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#include <cstdlib>
#include <ctime>
#include <iostream>
#include <fstream>
#include <sstream>
#include <iomanip>
#include <vector>
#include <map>
#include <string>
#include "TSystem.h"
#include "TStyle.h"
#include "TXMLEngine.h"
#include "TFile.h"
#include "TH1D.h"
#include "TCanvas.h"
#include "TKey.h"
using namespace std;
// macro parameters
const Bool_t createNewData( kFALSE ); // extract information from harvest files (again)?
const Bool_t closeCanvas( kTRUE ); // close created canvases again at end of processing?
const string drawFormat( "gif" );
const string nameFileIn( "certDqmHarvestFiles.txt" ); // name of file containing harvesting file list
const string pathHarvestFiles( "/afs/cern.ch/cms/CAF/CMSCOMM/COMM_DQM/data/Cosmics__Commissioning08_CRAFT_ALL_V9_225-v2__RECO" );
const string nameFileRR( "certRunRegistry.xml" ); // name of file containing run registry information
const string xmlRRAddress( "http://pccmsdqm04.cern.ch/runregistry/runregisterdata?format=xml&intpl=xml&mime=text/xml&qtype=RUN_NUMBER&sortname=RUN_NUMBER" );
const string nameFileCache( "getData.txt" ); // name of file containing extracted harvesting data
const string nameFileOut( "certRunFlags" ); // base name of files containing final flags
const string nameFileHistos( "certHistos.root" ); // name of RooT file containing history histogramms
const Int_t minNEvt( 1 ); // min. number of events
const Int_t minNTrk( 1 ); // min. number of tracks (each tracking algo)
const Double_t minRate( 0.01 ); // min. rate of tracks/event (each tracking algo)
const Double_t maxOffTrkCl( 10000. ); // max. number of off-track clusters in CKF
const Double_t minSToN[] = { 25., 25., 30., 27. }; // min. corr. S/N of clusters in the order TIB, TID, TOB, TEC
// const Double_t minFractSubDet( 0.95 ); // min. fraction of modules/sub-detector passing quality tests (each sub-detector)
const Double_t minFractSubDet( 0.85 ); // min. fraction of modules/sub-detector passing quality tests (each sub-detector)
const Bool_t avForwBackw( kTRUE ); // use average values for forward/backward sub-detector pairs?
const Bool_t useTEC( kTRUE ); // consider TEC quality?
const Bool_t useTID( kFALSE ); // consider TID quality?
// derived parameters
const string nameFileOutTxt( nameFileOut + ".txt" ); // name of file containing final flags in ASCII
const string nameFileInTwiki( nameFileOut + "Old.txt" ); // name of file containing old flags in ASCII
const string nameFileCacheTwiki( nameFileOut + "Cache.txt" ); // name of temporary file containing final flags for Twiki in ASCII format
const string nameFileOutTwiki( nameFileOut + ".twiki" ); // name of final file containing old and final flags in Twiki format
const string nameFileOutXml( nameFileOut + ".xml" ); // name of file containing final flags in XML
const string nameFileRRTmp( nameFileRR + ".tmp" );
// global constants
const string BAD( "Bad" );
const string GOOD( "Good" );
const string EXCL( "Excl" );
const string NO( "No" );
const string YES( "Yes" );
string coloredFlag( const string & flag )
{
string color;
if ( flag == BAD || flag == YES ) color = "RED";
else if ( flag == GOOD ) color = "GREEN";
else if ( flag == EXCL ) color = "ORANGE";
else color = "BLACK";
string formated( "%" + color + "%" + flag + "%ENDCOLOR%" );
if ( flag != NO ) {
const string bold( "*" );
formated.insert( 0, bold );
formated.append( bold );
}
return formated;
}
void certification()
{
// definitions of constants
vector< string > namesDet;
namesDet.push_back( "TIB" );
namesDet.push_back( "TID" );
namesDet.push_back( "TOB" );
namesDet.push_back( "TEC" );
vector< string > namesSubDet;
namesSubDet.push_back( "SiStrip_TECB" );
namesSubDet.push_back( "SiStrip_TECF" );
namesSubDet.push_back( "SiStrip_TIB" );
namesSubDet.push_back( "SiStrip_TIDB" );
namesSubDet.push_back( "SiStrip_TIDF" );
namesSubDet.push_back( "SiStrip_TOB" );
vector< string > namesAlgo;
namesAlgo.push_back( "CKF" );
namesAlgo.push_back( "Cosmic" );
namesAlgo.push_back( "RS" );
string sRun;
Int_t iRun;
Int_t nEvt;
map< string, Int_t > nTrk;
map< string, Double_t > rate;
map< string, Double_t > chi2;
Double_t offTrkCl;
map< string, Double_t > sToN;
map< string, Double_t > fractSubDet;
gSystem->Exec( string( "ls -1 " + pathHarvestFiles + "/*/*.root > " + nameFileIn ).c_str() );
ofstream fileInCorrect;
fileInCorrect.open( nameFileIn.c_str(), ios_base::app );
fileInCorrect << "EOF";
fileInCorrect.close();
gSystem->Exec( string( "wget -q -O " + nameFileRRTmp + " " + xmlRRAddress ).c_str() ); // FIXME correct first line of XML file (spaces, quotes)
clock_t sleep( 2 * CLOCKS_PER_SEC + clock() ); // minimum 2 seconds delay to have the file completely downloaded (evaluated before first use of the file)
ifstream fileIn;
ofstream fileCacheOut;
fileIn.open( nameFileIn.c_str() );
if ( ! fileIn ) {
cout << " ERROR: no input file list " << nameFileIn << " found" << endl;
return;
}
if ( createNewData ) fileCacheOut.open( nameFileCache.c_str() );
Int_t minRun( 1000000 );
Int_t maxRun( 0 );
Int_t nFile( 0 );
while ( fileIn.good() ) {
string nameFile;
fileIn >> nameFile;
if ( nameFile == "EOF" ) break;
sRun = nameFile.substr( nameFile.find( "_R0000" ) + 6, 5);
iRun = atoi( sRun.c_str() );
if ( iRun < minRun ) minRun = iRun;
if ( iRun > maxRun ) maxRun = iRun;
Bool_t goodRead( kTRUE );
nEvt = 0;
offTrkCl = 0.;
nTrk.clear();
rate.clear();
chi2.clear();
sToN.clear();
fractSubDet.clear();
if ( createNewData ) {
TFile * fileRoot( TFile::Open( nameFile.c_str() ) );
if ( fileRoot ) {
const string nameDir( "/DQMData/Run " + sRun + "/SiStrip/Run summary/" );
const string nameDirTrk( nameDir + "Tracks" );
const string nameDirMech( nameDir + "MechanicalView" );
const string nameDirEvt( nameDir + "EventInfo/reportSummaryContents" );
TDirectory * dirTrk = (TDirectory*)fileRoot->Get( nameDirTrk.c_str() );
if ( dirTrk ) {
for ( size_t iAlgo = 0; iAlgo < namesAlgo.size(); ++iAlgo ) {
const string nameTrk( "NumberOfTracks_" + namesAlgo.at( iAlgo ) + "Tk" );
const string nameHits( "NumberOfRecHitsPerTrack_" + namesAlgo.at( iAlgo ) + "Tk" );
const string nameChi2( "Chi2_" + namesAlgo.at( iAlgo ) + "Tk" );
TH1 * h1Trk = (TH1*)dirTrk->Get( nameTrk.c_str() );
TH1 * h1Hits = (TH1*)dirTrk->Get( nameHits.c_str() );
TH1 * h1Chi2 = (TH1*)dirTrk->Get( nameChi2.c_str() );
if ( iAlgo == 0 ) {
if ( h1Trk ) nEvt = ( Int_t )h1Trk->GetEntries();
else nEvt = -1;
}
if ( h1Hits ) nTrk[ namesAlgo.at( iAlgo ) ] = ( Int_t )h1Hits->GetEntries();
else nTrk[ namesAlgo.at( iAlgo ) ] = -1;
if ( h1Trk ) rate[ namesAlgo.at( iAlgo ) ] = h1Trk->GetMean();
else rate[ namesAlgo.at( iAlgo ) ] = -1.;
if ( h1Chi2 ) chi2[ namesAlgo.at( iAlgo ) ] = h1Chi2->GetMean();
else chi2[ namesAlgo.at( iAlgo ) ] = -1.;
}
TH1 * h1Clus = (TH1*)dirTrk->Get( "OffTrack_TotalNumberOfClusters" );
if (h1Clus ) offTrkCl = h1Clus->GetMean();
else offTrkCl = -1.;
} else {
cout << " ERROR: no track info from run " << iRun << endl;
goodRead = kFALSE;
}
TDirectory * dirMech = (TDirectory*)fileRoot->Get( nameDirMech.c_str() );
if ( dirMech ) {
for ( size_t iDet = 0; iDet < namesDet.size(); ++iDet ) {
const string nameSToN( namesDet.at( iDet ) + "/Summary_ClusterStoNCorr_OnTrack_in_" + namesDet.at( iDet ) );
TH1 * h1StoN = (TH1*)dirMech->Get( nameSToN.c_str() );
if ( h1StoN ) sToN[ namesDet.at( iDet ) ] = h1StoN->GetMean();
else sToN[ namesDet.at( iDet ) ] = -1.;
}
} else {
cout << " ERROR: no sub-detector info from run " << iRun << endl;
goodRead = kFALSE;
}
TDirectory * dirEvt = (TDirectory*)fileRoot->Get( nameDirEvt.c_str() );
if ( dirEvt ) {
TIter nextKey( dirEvt->GetListOfKeys() );
TKey * key;
while ( key = (TKey*)nextKey() ) {
const string nameKey( key->GetName() );
const string nameSubDet( nameKey.substr( 1, nameKey.find_first_of( ">" ) - 1 ) );
Bool_t found( false );
for ( size_t iSubDet = 0; iSubDet < namesSubDet.size(); ++iSubDet ) {
if ( nameSubDet == namesSubDet.at( iSubDet ) ) {
fractSubDet[ nameSubDet ] = atof( ( nameKey.substr( nameKey.find( "f=" ) + 2 ) ).c_str() );
found = true;
break;
}
}
if ( ! found ) cout << " ERROR: did not find SubDet" << nameSubDet << endl;
}
} else {
cout << " ERROR: no event info from run " << iRun << endl;
goodRead = kFALSE;
}
fileRoot->Close();
if ( nFile > 0 ) fileCacheOut << endl;
fileCacheOut << iRun << " " << nEvt;
for ( size_t iAlgo = 0; iAlgo < namesAlgo.size(); ++iAlgo ) fileCacheOut << " " << nTrk[ namesAlgo.at( iAlgo ) ];
for ( size_t iAlgo = 0; iAlgo < namesAlgo.size(); ++iAlgo ) fileCacheOut << " " << rate[ namesAlgo.at( iAlgo ) ];
for ( size_t iAlgo = 0; iAlgo < namesAlgo.size(); ++iAlgo ) fileCacheOut << " " << chi2[ namesAlgo.at( iAlgo ) ];
fileCacheOut << " " << offTrkCl;
for ( size_t iDet = 0; iDet < namesDet.size() ; ++iDet ) fileCacheOut << " " << sToN[ namesDet.at( iDet ) ];
for ( size_t iSubDet = 0; iSubDet < namesSubDet.size(); ++iSubDet ) fileCacheOut << " " << fractSubDet[ namesSubDet.at( iSubDet ) ];
if ( ! goodRead ) fileCacheOut << " \tERROR in file reading" << endl;
} else {
cout << " ERROR: file " << nameFile << " cannot be opened" << endl;
}
}
++nFile;
}
if ( createNewData ) fileCacheOut.close();
fileIn.close();
TFile * fileHistos = new TFile( nameFileHistos.c_str(), "RECREATE" );
const Int_t nBins( maxRun - minRun + 1 );
const Double_t low( (Double_t)minRun - 0.5 );
const Double_t high( (Double_t)maxRun + 0.5 );
TH1D * gFracTrkCKF = new TH1D( "gFracTrkCKF" , "Average fraction of tracks in event", nBins, low, high );
TH1D * gFracTrkCosmic = new TH1D( "gFracTrkCosmic", "Average fraction of tracks in event", nBins, low, high );
TH1D * gFracTrkRS = new TH1D( "gFracTrkRS" , "Average fraction of tracks in event", nBins, low, high );
TH1D * gChi2CKF = new TH1D( "gChi2CKF" , "Mean of #chi^{2}" , nBins, low, high );
TH1D * gChi2Cosmic = new TH1D( "gChi2Cosmic" , "Mean of #chi^{2}" , nBins, low, high );
TH1D * gChi2RS = new TH1D( "gChi2RS" , "Mean of #chi^{2}" , nBins, low, high );
TH1D * gSnTIB = new TH1D( "gSnTIB" , "S/N clusters" , nBins, low, high );
TH1D * gSnTID = new TH1D( "gSnTID" , "S/N clusters" , nBins, low, high );
TH1D * gSnTOB = new TH1D( "gSnTOB" , "S/N clusters" , nBins, low, high );
TH1D * gSnTEC = new TH1D( "gSnTEC" , "S/N clusters" , nBins, low, high );
TH1D * gClstOff = new TH1D( "gClstOff" , "Mean of off-track clusters" , nBins, low, high );
gFracTrkCKF->SetXTitle( "run number" );
gFracTrkCKF->SetMarkerStyle( 20 );
gFracTrkCKF->SetMarkerSize( 1. );
gFracTrkCKF->SetMarkerColor( kRed );
gFracTrkCKF->SetLineColor( kRed );
gFracTrkCosmic->SetXTitle( "run number" );
gFracTrkCosmic->SetMarkerStyle( 21 );
gFracTrkCosmic->SetMarkerSize( 1. );
gFracTrkCosmic->SetMarkerColor( kBlack );
gFracTrkCosmic->SetLineColor( kBlack );
gFracTrkRS->SetXTitle( "run number" );
gFracTrkRS->SetMarkerStyle( 22 );
gFracTrkRS->SetMarkerSize( 1. );
gFracTrkRS->SetMarkerColor( kBlue );
gFracTrkRS->SetLineColor( kBlue );
gChi2CKF->SetXTitle( "run number" );
gChi2CKF->SetMarkerStyle( 20 );
gChi2CKF->SetMarkerSize( 1. );
gChi2CKF->SetMarkerColor( kRed );
gChi2CKF->SetLineColor( kRed );
gChi2Cosmic->SetXTitle( "run number" );
gChi2Cosmic->SetMarkerStyle( 21 );
gChi2Cosmic->SetMarkerSize( 1. );
gChi2Cosmic->SetMarkerColor( kBlack );
gChi2Cosmic->SetLineColor( kBlack );
gChi2RS->SetXTitle( "run number" );
gChi2RS->SetMarkerStyle( 22 );
gChi2RS->SetMarkerSize( 1. );
gChi2RS->SetMarkerColor( kBlue );
gChi2RS->SetLineColor( kBlue );
gSnTIB->SetXTitle( "run number" );
gSnTIB->SetMarkerStyle( 20 );
gSnTIB->SetMarkerSize( 1. );
gSnTIB->SetMarkerColor( kRed );
gSnTIB->SetLineColor( kRed );
gSnTID->SetXTitle( "run number" );
gSnTID->SetMarkerStyle( 21 );
gSnTID->SetMarkerSize( 1. );
gSnTID->SetMarkerColor( kBlack );
gSnTID->SetLineColor( kBlack );
gSnTOB->SetXTitle( "run number" );
gSnTOB->SetMarkerStyle( 22 );
gSnTOB->SetMarkerSize( 1. );
gSnTOB->SetMarkerColor( kBlue );
gSnTOB->SetLineColor( kBlue );
gSnTEC->SetXTitle( "run number" );
gSnTEC->SetMarkerStyle( 23 );
gSnTEC->SetMarkerSize( 1. );
gSnTEC->SetMarkerColor( kOrange );
gSnTEC->SetLineColor( kOrange );
gClstOff->SetXTitle( "run number" );
gClstOff->SetMarkerStyle( 20 );
gClstOff->SetMarkerSize( 1. );
gClstOff->SetMarkerColor( kRed );
gClstOff->SetLineColor( kRed );
TH1D * aFracTrkCKF = new TH1D( *( (TH1D*)gFracTrkCKF->Clone( "aFracTrkCKF" ) ) );
TH1D * aFracTrkCosmic = new TH1D( *( (TH1D*)gFracTrkCosmic->Clone( "aFracTrkCosmic" ) ) );
TH1D * aFracTrkRS = new TH1D( *( (TH1D*)gFracTrkRS->Clone( "aFracTrkRS" ) ) );
TH1D * aChi2CKF = new TH1D( *( (TH1D*)gChi2CKF->Clone( "aChi2CKF" ) ) );
TH1D * aChi2Cosmic = new TH1D( *( (TH1D*)gChi2Cosmic->Clone( "aChi2Cosmic" ) ) );
TH1D * aChi2RS = new TH1D( *( (TH1D*)gChi2RS->Clone( "aChi2RS" ) ) );
TH1D * aSnTIB = new TH1D( *( (TH1D*)gSnTIB->Clone( "aSnTIB" ) ) );
TH1D * aSnTID = new TH1D( *( (TH1D*)gSnTID->Clone( "aSnTID" ) ) );
TH1D * aSnTOB = new TH1D( *( (TH1D*)gSnTOB->Clone( "aSnTOB" ) ) );
TH1D * aSnTEC = new TH1D( *( (TH1D*)gSnTEC->Clone( "aSnTEC" ) ) );
TH1D * aClstOff = new TH1D( *( (TH1D*)gClstOff->Clone( "aClstOff" ) ) );
ifstream fileCacheIn;
ofstream fileOut;
ofstream fileCacheOutTwiki;
fileCacheIn.open( nameFileCache.c_str() );
fileOut.open( nameFileOutTxt.c_str() );
fileCacheOutTwiki.open( nameFileCacheTwiki.c_str() );
TXMLEngine * xml = new TXMLEngine;
XMLNodePointer_t nodeMain( xml->NewChild( 0, 0, "CERTIFICATION" ) );
XMLNodePointer_t nodeCriteria( xml->NewChild( nodeMain, 0, "CRITERIA" ) );
XMLNodePointer_t nodeCriterion( xml->NewChild( nodeCriteria, 0, "CRITERION", "Minimum number of events" ) );
xml->NewAttr( nodeCriterion, 0, "name", "minNEvt" );
ostringstream sMinNEvt;
sMinNEvt << minNEvt;
xml->NewAttr( nodeCriterion, 0, "value", sMinNEvt.str().c_str() );
nodeCriterion = xml->NewChild( nodeCriteria, 0, "CRITERION", "Minimum number of reconstructed tracks" );
xml->NewAttr( nodeCriterion, 0, "name", "minNTrk" );
ostringstream sMinNTrk;
sMinNTrk << minNTrk;
xml->NewAttr( nodeCriterion, 0, "value", sMinNTrk.str().c_str() );
nodeCriterion = xml->NewChild( nodeCriteria, 0, "CRITERION", "Minimum average number of reconstructed tracks per event" );
xml->NewAttr( nodeCriterion, 0, "name", "minRate" );
ostringstream sMinRate;
sMinRate << minRate;
xml->NewAttr( nodeCriterion, 0, "value", sMinRate.str().c_str() );
nodeCriterion = xml->NewChild( nodeCriteria, 0, "CRITERION", "Maximum average number of off-track clusters" );
xml->NewAttr( nodeCriterion, 0, "name", "maxOffTrkCl" );
ostringstream sMaxOffTrkCl;
sMaxOffTrkCl << maxOffTrkCl;
xml->NewAttr( nodeCriterion, 0, "value", sMaxOffTrkCl.str().c_str() );
nodeCriterion = xml->NewChild( nodeCriteria, 0, "CRITERION", "Minimum corr. S/N of clusters per sub-detector" );
xml->NewAttr( nodeCriterion, 0, "name", "minSToN" );
XMLNodePointer_t nodeSubCriterion;
for ( size_t iDet = 0; iDet < namesDet.size(); ++iDet ) {
nodeSubCriterion = xml->NewChild( nodeCriterion, 0, "SUBCRITERION" );
xml->NewAttr( nodeSubCriterion, 0, "subdet", namesDet.at( iDet ).c_str() );
ostringstream sMinSToN;
sMinSToN << minSToN[ iDet ];
xml->NewAttr( nodeSubCriterion, 0, "value", sMinSToN.str().c_str() );
}
nodeCriterion = xml->NewChild( nodeCriteria, 0, "CRITERION", "Minimum fraction of good modules in sub-detectors" );
xml->NewAttr( nodeCriterion, 0, "name", "minFractSubDet" );
ostringstream sMinFractSubDet;
sMinFractSubDet << minFractSubDet;
xml->NewAttr( nodeCriterion, 0, "value", sMinFractSubDet.str().c_str() );
XMLNodePointer_t nodeRuns( xml->NewChild( nodeMain, 0, "RUNS" ) );
Int_t nRuns( 0 );
Int_t nRunsGood( 0 );
Int_t nRunsBad( 0 );
Int_t nRunsNoEvents( 0 );
Int_t nRunsNoTracks( 0 );
Int_t nEvents( 0 );
Int_t nEventsGood( 0 );
while ( fileCacheIn.good() ) {
string lineTxt( "" );
string lineTwiki( " " );
string sFlag( " run is" );
string flagList( "" );
nEvt = 0;
offTrkCl = 0.;
nTrk.clear();
rate.clear();
chi2.clear();
sToN.clear();
fractSubDet.clear();
fileCacheIn >> iRun >> nEvt;
for ( size_t iAlgo = 0; iAlgo < namesAlgo.size(); ++iAlgo ) fileCacheIn >> nTrk[ namesAlgo.at( iAlgo ) ];
for ( size_t iAlgo = 0; iAlgo < namesAlgo.size(); ++iAlgo ) fileCacheIn >> rate[ namesAlgo.at( iAlgo ) ];
for ( size_t iAlgo = 0; iAlgo < namesAlgo.size(); ++iAlgo ) fileCacheIn >> chi2[ namesAlgo.at( iAlgo ) ];
fileCacheIn >> offTrkCl;
for ( size_t iDet = 0; iDet < namesDet.size() ; ++iDet ) fileCacheIn >> sToN[ namesDet.at( iDet ) ];
for ( size_t iSubDet = 0; iSubDet < namesSubDet.size(); ++iSubDet ) fileCacheIn >> fractSubDet[ namesSubDet.at( iSubDet ) ];
XMLNodePointer_t nodeRun( xml->NewChild( nodeRuns, 0, "RUN" ) );
ostringstream sRun;
sRun << iRun;
xml->NewAttr( nodeRun, 0, "number", sRun.str().c_str() );
Bool_t goodRun( kTRUE );
UInt_t bitFlags( 0 );
UInt_t bitNumber( 1 );
XMLNodePointer_t nodeFlag( xml->NewChild( nodeRun, 0, "FLAG" ) );
xml->NewAttr( nodeFlag, 0, "name", "minNEvt" );
if ( nRuns == 0 ) flagList = "minNEvt, " + flagList;
if ( nEvt < minNEvt ) {
const string lineFlag( "no events" );
lineTxt += " " + lineFlag;
if ( goodRun ) lineTwiki += lineFlag;
goodRun = kFALSE;
++nRunsNoEvents;
xml->NewAttr( nodeFlag, 0, "value", "0" );
} else {
xml->NewAttr( nodeFlag, 0, "value", "1" );
bitFlags |= ( 1 << bitNumber );
}
bool failedTracks( false );
for ( size_t iAlgo = 0; iAlgo < namesAlgo.size(); ++iAlgo ) {
++bitNumber;
if ( iAlgo == 0 ) nodeFlag = xml->NewChild( nodeRun, 0, "FLAG" );
else nodeFlag = xml->NewChild( nodeRun, 0, "FLAG", "Not included in global flag" );
xml->NewAttr( nodeFlag, 0, "name", "minNTrk" );
xml->NewAttr( nodeFlag, 0, "algo", namesAlgo.at( iAlgo ).c_str() );
if ( nRuns == 0 ) flagList = "minNTrk (" + namesAlgo.at( iAlgo ) + "), " + flagList;
if ( nTrk[ namesAlgo.at( iAlgo ) ] < minNTrk ) {
const string lineFlag( "no " + namesAlgo.at( iAlgo ) + " tracks" );
lineTxt += " " + lineFlag;
xml->NewAttr( nodeFlag, 0, "value", "0" );
if ( goodRun ) {
if ( failedTracks ) lineTwiki += ", ";
lineTwiki += lineFlag;
failedTracks = true;
}
if ( iAlgo == 0 ) {
goodRun = kFALSE;
++nRunsNoTracks;
}
} else {
xml->NewAttr( nodeFlag, 0, "value", "1" );
bitFlags |= ( 1 << bitNumber );
}
}
for ( size_t iAlgo = 0; iAlgo < namesAlgo.size(); ++iAlgo ) {
++bitNumber;
if ( iAlgo == 0 ) nodeFlag = xml->NewChild( nodeRun, 0, "FLAG" );
else nodeFlag = xml->NewChild( nodeRun, 0, "FLAG", "Not included in global flag" );
xml->NewAttr( nodeFlag, 0, "name", "minRate" );
xml->NewAttr( nodeFlag, 0, "algo", namesAlgo.at( iAlgo ).c_str() );
if ( nRuns == 0 ) flagList = "minRate (" + namesAlgo.at( iAlgo ) + "), " + flagList;
if ( rate[ namesAlgo.at( iAlgo ) ] < minRate ) {
const string lineFlag( "too few " + namesAlgo.at( iAlgo ) + " tracks" );
lineTxt += " " + lineFlag;
xml->NewAttr( nodeFlag, 0, "value", "0" );
if ( goodRun ) {
if ( failedTracks ) lineTwiki += ", ";
lineTwiki += lineFlag;
failedTracks = true;
}
if ( iAlgo == 0 ) {
goodRun = kFALSE;
}
} else {
xml->NewAttr( nodeFlag, 0, "value", "1" );
bitFlags |= ( 1 << bitNumber );
}
}
nodeFlag = xml->NewChild( nodeRun, 0, "FLAG" );
xml->NewAttr( nodeFlag, 0, "name", "maxOffTrkCl" );
if ( nRuns == 0 ) flagList = "maxOffTrkCl, " + flagList;
++bitNumber;
if ( offTrkCl > maxOffTrkCl ) {
const string lineFlag( "too many offTrk clusters" );
lineTxt += " " + lineFlag;
if ( goodRun ) lineTwiki += lineFlag;
goodRun = kFALSE;
xml->NewAttr( nodeFlag, 0, "value", "0" );
} else {
xml->NewAttr( nodeFlag, 0, "value", "1" );
bitFlags |= ( 1 << bitNumber );
}
for ( size_t iDet = 0; iDet < namesDet.size(); ++iDet ) {
++bitNumber;
nodeFlag = xml->NewChild( nodeRun, 0, "FLAG" );
xml->NewAttr( nodeFlag, 0, "name", "minSToN" );
xml->NewAttr( nodeFlag, 0, "subdet", namesDet.at( iDet ).c_str() );
if ( nRuns == 0 ) flagList = "minSToN (" + namesDet.at( iDet ) + "), " + flagList;
if ( sToN[ namesDet.at( iDet ) ] < minSToN[ iDet ] ) {
const string lineFlag( "too low S/N in " + namesDet.at( iDet ) );
lineTxt += " " + lineFlag;
if ( goodRun ) lineTwiki += lineFlag;
goodRun = kFALSE;
xml->NewAttr( nodeFlag, 0, "value", "0" );
} else {
xml->NewAttr( nodeFlag, 0, "value", "1" );
bitFlags |= ( 1 << bitNumber );
}
}
nodeFlag = xml->NewChild( nodeRun, 0, "FLAG" );
xml->NewAttr( nodeFlag, 0, "name", "minFractSubDet" );
xml->NewAttr( nodeFlag, 0, "subdet", "TIB" );
if ( nRuns == 0 ) flagList = "minFractSubDet (TIB), " + flagList;
++bitNumber;
if ( fractSubDet[ "SiStrip_TIB" ] < minFractSubDet && fractSubDet[ "SiStrip_TIB" ] != -1. ) {
const string lineFlag( "too few modules good in TIB" );
lineTxt += " " + lineFlag;
if ( goodRun ) lineTwiki += lineFlag;
goodRun = kFALSE;
xml->NewAttr( nodeFlag, 0, "value", "0" );
} else {
xml->NewAttr( nodeFlag, 0, "value", "1" );
bitFlags |= ( 1 << bitNumber );
}
nodeFlag = xml->NewChild( nodeRun, 0, "FLAG" );
xml->NewAttr( nodeFlag, 0, "name", "minFractSubDet" );
xml->NewAttr( nodeFlag, 0, "subdet", "TOB" );
if ( nRuns == 0 ) flagList = "minFractSubDet (TOB), " + flagList;
++bitNumber;
if ( fractSubDet[ "SiStrip_TOB" ] < minFractSubDet && fractSubDet[ "SiStrip_TOB" ] != -1. ) {
const string lineFlag( "too few modules good in TOB" );
lineTxt += " " + lineFlag;
if ( goodRun ) lineTwiki += lineFlag;
goodRun = kFALSE;
xml->NewAttr( nodeFlag, 0, "value", "0" );
} else {
xml->NewAttr( nodeFlag, 0, "value", "1" );
bitFlags |= ( 1 << bitNumber );
}
if ( avForwBackw ) { // FIXME Remove all this hardcoding
++bitNumber;
if ( useTEC ) {
nodeFlag = xml->NewChild( nodeRun, 0, "FLAG" );
xml->NewAttr( nodeFlag, 0, "name", "minFractSubDet" );
xml->NewAttr( nodeFlag, 0, "subdet", "TEC" );
if ( nRuns == 0 ) flagList = "minFractSubDet (TEC), " + flagList;
if ( fractSubDet[ "SiStrip_TECF" ] == -1. && fractSubDet[ "SiStrip_TECB" ] >= 0. ) {
if ( fractSubDet[ "SiStrip_TECB" ] < minFractSubDet ) {
const string lineFlag( "too few modules good in TECB (TECF off)" );
lineTxt += " " + lineFlag;
if ( goodRun ) lineTwiki += lineFlag;
goodRun = kFALSE;
xml->NewAttr( nodeFlag, 0, "value", "0" );
} else {
xml->NewAttr( nodeFlag, 0, "value", "1" );
bitFlags |= ( 1 << bitNumber );
}
} else if ( fractSubDet[ "SiStrip_TECF" ] >= 0. && fractSubDet[ "SiStrip_TECB" ] == -1. ) {
if ( fractSubDet[ "SiStrip_TECF" ] < minFractSubDet ) {
const string lineFlag( "too few modules good in TECF (TECB off)" );
lineTxt += " " + lineFlag;
if ( goodRun ) lineTwiki += lineFlag;
goodRun = kFALSE;
xml->NewAttr( nodeFlag, 0, "value", "0" );
} else {
xml->NewAttr( nodeFlag, 0, "value", "1" );
bitFlags |= ( 1 << bitNumber );
}
} else {
if ( ( fractSubDet[ "SiStrip_TECF" ] + fractSubDet[ "SiStrip_TECB" ] ) / 2. < minFractSubDet && ( fractSubDet[ "SiStrip_TECF" ] + fractSubDet[ "SiStrip_TECB" ] ) / 2. != -1. ) {
const string lineFlag( "too few modules good in TEC" );
lineTxt += " " + lineFlag;
if ( goodRun ) lineTwiki += lineFlag;
goodRun = kFALSE;
xml->NewAttr( nodeFlag, 0, "value", "0" );
} else {
xml->NewAttr( nodeFlag, 0, "value", "1" );
bitFlags |= ( 1 << bitNumber );
}
}
} else {
nodeFlag = xml->NewChild( nodeRun, 0, "FLAG", "Not evaluated, bit set to \"true\"" );
xml->NewAttr( nodeFlag, 0, "name", "minFractSubDet" );
xml->NewAttr( nodeFlag, 0, "subdet", "TEC" );
xml->NewAttr( nodeFlag, 0, "value", "-1" );
if ( nRuns == 0 ) flagList = "minFractSubDet (TEC), " + flagList;
bitFlags |= ( 1 << bitNumber );
}
++bitNumber;
if ( useTID ) {
nodeFlag = xml->NewChild( nodeRun, 0, "FLAG" );
xml->NewAttr( nodeFlag, 0, "name", "minFractSubDet" );
xml->NewAttr( nodeFlag, 0, "subdet", "TID" );
if ( nRuns == 0 ) flagList = "minFractSubDet (TID), " + flagList;
if ( fractSubDet[ "SiStrip_TIDF" ] == -1. && fractSubDet[ "SiStrip_TIDB" ] >= 0. ) {
if ( fractSubDet[ "SiStrip_TIDB" ] < minFractSubDet ) {
const string lineFlag( "too few modules good in TIDB (TIDF off)" );
lineTxt += " " + lineFlag;
if ( goodRun ) lineTwiki += lineFlag;
goodRun = kFALSE;
xml->NewAttr( nodeFlag, 0, "value", "0" );
} else {
xml->NewAttr( nodeFlag, 0, "value", "1" );
bitFlags |= ( 1 << bitNumber );
}
} else if ( fractSubDet[ "SiStrip_TIDF" ] >= 0. && fractSubDet[ "SiStrip_TIDB" ] == -1. ) {
if ( fractSubDet[ "SiStrip_TIDF" ] < minFractSubDet ) {
const string lineFlag( "too few modules good in TIDF (TIDB off)" );
lineTxt += " " + lineFlag;
if ( goodRun ) lineTwiki += lineFlag;
goodRun = kFALSE;
xml->NewAttr( nodeFlag, 0, "value", "0" );
} else {
xml->NewAttr( nodeFlag, 0, "value", "1" );
bitFlags |= ( 1 << bitNumber );
}
} else {
if ( ( fractSubDet[ "SiStrip_TIDF" ] + fractSubDet[ "SiStrip_TIDB" ] ) / 2. < minFractSubDet && ( fractSubDet[ "TIDF" ] + fractSubDet[ "TIDB" ] ) / 2. != -1. ) {
const string lineFlag( "too few modules good in TID" );
lineTxt += " " + lineFlag;
if ( goodRun ) lineTwiki += lineFlag;
goodRun = kFALSE;
xml->NewAttr( nodeFlag, 0, "value", "0" );
} else {
xml->NewAttr( nodeFlag, 0, "value", "1" );
bitFlags |= ( 1 << bitNumber );
}
}
} else {
nodeFlag = xml->NewChild( nodeRun, 0, "FLAG", "Not evaluated, bit set to \"true\"" );
xml->NewAttr( nodeFlag, 0, "name", "minFractSubDet" );
xml->NewAttr( nodeFlag, 0, "subdet", "TID" );
xml->NewAttr( nodeFlag, 0, "value", "-1" );
if ( nRuns == 0 ) flagList = "minFractSubDet (TID), " + flagList;
bitFlags |= ( 1 << bitNumber );
}
// } else {
// for ( size_t iSubDet = 0; iSubDet < namesSubDet.size(); ++iSubDet ) { // FIXME add 'useTEC' and 'useTID' here
// if ( fractSubDet[ namesSubDet.at( iSubDet ) ] < minFractSubDet && fractSubDet[ namesSubDet.at( iSubDet ) ] != -1. ) {
// if ( namesSubDet.at( iSubDet ) != "SiStrip_TECF" && namesSubDet.at( iSubDet ) != "SiStrip_TECB" && namesSubDet.at( iSubDet ) != "SiStrip_TIDF" && namesSubDet.at( iSubDet ) != "SiStrip_TIDB" ) { // don't care for TEC and TID
// lineTxt += " too few modules good in " + namesSubDet.at( iSubDet );
// goodRun = kFALSE;
// break;
// }
// }
// }
}
nodeFlag = xml->NewChild( nodeRun, 0, "GLOBAL_FLAG" );
if ( goodRun ) {
xml->NewAttr( nodeFlag, 0, "value", "1" );
bitFlags |= ( 1 << 0 );
} else {
xml->NewAttr( nodeFlag, 0, "value", "0" );
}
if ( nRuns == 0 ) {
flagList += "global";
XMLNodePointer_t nodeFlagList( xml->NewChild( nodeCriteria, 0, "FLAG_LIST", flagList.c_str() ) );
}
ostringstream sBitFlags;
sBitFlags << "0x" << hex << setfill( '0' ) << setw(8) << bitFlags<< dec << setfill( ' ' );
nodeFlag = xml->NewChild( nodeRun, 0, "FLAG_BITS" );
xml->NewAttr( nodeFlag, 0, "value", sBitFlags.str().c_str() );
string flag( " " );
if ( goodRun ) {
flag += GOOD;
++nRunsGood;
nEventsGood += nEvt;
gFracTrkCKF->Fill( iRun, rate[ namesAlgo.at( 0 ) ] );
gFracTrkCosmic->Fill( iRun, rate[ namesAlgo.at( 1 ) ] );
gFracTrkRS->Fill( iRun, rate[ namesAlgo.at( 2 ) ] );
gChi2CKF->Fill( iRun, chi2[ namesAlgo.at( 0 ) ] );
gChi2Cosmic->Fill( iRun, chi2[ namesAlgo.at( 1 ) ] );
gChi2RS->Fill( iRun, chi2[ namesAlgo.at( 2 ) ] );
gSnTIB->Fill( iRun, sToN[ namesDet.at( 0 ) ] );
gSnTID->Fill( iRun, sToN[ namesDet.at( 1 ) ] );
gSnTOB->Fill( iRun, sToN[ namesDet.at( 2 ) ] );
gSnTEC->Fill( iRun, sToN[ namesDet.at( 3 ) ] );
gClstOff->Fill( iRun, offTrkCl );
} else {
flag += BAD;
++nRunsBad;
}
sFlag += flag + " ";
aFracTrkCKF->Fill( iRun, rate[ namesAlgo.at( 0 ) ] );
aFracTrkCosmic->Fill( iRun, rate[ namesAlgo.at( 1 ) ] );
aFracTrkRS->Fill( iRun, rate[ namesAlgo.at( 2 ) ] );
aChi2CKF->Fill( iRun, chi2[ namesAlgo.at( 0 ) ] );
aChi2Cosmic->Fill( iRun, chi2[ namesAlgo.at( 1 ) ] );
aChi2RS->Fill( iRun, chi2[ namesAlgo.at( 2 ) ] );
aSnTIB->Fill( iRun, sToN[ namesDet.at( 0 ) ] );
aSnTID->Fill( iRun, sToN[ namesDet.at( 1 ) ] );
aSnTOB->Fill( iRun, sToN[ namesDet.at( 2 ) ] );
aSnTEC->Fill( iRun, sToN[ namesDet.at( 3 ) ] );
aClstOff->Fill( iRun, offTrkCl );
fileOut << iRun << sFlag << lineTxt << endl;
if ( nRuns > 0 ) fileCacheOutTwiki << endl;
fileCacheOutTwiki << iRun << flag << lineTwiki;
++nRuns;
nEvents += nEvt;
}
nRunsNoTracks -= nRunsNoEvents;
cout << "Runs processed : " << nRuns << " (" << nEvents << " ev.)" << endl;
cout << "Runs good : " << nRunsGood << " (" << nEventsGood << " ev.)" << endl;
cout << "Runs bad : " << nRunsBad << endl;
cout << "--> w/o events : " << nRunsNoEvents << endl;
cout << "--> w/ events, but no (CKF) tracks: " << nRunsNoTracks << endl;
cout << "--> other reason : " << nRunsBad - nRunsNoTracks - nRunsNoEvents << endl;
XMLDocPointer_t xmlDoc( xml->NewDoc() );
xml->DocSetRootElement( xmlDoc, nodeMain );
xml->SaveDoc( xmlDoc, nameFileOutXml.c_str() );
xml->FreeDoc( xmlDoc );
fileCacheOutTwiki.close();
fileOut.close();
fileCacheIn.close();
while ( sleep > clock() ); // here the delay is needed
TXMLEngine * xmlRROut = new TXMLEngine;
XMLDocPointer_t xmlRROutDoc( xmlRROut->NewDoc() );
xmlRROut->SaveDoc( xmlRROutDoc, string( nameFileRR ).c_str() );
xmlRROut->FreeDoc( xmlRROutDoc );
ifstream fileRRIn;
fileRRIn.open( nameFileRRTmp.c_str() );
ofstream fileRRCorrect;
fileRRCorrect.open( nameFileRR.c_str(), ios_base::app );
const UInt_t maxLength( 131071 );
char xmlLine[ maxLength ];
while ( fileRRIn.getline( xmlLine, maxLength ) ) fileRRCorrect << xmlLine << endl;
fileRRCorrect.close();
fileRRIn.close();
gSystem->Exec( string( "rm " + nameFileRRTmp ).c_str() );
TXMLEngine * xmlRR = new TXMLEngine;
XMLDocPointer_t xmlRRDoc( xmlRR->ParseFile( nameFileRR.c_str() ) );
nodeMain = xmlRR->DocGetRootElement( xmlRRDoc );
ifstream fileCacheInTwikiOld;
ifstream fileCacheInTwiki;
ofstream fileOutTwiki;
fileCacheInTwikiOld.open( string( string( gSystem->Getenv( "CMSSW_BASE" ) ) + "/src/DQM/SiStripMonitorClient/data/" + nameFileInTwiki ).c_str() );
fileCacheInTwiki.open( nameFileCacheTwiki.c_str() );
fileOutTwiki.open( nameFileOutTwiki.c_str() );
fileOutTwiki << "%TABLE{ sort=\"on\" initsort=\"1\" initdirection=\"down\" tableborder=\"0\" cellpadding=\"4\" cellspacing=\"3\" cellborder=\"0\" headerbg=\"#D5CCB1\" headercolor=\"#666666\" databg=\"#FAF0D4, #F3DFA8\" headerrows=\"1\"}%" << endl;
fileOutTwiki << "%EDITTABLE{ format=\"| text, -1| date, -1, %SERVERTIME{\"$day-$mon-$year\"}%, %e-%b-%Y| select, -1, ,*%GREEN%Good%ENDCOLOR%*, *%RED%Bad%ENDCOLOR%*, Waiting | text, -1| select, -1, ,%GREEN%*Good*%ENDCOLOR%, %RED%*Bad*%ENDCOLOR%, %ORANGE%*Excl*%ENDCOLOR% | select, -1, ,%GREEN%*Good*%ENDCOLOR%, %RED%*Bad*%ENDCOLOR% | select, -1, ,No, %RED%*Yes*%ENDCOLOR% | text, -1|\"changerows=\"on\" }%" << endl;
fileOutTwiki << "| *Run* | *Date* | *Flag (prompt reco)* | *Comment (prompt reco)* | *Flag (CMS)* | *Flag (re-reco)* | *changed (CMS → re-reco)* | *Comment (re-reco)* |" << endl;
Int_t iRunOld( 0 ), iRunNew( 0 ) ;
string sFlagOld , sFlagNew , sFlagRR;
string sCommentOld , sCommentNew, sFlagDiff;
string sDateOld;
Bool_t fileGood( true );
Bool_t newWasBigger( iRunNew > iRunOld );
while ( fileCacheInTwikiOld.good() ) {
const size_t maxLength( 128 );
if ( iRunNew >= iRunOld || ! fileGood ) {
fileCacheInTwikiOld >> iRunOld >> sDateOld >> sFlagOld;
sFlagOld = coloredFlag( sFlagOld );
char cLineInOld[ maxLength ];
fileCacheInTwikiOld.getline( cLineInOld, maxLength );
sCommentOld = string( cLineInOld );
const size_t firstCharOld( sCommentOld.find_first_not_of( " " ) );
sCommentOld.erase( 0, firstCharOld );
}
while ( ( fileGood = fileCacheInTwiki.good() ) && iRunNew < iRunOld ) {
if ( ! newWasBigger ) {
char cLineInNew[ maxLength ];
fileCacheInTwiki >> iRunNew >> sFlagNew;
sFlagNew = coloredFlag( sFlagNew );
fileCacheInTwiki.getline( cLineInNew, maxLength );
sCommentNew = string( cLineInNew );
const size_t firstCharNew( sCommentNew.find_first_not_of( " " ) );
sCommentNew.erase( 0, firstCharNew );
sFlagRR = "";
sFlagDiff = "";
XMLNodePointer_t nodeRun( xmlRR->GetChild( nodeMain ) );
while ( nodeRun ) {
XMLNodePointer_t nodeRunChild = xmlRR->GetChild( nodeRun );
while ( nodeRunChild && string( xmlRR->GetNodeName( nodeRunChild ) ) != "RUN_NUMBER" ) {
nodeRunChild = xmlRR->GetNext( nodeRunChild );
}
if ( nodeRunChild ) {
if ( atoi( xmlRR->GetNodeContent( nodeRunChild ) ) == iRunNew ) {
nodeRunChild = xmlRR->GetChild( nodeRun );
while ( nodeRunChild ) {
if ( string( xmlRR->GetNodeName( nodeRunChild ) ) == "SIST" ) {
sFlagRR = xmlRR->GetNodeContent( nodeRunChild );
break;
}
nodeRunChild = xmlRR->GetNext( nodeRunChild );
}
break;
}
}
nodeRun = xmlRR->GetNext( nodeRun );
}
if ( sFlagRR == "GOOD" ) sFlagRR = coloredFlag( GOOD );
else if ( sFlagRR == "BAD" ) sFlagRR = coloredFlag( BAD );
else if ( sFlagRR == "EXCL" ) sFlagRR = coloredFlag( EXCL );
if ( sFlagRR == sFlagNew || ( sFlagRR == coloredFlag( EXCL ) && sFlagNew == coloredFlag( BAD ) ) || sFlagRR.empty() )
sFlagDiff = coloredFlag( NO );
else
sFlagDiff = coloredFlag( YES );
}
if ( iRunNew < iRunOld ) {
fileOutTwiki << "| " << iRunNew << " | | | | " << sFlagRR << " | " << sFlagNew << " | " << sFlagDiff << " | " << sCommentNew << " |" << endl;
newWasBigger = false;
}
}
if ( iRunNew == iRunOld ) {
fileOutTwiki << "| " << iRunNew << " | " << sDateOld << " | " << sFlagOld << " | " << sCommentOld << " | " << sFlagRR << " | " << sFlagNew << " | " << sFlagDiff << " | " << sCommentNew << " |" << endl;
newWasBigger = false;
} else if ( iRunNew > iRunOld || ! fileGood ) {
fileOutTwiki << "| " << iRunOld << " | " << sDateOld << " | " << sFlagOld << " | " << sCommentOld << " | | | | |" << endl;
newWasBigger = true;
}
}
xmlRR->FreeDoc( xmlRRDoc );
fileCacheInTwiki.close();
fileOutTwiki.close();
gSystem->Exec( string( "rm " + nameFileRR ).c_str() );
gSystem->Exec( string( "rm " + nameFileCacheTwiki ).c_str() );
gStyle->SetOptStat( 0 );
TCanvas * gCanvas = new TCanvas( "gCanvas", "SiStrip Offline Run Certification - CRAFT (good runs)", 1392, 1000 );
gCanvas->Divide( 2, 2 );
TVirtualPad * currentPad = gCanvas->cd( 1 );
gFracTrkCosmic->DrawCopy( "PL" ); // has to be the first do be drawn due to highest values
gFracTrkCKF->DrawCopy( "SamePL" );
gFracTrkRS->DrawCopy( "SamePL" );
currentPad->SaveAs( string( "gFracTrk." + drawFormat).c_str() );
currentPad = gCanvas->cd( 2 );
gChi2CKF->DrawCopy( "PL" );
gChi2Cosmic->DrawCopy( "SamePL" );
gChi2RS->DrawCopy( "SamePL" );
currentPad->SaveAs( string( "gChi2." + drawFormat ).c_str() );
currentPad = gCanvas->cd( 3 );
gClstOff->DrawCopy( "PL" );
currentPad->SaveAs( string( "gClstOff." + drawFormat ).c_str() );
currentPad = gCanvas->cd( 4 );
gSnTOB->DrawCopy( "PL" ); // has to be the first do be drawn due to highest values
gSnTIB->DrawCopy( "SamePL" );
gSnTID->DrawCopy( "SamePL" );
gSnTEC->DrawCopy( "SamePL" );
currentPad->SaveAs( string( "gSToN." + drawFormat ).c_str() );
gCanvas->SaveAs( string( "gPlots." + drawFormat ).c_str() );
if ( closeCanvas ) {
gCanvas->Close();
delete gCanvas;
}
TCanvas * aCanvas = new TCanvas( "aCanvas", "SiStrip Offline Run Certification - CRAFT (all runs)", 1392, 1000 );
aCanvas->Divide( 2, 2 );
currentPad = aCanvas->cd( 1 );
aFracTrkRS->DrawCopy( "PL" ); // has to be the first do be drawn due to highest values
aFracTrkCKF->DrawCopy( "SamePL" );
aFracTrkCosmic->DrawCopy( "SamePL" );
currentPad->SaveAs( string( "aFracTrk." + drawFormat ).c_str() );
currentPad = aCanvas->cd( 2 );
aChi2CKF->DrawCopy( "PL" );
aChi2Cosmic->DrawCopy( "SamePL" );
aChi2RS->DrawCopy( "SamePL" );
currentPad->SaveAs( string( "aChi2." + drawFormat ).c_str() );
currentPad = aCanvas->cd( 3 );
aClstOff->DrawCopy( "PL" );
currentPad->SaveAs( string( "aClstOff." + drawFormat ).c_str() );
currentPad = aCanvas->cd( 4 );
aSnTOB->DrawCopy( "PL" ); // has to be the first do be drawn due to highest values
aSnTIB->DrawCopy( "SamePL" );
aSnTID->DrawCopy( "SamePL" );
aSnTEC->DrawCopy( "SamePL" );
currentPad->SaveAs( string( "aSToN." + drawFormat ).c_str() );
aCanvas->SaveAs( string( "aPlots." + drawFormat ).c_str() );
if ( closeCanvas ) {
aCanvas->Close();
delete aCanvas;
}
gFracTrkCKF->Write();
gFracTrkCosmic->Write();
gFracTrkRS->Write();
gChi2CKF->Write();
gChi2Cosmic->Write();
gChi2RS->Write();
gSnTIB->Write();
gSnTID->Write();
gSnTOB->Write();
gSnTEC->Write();
gClstOff->Write();
fileHistos->Close();
}
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