/* ======================================================================== *\ ! ! * ! * 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, 05/2005 ! Author(s): Daniela Dorner, 05/2005 ! ! Copyright: MAGIC Software Development, 2000-2006 ! ! \* ======================================================================== */ ///////////////////////////////////////////////////////////////////////////// // // fillstar.C // ========== // // This macro is used to read the star-output files. // These files are automatically called star00000000.root. // From these files the muon parameters (psf, muon number, ratio, muon rate), // the rate, the number of islands, the effective ontime, the maximum // humidity and a parameter describing the inhomogeneity are extracted from // the status display. // The sequence number is extracted from the filename. // // Usage: // .x fillstar.C("/magic/data/star/0004/00047421/star00047421.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 fillstar.C+\(\"filename\"\,kFALSE\) 2>&1 | tee fillstar.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 #include #include #include #include #include #include "MSQLServer.h" #include "MHMuonPar.h" #include "MStatusArray.h" #include "MGeomCamMagic.h" #include "MBadPixelsCam.h" using namespace std; // -------------------------------------------------------------------------- // // Checks whether an entry is already existing // Bool_t ExistStr(MSQLServer &serv, const char *column, const char *table, Int_t test) { TString query(Form("SELECT %s FROM %s WHERE %s='%d'", column, table, column, test)); TSQLResult *res = serv.Query(query); if (!res) return kFALSE; TSQLRow *row; Bool_t rc = kFALSE; while ((row=res->Next())) { if ((*row)[0]) { rc = kTRUE; break; } } delete res; return rc; } 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; } MStatusArray arr; if (arr.Read()<=0) { cout << "ERROR - Reading of MStatusDisplay failed." << endl; return 2; } TH2F *hcog = (TH2F*)arr.FindObjectInCanvas("Center", "TH2F", "MHHillas"); if (!hcog) { cout << "WARNING - Reading of MHHillas failed." << endl; return 2; } MHMuonPar *hmuon = (MHMuonPar*)arr.FindObjectInCanvas("MHMuonPar", "MHMuonPar", "MHMuonPar"); if (!hmuon) { cout << "WARNING - Reading of MHMuon failed." << endl; return 2; } Double_t val[6]; for (int x=1; xGetNbinsX(); x++) for (int y=1; yGetNbinsY(); y++) { Stat_t px = hcog->GetXaxis()->GetBinCenter(x); Stat_t py = hcog->GetYaxis()->GetBinCenter(y); Int_t i = (TMath::Nint(3*TMath::ATan2(px,py)/TMath::Pi())+6)%6; val[i] += hcog->GetBinContent(x, y); } Double_t inhom = TMath::RMS(6, val)*6/hcog->GetEntries()*100; inhom = TMath::Nint(inhom*10)/10.; TString inhomogen = Form("%5.1f", inhom); Float_t mw = hmuon->GetMeanWidth(); Float_t psf = 58.5480*mw - 37.3829; psf = TMath::Nint(psf*10)/10.; TString PSF = Form("%5.1f", psf); Int_t num = (int)hmuon->GetEntries(); Float_t ratiodatamc = (hmuon->GetMeanSize()/9327.)*100; TString ratio = Form("%5.1f", ratiodatamc); TH1 *h = (TH1*)arr.FindObjectInCanvas("Islands", "TH1F", "MHImagePar"); if (!h) { cout << "WARNING - Reading of Islands failed." << endl; return 2; } Float_t quality = h->GetMean(); quality = TMath::Nint(quality*100)/100.; TString islands = Form("%6.2f", quality); h = (TH1*)arr.FindObjectInCanvas("EffOnTheta", "TH1D", "EffOnTime"); if (!h) { cout << "WARNING - Reading of EffOnTheta failed." << endl; return 2; } Float_t effon = h->Integral(); Float_t mrate = num/effon; mrate = TMath::Nint(mrate*100)/100.; TString muonrate = Form("%6.2f", mrate); Int_t effontime = TMath::Nint(effon); h = (TH1*)arr.FindObjectInCanvas("ProjDeltaT", "TH1D", "EffOnTime"); if (!h) { cout << "WARNING - Reading of ProjDeltaT failed." << endl; return 2; } Int_t numevents = (int)h->GetEntries(); Int_t datarate = (int)(numevents/effon); TGraph *g = (TGraph*)arr.FindObjectInCanvas("Humidity", "TGraph", "MHWeather"); if (!g) { cout << "WARNING - Reading of Humidity failed." << endl; return 2; } Double_t max = TMath::MaxElement(g->GetN(), g->GetY()); TString maxhum = Form("%6.1f", max); g = (TGraph*)arr.FindObjectInCanvas("NumStars", "TGraph", "MHPointing"); if (!g) { cout << "WARNING - Reading of NumStars failed." << endl; // return 2; } Double_t numstarmed = g ? TMath::Median(g->GetN(), g->GetY()) : -1; TString numstarsmed = Form("%5.1f", numstarmed); Double_t numstarrms = g ? g->GetRMS(2) : -1; TString numstarsrms = Form("%5.1f", numstarrms); g = (TGraph*)arr.FindObjectInCanvas("NumStarsCor", "TGraph", "MHPointing"); if (!g) { cout << "WARNING - Reading of NumStarsCor failed." << endl; // return 2; } Double_t numcormed = g ? TMath::Median(g->GetN(), g->GetY()) : -1; TString numcorsmed = Form("%5.1f", numcormed); Double_t numcorrms = g ? g->GetRMS(2) : -1; TString numcorsrms = Form("%5.1f", numcorrms); g = (TGraph*)arr.FindObjectInCanvas("Brightness", "TGraph", "MHPointing"); if (!g) { cout << "WARNING - Reading of SkyBrightness failed." << endl; // return 2; } Double_t brightnessmed = g ? TMath::Median(g->GetN(), g->GetY()) : -1; TString skybrightnessmed = Form("%5.1f", brightnessmed); Double_t brightnessrms = g ? g->GetRMS(2) : -1; TString skybrightnessrms = Form("%5.1f", brightnessrms); TString sequence = fname(TRegexp("star[0-9]+[.]root$")); if (sequence.IsNull()) { cout << "WARNING - Could not determine sequence# from filename: " << fname << endl; return 2; } Int_t seq = atoi(sequence.Data()+5); cout << "Sequence #" << seq << endl; cout << " Inhomogeneity " << inhomogen << endl; cout << " PSF [mm] " << PSF << endl; cout << " Island Quality " << islands << endl; cout << " Ratio [%] " << ratio << endl; cout << " Muon Number " << num << endl; cout << " EffOnTime [s] " << effontime << endl; cout << " Muon Rate [Hz] " << muonrate << endl; cout << " # of Events " << numevents << endl; cout << " Rate after ImgCl [Hz] " << datarate << endl; cout << " Maximum Humidity [%] " << maxhum << endl; cout << " Number of Stars " << numstarsmed << " +/- " << numstarsrms << endl; cout << " Number of cor. Stars " << numcormed << " +/- " << numcorrms << endl; cout << " Skybrightness " << skybrightnessmed << " +/- " << skybrightnessrms << endl; TString query; if (!ExistStr(serv, "fSequenceFirst", "Star", seq)) { query = Form("INSERT Star SET" " fSequenceFirst=%d," " fMeanNumberIslands=%s, " " fRatio=%s, " " fMuonNumber=%d, " " fEffOnTime=%d, " " fMuonRate=%s, " " fPSF=%s, " " fDataRate=%d, " " fMaxHumidity=%s ," " fNumStarsMed=%s ," " fNumStarsRMS=%s ," " fNumStarsCorMed=%s ," " fNumStarsCorRMS=%s ," " fBrightnessMed=%s ," " fBrightnessRMS=%s ," " fInhomogeneity=%s ", seq, islands.Data(), ratio.Data(), num, effontime, muonrate.Data(), PSF.Data(), datarate, maxhum.Data(), numstarsmed.Data(), numstarsrms.Data(), numcorsmed.Data(), numcorsrms.Data(), skybrightnessmed.Data(), skybrightnessrms.Data(), inhomogen.Data()); } else { query = Form("UPDATE Star SET" " fMeanNumberIslands=%s, " " fRatio=%s, " " fMuonNumber=%d, " " fEffOnTime=%d, " " fMuonRate=%s, " " fPSF=%s, " " fDataRate=%d, " " fMaxHumidity=%s, " " fNumStarsMed=%s ," " fNumStarsRMS=%s ," " fNumStarsCorMed=%s ," " fNumStarsCorRMS=%s ," " fBrightnessMed=%s ," " fBrightnessRMS=%s ," " fInhomogeneity=%s " " WHERE fSequenceFirst=%d ", islands.Data(), ratio.Data(), num, effontime, muonrate.Data(), PSF.Data(), datarate, maxhum.Data(), numstarsmed.Data(), numstarsrms.Data(), numcorsmed.Data(), numcorsrms.Data(), skybrightnessmed.Data(), skybrightnessrms.Data(), inhomogen.Data(), seq); } cout << "Q: " << query << endl; if (dummy) return 1; TSQLResult *res = serv.Query(query); if (!res) { cout << "ERROR - Query failed: " << query << endl; return 2; } delete res; return 1; } int fillstar(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 << "fillstar" << endl; cout << "---------" << endl; cout << endl; cout << "Connected to " << serv.GetName() << endl; cout << "File: " << fname << endl; cout << endl; return Process(serv, fname, dummy); }