][j]>0) { Int_t tab=tabTokenError[i][j]; Int_t frt = j/2-1; Int_t station = i/4 +1; if( j % 2 == 0)detail=Form(" in DDL= %d (station %d) and FRT%d ( Up ) => %d Token errors (address = 0x%X0000)",2560+i,station,frt,tab,j); else detail=Form(" in DDL= %d (station %d) and FRT%d (Down) => %d Token errors (address = 0x%X0000)",2560+i,station,frt,tab,j); printf("%s\n",detail); filcout << detail << endl; } } } } // Computing gain if(nIndex==nEntries) { muonGain->SetAliInit(nInit); // fnInit muonGain->SetAliEntries(nEntries); // fnEntries muonGain->SetAliNbpf1(nbpf1); // fnbpf1 muonGain->MakeGainStore(shuttleFile); status = muonGain->GetStatusDA() ; } // ouput files detail=Form("%s : Root data file : %s\n",prefixLDC,muonGain->GetRootDataFileName()); filcout << detail ; // cout << detail; detail=Form("%s : Output logfile : %s\n",prefixLDC,logOutputFile.Data()); filcout << detail ; // cout << detail; detail=Form("%s : Gain Histo file : %s\n",prefixLDC,muonGain->GetHistoFileName()); filcout << detail ; // cout << detail; detail=Form("%s : Gain file (to SHUTTLE) : %s\n",prefixLDC,shuttleFile.Data()); filcout << detail ; // cout << detail; // Copying files to local DB folder defined by DAQ_DETDB_LOCAL Char_t *dir; unsigned int nLastVersions=50; dir= getenv("DAQ_DETDB_LOCAL"); if(dir != NULL) { unsigned int nLastVersions=50; printf("\n%s : --- Local DataBase: %s (Max= %d) ---\n",prefixLDC,dir,nLastVersions); status1 = daqDA_localDB_storeFile(logOutputFile.Data(),nLastVersions); if(nIndex==nEntries) { status1 = daqDA_localDB_storeFile(muonGain->GetRootDataFileName(),nLastVersions); status1 = daqDA_localDB_storeFile(muonGain->GetHistoFileName(),nLastVersions); status1 = daqDA_localDB_storeFile(shuttleFile.Data(),nLastVersions); // if(status1)printf(" Store file : %s status = %d\n",shuttleFile.Data(),status1); } } filcout.close(); // Transferring pedestal file to FES (be sure that env variable DAQDALIB_PATH is set) cout << endl; status1 = daqDA_FES_storeFile(shuttleFile.Data(),"GAINS"); if (status1) { detail=Form("%s: !!! ERROR: Failed to export calibration file : %s to FES \n",prefixLDC,shuttleFile.Data()); printf("%s",detail); filcout << detail ; status= -1; } // else { detail=Form("%s : ---- STORE calibration FILE in FES : OK ---- \n",prefixLDC); printf("%s",detail); filcout << detail ;} if(nIndex==nEntries) { #ifdef ALI_AMORE std::ifstream in(shuttleFile.Data()); ostringstream stringout; char line[1024]; while ( in.getline(line,1024) ) stringout << line << "\n"; in.close(); amore::da::AmoreDA amoreDA(amore::da::AmoreDA::kSender); TObjString gaindata(stringout.str().c_str()); Int_t amoreStatus = amoreDA.Send("Gains",&gaindata); if ( amoreStatus ) {cout << prefixLDC << " : !!! ERROR: Failed to write Gains in the AMORE database : " << amoreStatus << endl ; status=-1 ;} else cout << prefixLDC << " : amoreDA.Send(Gains) ok" << endl; #else cout << prefixLDC << " : Warning: MCH DA not compiled with AMORE support" << endl; #endif } if(!status)printf("\n%s : -------- End execution : %s -------- (status= %d) \n",prefixLDC,prefixDA,status); else { printf("\n%s : -------- %s ending in ERROR !!!! -------- (status= %d) \n",prefixLDC,prefixDA,status);} timers.Stop(); printf("\nExecution time : R:%7.2fs C:%7.2fs\n", timers.RealTime(), timers.CpuTime()); return status; }