/* ======================================================================== *\ ! $Name: not supported by cvs2svn $:$Id: plotoptical.C,v 1.10 2008-08-15 12:14:52 dorner Exp $ ! -------------------------------------------------------------------------- ! ! * ! * 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 ! ! \* ======================================================================== */ ///////////////////////////////////////////////////////////////////////////// // // plotoptical.C // ============= // // This macro is used to read optical data from the DB and plot them. // // In the DB these values are stored in the tables Calibration and Star. // // // To plot the whole database simple use: // .x plotdb.C+ // // Plot only data for one source. For the available sources see the database // .x plotdb.C+("source") // // You can chose are certain MAGIC-period: // .x plotdb.C+(25) --> all values from period 25 are plotted // // MAGIC periods correspond to one moon-phase and are defined as // moon period-284. For details see MAstro::MoonPeriod and // MAstro::MagicPeriod. // // or a time period from a certain date to a certain date // .x plotdb.C+("2004-11-14 00:00:00", "2005-02-28 00:00:00") // --> all values from 14.11.2004 0h to 28.2.2005 0h are plotted // .x plotdb.C+("2004-11-14 00:00:00", "2005-02-28 00:00:00", "source") // --> all values from 14.11.2004 0h to 28.2.2005 0h of "source" are plotted // // // For details of the plots produced see the function plotall() below. // // // The plot title and axis-titles are created by: // plot.SetDescription("Title;x", "TabName"); // // Drawing the plot is initiated by // plot.Plot("OpticalData.fExposure", min, max, width); // // While OpticalData.fExposure can be any kind of variable to plot. // min and max are the minimum and maximum of the histogram which is // filled and width is the bin-width of this histogram. // // To group data (average) of a certain period use: // plot.GroupBy(MPlot::kGroupByNight); // before initiating the plot. // // // Make sure, that database and password are corretly set in a resource // file called sql.rc and the resource file is found. // ///////////////////////////////////////////////////////////////////////////// #include "plotdb.C" void plotalloptical(MPlot &plot, TString source) { // Setup here the values for timestamp and secondary (upper/right) plot plot.SetPrimaryDate("OpticalData.fTimestamp"); plot.SetPrimaryNumber("OpticalData.fTimestamp"); plot.SetSecondary("OpticalData.fZenithDistance"); // This is the condition to take only the "ok" flagged data // and to restrict the query to a given source (if any) TString cond = "fStatusKEY=1 AND fTelescopeKEY=1 AND fCCDKEY=1 AND fFilterKEY=1"; if (!source.IsNull()) { const Int_t key = plot.GetServer().QueryKeyOfName("Object", source, kFALSE); if (key<0) return; cond += Form(" AND Object.fObjectKEY=%d", key); } plot.SetCondition(cond); // Plot exposure plot.SetDescription("Exposure;T_{E} [s]", "Expo"); plot.Plot("OpticalData.fExposure", 0, 900, 60); // plot sky level plot.SetDescription("Sky Level;B [s^{-1}]", "SkyLvl"); plot.Plot("OpticalData.fSkyLevel/OpticalData.fExposure", 0, 5.0, 0.01); // plot FWHM plot.SetDescription("Full Width Half Maximum;FWHM [s^{-1}]", "Fwhm"); plot.Plot("OpticalData.fFWHM/OpticalData.fExposure", 0, 0.05, 0.001); // plot Aperture Radius plot.SetDescription("Aperture Radius;R_{A}", "ApRad"); plot.Plot("OpticalData.fApertureRadius", 0, 10, 1); /* // Plot instrumental magnitude plot.SetDescription("Instrumental Magnitude;M_{I}", "InstMag"); plot.Plot("OpticalData.fInstrumentalMag", 0, 30, 0.5); // Plot error of instrumental magnitude plot.SetDescription("Instrumental Magnitude Error;\\sigma_{M}", "MagErr"); plot.Plot("OpticalData.fInstrumentalMagErr", 0, 1, 0.01); */ // Plot magnitude corrected for the exposure plot.SetDescription("m_{1};m_{1}", "M1"); plot.Plot("OpticalData.fInstrumentalMag+2.5*log10(OpticalData.fExposure)", 10, 35, 0.2); // Now take out all points named */BL from further queries // And skip all sources the magnitude is not known cond += " AND Object.fObjectName NOT LIKE '%/BL' AND NOT ISNULL(Object.fMagnitude) "; plot.SetCondition(cond); // Formula to calculate the extinction TString ext("3080/25.0*pow(10, (OpticalData.fInstrumentalMag+2.5*log10(OpticalData.fExposure)-Object.fMagnitude)/-2.5)"); // Add this to correct for the ZA dependancy // ext += "+0.0028*fZenithDistance-0.08"; // Group all data of one image together and plot extinction plot.SetGroupBy(MPlot::kGroupByPrimary); plot.SetDescription("m_{1}-m_{true} (Extinction per Image);m_{1}-m_{true}", "ExtImg"); plot.Plot(ext, 0.05, 1.2, 0.01); // Group data hourly together and plot extinction plot.SetGroupBy(MPlot::kGroupByHour); plot.SetDescription("m_{1}-m_{true} (Extinction per Hour);m_{1}-m_{true}", "ExtHour"); plot.Plot(ext, 0.5, 1.2, 0.01); // Group data hourly together and plot extinction plot.SetGroupBy(MPlot::kGroupByNight); plot.SetDescription("m_{1}-m_{true} (Extinction per Night);m_{1}-m_{true}", "ExtNight"); plot.Plot(ext, 0.5, 1.2, 0.01); // Group data monthly together and plot extinction plot.SetGroupBy(MPlot::kGroupByMonth); plot.SetDescription("m_{1}-m_{true} (Extinction per Month);m_{1}-m_{true}", "ExtMonth"); plot.Plot(ext, 0.5, 1.2, 0.01); // Group data yearly together and plot extinction plot.SetGroupBy(MPlot::kGroupByYear); plot.SetDescription("m_{1}-m_{true} (Extinction per Year);m_{1}-m_{true}", "ExtYear"); plot.Plot(ext, 0.5, 1.2, 0.01); } int plotoptical(TString from, TString to, const char *source=0) { MSQLMagic serv("sql.rc"); if (!serv.IsConnected()) { cout << "ERROR - Connection to database failed." << endl; return 0; } cout << "plotoptical" << endl; cout << "-----------" << endl; cout << endl; cout << "Connected to " << serv.GetName() << endl; cout << endl; MStatusDisplay *d = new MStatusDisplay; d->SetWindowName(serv.GetName()); d->SetTitle(serv.GetName()); MPlot plot(serv); // plot.SetDataSet(dataset); plot.SetDisplay(d); plot.SetRequestRange(from, to); plotalloptical(plot, source); // Use this to create output plots automatically // d->SaveAsRoot("plotoptical.root"); // d->SaveAsPS("plotoptical.ps"); return 1; } int plotoptical(const char *source, TString path) { MSQLMagic serv("sql.rc"); if (!serv.IsConnected()) { cout << "ERROR - Connection to database failed." << endl; return 0; } cout << "plotoptical" << endl; cout << "-----------" << endl; cout << endl; cout << "Connected to " << serv.GetName() << endl; cout << endl; MStatusDisplay *d = new MStatusDisplay; d->SetWindowName(serv.GetName()); d->SetTitle(serv.GetName()); MPlot plot(serv); // plot.SetDataSet(ds); plot.SetDisplay(d); plot.SetRequestRange("", ""); plotalloptical(plot, source); // Use this to create output plots automatically // d->SaveAsRoot(plot+"plotoptical.root"); // d->SaveAsPS("plotoptical.ps"); return 1; } int plotoptical(Int_t period, const char *source="") { MSQLMagic serv("sql.rc"); if (!serv.IsConnected()) { cout << "ERROR - Connection to database failed." << endl; return 0; } cout << "plotoptical" << endl; cout << "-----------" << endl; cout << endl; cout << "Connected to " << serv.GetName() << endl; cout << endl; MStatusDisplay *d = new MStatusDisplay; d->SetWindowName(serv.GetName()); d->SetTitle(serv.GetName()); MPlot plot(serv); // plot.SetDataSet(dataset); plot.SetDisplay(d); plot.SetRequestPeriod(period); plotalloptical(plot, source); // Use this to create output plots automatically // d->SaveAsRoot("plotoptical.root"); // d->SaveAsPS("plotoptical.ps"); return 1; } int plotoptical(TString path) { MSQLMagic serv("sql.rc"); if (!serv.IsConnected()) { cout << "ERROR - Connection to database failed." << endl; return 0; } cout << "plotoptical" << endl; cout << "-----------" << endl; cout << endl; cout << "Connected to " << serv.GetName() << endl; cout << endl; MStatusDisplay *d = new MStatusDisplay; d->SetWindowName(serv.GetName()); d->SetTitle(serv.GetName()); MPlot plot(serv); // plot.SetDataSet(dataset); plot.SetDisplay(d); //plot.SetRequestPeriod(period); plotalloptical(plot, 0); // Use this to create output plots automatically d->SaveAsRoot(path+"plotoptical.root"); // d->SaveAsPS("plotoptical.ps"); return 1; } int plotoptical() { return plotoptical("", ""); }