/* ======================================================================== *\ ! ! * ! * 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, 04/2005 ! Author(s): Daniela Dorner, 04/2005 ! ! Copyright: MAGIC Software Development, 2000-2006 ! ! \* ======================================================================== */ ///////////////////////////////////////////////////////////////////////////// // // fillsignal.C // ============ // // This macro is used to read the calibration-/callisto-output files // signal00000.root. // // From this file the mean pedrms, the mean signal and the pulse position // for the inner and outer camera is extracted and inserted into the database // in the table Calibration, where the results of callisto are stored. // The sequence number is extracted from the filename. // // Usage: // .x fillsignal.C("/magic/data/callisto/0004/00047421/signal00047421.root", kTRUE) // // The second argument is the 'dummy-mode'. If it is kTRUE dummy-mode is // switched on and nothing will be written into the database. This is usefull // for tests. // // The macro can also be run without ACLiC but this is a lot slower... // // Remark: Running it from the commandline looks like this: // root -q -l -b fillsignal.C+$\"filename\"\,kFALSE$ 2>&1 | tee fillsignal.log // // Make sure, that database and password are corretly set in a resource // file called sql.rc and the resource file is found. // // Returns 2 in case of failure, 1 in case of success and 0 if the connection // to the database is not working. // ///////////////////////////////////////////////////////////////////////////// #include #include #include #include #include #include "MSQLServer.h" #include "MStatusArray.h" #include "MHCamera.h" #include "MCalibrationPulseTimeCam.h" #include "MCalibrationPix.h" using namespace std; int Process(MSQLServer &serv, TString fname, Bool_t dummy) { TFile file(fname, "READ"); if (!file.IsOpen()) { cout << "ERROR - Could not find file " << fname << endl; return 2; } Float_t meanextpul = -1; Float_t rmsextpul = -1; MCalibrationPulseTimeCam *pt; file.GetObject("MCalibrationPulseTimeCam", pt); if (pt) { meanextpul = pt->GetAverageArea(0).GetHiGainMean(); rmsextpul = pt->GetAverageArea(0).GetHiGainRms(); meanextpul = TMath::Nint(meanextpul*100)/100.; rmsextpul = TMath::Nint(rmsextpul*100)/100.; } MStatusArray arr; if (arr.Read()<=0) { cout << "ERROR - Reading of MStatusDisplay failed." << endl; return 2; } MHCamera *cam = (MHCamera*)arr.FindObjectInCanvas("PedRMS;avg", "MHCamera", "PedRMS"); if (!cam) { cout << "WARNING - Reading of PedRMS;avg failed." << endl; return 2; } MHCamera *pul = (MHCamera*)arr.FindObjectInCanvas("PulsePos;avg", "MHCamera", "PulsePos"); if (!pul) { cout << "WARNING - Reading of PulsePos;avg failed." << endl; return 2; } /* MHCamera *difflo = (MHCamera*)arr.FindObjectInCanvas("DiffLo;avg", "MHCamera", "DiffLo"); if (!difflo) { cout << "WARNING - Reading of DiffLo;avg failed." << endl; return 2; } MHCamera *diffhi = (MHCamera*)arr.FindObjectInCanvas("DiffHi;avg", "MHCamera", "DiffHi"); if (!diffhi) { cout << "WARNING - Reading of DiffHi;avg failed." << endl; return 2; } */ //get sequence number from the filename TString sequence = fname(TRegexp("signal[0-9]+[.]root$")); if (sequence.IsNull()) { cout << "WARNING - Sequ# empty" << endl; cout << "Sequ# " << sequence << endl; return 2; } Int_t seq = atoi(sequence.Data()+6); Double_t medoff; Double_t devoff; Double_t medcal; Double_t devcal; TString medpuloff("NULL"); TString devpuloff("NULL"); TString medhilocal("NULL"); TString devhilocal("NULL"); if (seq < 200000) { MHCamera *hilooff = (MHCamera*)arr.FindObjectInCanvas("HiLoOff;avg", "MHCamera", "HiLoOff"); if (!hilooff) { cout << "WARNING - Reading of HiLoOff failed." << endl; return 2; } MHCamera *hilocal = (MHCamera*)arr.FindObjectInCanvas("HiLoCal;avg", "MHCamera", "HiLoCal"); if (!hilocal) { cout << "WARNING - Reading of HiLoCal failed." << endl; return 2; } medoff = TMath::Nint(hilooff->GetMedian()*10000)/10000.; devoff = TMath::Nint(hilooff->GetDev() *10000)/10000.; medcal = TMath::Nint(hilocal->GetMedian()*100)/100.; devcal = TMath::Nint(hilocal->GetDev() *100)/100.; medpuloff.Form("%7.4f", medoff); devpuloff.Form("%7.4f", devoff); medhilocal.Form("%6.2f", medcal); devhilocal.Form("%6.2f", devcal); } TArrayI inner(1); inner[0] = 0; TArrayI outer(1); outer[0] = 1; Int_t s0[] = { 1, 2, 3, 4, 5, 6 }; Stat_t meanrmsi = cam->GetMeanSectors(TArrayI(6, s0), inner); Stat_t meanrmso = cam->GetMeanSectors(TArrayI(6, s0), outer); if (meanrmsi<0 || meanrmso<0) { cout << "WARNING - MeanPedRMS inner or outer < 0 " << endl; cout << "MeanPedRMS inner " << meanrmsi << endl; cout << "MeanPedRMS outer " << meanrmso << endl; return 2; } meanrmsi = TMath::Nint(meanrmsi*100)/100.; meanrmso = TMath::Nint(meanrmso*100)/100.; cam = (MHCamera*)arr.FindObjectInCanvas("Interp'd;avg", "MHCamera", "Interp'd"); if (!cam) { cout << "WARNING - Reading of Interp'd;avg failed." << endl; return 2; } Stat_t meansigi = cam->GetMeanSectors(TArrayI(6, s0), inner); Stat_t meansigo = cam->GetMeanSectors(TArrayI(6, s0), outer); if (meansigi<0 || meansigo<0) { cout << "WARNING - MeanInterp'd inner or outer < 0 " << endl; cout << "MeanInterp'd inner " << meansigi << endl; cout << "MeanInterp'd outer " << meansigo << endl; return 2; } meansigi = TMath::Nint(meansigi*100)/100.; meansigo = TMath::Nint(meansigo*100)/100.; Stat_t meanpul = pul->GetMean(); Stat_t rmspul = pul->GetRMS(); if (meanpul<0 || rmspul<0) { cout << "WARNING - PulsePos'd mean or rms < 0 " << endl; cout << "PulsePos'd mean " << meanpul << endl; cout << "PulsePos'd rms " << rmspul << endl; return 2; } meanpul = TMath::Nint(meanpul*100)/100.; rmspul = TMath::Nint(rmspul *100)/100.; /* Double_t meanhi = TMath::Nint(pulhi->GetMean()*100.)/100.; Double_t rmshi = TMath::Nint(pulhi->GetRMS() *100.)/100.; Double_t meanlo = TMath::Nint(pullo->GetMean()*100.)/100.; Double_t rmslo = TMath::Nint(pullo->GetRMS() *100.)/100.; pullo->Add(pullo, pulhi, 1, -1); pullo->ResetBit(MHCamera::kProfile); Double_t meanoff = TMath::Nint(pullo->GetMean()*100.)/100.; Double_t rmsoff = TMath::Nint(pullo->GetRMS() *100.)/100.; */ // USE MEDIAN INSTEAD? GetQuantiles(Int_t nprobSum, Double_t *q, const Double_t *probSum=0); TString meanrmsinner =Form("%6.2f", meanrmsi); TString meanrmsouter =Form("%6.2f", meanrmso); TString meansiginner =Form("%6.2f", meansigi); TString meansigouter =Form("%6.2f", meansigo); TString meanpulpos =Form("%6.2f", meanpul); TString rmspulpos =Form("%6.2f", rmspul); TString meanextpulpos=Form("%6.2f", meanextpul); TString rmsextpulpos =Form("%6.2f", rmsextpul); /* TString meanpulhi =Form("%6.2f", meanhi); TString rmspulhi =Form("%6.2f", rmshi); TString meanpullo =Form("%6.2f", meanlo); TString rmspullo =Form("%6.2f", rmslo); */ if (meanextpul<0 && rmsextpul<0) { meanextpulpos = "NULL"; rmsextpulpos = "NULL"; } // ***************************************************** // ***************************************************** cout << "Sequence #" << seq << endl; cout << " Mean Ped RMS inner [phe] " << meanrmsinner << endl; cout << " Mean Ped RMS outer [phe] " << meanrmsouter << endl; cout << " Mean Signal inner [phe] " << meansiginner << endl; cout << " Mean Signal outer [phe] " << meansigouter << endl; cout << " Mean calibrated PulsePos " << meanpulpos << " +- " << rmspulpos << endl; cout << " Mean extracted PulsePos " << meanextpulpos << " +- " << rmsextpulpos << endl; // cout << " Mean ext.HiGain PulsePos " << meanpulhi << " +- " << rmspulhi << endl; // cout << " Mean ext.LoGain PulsePos " << meanpullo << " +- " << rmspullo << endl; cout << " Lo-Hi gain offset: " << medpuloff << " +- " << devpuloff << endl; cout << " Hi/Lo gain ratio: " << medhilocal << " +- " << devhilocal << endl; cout << endl; //build query and insert information into the database // here only a update query is built, as this macro is exexuted after // the macro fillcalib.C in the script fillcallisto // and so the table Calibration is always updated TString query = Form("UPDATE Calibration SET " " fMeanPedRmsInner=%s, fMeanPedRmsOuter=%s, " " fMeanSignalInner=%s, fMeanSignalOuter=%s, " " fPulsePosMean=%s, fPulsePosRms=%s, " " fPulsePosCheckMean=%s, fPulsePosCheckRms=%s, " //" fPulsePosHiMean=%s, fPulsePosHiRms=%s, " //" fPulsePosLoMean=%s, fPulsePosLoRms=%s, " " fPulsePosOffMed=%s, fPulsePosOffDev=%s, " " fHiLoGainRatioMed=%s, fHiLoGainRatioDev=%s " " WHERE fSequenceFirst='%d' ", meanrmsinner.Data(), meanrmsouter.Data(), meansiginner.Data(), meansigouter.Data(), meanpulpos.Data(), rmspulpos.Data(), meanextpulpos.Data(), rmsextpulpos.Data(), //meanpulhi.Data(), rmspulhi.Data(), //meanpullo.Data(), rmspullo.Data(), medpuloff.Data(), devpuloff.Data(), medhilocal.Data(), devhilocal.Data(), seq); if (dummy) return 1; TSQLResult *res = serv.Query(query); if (!res) { cout << "ERROR - Query failed: " << query << endl; return 2; } delete res; return 1; } int fillsignal(TString fname, Bool_t dummy=kTRUE) { TEnv env("sql.rc"); MSQLServer serv(env); if (!serv.IsConnected()) { cout << "ERROR - Connection to database failed." << endl; return 0; } cout << "fillsignal" << endl; cout << "----------" << endl; cout << endl; cout << "Connected to " << serv.GetName() << endl; cout << "File: " << fname << endl; cout << endl; //process file return Process(serv, fname, dummy); }