Auxiliary program to plot data from data base. More...

#include <string>
#include <iostream>
#include <sstream>
#include <iomanip>
#include <vector>
#include <set>
#include <map>
#include <algorithm>
#include "TROOT.h"
#include "TFile.h"
#include "TH1D.h"
#include "TTimeStamp.h"
#include "JDB/JDB.hh"
#include "JDB/JSelector.hh"
#include "JDB/JSelectorSupportkit.hh"
#include "JDB/JRunQuality.hh"
#include "JDB/JRuns.hh"
#include "JDB/JDBToolkit.hh"
#include "JDB/JDBSupportkit.hh"
#include "JLang/JLangToolkit.hh"
#include "JTools/JRange.hh"
#include "JROOT/JRootPrinter.hh"
#include "JROOT/JRootToolkit.hh"
#include "JROOT/JMathSupportkit.hh"
#include "JROOT/JASCIIFileStreamer.hh"
#include "JROOT/JManager.hh"
#include "JGizmo/JGizmoToolkit.hh"
#include "JSupport/JMeta.hh"
#include "JSupport/JFilenameSupportkit.hh"
#include "JDataQuality/JGITTags.hh"
#include "Jeep/JeepToolkit.hh"
#include "Jeep/JComment.hh"
#include "Jeep/JParser.hh"
#include "Jeep/JMessage.hh"

Functions
std::istream &	operator>> (std::istream &in, TTimeStamp &object)
	Read time stamp from input stream. More...

std::ostream &	operator>> (std::ostream &out, const TTimeStamp &object)
	Write time stamp to output stream. More...

int	main (int argc, char **argv)

Detailed Description

Auxiliary program to plot data from data base.

Author: mdejong

Definition in file JDataMonitor.cc.

Function Documentation

std::istream& operator>>	(	std::istream &	in,
		TTimeStamp &	object
	)

inline

Read time stamp from input stream.

Format is YYYY-MM-DD HH:MM:SS"

Parameters

in	input stream
object	time stamp

Returns: input stream

Definition at line 51 of file JDataMonitor.cc.

 {
   using namespace std;
   using namespace JPP;
 
   string buffer;
 
   if (in >> buffer) {
 
     UInt_t year;
     UInt_t month;
     UInt_t day;
 
     istringstream is;
 
     is.str(replace(buffer, '-', ' '));
 
     if (is >> year >> month >> day) {
 
       UInt_t hour = 0;
       UInt_t min  = 0;
       UInt_t sec  = 0;
 
       if (in >> buffer) {
 
         is.clear();
         is.str(replace(buffer, ':', ' '));
 
         if (is >> hour >> min >> sec) {
 
           object = TTimeStamp(year, month, day, hour, min, sec);
 
           return in;
         }
       }
     }
   }
 
   in.setstate(ios::failbit);
 
   return in;
 }

std::ostream& operator>>	(	std::ostream &	out,
		const TTimeStamp &	object
	)

inline

Write time stamp to output stream.

Parameters

out	output stream
object	time stamp

Returns: output stream

Definition at line 102 of file JDataMonitor.cc.

 {
   return out << object.AsString();
 }

int main	(	int	argc,
		char **	argv
	)

Definition at line 114 of file JDataMonitor.cc.

 {
   using namespace std;
   using namespace JPP;
  
   typedef JRange<TTimeStamp>  JRange_t;
 
   JServer         server;
   string          usr;
   string          pwd;
   string          cookie;
   string          inputFile;
   string          outputFile;
   string          detid;
   JRange_t        UTC;
   vector<string>  source;
   double          Tmin_s;
   int             debug;
 
   try {
 
     JParser<> zap("Example program to plot quality data from data base.");
     
     zap['s'] = make_field(server)        = getServernames();
     zap['u'] = make_field(usr)           = "";
     zap['!'] = make_field(pwd)           = "";
     zap['C'] = make_field(cookie)        = "";
     zap['f'] = make_field(inputFile,  "Optional input file instead of database.")       = "";
     zap['o'] = make_field(outputFile, "ROOT file with histograms and n-tuple or ASCII file with QA/QC data.") = "monitor.root";
     zap['D'] = make_field(detid,      "detector identifier");
     zap['S'] = make_field(source,     "GIT versions")               = getGITTags(TRegexp("v[0-9]*\\.[0-9]*\\.[0-9]*$"), JGITTags_t::key_type("2019-04-12"));
     zap['U'] = make_field(UTC,        "UTC time range" )            = JRange<TTimeStamp>();
     zap['T'] = make_field(Tmin_s,     "minimal run duration [s]")   = 60;
     zap['d'] = make_field(debug)         = 1;
 
     zap(argc, argv);
   }
   catch(const exception &error) {
     FATAL(error.what() << endl);
   }
 
 
   set<JRuns>       runs;
   set<JRunQuality> buffer;
 
   try {
 
     JDB::reset(usr, pwd, cookie);
 
     const int ID = getDetector<int   >(detid);
     detid        = getDetector<string>(detid);
 
     // runs
 
     NOTICE("Extracting run information from database... " << flush);
       
     ResultSet& rs  = getResultSet(getTable<JRuns>(), getSelector<JRuns>(ID));
 
     for (JRuns parameters; rs >> parameters; ) {
 
       parameters.DETID = ID;
 
       if (UTC(parameters.getRunStartTime())) {
         runs.insert(parameters);
       }
     }
 
     rs.Close();
 
     NOTICE("OK" << endl);
 
     if (runs.empty()) {
       FATAL("No runs for detector " << detid << endl);
     }
 
     NOTICE("Run range " << runs.begin()->RUN << ' ' << runs.rbegin()->RUN << endl);
 
     if (inputFile == "") {                    // read data from database
 
       // run summary data
 
       for (vector<string>::const_iterator git = source.begin(); git != source.end(); ++git) {
 
         typedef map<string, string>    data_type;
         typedef map<int, data_type>    map_type;
 
         map_type zmap;
 
         JSelector selector = getSelector<JRunSummaryNumbers>(detid, runs.begin()->RUN, runs.rbegin()->RUN);
 
         selector.add(&JRunSummaryNumbers::SOURCE_NAME, *git);
 
         try {
 
           NOTICE("Extracting run summmary information with source " << *git << " from database... " << flush);
 
           ResultSet& rs  = getResultSet(getTable<JRunSummaryNumbers>(), selector);
 
           for (JRunSummaryNumbers parameters; rs >> parameters; ) {
             zmap[parameters.RUN].insert(make_pair(parameters.PARAMETER_NAME, parameters.DATA_VALUE));
           }
         
           rs.Close();
 
           NOTICE("OK" << endl);
         }
         catch(const exception& error) { NOTICE(endl); }
 
         for (map_type::const_iterator run = zmap.begin(); run != zmap.end(); ++run) {
 
           JRunQuality quality;
 
           quality.GIT      = *git;
           quality.detector = ID;
           quality.run      = run->first;
 
           for (data_type::const_iterator p = run->second.begin(); p != run->second.end(); ++p) {
             quality.put(p->first, p->second);
           }
 
           if (UTC(TTimeStamp(quality.UTCMin_s, 0)) &&
               UTC(TTimeStamp(quality.UTCMax_s, 0))) {
             buffer.insert(quality);
           }
         }
       }
 
     } else {                                  // read data from file
 
       JASCIIFileReader<JRunQuality> in(inputFile.c_str(), JDBDictionary::getInstance());
 
       JComment comment;
 
       in >> comment;
 
       for (JRunQuality quality; in >> quality; ) {
         if (UTC(TTimeStamp(quality.UTCMin_s, 0)) &&
             UTC(TTimeStamp(quality.UTCMax_s, 0))) {
           buffer.insert(quality);
         }
       }
 
       in.close();
     }
   }
   catch(const exception& error) {
     FATAL(error.what() << endl);
   }
 
 
   if (getFilenameExtension(outputFile) == ROOT_FILE_FORMAT) {
 
     // bins
 
     vector<double> X;
 
     X.push_back(runs. begin()->getRunStartTime());    // start of first run
 
     for (set<JRunQuality>::const_iterator quality = buffer.begin(); quality != buffer.end(); ++quality) {
       X.push_back(quality->UTCMin_s);
       X.push_back(quality->UTCMax_s);
     }
 
     X.push_back(runs.rbegin()->getRunStartTime());    // start of last run
 
     sort(X.begin(), X.end());
 
     struct Xmin {
       Xmin(double xmin) : 
         xmin(xmin)
       {}
 
       bool operator()(const double x1, const double x2) 
       {
         return x2 - x1 <= xmin;
       }
 
       double xmin;
     };
 
     X.erase(unique(X.begin(), X.end(), Xmin(Tmin_s)), X.end());
 
     TH1D h0("livetime_s", NULL, X.size() - 1, X.data());
     TH1D h1("QAQC",       NULL, X.size() - 1, X.data());
 
     for (set<JRuns>::const_iterator i = runs.begin(); i != runs.end(); ++i) {
 
       set<JRunQuality>::const_iterator quality = buffer.find(JRunQuality(i->DETID, i->RUN));
 
       if (debug >= debug_t) {
 
         cout << "Run " 
              << setw(8) << i->RUN                                        << ' ' 
              << TTimeStamp((time_t) i->UNIXSTARTTIME/1000).AsString("c") << ' ';
 
         if (quality != buffer.end())
           cout << "[" << TTimeStamp((time_t) quality->UTCMin_s).AsString("c") << "," << TTimeStamp((time_t) quality->UTCMax_s).AsString("c") << "]";
         else
           cout << "missing QA/QC data";
 
         cout << endl;
       }
 
       h1.Fill(i->getRunStartTime() + Tmin_s, (quality != buffer.end() ? 1.0 : -1.0));
     }
 
     JManager<string, TH1D> H1(new TH1D("H[%]", NULL, X.size() - 1, X.data()));  
     JManager<string, TH1D> R1(new TH1D("R[%]", NULL, X.size() - 1, X.data()));  
 
     for (set<JRunQuality>::const_iterator quality = buffer.begin(); quality != buffer.end(); ++quality) {
 
       const double x = 0.5 * (quality->UTCMin_s + quality->UTCMax_s);
 
       h0.Fill(x, 100.0 * quality->livetime_s / (quality->UTCMax_s - quality->UTCMin_s));
 
       H1["JDAQEvent"]        -> Fill(x, quality->JDAQEvent);
       H1["JTrigger3DShower"] -> Fill(x, quality->JTrigger3DShower);
       H1["JTrigger3DMuon"]   -> Fill(x, quality->JTrigger3DMuon);
       H1["JTriggerMXShower"] -> Fill(x, quality->JTriggerMXShower);
 
       if (quality->livetime_s > 0.0) {
         R1["JDAQEvent"]        -> Fill(x, quality->JDAQEvent        / quality->livetime_s);
         R1["JTrigger3DShower"] -> Fill(x, quality->JTrigger3DShower / quality->livetime_s);
         R1["JTrigger3DMuon"]   -> Fill(x, quality->JTrigger3DMuon   / quality->livetime_s);
         R1["JTriggerMXShower"] -> Fill(x, quality->JTriggerMXShower / quality->livetime_s);
       }
     }
 
 
     Double_t W[2] = { 0.0 };
 
     W[0] = *X.rbegin() - *X.begin();
 
     for (set<JRunQuality>::const_iterator quality = buffer.begin(); quality != buffer.end(); ++quality) {
       W[1] += quality->livetime_s;
     }
 
     NOTICE("Average data taking efficiency  " << FIXED(5,1) << 100.0*W[1]/W[0] << " %." << endl);
 
 
     for (TH1* p : { &h0, &h1 }) {
       p->GetXaxis()->SetTimeDisplay(1);
       p->GetXaxis()->SetTimeFormat(TIMESTAMP);
       p->Sumw2(false);
     }
 
     for (JManager<string, TH1D>::iterator p = H1.begin(); p != H1.end(); ++p) {
 
       Double_t W = 0.0;
     
       for (Int_t i = 1; i <= p->second->GetXaxis()->GetNbins(); ++i) {
         p->second->SetBinContent(i, (W += p->second->GetBinContent(i)));
       }
     
       p->second->GetXaxis()->SetTimeDisplay(1);
       p->second->GetXaxis()->SetTimeFormat(TIMESTAMP);
       p->second->Sumw2(false);
     }
 
     for (JManager<string, TH1D>::iterator p = R1.begin(); p != R1.end(); ++p) {
 
       p->second->GetXaxis()->SetTimeDisplay(1);
       p->second->GetXaxis()->SetTimeFormat(TIMESTAMP);
       p->second->Sumw2(false);
     }
 
     TFile out(outputFile.c_str(), "recreate");
 
     out << h0 << h1 << H1 << R1;
 
     out.Write();
     out.Close();
   }
 
 
   if (getFilenameExtension(outputFile) == ASCII_FILE_FORMAT) {
 
     // store data
 
     JASCIIFileWriter<JRunQuality> out(outputFile.c_str(), JDBDictionary::getInstance());
 
     out.setf(ios::fixed);
 
     JComment comment;
 
     comment.add(JMeta(argc, argv));
 
     out << comment;
 
     for (set<JRunQuality>::const_iterator i = buffer.begin(); i != buffer.end(); ++i) {
       out << *i << endl;
     }
 
     out.close();
   }
 }

Functions

Detailed Description

Function Documentation