/*********************************/ /* Compute the hillas parameters */ /*********************************/ #include "TString.h" #include "TArrayS.h" #include "MParList.h" #include "MTaskList.h" #include "MPedestalCam.h" #include "MBadPixelsCam.h" #include "MBadPixelsTreat.h" #include "MReadMarsFile.h" #include "MGeomApply.h" #include "MPedCalcPedRun.h" #include "MEvtLoop.h" #include "MGeomCamMagic.h" #include "MExtractedSignalCam.h" #include "MCalibrationChargeCam.h" #include "MHCalibrationChargeCam.h" #include "MHCalibrationRelTimeCam.h" #include "MExtractor.h" #include "MExtractFixedWindow.h" #include "MExtractSlidingWindow.h" #include "MExtractSignal.h" #include "MCalibrationChargeCalc.h" #include "MFCosmics.h" #include "MContinue.h" #include "MLog.h" #include "MCerPhotEvt.h" #include "MPedPhotCam.h" #include "MCalibrate.h" #include "MPedPhotCalc.h" #include "MHillas.h" #include "MNewImagePar.h" #include "MRawRunHeader.h" #include "MSrcPosCam.h" #include "MBlindPixelCalc.h" #include "MImgCleanStd.h" #include "MHillasSrcCalc.h" #include "MHillasCalc.h" #include "MArrivalTimeCam.h" #include "MArrivalTimeCalc2.h" #include "MIslands.h" #include "MIslandCalc.h" #include "MIslandClean.h" #include "MWriteRootFile.h" #include "MArgs.h" #include "MRunIter.h" #include "MJPedestal.h" #include "MJCalibration.h" #include "MHillasDisplay.h" #include "MF.h" #include "MContinue.h" #include "TApplication.h" #include #include #include using namespace std; Bool_t readDatacards(TString& filename); void makeHillas(); // initial and final time slices to be used in signal extraction const Byte_t hifirst = 1; const Byte_t hilast = 14; const Byte_t lofirst = 3; const Byte_t lolast = 14; // declaration of variables read from datacards TString outname; const TString outpath = "./"; TString idirname; TString filter; TString psfilename("makehillas.ps"); MRunIter pedcaliter; MRunIter caliter; MRunIter pediter; MRunIter datiter; UInt_t display = 0; ULong_t nmaxevents= 999999999; Short_t calflag = 1; Bool_t caltimeflag = kFALSE; Short_t cleanflag = 1; UShort_t lrings = 1; Float_t lcore = 3.0; Float_t ltail = 1.5; Int_t islflag = 0; Float_t lnew = 40; Int_t kmethod = 1; Int_t kalgorithm = 1; Int_t nfiles = 0; const TString defaultcard="makehillas.datacard"; /*************************************************************/ static void Usage() { gLog <" << endl << endl; gLog << " : datacards file name (dafault input.datacards)" << endl; gLog << " -?/-h: This help" << endl << endl; } /*************************************************************/ int main(int argc, char **argv) { // create a TApplication to be able to TApplication app("Application",0,0); // evaluate arguments MArgs arg(argc, argv); if (arg.HasOnly("-?") || arg.HasOnly("-h") || arg.HasOnly("--help")) { Usage(); return -1; } TString datacard = arg.GetArgumentStr(0); if(!datacard.Length()) datacard = defaultcard; if(!readDatacards(datacard)) { cout << "Error reading datacards. Stoping" << endl; return -1; } makeHillas(); } /*************************************************************/ void makeHillas() { // Set the general tasks/containers //MExtractFixedWindow extractor; //extractor.SetRange(hifirst,hilast,lofirst,lolast); MExtractSlidingWindow extractor; extractor.SetRange(hifirst,hilast,lofirst,lolast); extractor.SetWindowSize(4,4); MGeomCamMagic geomcam; MGeomApply geomapl; /************************************/ /* FIRST LOOP: PEDESTAL COMPUTATION */ /************************************/ // If you want to exclude pixels from the beginning, read // an ascii-file with the corr. pixel numbers (see MBadPixelsCam) //badcam.AsciiRead("badpixels.dat"); MJPedestal pedcalloop; pedcalloop.SetInput(&pediter); pedcalloop.SetExtractor(&extractor); // pedloop.SetBadPixels(badcam); //pedcalloop.SetOutputPath(outpath.Data()); if (!pedcalloop.Process()) return; /*****************************/ /* SECOND LOOP: CALIBRATION */ /*****************************/ MJCalibration calloop; calloop.SetRelTimeCalibration(caltimeflag); calloop.SetExtractor(&extractor); calloop.SetInput(&caliter); calloop.SetBadPixels(pedcalloop.GetBadPixels()); if(calflag==2) calloop.SetUseBlindPixel(); if(calflag>0) if (!calloop.Process(pedcalloop.GetPedestalCam())) return; /************************************************************************/ /* THIRD LOOP: PEDESTAL CALIBRATION INTO PHOTONS */ /************************************************************************/ // First Compute the pedestals MJPedestal pedloop; pedloop.SetInput(&pediter); if (!pedloop.Process()) return; MParList plist3; MTaskList tlist3; plist3.AddToList(&tlist3); // containers MCerPhotEvt nphot; MPedPhotCam nphotrms; MExtractedSignalCam sigcam; plist3.AddToList(&geomcam); plist3.AddToList(&pedloop.GetPedestalCam()); plist3.AddToList(&calloop.GetCalibrationCam()); plist3.AddToList(&calloop.GetQECam()); plist3.AddToList(&calloop.GetRelTimeCam()); plist3.AddToList(&calloop.GetBadPixels()); plist3.AddToList(&sigcam); plist3.AddToList(&nphot); plist3.AddToList(&nphotrms); MCalibrate::CalibrationMode_t calMode=MCalibrate::kDefault; if(calflag==0) calMode=MCalibrate::kNone; if(calflag==-1) calMode=MCalibrate::kDummy; //tasks MReadMarsFile read3("Events"); static_cast(read3).AddFiles(pediter); read3.DisableAutoScheme(); MCalibrate photcalc(calMode); MPedPhotCalc photrmscalc; tlist3.AddToList(&read3); tlist3.AddToList(&geomapl); tlist3.AddToList(&extractor); tlist3.AddToList(&photcalc); tlist3.AddToList(&photrmscalc); // Create and setup the eventloop MEvtLoop evtloop3; evtloop3.SetParList(&plist3); if (!evtloop3.Eventloop()) return; tlist3.PrintStatistics(); /************************************************************************/ /* FOURTH LOOP: DATA CALIBRATION INTO PHOTONS */ /************************************************************************/ MParList plist4; MTaskList tlist4; plist4.AddToList(&tlist4); // containers MHillas hillas; MNewImagePar newimagepar; MSrcPosCam source; MRawRunHeader runhead; MArrivalTimeCam timecam; // islands MIslands isl; MIslands isl2; MIslands isl3; isl.SetName("MIslands"); isl2.SetName("MIslands2"); isl3.SetName("MIslands3"); plist4.AddToList(&timecam); plist4.AddToList(&isl); if (islflag == 2) plist4.AddToList(&isl2); if (islflag == 3) plist4.AddToList(&isl3); plist4.AddToList(&geomcam); plist4.AddToList(&pedloop.GetPedestalCam()); plist4.AddToList(&calloop.GetCalibrationCam()); plist4.AddToList(&calloop.GetQECam()); plist4.AddToList(&calloop.GetRelTimeCam()); plist4.AddToList(&calloop.GetBadPixels()); plist4.AddToList(&nphot); plist4.AddToList(&nphotrms); plist4.AddToList(&source); plist4.AddToList(&hillas); plist4.AddToList(&newimagepar); plist4.AddToList(&runhead); // cuts MF cut(filter); //tasks MReadMarsFile read4("Events"); static_cast(read4).AddFiles(datiter); read4.DisableAutoScheme(); MImgCleanStd clean(lcore,ltail); clean.SetCleanRings(lrings); MImgCleanStd::CleaningMethod_t cleanMeth= MImgCleanStd::kStandard; if(cleanflag==2) cleanMeth=MImgCleanStd::kDemocratic; clean.SetMethod(cleanMeth); MArrivalTimeCalc2 timecalc; MIslandCalc island; island.SetOutputName("MIslands"); island.SetAlgorithm(kalgorithm); MBadPixelsTreat interpolatebadpixels; interpolatebadpixels.SetUseInterpolation(); MIslandClean islclean(lnew); islclean.SetInputName("MIslands"); islclean.SetMethod(kmethod); MIslandCalc island2; island2.SetOutputName("MIslands2"); island2.SetAlgorithm(kalgorithm); MIslandCalc island3; island3.SetOutputName("MIslands3"); MHillasCalc hcalc; MHillasSrcCalc csrc1; MContinue applycut(&cut); applycut.SetInverted(kTRUE); MWriteRootFile write(outname,"RECREATE"); MHillasDisplay* disphillas=NULL; write.AddContainer("MHillas" , "Parameters"); write.AddContainer("MHillasSrc" , "Parameters"); write.AddContainer("MHillasExt" , "Parameters"); write.AddContainer("MNewImagePar" , "Parameters"); write.AddContainer("MRawEvtHeader" , "Parameters"); write.AddContainer("MRawRunHeader" , "Parameters"); write.AddContainer("MTime" , "Parameters"); write.AddContainer("MConcentration" , "Parameters"); write.AddContainer("MSrcPosCam" , "Parameters"); write.AddContainer("MIslands" , "Parameters"); if (islflag == 2) write.AddContainer("MIslands2" , "Parameters"); if (islflag == 3) write.AddContainer("MIslands3" , "Parameters"); if(display) { disphillas = new MHillasDisplay(&nphot,&geomcam); disphillas->SetIslandsName("MIslands"); if (islflag == 2) disphillas->SetIslandsName("MIslands2"); if (islflag == 3) disphillas->SetIslandsName("MIslands3"); } tlist4.AddToList(&read4); tlist4.AddToList(&geomapl); tlist4.AddToList(&extractor); tlist4.AddToList(&photcalc); if(calflag==11 || calflag==21) tlist4.AddToList(&interpolatebadpixels); tlist4.AddToList(&clean); tlist4.AddToList(&timecalc); tlist4.AddToList(&island); if (islflag == 2) { tlist4.AddToList(&islclean); tlist4.AddToList(&island2); } if (islflag == 3) { tlist4.AddToList(&islclean); tlist4.AddToList(&island3); } tlist4.AddToList(&hcalc); tlist4.AddToList(&csrc1); if(filter.Length()) tlist4.AddToList(&applycut); tlist4.AddToList(&write); if(display) { disphillas->SetPSFile(); disphillas->SetPSFileName(psfilename); if(display==2) disphillas->SetPause(kFALSE); tlist4.AddToList(disphillas); } // Create and setup the eventloop MEvtLoop datloop; datloop.SetParList(&plist4); cout << "*************************************************************" << endl; cout << "*** COMPUTING DATA USING EXTRACTED SIGNAL (IN PHOTONS) ***" << endl; cout << "*************************************************************" << endl; if (!datloop.Eventloop(nmaxevents)) return; tlist4.PrintStatistics(); } //------------------------------------------------------------------------------- Bool_t readDatacards(TString& filename) { ifstream ifun(filename.Data()); if(!ifun) { cout << "File " << filename << " not found" << endl; return kFALSE; } TString word; while(ifun >> word) { // skip comments if(word[0]=='/' && word[1]=='/') { while(ifun.get()!='\n'); // skip line continue; } // number of events if(strcmp(word.Data(),"NEVENTS")==0) ifun >> nmaxevents; // input file directory if(strcmp(word.Data(),"IDIR")==0) { if(idirname.Length()) cout << "readDataCards Warning: overriding input directory file name" << endl; ifun >> idirname; } // pedestal runs if(strcmp(word.Data(),"PRUNS")==0) { if(pediter.GetNumRuns()) cout << "readDataCards Warning: adding pedestal runs to the existing list" << endl; ifun >> word; pediter.AddRuns(word.Data(),idirname.Data()); } // pedestal runs for calibration if(strcmp(word.Data(),"PCRUNS")==0) { if(pedcaliter.GetNumRuns()) cout << "readDataCards Warning: adding pedestal runs for calibration to the existing list" << endl; ifun >> word; pedcaliter.AddRuns(word.Data(),idirname.Data()); } // calibration runs if(strcmp(word.Data(),"CRUNS")==0) { if(caliter.GetNumRuns()) cout << "readDataCards Warning: adding calibration runs to the existing list" << endl; ifun >> word; caliter.AddRuns(word.Data(),idirname.Data()); } // data runs if(strcmp(word.Data(),"DRUNS")==0) { if(datiter.GetNumRuns()) cout << "readDataCards Warning: adding data runs to the existing list" << endl; ifun >> word; datiter.AddRuns(word.Data(),idirname.Data()); } // output file name if(strcmp(word.Data(),"OUTFILE")==0) { if(outname.Length()) cout << "readDataCards Warning: overriding output file name" << endl; ifun >> outname; } // exclusion cut if(strcmp(word.Data(),"FILTER")==0) { if(filter.Length()) cout << "readDataCards Warning: overriding existing cut" << endl; char ch; while((ch=ifun.get())!='\n') filter.Append(ch); } // display flag if(strcmp(word.Data(),"DISPLAY")==0) ifun >> display; // ps file name if(strcmp(word.Data(),"PSFILENAME")==0) ifun >> psfilename; // calibration flag if(strcmp(word.Data(),"CALFLAG")==0) ifun >> calflag; // calibration flag if(strcmp(word.Data(),"CALTIME")==0) ifun >> caltimeflag; // cleaning level if(strcmp(word.Data(),"CLEANLEVEL")==0) { ifun >> lcore; ifun >> ltail; if(ifun.get()!='\n'){ ifun.unget(); ifun >> lrings; if(ifun.get()!='\n'){ ifun.unget(); ifun >> cleanflag; } } } if(strcmp(word.Data(),"ISLFLAG")==0) { ifun >> islflag; // if (islflag == 1 || islflag == 2) ifun >> kalgorithm; } // island cleaning if (islflag == 2){ if(strcmp(word.Data(),"ISLANDCLEAN")==0) { ifun >> kmethod; ifun >> lnew; } } } pediter.Reset(); caliter.Reset(); datiter.Reset(); TString pfile; // Dump read values cout << "************************************************" << endl; cout << "* Datacards read from file " << filename << endl; cout << "************************************************" << endl; cout << "Pedestal file (s): " << endl; while(!(pfile=pediter.Next()).IsNull()) cout << pfile << endl; cout << "Calibration file (s): " << endl; while(!(pfile=caliter.Next()).IsNull()) cout << pfile << endl; cout << "Data file (s): " << endl; while(!(pfile=datiter.Next()).IsNull()) cout << pfile << endl; cout << "Maximum number of events: " << nmaxevents << endl; if(filter.Length()) cout << "Applying rejection cut: " << filter << endl; cout << "Output file name: " << outname << endl; if(display) cout << "Generating PS file: " << psfilename << endl; cout << "Calibration: "; if(calflag==0) cout << "Pixel area proportional intercalibration" << endl; else if(calflag==-1) cout << "No calibration whatsoever" << endl; else if(calflag==1) cout << "Default calibration" << endl; else if(calflag==11) cout << "Default calibration + bad pixels interpolation" << endl; cout << "Cleaning level: ("<0) { cout << "No calibration file name specified" << endl; return kFALSE; } if(!datiter.GetNumEntries()) { cout << "No data file name specified" << endl; return kFALSE; } if(!outname.Length()) { cout << "No output file name specified" << endl; return kFALSE; } return kTRUE; }