//******************************** // // Class Calfits // Wrapper class for fits.h or pyfits.h // Provides fast access to calibrated events of FACT raw files // // written by Thomas Kraehenbuehl, ETH Zurich // tpk@phys.ethz.ch, +41 44 633 3973 // April 2012 // //******************************** // // Compilation (root in pyfact directory) // root [0] gSystem->Load("/usr/lib64/libz.so"); // root [1] .L pyfits.h++ // root [2] .L ../sandbox/kraehenb/calfits.h++ // // Usage in Python: // See CalFitsTest.py // //******************************** //ToDo: alle Event-Parameter zugänglich, shared library creation debuggen #ifndef CALFITS_H #define CALFITS_H #include #include #ifndef __MARS__ #include #include #include #define gLog cerr #define ___err___ "" #define ___all___ "" #else #include "MLog.h" #include "MLogManip.h" #define ___err___ err #define ___all___ all #endif #ifdef __EXCEPTIONS #include #endif #include "../../pyfact/pyfits.h" class CalFits { public: //No standard constructor CalFits()! //Direct handlers of the files fits datafile, calibfile; //Class name should be PyFits or better FactPyFits... //Basic file parameters UInt_t calib_nroi, calib_npix; UInt_t calib_blm_size, calib_gm_size, calib_tom_size; UInt_t data_nroi, data_npix, data_ndata; //Common variables UInt_t nroi, npix, nevents; //Calibration variables float* calib_baselinemean; float* calib_gainmean; float* calib_triggeroffsetmean; //ToDo: use arrays of size 1440x1024 (x2 for wrap-arounds) and read all variables into those //Event variables UInt_t event_id; UShort_t event_triggertype; int16_t* event_data; int16_t* event_offset; int32_t* event_boardtimes; double* npcaldata; CalFits(const string &datafilename, const string &calibfilename) //Constructor with two filenames : datafile(datafilename), calibfile(calibfilename), npcaldata(NULL) { //Read basic parameters of the two files // std::cout << "...Reading basic file parameters..." << std::endl; calib_nroi = calibfile.GetUInt("NROI"); calib_npix = calibfile.GetUInt("NPIX"); data_nroi = datafile.GetUInt("NROI"); data_npix = datafile.GetUInt("NPIX"); data_ndata = datafile.GetN("Data"); calib_blm_size = calibfile.GetN("BaselineMean")/calib_npix; calib_gm_size = calibfile.GetN("GainMean")/calib_npix; calib_tom_size = calibfile.GetN("TriggerOffsetMean")/calib_npix; // std::cout << "Column sizes: " << calib_blm_size << " " << calib_gm_size << " " << calib_tom_size << std::endl; //Define the common variables if((calib_nroi==data_nroi)&&(calib_npix==data_npix)&&(data_nroi*data_npix==data_ndata)&&(calib_blm_size==calib_gm_size)&&(calib_tom_size==calib_nroi)) { nroi = data_nroi; npix = data_npix; } else { ostringstream str; str << "Data/calib file error: NROI mismatch, NPIX mismatch, data column size wrong or calib columns mismatch."; #ifdef __EXCEPTIONS throw runtime_error(str.str()); #else gLog << ___err___ << "ERROR - " << str.str() << endl; return; #endif } nevents = datafile.GetNumRows(); //Read the calibration data // std::cout << "...Reading calibration data..." << std::endl; calib_baselinemean = new float[calibfile.GetN("BaselineMean")]; calibfile.SetPtrAddress("BaselineMean", calib_baselinemean, calibfile.GetN("BaselineMean")); calib_gainmean = new float[calibfile.GetN("GainMean")]; calibfile.SetPtrAddress("GainMean", calib_gainmean, calibfile.GetN("GainMean")); calib_triggeroffsetmean = new float[calibfile.GetN("TriggerOffsetMean")]; calibfile.SetPtrAddress("TriggerOffsetMean", calib_triggeroffsetmean, calibfile.GetN("TriggerOffsetMean")); calibfile.GetRow(0); //Set the event pointers // std::cout << "...Setting event pointers..." << std::endl; datafile.SetRefAddress("EventNum", event_id); datafile.SetRefAddress("TriggerType", event_triggertype); event_data = new int16_t[data_ndata]; datafile.SetPtrAddress("Data", event_data, data_ndata); event_offset = new int16_t[datafile.GetN("StartCellData")]; datafile.SetPtrAddress("StartCellData", event_offset, datafile.GetN("StartCellData")); event_boardtimes = new int32_t[datafile.GetN("BoardTime")]; datafile.SetPtrAddress("BoardTime", event_boardtimes, datafile.GetN("BoardTime")); } ~CalFits() { delete[] calib_baselinemean; delete[] calib_gainmean; delete[] calib_triggeroffsetmean; delete[] event_data; delete[] event_offset; delete[] event_boardtimes; } bool GetCalEvent() { if(!npcaldata) { ostringstream str; str << "Pointer to the calibrated data not initialized!"; #ifdef __EXCEPTIONS throw runtime_error(str.str()); #else gLog << ___err___ << "ERROR - " << str.str() << endl; return false; #endif } if(datafile.GetNextRow() == false) { // std::cout << "Last event reached..." << std::endl; return false; } else { UInt_t drs_calib_offset; for(UInt_t pixel=0;pixel