/* ======================================================================== *\ ! ! * ! * 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): Abelardo Moralejo 1/2004 ! Thomas Bretz 5/2002 ! ! Copyright: MAGIC Software Development, 2000-2004 ! ! \* ======================================================================== */ ///////////////////////////////////////////////////////////////////////////// // // MMCALIBRATE - Calibration of MC data // // This macro converts raw MC data into calibrated data (photons per pixel) // ///////////////////////////////////////////////////////////////////////////// #include "MImgCleanStd.h" void mccalibrate() { // // This is a demonstration program which reads in MC camera files // and produces and output with calibrated events (signal in photons // for all pixels, in MCerPhotEvt containers). // // ------------- user change ----------------- TString* CalibrationFilename; CalibrationFilename = new TString("/data1/magic/mc_data/root/Period021_0.73_mirror/gammas_nonoise/Gamma_*root"); // File to be used for the calibration (must be a camera file without added noise) Char_t* AnalysisFilename = "/data1/magic/mc_data/root/Period021_0.73_mirror/gammas_wobble/used/Gamma_*.root"; // File to be analyzed Char_t* OutFilename = "calibrated_gamma.root"; // Output file name // MExtractSignal sigextract; // (other extraction methods can be used) // sigextract.SetSaturationLimit(240); // Defines when to switch to low gain // Define FADC slices to be integrated in high and low gain: // sigextract.SetRange(5, 10, 5, 10); MExtractFixedWindowPeakSearch sigextract; sigextract.SetWindows(6, 6, 4); // --------------------------------------------------------------------- // // Create a empty Parameter List and an empty Task List // The tasklist is identified in the eventloop by its name // MParList plist; MTaskList tlist; plist.AddToList(&tlist); MBadPixelsCam badpix; plist.AddToList(&badpix); // Not used for now. // // Now setup the tasks and tasklist: // --------------------------------- // MReadMarsFile read("Events"); if (CalibrationFilename) read.AddFile(CalibrationFilename->Data()); read.DisableAutoScheme(); MGeomApply geom; // Reads in geometry from MC file and sets the right sizes for // several parameter containers. MMcPedestalCopy pcopy; // Copies pedestal data from the MC file run fadc header to the // MPedestalCam container. MPointingPosCalc pointcalc; // Creates MPointingPos object and fill it with the telescope orientation // information taken from MMcEvt. MMcCalibrationUpdate mccalibupdate; MCalibrateData calib; // MCalibrateData transforms signals from ADC counts into photons. In the first // loop it applies a "dummy" calibration supplied by MMcCalibrationUpdate, just // to equalize inner and outer pixels. At the end of the first loop, in the // PostProcess of MMcCalibrationCalc (see below) the true calibration constants // are calculated. calib.SetCalibrationMode(MCalibrateData::kFfactor); MImgCleanStd clean; // // Applies tail cuts to image. Since the calibration is performed on // noiseless camera files, the precise values of the cleaning levels // are unimportant (in any case, only pixels without any C-photon will // be rejected). // MHillasCalc hcalc; // Calculates Hillas parameters not dependent on source position. hcalc.Disable(MHillasCalc::kCalcHillasSrc); MMcCalibrationCalc mccalibcalc; // Calculates calibration constants to convert from ADC counts to photons. tlist.AddToList(&read); tlist.AddToList(&geom); tlist.AddToList(&pcopy); tlist.AddToList(&pointcalc); tlist.AddToList(&sigextract); tlist.AddToList(&mccalibupdate); tlist.AddToList(&calib); tlist.AddToList(&clean); tlist.AddToList(&hcalc); tlist.AddToList(&mccalibcalc); // // Open output file: // MWriteRootFile write(OutFilename); // Writes output write.AddContainer("MGeomCam", "RunHeaders"); write.AddContainer("MMcConfigRunHeader", "RunHeaders"); write.AddContainer("MMcCorsikaRunHeader", "RunHeaders"); write.AddContainer("MMcFadcHeader", "RunHeaders"); write.AddContainer("MMcRunHeader", "RunHeaders"); write.AddContainer("MMcTrigHeader", "RunHeaders"); write.AddContainer("MRawRunHeader", "RunHeaders"); write.AddContainer("MMcEvt", "Events"); write.AddContainer("MMcTrig", "Events"); write.AddContainer("MPointingPos", "Events"); write.AddContainer("MRawEvtHeader", "Events"); write.AddContainer("MCerPhotEvt", "Events"); write.AddContainer("MPedPhotCam", "Events"); // // First loop: Calibration loop // MProgressBar bar; bar.SetWindowName("Calibrating..."); MEvtLoop evtloop; evtloop.SetProgressBar(&bar); evtloop.SetParList(&plist); if (CalibrationFilename) { if (!evtloop.Eventloop()) return; mccalibcalc->GetHistADC2PhotEl()->Write(); mccalibcalc->GetHistPhot2PhotEl()->Write(); // Writes out the histograms used for calibration. } // // Second loop: apply calibration factors to MC events in the // file to be anlyzed: // // // Change the read task by another one which reads the file we want to analyze: // MReadMarsFile read2("Events"); read2.AddFile(AnalysisFilename); read2.DisableAutoScheme(); tlist.AddToListBefore(&read2, &read, "All"); tlist.RemoveFromList(&read); bar.SetWindowName("Writing..."); tlist.RemoveFromList(&clean); tlist.RemoveFromList(&hcalc); tlist.RemoveFromList(&mccalibcalc); tlist.AddToList(&write); // Add task to write output. if (!evtloop.Eventloop()) return; tlist.PrintStatistics(); }