source: trunk/MagicSoft/Mars/datacenter/macros/plotdb.C@ 7330

/* ======================================================================== *\
!
! *
! * 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 <mailto:tbretz@astro.uni-wuerzburg.de>
!   Author(s): Daniela Dorner, 05/2005 <mailto:dorner@astro.uni-wuerzburg.de>
!
!   Copyright: MAGIC Software Development, 2000-2005
!
!
\* ======================================================================== */

/////////////////////////////////////////////////////////////////////////////
//
// plotdb.C
// ========
//
// This macro is used to read quality parameters from the DB and plot them.
// 
// The parameters are from the following files:
// calib*.root:mean conversion factor, mean arrival time, rms arrival time
// (each parameter for inner and outer camera)
// signal*.root: mean pedestal rms (for inner and outer camera)
// star*.root: PSF, # of Muons, Effective OnTime, Muon rate,
// Ratio MC/Data(MuonSize) and mean number of islands
// 
// In the DB these values are stored in the tables Calibration and Star.
// 
// Usage:
//   .x plotdb.C   --> all values in the DB are plotted
// You can chose are certain period:
//   .x plotdb.C(25)   --> all values from period 25 are plotted
// 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
//
// Make sure, that database and password are corretly set in a resource
// file called sql.rc and the resource file is found.
//
/////////////////////////////////////////////////////////////////////////////
#include <iostream>

#include <TH1.h>
#include <TEnv.h>
#include <TPad.h>
#include <TLine.h>
#include <TText.h>
#include <TStyle.h>
#include <TGraph.h>
#include <TCanvas.h>
#include <TSQLRow.h>
#include <TSQLResult.h>

#include "MTime.h"
#include "MAstro.h"
#include "MSQLServer.h"
#include "MStatusDisplay.h"

class MPlot : public MParContainer
{
private:
    MSQLServer &fServer;

    TString fRequestFrom;
    TString fRequestTo;
    Int_t   fRequestPeriod;

    Float_t fPlotMin;
    Float_t fPlotMax;

    Float_t fHistMin;
    Float_t fHistMax;

    TString fDescription;
    TString fNameTab;

    void PlotTable(TSQLResult &res, TString name, Float_t fmin, Float_t fmax, Float_t resolution)
    {
        gStyle->SetOptStat(111111);

        TSQLRow *row;

        TGraph g;
        g.SetNameTitle(name, Form("%s vs Time", name.Data()));
        g.SetMarkerStyle(kFullDotMedium);

        TGraph g2;
        g2.SetNameTitle(name, Form("%s vs <Zd>", name.Data()));
        g2.SetMarkerStyle(kFullDotMedium);

        if (fmax>fmin)
        {
            g.SetMinimum(fmin);
            g.SetMaximum(fmax);
            g2.SetMinimum(fmin);
            g2.SetMaximum(fmax);
        }

        Int_t first = -1;
        Int_t last  = -1;

        while ((row=res.Next()))
        {
            const char *date = (*row)[0];
            const char *zd   = (*row)[1];
            const char *val  = (*row)[2];
            if (!date || !val || !zd)
                continue;

            MTime t(date);
            if (!t.SetSqlDateTime(date))
                continue;

            if (fRequestPeriod>0 && MAstro::GetMagicPeriod(t.GetMjd())!=fRequestPeriod)
                continue;

            if (first<0)
                first = TMath::Nint(TMath::Floor(t.GetMjd()));
            last = TMath::Nint(TMath::Ceil(t.GetMjd()));

            Float_t value = atof(val);
            Float_t zenith = atof(zd);
            g.SetPoint(g.GetN(), t.GetAxisTime(), value);
            g2.SetPoint(g2.GetN(), zenith, value);
        }

        gROOT->SetSelectedPad(0);

        TString title = fNameTab.IsNull() ? name(name.First('.')+2, name.Length()) : fNameTab;
        TCanvas &c = fDisplay ? fDisplay->AddTab(title) : *new TCanvas;
        c.Divide(1,2);

        TVirtualPad *pad = gPad;
        pad->cd(2);
        gPad->SetBorderMode(0);
        gPad->SetGridy();

        TH1 *h = g.GetHistogram();

        h->SetXTitle("Time");
        h->SetYTitle(name);
        h->GetXaxis()->SetTimeDisplay(1);

        g.DrawClone("AP");

        TLine l;
        TText t;
        Int_t num=0;
        l.SetLineStyle(kDotted);
        l.SetLineColor(kBlue);
        t.SetTextColor(kBlue);
        l.SetLineWidth(1);
        t.SetTextSize(h->GetXaxis()->GetLabelSize());
        t.SetTextAlign(21);
        Int_t p0 = MAstro::GetMagicPeriod(first);
        for (Int_t p = first; p<last; p++)
        {
            Int_t p1 = MAstro::GetMagicPeriod(p);
            if (p1!=p0)
            {
                l.DrawLine(MTime(p).GetAxisTime(), h->GetMinimum(), MTime(p).GetAxisTime(), h->GetMaximum());
                t.DrawText(MTime(p+15).GetAxisTime(), h->GetMaximum(), Form("%d", p1));
                num++;
            }
            p0 = p1;
        }
        if (num<4)
            gPad->SetGridx();

        const Double_t min = fHistMin>fHistMax ? h->GetMinimum()-resolution/2 : fHistMin;
        const Double_t max = fHistMin>fHistMax ? h->GetMaximum()+resolution/2 : fHistMax;

        pad->cd(1);
        gPad->SetBorderMode(0);
        gPad->Divide(2,1);

        TVirtualPad *pad2 = gPad;
        pad2->cd(1);
        gPad->SetBorderMode(0);
        gPad->SetGridx();
        gPad->SetGridy();

        const Int_t n = resolution>0 ? TMath::Nint((max-min)/resolution) : 50;

        TH1F hist("Hist", Form("Distribution of %s", fDescription.IsNull() ? name.Data() : fDescription.Data()), n, min, max);
        hist.SetDirectory(0);

        for (int i=0; i<g.GetN(); i++)
            hist.Fill(g.GetY()[i]);

        if (fDescription.IsNull())
            hist.SetXTitle(name);
        hist.SetYTitle("Counts");

        hist.DrawCopy("");

        pad2->cd(2);
        gPad->SetBorderMode(0);
        gPad->SetGridy();

        TH1 *h2 = g2.GetHistogram();

        h2->SetXTitle("Zd");
        h2->SetYTitle(name);

        g2.DrawClone("AP");

    }

public:
    MPlot(MSQLServer &server) : fServer(server), fRequestPeriod(-1),
        fPlotMin(0), fPlotMax(-1), fHistMin(0), fHistMax(-1)
    {
    }
    void SetPlotRange(Float_t min, Float_t max, Int_t n=5)
    { fPlotMin = min; fPlotMax = max; }
    void SetHistRange(Float_t min, Float_t max)
    { fHistMin = min; fHistMax = max; }
    void SetRequestRange(const char *from="", const char *to="")
    { fRequestFrom = from; fRequestTo = to; }
    void SetRequestPeriod(Int_t n=-1)
    { fRequestPeriod = n; }
    void SetDescription(const char *d, const char *t=0) { fDescription = d; fNameTab = t; }

    Bool_t Plot(const char *value, Float_t min=0, Float_t max=-1, Float_t resolution=0)
    {
        TString named  = "Sequences.fRunStart";
        TString named2 = "(Sequences.fZenithDistanceMin+Sequences.fZenithDistanceMax)/2";
        TString namev  = value;
        TString join   = "fSequenceFirst";

        TString tablev = namev(0, namev.First('.'));
        TString valuev = namev(namev.First('.')+1, namev.Length());

        TString tabled = named(0, named.First('.'));
        TString valued = named(named.First('.')+1, named.Length());

        TString query;
        query  = Form("select %s, %s, %s ",    valued.Data(), named2.Data(), valuev.Data());
        query += Form("from %s left join %s ", tabled.Data(), tablev.Data());
        query += Form("on %s.%s=%s.%s ",       tabled.Data(), join.Data(), tablev.Data(), join.Data());

        if (!fRequestFrom.IsNull() && !fRequestTo.IsNull())
            query += Form("where fRunStart between '%s' and '%s' ",
                          fRequestFrom.Data(), fRequestTo.Data());

        query += "order by fRunStart";

        //cout << "q: " << query << endl;

        TSQLResult *res = fServer.Query(query);
        if (!res)
        {
            cout << "ERROR - Query failed: " << query << endl;
            return kFALSE;
        }

        if (max>min)
            PlotTable(*res, namev, min, max, resolution);
        else
            PlotTable(*res, namev, fPlotMin, fPlotMax, resolution);


        delete res;
        return kTRUE;
    }
};

void plotall(MPlot &plot)
{
    //inner camera
    //from calib*.root
    plot.SetDescription("Conversion Factor inner Camera;C_{I} [phe/fadc cnts]", "ConvI");
    plot.Plot("Calibration.fConvFactorInner",  0, 0.5, 0.001);
    plot.SetDescription("Mean Arrival Time inner Camera;T_{I} [sl]", "ArrTmI");
    plot.Plot("Calibration.fArrTimeMeanInner", 0, 9.0, 0.1);
    plot.SetDescription("RMS Arrival Time inner Camera;\\sigma_{T,I} [sl]", "RmsArrTmI");
    plot.Plot("Calibration.fArrTimeRmsInner",  0, 2.5, 0.1);
    //from signal*.root
    plot.SetDescription("Mean Pedestal RMS inner Camera;\\sigma_{P,I} [phe]", "PedRmsI");
    plot.Plot("Calibration.fMeanPedRmsInner",  0, 3.5, 0.1);
    //from star*.root
    //muon
    plot.SetDescription("Point Spred Function;PSF [mm]");
    plot.Plot("Star.fPSF",                     0,  40, 0.5);
    plot.SetDescription("Muon Calibration Ratio Data/MC;r [1]", "MuonCal");
    plot.Plot("Star.fRatio",                   0, 200, 0.5);
    plot.SetDescription("Muon Rate after Muon Cuts;R [Hz]");
    plot.Plot("Star.fMuonRate",                0, 2.0, 0.05);
    //imgpar
    plot.SetDescription("Mean Number of Islands after cleaning;N [#]", "NumIsl");
    plot.Plot("Star.fMeanNumberIslands",       0.5, 4.5, 0.1);
    plot.SetDescription("Measures effective on time;T_{eff} [s]", "EffOn");
    plot.Plot("Star.fEffOnTime",               0, 10000, 60);
    plot.SetDescription("Datarate [Hz]", "Rate");
    plot.Plot("Star.fDataRate",                0, 600, 10);
    plot.SetDescription("Maximum Humidity [%]", "Hum");
    plot.Plot("Star.fMaxHumidity",             0, 100, 1);
    //muon
    plot.SetDescription("Number of Muons after Muon Cuts;N [#]");
    plot.Plot("Star.fMuonNumber",              0, 10000, 100);
    //outer camera
    //from calib*.root
    plot.SetDescription("Conversion Factor outer Camera;C_{O} [phe/fadc cnts]", "ConvO");
    plot.Plot("Calibration.fConvFactorOuter",  0, 2.0, 0.01);
    plot.SetDescription("Mean Arrival Time outer Camera;T_{O} [sl]", "ArrTmO");
    plot.Plot("Calibration.fArrTimeMeanOuter", 0, 8.5, 0.1);
    plot.SetDescription("RMS Arrival Time outer Camera;\\sigma_{T,O} [sl]", "RmsArrTmO");
    plot.Plot("Calibration.fArrTimeRmsOuter",  0, 2.5, 0.1);
    //from signal*.root
    plot.SetDescription("Mean Pedestal RMS outer Camera;\\sigma_{P,O} [phe]", "PedRmsO");
    plot.Plot("Calibration.fMeanPedRmsOuter",  0, 4.0, 0.1);
}

void plotdb(TString from="", TString to="")
{
    TEnv env("sql.rc");

    MSQLServer serv(env);
    if (!serv.IsConnected())
    {
        cout << "ERROR - Connection to database failed." << endl;
        return;
    }

    cout << "plotdb" << endl;
    cout << "------" << endl;
    cout << endl;
    cout << "Connected to " << serv.GetName() << endl;
    cout << endl;

    MStatusDisplay *d = new MStatusDisplay;

    MPlot plot(serv);
    plot.SetDisplay(d);
    plot.SetRequestRange(from, to);
    plotall(plot);
}

void plotdb(Int_t period)
{
    TEnv env("sql.rc");

    MSQLServer serv(env);
    if (!serv.IsConnected())
    {
        cout << "ERROR - Connection to database failed." << endl;
        return;
    }

    cout << "plotdb" << endl;
    cout << "------" << endl;
    cout << endl;
    cout << "Connected to " << serv.GetName() << endl;
    cout << endl;

    MStatusDisplay *d = new MStatusDisplay;

    MPlot plot(serv);
    plot.SetDisplay(d);
    plot.SetRequestPeriod(period);
    plotall(plot);
}