/* ======================================================================== *\ ! ! * ! * This file is part of MARS, the MAGIC Analysis and Reconstruction ! * Software. It is distributed to you in the hope that it can be a useful ! * and timesaving tool in analysing Data of imaging Cerenkov telescopes. ! * It is distributed WITHOUT ANY WARRANTY. ! * ! * Permission to use, copy, modify and distribute this software and its ! * documentation for any purpose is hereby granted without fee, ! * provided that the above copyright notice appear in all copies and ! * that both that copyright notice and this permission notice appear ! * in supporting documentation. It is provided "as is" without express ! * or implied warranty. ! * ! ! ! Author(s): Thomas Bretz 12/2000 ! ! Copyright: MAGIC Software Development, 2000-2001 ! ! \* ======================================================================== */ //////////////////////////////////////////////////////////////////////// // // MRawFileWrite // // Here we write the root containers which contains the data from a // root binary file to a root file. See also MRawFileRead // // Input Containers: // MRawRunHeader, MRawEvtHeader, MRawEvtData, MRawCrateArray, MRawEvtTime // // Output Containers: // -/- // //////////////////////////////////////////////////////////////////////// #include "MRawFileWrite.h" #include #include #include #include "MLog.h" #include "MLogManip.h" #include "MParList.h" #include "MRawRunHeader.h" #include "MRawEvtHeader.h" #include "MRawEvtData.h" #include "MRawCrateArray.h" ClassImp(MRawFileWrite); using namespace std; // -------------------------------------------------------------------------- // // Default constructor. It opens the output file (root-file) // MRawFileWrite::MRawFileWrite(const char *fname, const Option_t *opt, const char *ftitle, const Int_t comp, const char *name, const char *title) { fName = name ? name : "MRawFileWrite"; fTitle = title ? title : "Write task to write DAQ root files"; // // Open a rootfile // TString str(fname); if (!str.EndsWith(".root", TString::kIgnoreCase)) str += ".root"; fOut = new TFile(str, opt, ftitle, comp); } MRawFileWrite::~MRawFileWrite() { // // delete instance, this also does a fOut->Close() // if (fOut->IsOpen()) fOut->Write(); delete fOut; // // Remark: // - Trees are automatically deleted by the the file // (unless file.SetDirectory(0) was called) // - Branches are automatically deleted by the tree destructor // } // -------------------------------------------------------------------------- // // The PreProcess function checks for the following input containers: // - MRawEvtHeader // - MRawEvtData // - MRawCrateArray // - MTime // - MRawRunHeader // if a container isn't found the eventloop is stopped. // // The tree which should containe the run header is created. // The trees which contains the Events , , // are created. // Int_t MRawFileWrite::PreProcess (MParList *pList) { // // test whether file is now open or not // if (!fOut->IsOpen()) { *fLog << dbginf << "Error: Cannot open file '" << fOut->GetName() << "'" << endl; return kFALSE; } // // remember the pointer to the parameter list fur further usage // pParList = pList; // // check if MEvtHeader exists in the Parameter list already. // if not create one and add them to the list // fRawEvtHeader = (MRawEvtHeader*)pList->FindObject("MRawEvtHeader"); if (!fRawEvtHeader) { *fLog << err << dbginf << "MRawEvtHeader not found... aborting." << endl; return kFALSE; } fRawEvtData = (MRawEvtData*)pList->FindObject("MRawEvtData"); if (!fRawEvtData) { *fLog << err << dbginf << "MRawEvtData not found... aborting." << endl; return kFALSE; } fRawCrateArray = (MRawCrateArray*)pList->FindObject("MRawCrateArray"); if (!fRawCrateArray) { *fLog << err << dbginf << "MRawCrateArray not found... aborting." << endl; return kFALSE; } fTime = (MTime*)pList->FindObject("MTime"); if (!fTime) { *fLog << err << dbginf << "MTime not found... aborting." << endl; return kFALSE; } fRawRunHeader = (MRawRunHeader*)pList->FindObject("MRawRunHeader"); if (!fRawRunHeader) { *fLog << err << dbginf << "MRawRunHeader not found... aborting." << endl; return kFALSE; } // // Remark: // - Trees are automatically deleted by the the file // (unless file.SetDirectory(0) was called) // - Branches are automatically deleted by the tree destructor // // // Write the run header information to the file // TTree *rh = new TTree("RunHeaders", "Run headers of all runs in this file"); rh->Branch("MRawRunHeader", "MRawRunHeader", &fRawRunHeader, 32000); rh->Fill(); //rh->Write(); // // create data trees for the three types of data // fTData = new TTree("Events", "Normal Triggered Events"); fTPedestal = new TTree("Pedestals", "Pedestal Triggered Events"); fTCalibration = new TTree("Calibration", "Calibration Triggered Events"); // // From the root dicumentation: // // Note that calling TTree::AutoSave too frequently (or similarly calling // TTree::SetAutoSave with a small value) is an expensive operation. // You should make tests for your own application to find a compromize // between speed and the quantity of information you may loose in case of // a job crash. // // In case your program crashes before closing the file holding this tree, // the file will be automatically recovered when you will connect the file // in UPDATE mode. // The Tree will be recovered at the status corresponding to the last AutoSave. // fTData ->SetAutoSave(2000000000); // 2GB fTPedestal ->SetAutoSave(2000000000); // 2GB fTCalibration->SetAutoSave(2000000000); // 2GB // // create all branches which are necessary // // FIXME: Can we calculate a good buffer size out of the event size? // using splitlevel=0 sppeds up writing by a factor of 5-10% fTData ->Branch("MTime.", "MTime", &fTime, 32000); fTPedestal ->Branch("MTime.", "MTime", &fTime, 32000); fTCalibration->Branch("MTime.", "MTime", &fTime, 32000); fTData ->Branch("MRawEvtHeader.", "MRawEvtHeader", &fRawEvtHeader, 32000); fTPedestal ->Branch("MRawEvtHeader.", "MRawEvtHeader", &fRawEvtHeader, 32000); fTCalibration->Branch("MRawEvtHeader.", "MRawEvtHeader", &fRawEvtHeader, 32000); fTData ->Branch("MRawEvtData.", "MRawEvtData", &fRawEvtData, 320000); fTPedestal ->Branch("MRawEvtData.", "MRawEvtData", &fRawEvtData, 320000); fTCalibration->Branch("MRawEvtData.", "MRawEvtData", &fRawEvtData, 320000); //fTree->Branch("MRawCrateArray", fRawCrateArray->GetArray(), 32000, 1); fTData ->Branch("MRawCrateArray.", "MRawCrateArray", &fRawCrateArray, 32000); fTPedestal ->Branch("MRawCrateArray.", "MRawCrateArray", &fRawCrateArray, 32000); fTCalibration->Branch("MRawCrateArray.", "MRawCrateArray", &fRawCrateArray, 32000); return kTRUE; } // -------------------------------------------------------------------------- // // Gets the trigger type from the run header to decide into which tree the // event should be filled in and fills it into this tree. // Int_t MRawFileWrite::Process() { // // get the trigger type of the actual event // const UShort_t type = fRawEvtHeader->GetTrigType(); // // writa data to the tree. the tree is choosen by the type of the event // switch (type) { case kTTEvent: fTData->Fill(); return kTRUE; case kTTPedestal: fTPedestal->Fill(); return kTRUE; case kTTCalibration: fTCalibration->Fill(); return kTRUE; } *fLog << warn << dbginf << "Got wrong number for the trigger type: " << type; *fLog << " - skipped" << endl; return kCONTINUE; }