// ----------------------------------------------------------------------------- // ----- ----- // ----- CbmMcbm2018MonitorTaskTof ----- // ----- Created 27.11.2019 by P.-A. Loizeau ----- // ----- ----- // ----------------------------------------------------------------------------- #include "CbmMcbm2018MonitorTaskTof.h" #include "CbmMcbm2018MonitorAlgoTof.h" #include "CbmMcbm2018TofPar.h" #include "FairLogger.h" #include "FairRootManager.h" #include "FairRun.h" #include "FairRuntimeDb.h" #include "FairRunOnline.h" #include "FairParGenericSet.h" #include "THttpServer.h" #include "TROOT.h" #include "TString.h" #include "TList.h" #include "TCanvas.h" #include #include #include #include #include #include Bool_t bMcbm2018MonitorTaskTofResetHistos = kFALSE; Bool_t bMcbm2018MonitorTaskTofSaveHistos = kFALSE; CbmMcbm2018MonitorTaskTof::CbmMcbm2018MonitorTaskTof() : CbmMcbmUnpack(), fbDebugMonitorMode( kFALSE ), fbIgnoreCriticalErrors( kFALSE ), fuHistoryHistoSize( 3600 ), fsHistoFileName( "data/HistosMonitor.root" ), fuMinTotPulser( 90 ), fuMaxTotPulser( 100 ), fiGdpbIndex( -1 ), fulTsCounter( 0 ), fMonitorAlgo( nullptr ) { fMonitorAlgo = new CbmMcbm2018MonitorAlgoTof(); } CbmMcbm2018MonitorTaskTof::~CbmMcbm2018MonitorTaskTof() { delete fMonitorAlgo; } Bool_t CbmMcbm2018MonitorTaskTof::Init() { LOG(info) << "CbmMcbm2018MonitorTaskTof::Init"; LOG(info) << "Initializing eTOF 2019 Monitor task"; return kTRUE; } void CbmMcbm2018MonitorTaskTof::SetParContainers() { LOG(info) << "Setting parameter containers for " << GetName(); TList* parCList = fMonitorAlgo->GetParList(); for( Int_t iparC = 0; iparC < parCList->GetEntries(); ++iparC ) { FairParGenericSet* tempObj = (FairParGenericSet*)(parCList->At(iparC)); parCList->Remove(tempObj); std::string sParamName{ tempObj->GetName() }; FairParGenericSet* newObj = dynamic_cast( FairRun::Instance()->GetRuntimeDb()->getContainer( sParamName.data() ) ); if( nullptr == newObj ) { LOG(error) << "Failed to obtain parameter container " << sParamName << ", for parameter index " << iparC; return; } // if( nullptr == newObj ) parCList->AddAt(newObj, iparC); // delete tempObj; } // for( Int_t iparC = 0; iparC < parCList->GetEntries(); ++iparC ) } Bool_t CbmMcbm2018MonitorTaskTof::InitContainers() { LOG(info) << "Init parameter containers for " << GetName(); /// Control flags CbmMcbm2018TofPar * pUnpackPar = dynamic_cast( FairRun::Instance()->GetRuntimeDb()->getContainer( "CbmMcbm2018TofPar" ) ); if( nullptr == pUnpackPar ) { LOG(error) << "Failed to obtain parameter container CbmMcbm2018TofPar"; return kFALSE; } // if( nullptr == pUnpackPar ) /// Transfer parameter values set from calling macro fMonitorAlgo->SetDebugMonitorMode( fbDebugMonitorMode ); fMonitorAlgo->SetIgnoreCriticalErrors( fbIgnoreCriticalErrors ); fMonitorAlgo->SetHistoryHistoSize( fuHistoryHistoSize ); fMonitorAlgo->SetPulserTotLimits( fuMinTotPulser, fuMaxTotPulser ); fMonitorAlgo->SetGdpbIndex( fiGdpbIndex ); Bool_t initOK = fMonitorAlgo->InitContainers(); /// Histos creation, obtain pointer on them and add them to the HTTP server /// Trigger histo creation on all associated algos initOK &= fMonitorAlgo->CreateHistograms(); /// Obtain vector of pointers on each histo from the algo (+ optionally desired folder) std::vector< std::pair< TNamed *, std::string > > vHistos = fMonitorAlgo->GetHistoVector(); /// Obtain vector of pointers on each canvas from the algo (+ optionally desired folder) std::vector< std::pair< TCanvas *, std::string > > vCanvases = fMonitorAlgo->GetCanvasVector(); /// Register the histos in the HTTP server THttpServer* server = FairRunOnline::Instance()->GetHttpServer(); if( nullptr != server ) { for( UInt_t uHisto = 0; uHisto < vHistos.size(); ++uHisto ) { // LOG(info) << "Registering " << vHistos[ uHisto ].first->GetName() // << " in " << vHistos[ uHisto ].second.data(); server->Register( Form( "/%s", vHistos[ uHisto ].second.data() ), vHistos[ uHisto ].first ); } // for( UInt_t uHisto = 0; uHisto < vHistos.size(); ++uHisto ) for( UInt_t uCanv = 0; uCanv < vCanvases.size(); ++uCanv ) { // LOG(info) << "Registering " << vCanvases[ uCanv ].first->GetName() // << " in " << vCanvases[ uCanv ].second.data(); server->Register( Form( "/%s", vCanvases[ uCanv ].second.data() ), gROOT->FindObject( (vCanvases[ uCanv ].first)->GetName() ) ); } // for( UInt_t uCanv = 0; uCanv < vCanvases.size(); ++uCanv ) server->RegisterCommand("/Reset_Moni_Hist", "bMcbm2018MonitorTaskTofResetHistos=kTRUE"); server->RegisterCommand("/Save_Moni_Hist", "bMcbm2018MonitorTaskTofSaveHistos=kTRUE"); server->Restrict("/Reset_Moni_Hist", "allow=admin"); } // if( nullptr != server ) return initOK; } Bool_t CbmMcbm2018MonitorTaskTof::ReInitContainers() { LOG(info) << "ReInit parameter containers for " << GetName(); Bool_t initOK = fMonitorAlgo->ReInitContainers(); return initOK; } void CbmMcbm2018MonitorTaskTof::AddMsComponentToList( size_t component, UShort_t usDetectorId ) { fMonitorAlgo->AddMsComponentToList( component, usDetectorId ); } Bool_t CbmMcbm2018MonitorTaskTof::DoUnpack(const fles::Timeslice& ts, size_t /*component*/) { if( bMcbm2018MonitorTaskTofResetHistos ) { LOG(info) << "Reset Monitor histos "; fMonitorAlgo->ResetHistograms(); bMcbm2018MonitorTaskTofResetHistos = kFALSE; } // if( bMcbm2018MonitorTaskTofResetHistos ) if( bMcbm2018MonitorTaskTofSaveHistos ) { LOG(info) << "Save Monitor histos & canvases"; SaveHistograms(); bMcbm2018MonitorTaskTofSaveHistos = kFALSE; } // if( bMcbm2018MonitorTaskTofSaveHistos ) if( kFALSE == fMonitorAlgo->ProcessTs( ts ) ) { LOG(error) << "Failed processing TS " << ts.index() << " in unpacker algorithm class"; return kTRUE; } // if( kFALSE == fMonitorAlgo->ProcessTs( ts ) ) /// Cleqr the digis vector in case it was filled std::vector< CbmTofDigi > vDigi = fMonitorAlgo->GetVector(); fMonitorAlgo->ClearVector(); if( 0 == fulTsCounter % 10000 ) LOG(info) << "Processed " << fulTsCounter << "TS"; fulTsCounter++; return kTRUE; } void CbmMcbm2018MonitorTaskTof::Reset() { } void CbmMcbm2018MonitorTaskTof::Finish() { SaveHistograms(); } void CbmMcbm2018MonitorTaskTof::SetIgnoreOverlapMs( Bool_t bFlagIn ) { fMonitorAlgo->SetIgnoreOverlapMs( bFlagIn ); } Bool_t CbmMcbm2018MonitorTaskTof::SaveHistograms() { /// Obtain vector of pointers on each histo from the algo (+ optionally desired folder) std::vector< std::pair< TNamed *, std::string > > vHistos = fMonitorAlgo->GetHistoVector(); std::vector< std::pair< TCanvas *, std::string > > vCanvas = fMonitorAlgo->GetCanvasVector(); /// (Re-)Create ROOT file to store the histos TDirectory * oldDir = NULL; TFile * histoFile = NULL; // Store current directory position to allow restore later oldDir = gDirectory; // open separate histo file in recreate mode histoFile = new TFile( fsHistoFileName , "RECREATE"); if( nullptr == histoFile ) return kFALSE; /// Register the histos in the HTTP server for( UInt_t uHisto = 0; uHisto < vHistos.size(); ++uHisto ) { /// Make sure we end up in chosen folder TString sFolder = vHistos[ uHisto ].second.data(); if( nullptr == gDirectory->Get( sFolder ) ) gDirectory->mkdir( sFolder ); gDirectory->cd( sFolder ); /// Write plot vHistos[ uHisto ].first->Write(); histoFile->cd(); } // for( UInt_t uHisto = 0; uHisto < vHistos.size(); ++uHisto ) for( UInt_t uCanvas = 0; uCanvas < vCanvas.size(); ++uCanvas ) { /// Make sure we end up in chosen folder TString sFolder = vCanvas[ uCanvas ].second.data(); if( nullptr == gDirectory->Get( sFolder ) ) gDirectory->mkdir( sFolder ); gDirectory->cd( sFolder ); /// Write plot vCanvas[ uCanvas ].first->Write(); histoFile->cd(); } // for( UInt_t uHisto = 0; uHisto < vHistos.size(); ++uHisto ) // Restore original directory position oldDir->cd(); histoFile->Close(); return kTRUE; } ClassImp(CbmMcbm2018MonitorTaskTof)