00001
00002 #include "Alignment/KalmanAlignmentAlgorithm/interface/KalmanAlignmentDataCollector.h"
00003
00004 #include "TGraph.h"
00005 #include "TNtuple.h"
00006 #include "TFile.h"
00007 #include "TH1F.h"
00008
00009 using namespace std;
00010
00011
00012 KalmanAlignmentDataCollector* KalmanAlignmentDataCollector::theDataCollector = new KalmanAlignmentDataCollector();
00013
00014
00015 KalmanAlignmentDataCollector::KalmanAlignmentDataCollector( void ) {}
00016
00017
00018 KalmanAlignmentDataCollector::KalmanAlignmentDataCollector( const edm::ParameterSet & config ) : theConfiguration( config ) {}
00019
00020
00021 KalmanAlignmentDataCollector::~KalmanAlignmentDataCollector() {}
00022
00023
00024 KalmanAlignmentDataCollector* KalmanAlignmentDataCollector::get( void )
00025 {
00026
00027 return theDataCollector;
00028 }
00029
00030
00031 void KalmanAlignmentDataCollector::configure( const edm::ParameterSet & config )
00032 {
00033
00034 theDataCollector->config( config );
00035 }
00036
00037
00038 void KalmanAlignmentDataCollector::fillHistogram( string histo_name, float data )
00039 {
00040
00041 theDataCollector->fillTH1F( histo_name, data );
00042 }
00043
00044
00045 void KalmanAlignmentDataCollector::fillHistogram( string histo_name, int histo_number, float data )
00046 {
00047
00048 theDataCollector->fillTH1F( histo_name, histo_number, data );
00049 }
00050
00051
00052 void KalmanAlignmentDataCollector::fillGraph( string graph_name, float x_data, float y_data )
00053 {
00054
00055 theDataCollector->fillTGraph( graph_name, x_data, y_data );
00056 }
00057
00058
00059 void KalmanAlignmentDataCollector::fillGraph( string graph_name, int graph_number, float x_data, float y_data )
00060 {
00061
00062 theDataCollector->fillTGraph( graph_name, graph_number, x_data, y_data );
00063 }
00064
00065
00066 void KalmanAlignmentDataCollector::fillNtuple( std::string ntuple_name, float data )
00067 {
00068
00069 theDataCollector->fillTNtuple( ntuple_name, data );
00070 }
00071
00072
00073 void KalmanAlignmentDataCollector::write( void )
00074 {
00075
00076 theDataCollector->writeToTFile();
00077 }
00078
00079
00080 void KalmanAlignmentDataCollector::write( string file_name, string mode )
00081 {
00082
00083 theDataCollector->writeToTFile( file_name, mode );
00084 }
00085
00086
00087 void KalmanAlignmentDataCollector::clear( void )
00088 {
00089 if ( theDataCollector ) theDataCollector->clearData();
00090 }
00091
00092
00093 void KalmanAlignmentDataCollector::config( const edm::ParameterSet & config )
00094 {
00095 theConfiguration = config;
00096 }
00097
00098
00099 void KalmanAlignmentDataCollector::fillTH1F( string histo_name, float data )
00100 {
00101 if ( theHistoData.find( histo_name ) == theHistoData.end() )
00102 {
00103 theHistoData[histo_name] = vector< float > ( 1, data );
00104 }
00105 else
00106 {
00107 theHistoData[histo_name].push_back( data );
00108 }
00109
00110 return;
00111 }
00112
00113
00114 void KalmanAlignmentDataCollector::fillTH1F( string histo_name, int histo_number, float data )
00115 {
00116 string full_histo_name = histo_name + toString( histo_number );
00117 fillTH1F( full_histo_name, data );
00118
00119 return;
00120 }
00121
00122
00123 void KalmanAlignmentDataCollector::fillTGraph( string graph_name, float x_data, float y_data )
00124 {
00125 if ( theXGraphData.find( graph_name ) == theXGraphData.end() )
00126 {
00127 theXGraphData[graph_name] = vector< float > ( 1, x_data );
00128 theYGraphData[graph_name] = vector< float > ( 1, y_data );
00129 }
00130 else
00131 {
00132 theXGraphData[graph_name].push_back( x_data );
00133 theYGraphData[graph_name].push_back( y_data );
00134 }
00135
00136 return;
00137 }
00138
00139
00140 void KalmanAlignmentDataCollector::fillTGraph( string graph_name, int graph_number, float x_data, float y_data )
00141 {
00142 string full_graph_name = graph_name + toString( graph_number );
00143 fillTGraph( full_graph_name, x_data, y_data );
00144
00145 return;
00146 }
00147
00148
00149 void KalmanAlignmentDataCollector::fillTNtuple( std::string ntuple_name, float data )
00150 {
00151 if ( theNtupleData.find( ntuple_name ) == theNtupleData.end() )
00152 {
00153 theNtupleData[ntuple_name] = vector< float > ( 1, data );
00154 }
00155 else
00156 {
00157 theNtupleData[ntuple_name].push_back( data );
00158 }
00159 }
00160
00161
00162 void KalmanAlignmentDataCollector::writeToTFile( void )
00163 {
00164 string fileName = theConfiguration.getUntrackedParameter< string >( "FileName", "KalmanAlignmentData.root" );
00165 string fileMode = theConfiguration.getUntrackedParameter< string >( "Mode", "RECREATE" );
00166 writeToTFile( fileName, fileMode );
00167 }
00168
00169
00170 void KalmanAlignmentDataCollector::writeToTFile( string file_name, string mode )
00171 {
00172 int nBins = theConfiguration.getUntrackedParameter< int >( "NBins", 200 );
00173 double xMin = theConfiguration.getUntrackedParameter< double >( "XMin", -10. );
00174 double xMax = theConfiguration.getUntrackedParameter< double >( "XMax", 10. );
00175
00176 TFile* file = new TFile( file_name.c_str(), mode.c_str() );
00177
00178 if ( !theHistoData.empty() )
00179 {
00180 map< string, vector< float > >::iterator itH = theHistoData.begin();
00181 vector< float >::iterator itV;
00182 TH1F* tempHisto;
00183
00184 while ( itH != theHistoData.end() )
00185 {
00186 tempHisto = new TH1F( itH->first.c_str(), itH->first.c_str(), nBins, xMin, xMax );
00187
00188 itV = itH->second.begin();
00189 while ( itV != itH->second.end() ) {
00190 tempHisto->Fill( *itV );
00191 itV++;
00192 }
00193
00194 tempHisto->Write();
00195 delete tempHisto;
00196
00197 ++itH;
00198 }
00199 }
00200
00201 if ( !theXGraphData.empty() )
00202 {
00203 map< string, vector< float > >::iterator itXG = theXGraphData.begin();
00204 map< string, vector< float > >::iterator itYG = theYGraphData.begin();
00205
00206 float* xData;
00207 float* yData;
00208
00209 TGraph* tempGraph;
00210
00211 while ( itXG != theXGraphData.end() )
00212 {
00213 int nData = itXG->second.size();
00214
00215 xData = new float[nData];
00216 yData = new float[nData];
00217
00218 for ( int iData = 0; iData < nData; iData++ )
00219 {
00220 xData[iData] = itXG->second[iData];
00221 yData[iData] = itYG->second[iData];
00222 }
00223
00224 tempGraph = new TGraph( nData, xData, yData );
00225 tempGraph->SetName( itXG->first.c_str() );
00226 tempGraph->SetTitle( itXG->first.c_str() );
00227
00228 tempGraph->Write();
00229 delete tempGraph;
00230
00231 delete[] xData;
00232 delete[] yData;
00233
00234 ++itXG;
00235 ++itYG;
00236 }
00237 }
00238
00239
00240 if ( !theNtupleData.empty() )
00241 {
00242 map< string, vector< float > >::iterator itN = theNtupleData.begin();
00243
00244 TNtuple* ntuple;
00245
00246 while ( itN != theNtupleData.end() )
00247 {
00248 ntuple = new TNtuple( itN->first.c_str(), itN->first.c_str(), itN->first.c_str() );
00249
00250 vector< float >::iterator itD = itN->second.begin(), itDEnd = itN->second.end();
00251 while ( itD != itDEnd )
00252 {
00253 ntuple->Fill( *itD );
00254 ++itD;
00255 }
00256
00257 ntuple->Write();
00258 delete ntuple;
00259
00260 ++itN;
00261 }
00262 }
00263
00264
00265 file->Write();
00266 file->Close();
00267 delete file;
00268
00269 return;
00270 }
00271
00272
00273 void KalmanAlignmentDataCollector::clearData( void )
00274 {
00275 theHistoData.clear();
00276 theXGraphData.clear();
00277 theYGraphData.clear();
00278 }
00279
00280
00281 string KalmanAlignmentDataCollector::toString( int i )
00282 {
00283 char temp[10];
00284 sprintf( temp, "%u", i );
00285
00286 return string( temp );
00287 }