#include #include #include #include "MParList.h" #include "MTaskList.h" #include "MEvtLoop.h" #include "MLog.h" #include "MLogManip.h" #include "MArgs.h" #include "MPrint.h" #include "MCorsikaRead.h" #include "MWriteRootFile.h" using namespace std; static void StartUpMessage() { gLog << all << endl; // 1 2 3 4 5 // 12345678901234567890123456789012345678901234567890 gLog << "==================================================" << endl; gLog << " ReadCorsika - MARS V" << MARSVER << endl; gLog << " MARS - Read and print corsika data files" << endl; gLog << " Compiled with ROOT v" << ROOT_RELEASE << " on <" << __DATE__ << ">" << endl; gLog << "==================================================" << endl; gLog << endl; } static void Usage() { gLog << all << endl; gLog << "Sorry the usage is:" << endl; gLog << " readcorsika [-h] [-?] [-vn] [-dec] [-a0] inputfile[.raw]" << endl << endl; gLog << " input file: Magic DAQ binary file." << endl; gLog.Usage(); // gLog << " -f: force reading of runheader" << endl; gLog << " -?, -h, --help: This help" << endl << endl; } int main(int argc, char **argv) { if (!MARS::CheckRootVer()) return 0xff; MLog::RedirectErrorHandler(MLog::kColor); // // Evaluate arguments // MArgs arg(argc, argv); gLog.Setup(arg); StartUpMessage(); if (arg.HasOnly("-?") || arg.HasOnly("-h") || arg.HasOnly("--help")) { Usage(); return 2; } arg.RemoveRootArgs(); const Int_t kCompLvl = arg.GetIntAndRemove("--comp=", 1); const Bool_t kForce = arg.HasOnlyAndRemove("-f"); // // check for the right usage of the program // if (arg.GetNumArguments()<1 || arg.GetNumArguments()>2) { Usage(); return 2; } // // This is to make argv[i] more readable insidethe code // TString kNamein = arg.GetArgumentStr(0); TString kNameout = arg.GetArgumentStr(1); // if (!kNamein.EndsWith(".raw") && !kNamein.EndsWith(".raw.gz")) // kNamein += ".raw"; if (!kNameout.IsNull() && !kNameout.EndsWith(".root")) kNameout += ".root"; // // Initialize Non-GUI (batch) mode // TObject::Class()->IgnoreTObjectStreamer(); TVector2::Class()->IgnoreTObjectStreamer(); MParContainer::Class()->IgnoreTObjectStreamer(); gROOT->SetBatch(); // // check whether the given files are OK. // if (gSystem->AccessPathName(kNamein, kFileExists)) { gLog << err << "Sorry, the input file '" << kNamein << "' doesn't exist." << endl; return 2; } // // open the file // gLog << " Open the file '" << kNamein << "'" << endl; // // create a (empty) list of parameters which can be used by the tasks // and an (empty) list of tasks which should be executed // MParList plist; MTaskList tasks; tasks.SetOwner(); plist.AddToList(&tasks); // // ---- The following is only necessary to supress some output ---- // /* MCorsikaRunHeader runheader; plist.AddToList(&runheader); MCorsikaEvtHeader evtheader; plist.AddToList(&evtheader); MCorsikaData evtdata; plist.AddToList(&evtdata); */ // // create the tasks which should be executed and add them to the list // in the case you don't need parameter containers, all of them can // be created by MCorsikaRead::PreProcess // MCorsikaRead read(kNamein); tasks.AddToList(&read); MPrint print0; MPrint print1("MCorsikaEvtHeader", "", "PrintEvtHeader"); MPrint print4("MPhotonEvent", "", "PrintEvent"); MWriteRootFile write(kNameout, kForce?"RECREATE":"NEW", "Corsika File", kCompLvl); write.AddContainer("MCorsikaEvtHeader", "Events"); write.AddContainer("MPhotonEvent", "Events"); if (kNameout.IsNull()) { tasks.AddToList(&print0); tasks.AddToList(&print1); tasks.AddToList(&print4); } else tasks.AddToList(&write); // // create the looping object and tell it about the parameters to use // and the tasks to execute // MEvtLoop magic; magic.SetParList(&plist); // // Start the eventloop which reads the raw file (MCorsikaRead) and // write all the information into a root file (MCorsikaFileWrite) // // between reading and writing we can do, transformations, checks, etc. // (I'm think of a task like MCorsikaDataCheck) // if (!magic.Eventloop()) { gLog << err << "ERROR: Reading Corsika file failed!" << endl; return 2; } gLog << all << "Reading Corsika file finished successfull!" << endl; // end of small readin program return 0; }