/** @file MCBM DATA unpacking ** @author Florian Uhlig ** @date 20.06.2016 ** Modified by P.-A. Loizeau ** @date 30.01.2019 ** ROOT macro to read tsa files which have been produced with the new data transport ** Convert data into cbmroot format. ** Uses CbmMcbm2018Source as source task. */ // In order to call later Finish, we make this global FairRunOnline *run = NULL; void MonitorT0( TString inFile = "", TString sHostname = "localhost", Int_t iServerHttpPort = 8080, Int_t iServerRefreshRate = 100, UInt_t uRunId = 0, UInt_t nrEvents=0) { TString srcDir = gSystem->Getenv("VMCWORKDIR"); // --- Specify number of events to be produced. // --- -1 means run until the end of the input file. Int_t nEvents=-1; // --- Specify output file name (this is just an example) TString runId = TString::Format("%u", uRunId); TString outFile = "data/moni_t0_" + runId + ".root"; TString parFile = "data/moni_t0_params_" + runId + ".root"; // --- Set log output levels FairLogger::GetLogger(); gLogger->SetLogScreenLevel("INFO"); //gLogger->SetLogScreenLevel("DEBUG"); gLogger->SetLogVerbosityLevel("MEDIUM"); // --- Define parameter files TList *parFileList = new TList(); TString paramDir = "./"; TString paramFileTof = paramDir + "mT0Par.par"; TObjString* parTofFileName = new TObjString(paramFileTof); parFileList->Add(parTofFileName); // --- Set debug level gDebug = 0; std::cout << std::endl; std::cout << ">>> MonitorT0: output file is " << outFile << std::endl; // ======================================================================== // ======================================================================== std::cout << std::endl; std::cout << ">>> MonitorT0: Initialising..." << std::endl; CbmMcbm2018MonitorTaskT0 * monitor_t0 = new CbmMcbm2018MonitorTaskT0(); monitor_t0->SetIgnoreOverlapMs(); monitor_t0->SetHistoryHistoSize( 1800 ); if( 0 < uRunId ) monitor_t0->SetHistoFilename( Form( "data/HistosMonitorT0_%03u.root", uRunId ) ); if( uRunId < 87 ) monitor_t0->SetPulserTotLimits( 90, 100 ); // for runs <= 86 else monitor_t0->SetPulserTotLimits( 180, 210 ); // for runs > 86 // --- Source task CbmMcbm2018Source* source = new CbmMcbm2018Source(); if( "" != inFile ) { source->SetFileName(inFile); } // if( "" != inFile ) else { source->SetHostName( sHostname ); } // else of if( "" != inFile ) // source->AddUnpacker(monitor_t0, 0x60, 9 );//gDPB TOF source->AddUnpacker(monitor_t0, 0x90, 9 );//gDPB T0 source->SetSubscriberHwm( 1000 ); // --- Run run = new FairRunOnline(source); run->ActivateHttpServer( iServerRefreshRate, iServerHttpPort ); // refresh each 100 events /// To avoid the server sucking all Histos from gROOT when no output file is used /// ===> Need to explicitely add the canvases to the server in the task! run->GetHttpServer()->GetSniffer()->SetScanGlobalDir(kFALSE); run->SetAutoFinish(kFALSE); // ----- Runtime database --------------------------------------------- FairRuntimeDb* rtdb = run->GetRuntimeDb(); FairParAsciiFileIo* parIn = new FairParAsciiFileIo(); parIn->open(parFileList, "in"); rtdb->setFirstInput(parIn); run->Init(); // --- Start run TStopwatch timer; timer.Start(); std::cout << ">>> MonitorT0: Starting run..." << std::endl; if ( 0 == nrEvents) { run->Run(nEvents, 0); // run until end of input file } else { run->Run(0, nrEvents); // process 2000 Events } run->Finish(); timer.Stop(); std::cout << "Processed " << std::dec << source->GetTsCount() << " timeslices" << std::endl; // --- End-of-run info Double_t rtime = timer.RealTime(); Double_t ctime = timer.CpuTime(); std::cout << std::endl << std::endl; std::cout << ">>> MonitorT0: Macro finished successfully." << std::endl; std::cout << ">>> MonitorT0: Output file is " << outFile << std::endl; std::cout << ">>> MonitorT0: Real time " << rtime << " s, CPU time " << ctime << " s" << std::endl; std::cout << std::endl; /// --- Screen output for automatic tests std::cout << " Test passed" << std::endl; std::cout << " All ok " << std::endl; }