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>> 48 if(!af) { >> 49 G4cout << " HistoManager::HistoManager() :" >> 50 << " problem creating the AIDA analysis factory." >> 51 << G4endl; >> 52 } >> 53 #endif >> 54 >> 55 fileName[0] = "testem12"; >> 56 fileType = "root"; >> 57 fileOption = "--noErrors export=root uncompress"; >> 58 // histograms >> 59 for (G4int k=0; k<MaxHisto; k++) { >> 60 histo[k] = 0; >> 61 exist[k] = false; >> 62 Unit[k] = 1.0; >> 63 Width[k] = 1.0; >> 64 ascii[k] = false; >> 65 } >> 66 >> 67 histoMessenger = new HistoMessenger(this); >> 68 >> 69 rangeFlag = false; >> 70 csdaRange = DBL_MAX; >> 71 } >> 72 >> 73 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo...... >> 74 >> 75 HistoManager::~HistoManager() >> 76 { >> 77 delete histoMessenger; >> 78 >> 79 #ifdef G4ANALYSIS_USE >> 80 delete af; >> 81 #endif >> 82 } >> 83 >> 84 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo...... >> 85 >> 86 void HistoManager::book() >> 87 { >> 88 #ifdef G4ANALYSIS_USE >> 89 if(!af) return; >> 90 >> 91 // Creating a tree mapped to an hbook file. >> 92 fileName[1] = fileName[0] + "." + fileType; >> 93 G4bool readOnly = false; >> 94 G4bool createNew = true; >> 95 AIDA::ITreeFactory* tf = af->createTreeFactory(); >> 96 tree = tf->create(fileName[1], fileType, readOnly, createNew, fileOption); >> 97 delete tf; >> 98 if(!tree) { >> 99 G4cout << "HistoManager::book() :" >> 100 << " problem creating the AIDA tree with " >> 101 << " storeName = " << fileName[1] >> 102 << " storeType = " << fileType >> 103 << " readOnly = " << readOnly >> 104 << " createNew = " << createNew >> 105 << " options = " << fileOption >> 106 << G4endl; >> 107 return; >> 108 } >> 109 >> 110 // Creating a histogram factory, whose histograms will be handled by the tree >> 111 AIDA::IHistogramFactory* hf = af->createHistogramFactory(*tree); >> 112 >> 113 // create selected histograms >> 114 for (G4int k=0; k<MaxHisto; k++) { >> 115 if (exist[k]) { >> 116 histo[k] = hf->createHistogram1D( Label[k], Title[k], >> 117 Nbins[k], Vmin[k], Vmax[k]); >> 118 factoryOn = true; >> 119 } >> 120 } >> 121 delete hf; >> 122 if (factoryOn) >> 123 G4cout << "\n----> Histogram Tree is opened in " << fileName[1] << G4endl; >> 124 #endif >> 125 } >> 126 >> 127 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo...... >> 128 >> 129 void HistoManager::save() 41 { 130 { 42 Book(); << 131 #ifdef G4ANALYSIS_USE >> 132 if (factoryOn) { >> 133 saveAscii(); // Write ascii file, if any >> 134 tree->commit(); // Writing the histograms to the file >> 135 tree->close(); // and closing the tree (and the file) >> 136 G4cout << "\n----> Histogram Tree is saved in " << fileName[1] << G4endl; >> 137 >> 138 delete tree; >> 139 tree = 0; >> 140 factoryOn = false; >> 141 } >> 142 #endif 43 } 143 } 44 144 45 //....oooOO0OOooo........oooOO0OOooo........oo 145 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo...... 46 146 47 void HistoManager::Book() << 147 void HistoManager::FillHisto(G4int ih, G4double e, G4double weight) 48 { 148 { 49 // Create or get analysis manager << 149 if (ih > MaxHisto) { 50 // The choice of analysis technology is done << 150 G4cout << "---> warning from HistoManager::FillHisto() : histo " << ih 51 // in HistoManager.hh << 151 << "does not exist; e= " << e << " w= " << weight << G4endl; 52 G4AnalysisManager* analysisManager = G4Analy << 152 return; 53 analysisManager->SetDefaultFileType("root"); << 54 analysisManager->SetFileName(fFileName); << 55 analysisManager->SetVerboseLevel(1); << 56 analysisManager->SetActivation(true); << 57 // enable inactivation of histograms << 58 << 59 // Define histograms start values << 60 const G4int kMaxHisto = 9; << 61 const G4String id[] = {"0", "1", "2", "3", " << 62 << 63 const G4String title[] = { << 64 "dummy", // 0 << 65 "Edep (MeV/mm) along absorber", // 1 << 66 "total Energy deposited in absorber", // << 67 "true track length of the primary particle << 68 "true step size of the primary particle", << 69 "projected range of the primary particle", << 70 "true track length of charged secondaries" << 71 "true step size of charged secondaries", << 72 "d(E/E0)/d(r/r0) along r/r0" // 8 << 73 }; << 74 << 75 // Default values (to be reset via /analysis << 76 G4int nbins = 100; << 77 G4double vmin = 0.; << 78 G4double vmax = 100.; << 79 << 80 // Create all histograms as inactivated << 81 // as we have not yet set nbins, vmin, vmax << 82 for (G4int k = 0; k < kMaxHisto; k++) { << 83 G4int ih = analysisManager->CreateH1(id[k] << 84 analysisManager->SetH1Activation(ih, false << 85 } 153 } >> 154 #ifdef G4ANALYSIS_USE >> 155 if(exist[ih]) histo[ih]->fill(e/Unit[ih], weight); >> 156 #endif 86 } 157 } >> 158 >> 159 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo...... >> 160 >> 161 void HistoManager::SetHisto(G4int ih, >> 162 G4int nbins, G4double valmin, G4double valmax, const G4String& unit) >> 163 { >> 164 if (ih > MaxHisto) { >> 165 G4cout << "---> warning from HistoManager::SetHisto() : histo " << ih >> 166 << "does not exist" << G4endl; >> 167 return; >> 168 } >> 169 >> 170 const G4String id[] = { "0", "1", "2", "3", "4", "5", "6", "7", "8" }; >> 171 const G4String title[] = >> 172 { "dummy", //0 >> 173 "dE/dr (MeV/mm) along radius", //1 >> 174 "total Energy deposited in absorber", //2 >> 175 "true track length of the primary particle", //3 >> 176 "true step size of the primary particle", //4 >> 177 "projected range of the primary particle", //5 >> 178 "true track length of charged secondaries", //6 >> 179 "true step size of charged secondaries", //7 >> 180 "d(E/E0)/d(r/r0) along r/r0" //8 >> 181 }; >> 182 >> 183 >> 184 G4String titl = title[ih]; >> 185 G4double vmin = valmin, vmax = valmax; >> 186 Unit[ih] = 1.; >> 187 >> 188 if (unit != "none") { >> 189 titl = title[ih] + " (" + unit + ")"; >> 190 Unit[ih] = G4UnitDefinition::GetValueOf(unit); >> 191 vmin = valmin/Unit[ih]; vmax = valmax/Unit[ih]; >> 192 } >> 193 >> 194 exist[ih] = true; >> 195 Label[ih] = id[ih]; >> 196 Title[ih] = titl; >> 197 Nbins[ih] = nbins; >> 198 Vmin[ih] = vmin; >> 199 Vmax[ih] = vmax; >> 200 Width[ih] = (valmax-valmin)/nbins; >> 201 >> 202 G4cout << "----> SetHisto " << ih << ": " << titl << "; " >> 203 << nbins << " bins from " >> 204 << vmin << " " << unit << " to " << vmax << " " << unit << G4endl; >> 205 } >> 206 >> 207 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo...... >> 208 >> 209 void HistoManager::RemoveHisto(G4int ih) >> 210 { >> 211 if (ih > MaxHisto) { >> 212 G4cout << "---> warning from HistoManager::RemoveHisto() : histo " << ih >> 213 << "does not exist" << G4endl; >> 214 return; >> 215 } >> 216 >> 217 histo[ih] = 0; exist[ih] = false; >> 218 } >> 219 >> 220 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo...... >> 221 >> 222 void HistoManager::Scale(G4int ih, G4double fac) >> 223 { >> 224 if (ih > MaxHisto) { >> 225 G4cout << "---> warning from HistoManager::RemoveHisto() : histo " << ih >> 226 << "does not exist (fac = " << fac << ")" << G4endl; >> 227 return; >> 228 } >> 229 #ifdef G4ANALYSIS_USE >> 230 if(exist[ih]) histo[ih]->scale(fac); >> 231 #endif >> 232 } >> 233 >> 234 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo...... >> 235 >> 236 void HistoManager::PrintHisto(G4int ih) >> 237 { >> 238 if (ih < MaxHisto) { ascii[ih] = true; ascii[0] = true; } >> 239 else >> 240 G4cout << "---> warning from HistoManager::PrintHisto() : histo " << ih >> 241 << "does not exist" << G4endl; >> 242 } >> 243 >> 244 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo...... >> 245 >> 246 #include <fstream> >> 247 >> 248 void HistoManager::saveAscii() >> 249 { >> 250 #ifdef G4ANALYSIS_USE >> 251 >> 252 if (!ascii[0] ) return; >> 253 >> 254 G4String name = fileName[0] + ".ascii"; >> 255 std::ofstream File(name, std::ios::out); >> 256 File.setf( std::ios::scientific, std::ios::floatfield ); >> 257 >> 258 //write selected histograms >> 259 for (G4int ih=0; ih<MaxHisto; ih++) { >> 260 if (exist[ih] && ascii[ih]) { >> 261 File << "\n 1D histogram " << ih << ": " << Title[ih] >> 262 << "\n \n \t X \t\t Y" << G4endl; >> 263 >> 264 for (G4int iBin=0; iBin<Nbins[ih]; iBin++) { >> 265 File << " " << iBin << "\t" >> 266 << 0.5*(histo[ih]->axis().binLowerEdge(iBin) + >> 267 histo[ih]->axis().binUpperEdge(iBin)) << "\t" >> 268 << histo[ih]->binHeight(iBin) >> 269 << G4endl; >> 270 } >> 271 } >> 272 } >> 273 #endif >> 274 } >> 275 >> 276 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo...... >> 277 >> 278 G4double HistoManager::ComputeStepMax(G4double range) >> 279 { >> 280 // compute constraint on stepMax from histos 1 and 8 >> 281 // >> 282 G4double stepMax = DBL_MAX; >> 283 G4double frac = 1.; >> 284 >> 285 G4int ih = 1; >> 286 if (exist[ih]) { >> 287 stepMax = frac*Width[ih]; >> 288 } >> 289 >> 290 ih = 8; >> 291 if (exist[ih]) { >> 292 if (!rangeFlag) csdaRange = range; >> 293 if (csdaRange > 0.) stepMax = std::min(stepMax,frac*Width[ih]*csdaRange); >> 294 } >> 295 >> 296 G4cout << "\n---> stepMax from HistoManager = " >> 297 << G4BestUnit(stepMax,"Length") << G4endl; >> 298 >> 299 return stepMax; >> 300 } >> 301 >> 302 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo...... >> 303 87 304