// --------------------------------------------------------------------------
//
// Macro for digitisation and reconstruction of MC events with standard settings
//
// "old", event-by-event simulation and reconstruction chain.
// For time-based simulation, look at run_digi_tb.C
// and run_reco_tb_digi.C and run_reco_tb_track.C.
//
// This macro combines digitisation and reconstruction by using the
// macro modules digitize.C and reconstruct.C.
//
// The input file (...mc.root) can be chosen directly in the macro (line 42).
// or through the third argument to the macro call.
// If neither is done, the standard input for the regular tests is used.
//
// V. Friese 24/02/2006
// Version 18/03/2017 (V. Friese)
//
// --------------------------------------------------------------------------
void run_reco(Int_t nEvents = 2,
const char* setupName = "sis100_electron",
const char* inputFile = "")
{
// ========================================================================
// Adjust this part according to your requirements
// --- Logger settings ----------------------------------------------------
TString logLevel = "INFO";
TString logVerbosity = "LOW";
// ------------------------------------------------------------------------
// ----- Environment --------------------------------------------------
TString myName = "run_reco"; // this macro's name for screen output
TString srcDir = gSystem->Getenv("VMCWORKDIR"); // top source directory
// ------------------------------------------------------------------------
// ----- In- and output file names ------------------------------------
TString inFile = ""; // give here or as argument; otherwise default is taken
TString outDir = "data/";
TString outFile = outDir + setupName + "_test.eds.root"; // Output file (reco)
TString parFile = outDir + setupName + "_params.root"; // Parameter file
// ------------------------------------------------------------------------
// ----- Remove old CTest runtime dependency file ----------------------
TString depFile = Remove_CTest_Dependency_File(outDir, "run_reco" , setupName);
// ------------------------------------------------------------------------
// ----- Load the geometry setup -------------------------------------
std::cout << std::endl;
TString setupFile = srcDir + "/geometry/setup/setup_" + setupName + ".C";
TString setupFunct = "setup_";
setupFunct = setupFunct + setupName + "()";
std::cout << "-I- " << myName << ": Loading macro " << setupFile << std::endl;
gROOT->LoadMacro(setupFile);
gROOT->ProcessLine(setupFunct);
// You can modify the pre-defined setup by using
// CbmSetup::Instance()->RemoveModule(ESystemId) or
// CbmSetup::Instance()->SetModule(ESystemId, const char*, Bool_t) or
// CbmSetup::Instance()->SetActive(ESystemId, Bool_t)
// See the class documentation of CbmSetup.
// ------------------------------------------------------------------------
// ----- Parameter files as input to the runtime database -------------
std::cout << std::endl;
std::cout << "-I- " << myName << ": Defining parameter files " << std::endl;
TList *parFileList = new TList();
TString geoTag;
// - TRD digitisation parameters
if ( CbmSetup::Instance()->GetGeoTag(kTrd, geoTag) ) {
TObjString* trdFile = new TObjString(srcDir + "/parameters/trd/trd_" + geoTag + ".digi.par");
parFileList->Add(trdFile);
std::cout << "-I- " << myName << ": Using parameter file "
<< trdFile->GetString() << std::endl;
}
// - TOF digitisation parameters
if ( CbmSetup::Instance()->GetGeoTag(kTof, geoTag) ) {
TObjString* tofFile = new TObjString(srcDir + "/parameters/tof/tof_" + geoTag + ".digi.par");
parFileList->Add(tofFile);
std::cout << "-I- " << myName << ": Using parameter file "
<< tofFile->GetString() << std::endl;
TObjString* tofBdfFile = new TObjString(srcDir + "/parameters/tof/tof_" + geoTag + ".digibdf.par");
parFileList->Add(tofBdfFile);
std::cout << "-I- " << myName << ": Using parameter file "
<< tofBdfFile->GetString() << std::endl;
}
// ------------------------------------------------------------------------
// In general, the following parts need not be touched
// ========================================================================
// ----- Timer --------------------------------------------------------
TStopwatch timer;
timer.Start();
// ------------------------------------------------------------------------
// ---- Debug option -------------------------------------------------
gDebug = 0;
// ------------------------------------------------------------------------
// ----- Input file ---------------------------------------------------
std::cout << std::endl;
TString defaultInputFile = "data/";
defaultInputFile = defaultInputFile + setupName + "_test.mc.root";
if ( inFile.IsNull() ) { // Not defined in the macro explicitly
if ( strcmp(inputFile, "") == 0 ) { // not given as argument to the macro
inFile = defaultInputFile;
}
else inFile = inputFile;
}
std::cout << "-I- " << myName << ": Using input file " << inFile << std::endl;
// ------------------------------------------------------------------------
// ----- FairRunAna ---------------------------------------------------
FairRunAna *run = new FairRunAna();
run->SetInputFile(inFile);
run->SetOutputFile(outFile);
run->SetGenerateRunInfo(kTRUE);
run->SetGenerateRunInfo(kTRUE);
Bool_t hasFairMonitor = Has_Fair_Monitor();
if (hasFairMonitor) FairMonitor::GetMonitor()->EnableMonitor(kTRUE);
// ------------------------------------------------------------------------
// ----- Logger settings ----------------------------------------------
FairLogger::GetLogger()->SetLogScreenLevel(logLevel.Data());
FairLogger::GetLogger()->SetLogVerbosityLevel(logVerbosity.Data());
// ------------------------------------------------------------------------
// ----- Mc Data Manager ------------------------------------------------
CbmMCDataManager* mcManager=new CbmMCDataManager("MCManager", 1);
mcManager->AddFile(inFile);
run->AddTask(mcManager);
// ------------------------------------------------------------------------
// ----- Digitisers ---------------------------------------------------
std::cout << std::endl;
TString macroName = gSystem->Getenv("VMCWORKDIR");
macroName += "/macro/run/modules/digitize.C";
std::cout << "Loading macro " << macroName << std::endl;
gROOT->LoadMacro(macroName);
gROOT->ProcessLine("digitize()");
// ------------------------------------------------------------------------
// ----- Reconstruction tasks -----------------------------------------
std::cout << std::endl;
macroName = srcDir + "/macro/run/modules/reconstruct.C";
std::cout << "Loading macro " << macroName << std::endl;
gROOT->LoadMacro(macroName);
Bool_t recoSuccess = gROOT->ProcessLine("reconstruct()");
if ( ! recoSuccess ) {
std::cerr << "-E-" << myName << ": error in executing " << macroName
<< std::endl;
return;
}
std::cout << "-I-" << myName << ": " << macroName << " excuted successfully"
<< std::endl;
// ------------------------------------------------------------------------
// ----- Parameter database --------------------------------------------
std::cout << std::endl << std::endl;
std::cout << "-I- " << myName << ": Set runtime DB" << std::endl;
FairRuntimeDb* rtdb = run->GetRuntimeDb();
FairParRootFileIo* parIo1 = new FairParRootFileIo();
FairParAsciiFileIo* parIo2 = new FairParAsciiFileIo();
parIo1->open(parFile.Data(),"UPDATE");
rtdb->setFirstInput(parIo1);
if ( ! parFileList->IsEmpty() ) {
parIo2->open(parFileList, "in");
rtdb->setSecondInput(parIo2);
}
// ------------------------------------------------------------------------
// ----- Run initialisation -------------------------------------------
std::cout << std::endl;
std::cout << "-I- " << myName << ": Initialise run" << std::endl;
run->Init();
// ------------------------------------------------------------------------
rtdb->setOutput(parIo1);
rtdb->saveOutput();
rtdb->print();
// ----- Start run ----------------------------------------------------
std::cout << std::endl << std::endl;
std::cout << "-I- " << myName << ": Starting run" << std::endl;
run->Run(0, nEvents);
// ------------------------------------------------------------------------
// ----- Finish -------------------------------------------------------
timer.Stop();
Double_t rtime = timer.RealTime();
Double_t ctime = timer.CpuTime();
std::cout << std::endl << std::endl;
std::cout << "Macro finished succesfully." << std::endl;
std::cout << "Output file is " << outFile << std::endl;
std::cout << "Parameter file is " << parFile << std::endl;
std::cout << "Real time " << rtime << " s, CPU time " << ctime << " s"
<< std::endl;
std::cout << std::endl;
std::cout << " Test passed" << std::endl;
std::cout << " All ok " << std::endl;
// ------------------------------------------------------------------------
// ----- Resource monitoring ------------------------------------------
if ( Has_Fair_Monitor() ) { // FairRoot Version >= 15.11
// Extract the maximal used memory an add is as Dart measurement
// This line is filtered by CTest and the value send to CDash
FairSystemInfo sysInfo;
Float_t maxMemory=sysInfo.GetMaxMemory();
std::cout << "";
std::cout << maxMemory;
std::cout << "" << std::endl;
Float_t cpuUsage=ctime/rtime;
std::cout << "";
std::cout << cpuUsage;
std::cout << "" << std::endl;
}
// Function needed for CTest runtime dependency
Generate_CTest_Dependency_File(depFile);
RemoveGeoManager();
}