Geant4 Cross Reference

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Geant4/processes/electromagnetic/utils/src/G4EmParameters.cc

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Differences between /processes/electromagnetic/utils/src/G4EmParameters.cc (Version 11.3.0) and /processes/electromagnetic/utils/src/G4EmParameters.cc (Version 10.3.p2)


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 25 //                                                 25 //
                                                   >>  26 // $Id: G4EmParameters.cc 69320 2013-04-30 15:59:36Z vnivanch $
                                                   >>  27 //
 26 // -------------------------------------------     28 // -------------------------------------------------------------------
 27 //                                                 29 //
 28 // GEANT4 Class file                               30 // GEANT4 Class file
 29 //                                                 31 //
                                                   >>  32 //
 30 // File name:     G4EmParameters                   33 // File name:     G4EmParameters
 31 //                                                 34 //
 32 // Author:        Vladimir Ivanchenko              35 // Author:        Vladimir Ivanchenko
 33 //                                                 36 //
 34 // Creation date: 18.05.2013                       37 // Creation date: 18.05.2013
 35 //                                                 38 //
 36 // Modifications:                                  39 // Modifications:
 37 //                                                 40 //
                                                   >>  41 //
                                                   >>  42 //
 38 // -------------------------------------------     43 // -------------------------------------------------------------------
 39 //                                                 44 //
 40 //....oooOO0OOooo........oooOO0OOooo........oo     45 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo....
 41 //....oooOO0OOooo........oooOO0OOooo........oo     46 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo....
 42                                                    47 
 43 #include "G4EmParameters.hh"                       48 #include "G4EmParameters.hh"
 44 #include "G4PhysicalConstants.hh"                  49 #include "G4PhysicalConstants.hh"
 45 #include "G4UnitsTable.hh"                         50 #include "G4UnitsTable.hh"
 46 #include "G4SystemOfUnits.hh"                      51 #include "G4SystemOfUnits.hh"
 47 #include "G4VEmProcess.hh"                         52 #include "G4VEmProcess.hh"
 48 #include "G4VEnergyLossProcess.hh"                 53 #include "G4VEnergyLossProcess.hh"
 49 #include "G4VAtomDeexcitation.hh"                  54 #include "G4VAtomDeexcitation.hh"
 50 #include "G4EmExtraParameters.hh"              << 
 51 #include "G4EmLowEParameters.hh"               << 
 52 #include "G4EmParametersMessenger.hh"              55 #include "G4EmParametersMessenger.hh"
 53 #include "G4NistManager.hh"                        56 #include "G4NistManager.hh"
 54 #include "G4RegionStore.hh"                        57 #include "G4RegionStore.hh"
 55 #include "G4Region.hh"                             58 #include "G4Region.hh"
 56 #include "G4ApplicationState.hh"                   59 #include "G4ApplicationState.hh"
 57 #include "G4StateManager.hh"                       60 #include "G4StateManager.hh"
 58 #include "G4Threading.hh"                          61 #include "G4Threading.hh"
 59 #include "G4AutoLock.hh"                       << 
 60                                                    62 
 61 G4EmParameters* G4EmParameters::theInstance =      63 G4EmParameters* G4EmParameters::theInstance = nullptr;
 62                                                    64 
 63 namespace                                      << 
 64 {                                              << 
 65   G4Mutex emParametersMutex = G4MUTEX_INITIALI << 
 66 }                                              << 
 67                                                << 
 68 //....oooOO0OOooo........oooOO0OOooo........oo     65 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo.....
 69                                                    66 
 70 G4EmParameters* G4EmParameters::Instance()         67 G4EmParameters* G4EmParameters::Instance()
 71 {                                                  68 {
 72   if(nullptr == theInstance) {                 <<  69   if(nullptr == theInstance) {
 73     G4AutoLock l(&emParametersMutex);          <<  70     static G4EmParameters manager;
 74     if(nullptr == theInstance) {               <<  71     theInstance = &manager;
 75       static G4EmParameters manager;           << 
 76       theInstance = &manager;                  << 
 77     }                                          << 
 78     l.unlock();                                << 
 79   }                                                72   }
 80   return theInstance;                              73   return theInstance;
 81 }                                                  74 }
 82                                                    75 
 83 //....oooOO0OOooo........oooOO0OOooo........oo     76 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo.....
 84                                                    77 
 85 G4EmParameters::~G4EmParameters()                  78 G4EmParameters::~G4EmParameters()
 86 {                                                  79 {
 87   delete theMessenger;                             80   delete theMessenger;
 88   delete fBParameters;                         << 
 89   delete fCParameters;                         << 
 90   delete emSaturation;                             81   delete emSaturation;
 91 }                                                  82 }
 92                                                    83 
 93 //....oooOO0OOooo........oooOO0OOooo........oo     84 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo.....
 94                                                    85 
 95 G4EmParameters::G4EmParameters()                   86 G4EmParameters::G4EmParameters()
 96 {                                                  87 {
 97   G4NistManager::Instance();                       88   G4NistManager::Instance();
 98   theMessenger = new G4EmParametersMessenger(t     89   theMessenger = new G4EmParametersMessenger(this);
 99   Initialise();                                << 
100                                                << 
101   fBParameters = new G4EmExtraParameters();    << 
102   fCParameters = new G4EmLowEParameters();     << 
103                                                    90 
104   fStateManager = G4StateManager::GetStateMana     91   fStateManager = G4StateManager::GetStateManager();
                                                   >>  92   Initialise();
105   emSaturation = nullptr;                          93   emSaturation = nullptr;
106 }                                                  94 }
107                                                    95 
108 void G4EmParameters::SetDefaults()                 96 void G4EmParameters::SetDefaults()
109 {                                                  97 {
110   if(!IsLocked()) {                            <<  98   if(!IsLocked()) { Initialise(); }
111     Initialise();                              << 
112     fBParameters->Initialise();                << 
113     fCParameters->Initialise();                << 
114   }                                            << 
115 }                                                  99 }
116                                                   100 
117 void G4EmParameters::Initialise()                 101 void G4EmParameters::Initialise()
118 {                                                 102 {
119   lossFluctuation = true;                         103   lossFluctuation = true;
120   buildCSDARange = false;                         104   buildCSDARange = false;
121   flagLPM = true;                                 105   flagLPM = true;
                                                   >> 106   spline = true;
122   cutAsFinalRange = false;                        107   cutAsFinalRange = false;
123   applyCuts = false;                              108   applyCuts = false;
                                                   >> 109   fluo = false;
                                                   >> 110   beardenFluoDir = false;
                                                   >> 111   auger = false;
                                                   >> 112   augerCascade = false;
                                                   >> 113   pixe = false;
                                                   >> 114   deexIgnoreCut = false;
124   lateralDisplacement = true;                     115   lateralDisplacement = true;
125   lateralDisplacementAlg96 = true;             << 
126   muhadLateralDisplacement = false;               116   muhadLateralDisplacement = false;
                                                   >> 117   latDisplacementBeyondSafety = false;
127   useAngGeneratorForIonisation = false;           118   useAngGeneratorForIonisation = false;
128   useMottCorrection = false;                      119   useMottCorrection = false;
129   integral = true;                                120   integral = true;
130   birks = false;                                  121   birks = false;
131   fICRU90 = false;                             << 
132   gener = false;                               << 
133   onIsolated = false;                          << 
134   fSamplingTable = false;                      << 
135   fPolarisation = false;                       << 
136   fMuDataFromFile = false;                     << 
137   fPEKShell = true;                            << 
138   fMscPosiCorr = true;                         << 
139   fUseEPICS2017XS = false;                     << 
140   f3GammaAnnihilationOnFly = false;            << 
141   fUseRiGePairProductionModel = false;         << 
142   fDNA = false;                                << 
143   fIsPrinted = false;                          << 
144                                                   122 
                                                   >> 123   minSubRange = 1.0;
145   minKinEnergy = 0.1*CLHEP::keV;                  124   minKinEnergy = 0.1*CLHEP::keV;
146   maxKinEnergy = 100.0*CLHEP::TeV;                125   maxKinEnergy = 100.0*CLHEP::TeV;
147   maxKinEnergyCSDA = 1.0*CLHEP::GeV;              126   maxKinEnergyCSDA = 1.0*CLHEP::GeV;
148   max5DEnergyForMuPair = 0.0;                  << 
149   lowestElectronEnergy = 1.0*CLHEP::keV;          127   lowestElectronEnergy = 1.0*CLHEP::keV;
150   lowestMuHadEnergy = 1.0*CLHEP::keV;             128   lowestMuHadEnergy = 1.0*CLHEP::keV;
151   lowestTripletEnergy = 1.0*CLHEP::MeV;        << 
152   maxNIELEnergy = 0.0;                         << 
153   linLossLimit = 0.01;                            129   linLossLimit = 0.01;
154   bremsTh = bremsMuHadTh = maxKinEnergy;       << 130   bremsTh = maxKinEnergy;
155   lambdaFactor = 0.8;                             131   lambdaFactor = 0.8;
156   factorForAngleLimit = 1.0;                      132   factorForAngleLimit = 1.0;
157   thetaLimit = CLHEP::pi;                         133   thetaLimit = CLHEP::pi;
158   energyLimit = 100.0*CLHEP::MeV;              << 
159   rangeFactor = 0.04;                             134   rangeFactor = 0.04;
160   rangeFactorMuHad = 0.2;                         135   rangeFactorMuHad = 0.2;
161   geomFactor = 2.5;                               136   geomFactor = 2.5;
162   skin = 1.0;                                     137   skin = 1.0;
163   safetyFactor = 0.6;                          << 138   dRoverRange = 0.2;
164   lambdaLimit  = 1.0*CLHEP::mm;                << 139   finalRange = CLHEP::mm;
165   factorScreen = 1.0;                          << 140   dRoverRangeMuHad = 0.2;
                                                   >> 141   finalRangeMuHad = 0.1*CLHEP::mm;
166                                                   142 
                                                   >> 143   nbins  = 77;
167   nbinsPerDecade = 7;                             144   nbinsPerDecade = 7;
168   verbose = 1;                                    145   verbose = 1;
169   workerVerbose = 0;                              146   workerVerbose = 0;
170   nForFreeVector = 2;                          << 
171   tripletConv = 0;                             << 
172                                                   147 
173   fTransportationWithMsc = G4TransportationWit << 
174   mscStepLimit = fUseSafety;                      148   mscStepLimit = fUseSafety;
175   mscStepLimitMuHad = fMinimal;                   149   mscStepLimitMuHad = fMinimal;
176   nucFormfactor = fExponentialNF;                 150   nucFormfactor = fExponentialNF;
177   fSStype = fWVI;                              << 151 
178   fFluct = fUniversalFluctuation;              << 152   namePIXE = "Empirical";
179   fPositronium = fSimplePositronium;           << 153   nameElectronPIXE = "Livermore";
180                                                << 
181   const char* data_dir = G4FindDataDir("G4LEDA << 
182   if (nullptr != data_dir) {                   << 
183     fDirLEDATA = G4String(data_dir);           << 
184   }                                            << 
185   else {                                       << 
186     G4Exception("G4EmParameters::Initialise()" << 
187                 "G4LEDATA data directory was n << 
188   }                                            << 
189 }                                                 154 }
190                                                   155 
191 void G4EmParameters::SetLossFluctuations(G4boo    156 void G4EmParameters::SetLossFluctuations(G4bool val)
192 {                                                 157 {
193   if(IsLocked()) { return; }                      158   if(IsLocked()) { return; }
194   lossFluctuation = val;                          159   lossFluctuation = val;
195 }                                                 160 }
196                                                   161 
197 G4bool G4EmParameters::LossFluctuation() const    162 G4bool G4EmParameters::LossFluctuation() const
198 {                                                 163 {
199   return lossFluctuation;                         164   return lossFluctuation;
200 }                                                 165 }
201                                                   166 
202 void G4EmParameters::SetBuildCSDARange(G4bool     167 void G4EmParameters::SetBuildCSDARange(G4bool val)
203 {                                                 168 {
204   if(IsLocked()) { return; }                      169   if(IsLocked()) { return; }
205   buildCSDARange = val;                           170   buildCSDARange = val;
206 }                                                 171 }
207                                                   172 
208 G4bool G4EmParameters::BuildCSDARange() const     173 G4bool G4EmParameters::BuildCSDARange() const 
209 {                                                 174 {
210   return buildCSDARange;                          175   return buildCSDARange;
211 }                                                 176 }
212                                                   177 
213 void G4EmParameters::SetLPM(G4bool val)           178 void G4EmParameters::SetLPM(G4bool val)
214 {                                                 179 {
215   if(IsLocked()) { return; }                      180   if(IsLocked()) { return; }
216   flagLPM = val;                                  181   flagLPM = val;
217 }                                                 182 }
218                                                   183 
219 G4bool G4EmParameters::LPM() const                184 G4bool G4EmParameters::LPM() const 
220 {                                                 185 {
221   return flagLPM;                                 186   return flagLPM;
222 }                                                 187 }
223                                                   188 
                                                   >> 189 void G4EmParameters::SetSpline(G4bool val)
                                                   >> 190 {
                                                   >> 191   if(IsLocked()) { return; }
                                                   >> 192   spline = val;
                                                   >> 193 }
                                                   >> 194 
                                                   >> 195 G4bool G4EmParameters::Spline() const
                                                   >> 196 {
                                                   >> 197   return spline;
                                                   >> 198 }
                                                   >> 199 
224 void G4EmParameters::SetUseCutAsFinalRange(G4b    200 void G4EmParameters::SetUseCutAsFinalRange(G4bool val)
225 {                                                 201 {
226   if(IsLocked()) { return; }                      202   if(IsLocked()) { return; }
227   cutAsFinalRange = val;                          203   cutAsFinalRange = val;
228 }                                                 204 }
229                                                   205 
230 G4bool G4EmParameters::UseCutAsFinalRange() co    206 G4bool G4EmParameters::UseCutAsFinalRange() const
231 {                                                 207 {
232   return cutAsFinalRange;                         208   return cutAsFinalRange;
233 }                                                 209 }
234                                                   210 
235 void G4EmParameters::SetApplyCuts(G4bool val)     211 void G4EmParameters::SetApplyCuts(G4bool val)
236 {                                                 212 {
237   if(IsLocked()) { return; }                      213   if(IsLocked()) { return; }
238   applyCuts = val;                                214   applyCuts = val;
239 }                                                 215 }
240                                                   216 
241 G4bool G4EmParameters::ApplyCuts() const          217 G4bool G4EmParameters::ApplyCuts() const
242 {                                                 218 {
243   return applyCuts;                               219   return applyCuts;
244 }                                                 220 }
245                                                   221 
246 void G4EmParameters::SetFluo(G4bool val)          222 void G4EmParameters::SetFluo(G4bool val)
247 {                                                 223 {
248   if(IsLocked()) { return; }                      224   if(IsLocked()) { return; }
249   fCParameters->SetFluo(val);                  << 225   fluo = val;
250 }                                                 226 }
251                                                   227 
252 G4bool G4EmParameters::Fluo() const               228 G4bool G4EmParameters::Fluo() const
253 {                                                 229 {
254   return fCParameters->Fluo();                 << 230   return fluo;
255 }                                              << 
256                                                << 
257 G4EmFluoDirectory G4EmParameters::FluoDirector << 
258 {                                              << 
259   return fCParameters->FluoDirectory();        << 
260 }                                              << 
261                                                << 
262 void G4EmParameters::SetFluoDirectory(G4EmFluo << 
263 {                                              << 
264   if(IsLocked()) { return; }                   << 
265   fCParameters->SetFluoDirectory(val);         << 
266 }                                                 231 }
267                                                   232 
268 void G4EmParameters::SetBeardenFluoDir(G4bool     233 void G4EmParameters::SetBeardenFluoDir(G4bool val)
269 {                                                 234 {
270   if(IsLocked()) { return; }                      235   if(IsLocked()) { return; }
271   fCParameters->SetBeardenFluoDir(val);        << 236   beardenFluoDir = val;
272 }                                                 237 }
273                                                   238 
274 void G4EmParameters::SetANSTOFluoDir(G4bool va << 239 G4bool G4EmParameters::BeardenFluoDir() const
275 {                                                 240 {
276   if(IsLocked()) { return; }                   << 241   return beardenFluoDir;
277   fCParameters->SetANSTOFluoDir(val);          << 
278 }                                              << 
279                                                << 
280 void G4EmParameters::SetXDB_EADLFluoDir(G4bool << 
281 {                                              << 
282   if(IsLocked()) { return; }                   << 
283   fCParameters->SetXDB_EADLFluoDir(val);       << 
284 }                                                 242 }
285                                                   243 
286 void G4EmParameters::SetAuger(G4bool val)         244 void G4EmParameters::SetAuger(G4bool val)
287 {                                                 245 {
288   if(IsLocked()) { return; }                      246   if(IsLocked()) { return; }
289   fCParameters->SetAuger(val);                 << 247   auger = val;
                                                   >> 248   if(val) { fluo = true; }
290 }                                                 249 }
291                                                   250 
292 G4bool G4EmParameters::BeardenFluoDir()        << 251 G4bool G4EmParameters::Auger() const
293 {                                                 252 {
294   auto dir = fCParameters->FluoDirectory();    << 253   return auger;
295   return (dir == fluoBearden);                 << 
296 }                                                 254 }
297                                                   255 
298 G4bool G4EmParameters::ANSTOFluoDir()          << 256 void G4EmParameters::SetAugerCascade(G4bool val)
299 {                                                 257 {
300   auto dir = fCParameters->FluoDirectory();    << 258   if(IsLocked()) { return; }
301   return (dir == fluoANSTO);                   << 259   augerCascade = val;
                                                   >> 260   if(val) { fluo = true; auger = true; }
302 }                                                 261 }
303                                                   262 
304 G4bool G4EmParameters::Auger() const           << 263 G4bool G4EmParameters::AugerCascade() const
305 {                                                 264 {
306   return fCParameters->Auger();                << 265   return augerCascade;
307 }                                                 266 }
308                                                   267 
309 void G4EmParameters::SetPixe(G4bool val)          268 void G4EmParameters::SetPixe(G4bool val)
310 {                                                 269 {
311   if(IsLocked()) { return; }                      270   if(IsLocked()) { return; }
312   fCParameters->SetPixe(val);                  << 271   pixe = val;
                                                   >> 272   if(val) { fluo = true; }
313 }                                                 273 }
314                                                   274 
315 G4bool G4EmParameters::Pixe() const               275 G4bool G4EmParameters::Pixe() const
316 {                                                 276 {
317   return fCParameters->Pixe();                 << 277   return pixe;
318 }                                                 278 }
319                                                   279 
320 void G4EmParameters::SetDeexcitationIgnoreCut(    280 void G4EmParameters::SetDeexcitationIgnoreCut(G4bool val)
321 {                                                 281 {
322   if(IsLocked()) { return; }                      282   if(IsLocked()) { return; }
323   fCParameters->SetDeexcitationIgnoreCut(val); << 283   deexIgnoreCut = val;
324 }                                                 284 }
325                                                   285 
326 G4bool G4EmParameters::DeexcitationIgnoreCut()    286 G4bool G4EmParameters::DeexcitationIgnoreCut() const
327 {                                                 287 {
328   return fCParameters->DeexcitationIgnoreCut() << 288   return deexIgnoreCut;
329 }                                                 289 }
330                                                   290 
331 void G4EmParameters::SetLateralDisplacement(G4    291 void G4EmParameters::SetLateralDisplacement(G4bool val)
332 {                                                 292 {
333   if(IsLocked()) { return; }                      293   if(IsLocked()) { return; }
334   lateralDisplacement = val;                      294   lateralDisplacement = val;
335 }                                                 295 }
336                                                   296 
337 G4bool G4EmParameters::LateralDisplacement() c    297 G4bool G4EmParameters::LateralDisplacement() const
338 {                                                 298 {
339   return lateralDisplacement;                     299   return lateralDisplacement;
340 }                                                 300 }
341                                                   301 
342 void G4EmParameters::SetLateralDisplacementAlg << 302 void G4EmParameters::SetMuHadLateralDisplacement(G4bool val)
343 {                                                 303 {
344   if(IsLocked()) { return; }                      304   if(IsLocked()) { return; }
345   lateralDisplacementAlg96 = val;              << 305   muhadLateralDisplacement = val;
346 }                                                 306 }
347                                                   307 
348 G4bool G4EmParameters::LateralDisplacementAlg9 << 308 G4bool G4EmParameters::MuHadLateralDisplacement() const
349 {                                                 309 {
350   return lateralDisplacementAlg96;             << 310   return muhadLateralDisplacement;
351 }                                                 311 }
352                                                   312 
353 void G4EmParameters::SetMuHadLateralDisplaceme << 313 void G4EmParameters::SetLatDisplacementBeyondSafety(G4bool val)
354 {                                                 314 {
355   if(IsLocked()) { return; }                      315   if(IsLocked()) { return; }
356   muhadLateralDisplacement = val;              << 316   latDisplacementBeyondSafety = val;
357 }                                                 317 }
358                                                   318 
359 G4bool G4EmParameters::MuHadLateralDisplacemen << 319 G4bool G4EmParameters::LatDisplacementBeyondSafety() const
360 {                                                 320 {
361   return muhadLateralDisplacement;             << 321   return latDisplacementBeyondSafety;
362 }                                                 322 }
363                                                   323 
364 void G4EmParameters::ActivateAngularGeneratorF    324 void G4EmParameters::ActivateAngularGeneratorForIonisation(G4bool val)
365 {                                                 325 {
366   if(IsLocked()) { return; }                      326   if(IsLocked()) { return; }
367   useAngGeneratorForIonisation = val;             327   useAngGeneratorForIonisation = val;
368 }                                                 328 }
369                                                   329 
370 G4bool G4EmParameters::UseAngularGeneratorForI    330 G4bool G4EmParameters::UseAngularGeneratorForIonisation() const
371 {                                                 331 {
372   return useAngGeneratorForIonisation;            332   return useAngGeneratorForIonisation;
373 }                                                 333 }
374                                                   334 
375 void G4EmParameters::SetUseMottCorrection(G4bo    335 void G4EmParameters::SetUseMottCorrection(G4bool val)
376 {                                                 336 {
377   if(IsLocked()) { return; }                      337   if(IsLocked()) { return; }
378   useMottCorrection = val;                        338   useMottCorrection = val;
379 }                                                 339 }
380                                                   340 
381 G4bool G4EmParameters::UseMottCorrection() con    341 G4bool G4EmParameters::UseMottCorrection() const
382 {                                                 342 {
383   return useMottCorrection;                       343   return useMottCorrection;
384 }                                                 344 }
385                                                   345 
386 void G4EmParameters::SetIntegral(G4bool val)      346 void G4EmParameters::SetIntegral(G4bool val)
387 {                                                 347 {
388   if(IsLocked()) { return; }                      348   if(IsLocked()) { return; }
389   integral = val;                                 349   integral = val;
390 }                                                 350 }
391                                                   351 
392 G4bool G4EmParameters::Integral() const           352 G4bool G4EmParameters::Integral() const
393 {                                                 353 {
394   return integral;                                354   return integral;
395 }                                                 355 }
396                                                   356 
397 void G4EmParameters::SetEnablePolarisation(G4b << 
398 {                                              << 
399   if(IsLocked()) { return; }                   << 
400   fPolarisation = val;                         << 
401 }                                              << 
402                                                << 
403 G4bool G4EmParameters::EnablePolarisation() co << 
404 {                                              << 
405   return fPolarisation;                        << 
406 }                                              << 
407                                                << 
408 void G4EmParameters::SetBirksActive(G4bool val    357 void G4EmParameters::SetBirksActive(G4bool val)
409 {                                                 358 {
410   if(IsLocked()) { return; }                      359   if(IsLocked()) { return; }
411   birks = val;                                    360   birks = val;
412   if(birks && nullptr == emSaturation) { emSat << 361   if(birks) {
                                                   >> 362     if(!emSaturation) { emSaturation = new G4EmSaturation(1); }
                                                   >> 363     emSaturation->InitialiseG4Saturation();
                                                   >> 364   }
413 }                                                 365 }
414                                                   366 
415 G4bool G4EmParameters::BirksActive() const        367 G4bool G4EmParameters::BirksActive() const
416 {                                                 368 {
417   return birks;                                   369   return birks;
418 }                                                 370 }
419                                                   371 
420 void G4EmParameters::SetUseICRU90Data(G4bool v << 
421 {                                              << 
422   if(IsLocked()) { return; }                   << 
423   fICRU90 = val;                               << 
424 }                                              << 
425                                                << 
426 G4bool G4EmParameters::UseICRU90Data() const   << 
427 {                                              << 
428   return fICRU90;                              << 
429 }                                              << 
430                                                << 
431 void G4EmParameters::SetDNAFast(G4bool val)    << 
432 {                                              << 
433   if(IsLocked()) { return; }                   << 
434   fCParameters->SetDNAFast(val);               << 
435   if(val) { ActivateDNA(); }                   << 
436 }                                              << 
437                                                << 
438 G4bool G4EmParameters::DNAFast() const         << 
439 {                                              << 
440   return fCParameters->DNAFast();              << 
441 }                                              << 
442                                                << 
443 void G4EmParameters::SetDNAStationary(G4bool v << 
444 {                                              << 
445   if(IsLocked()) { return; }                   << 
446   fCParameters->SetDNAStationary(val);         << 
447   if(val) { ActivateDNA(); }                   << 
448 }                                              << 
449                                                << 
450 G4bool G4EmParameters::DNAStationary() const   << 
451 {                                              << 
452   return fCParameters->DNAStationary();        << 
453 }                                              << 
454                                                << 
455 void G4EmParameters::SetDNAElectronMsc(G4bool  << 
456 {                                              << 
457   if(IsLocked()) { return; }                   << 
458   fCParameters->SetDNAElectronMsc(val);        << 
459   if(val) { ActivateDNA(); }                   << 
460 }                                              << 
461                                                << 
462 G4bool G4EmParameters::DNAElectronMsc() const  << 
463 {                                              << 
464   return fCParameters->DNAElectronMsc();       << 
465 }                                              << 
466                                                << 
467 void G4EmParameters::SetGeneralProcessActive(G << 
468 {                                              << 
469   if(IsLocked()) { return; }                   << 
470   gener = val;                                 << 
471 }                                              << 
472                                                << 
473 G4bool G4EmParameters::GeneralProcessActive()  << 
474 {                                              << 
475   return gener;                                << 
476 }                                              << 
477                                                << 
478 void G4EmParameters::SetEmSaturation(G4EmSatur    372 void G4EmParameters::SetEmSaturation(G4EmSaturation* ptr)
479 {                                                 373 {
480   if(IsLocked()) { return; }                   << 
481   birks = (nullptr != ptr);                    << 
482   if(emSaturation != ptr) {                       374   if(emSaturation != ptr) {
483     delete emSaturation;                          375     delete emSaturation;
484     emSaturation = ptr;                           376     emSaturation = ptr;
485   }                                               377   }
486 }                                                 378 }
487                                                   379 
488 G4bool G4EmParameters::RetrieveMuDataFromFile( << 380 G4EmSaturation* G4EmParameters::GetEmSaturation()
489 {                                              << 
490   return fMuDataFromFile;                      << 
491 }                                              << 
492                                                << 
493 void G4EmParameters::SetRetrieveMuDataFromFile << 
494 {                                              << 
495   fMuDataFromFile = v;                         << 
496 }                                              << 
497                                                << 
498 void G4EmParameters::SetOnIsolated(G4bool val) << 
499 {                                              << 
500   if(IsLocked()) { return; }                   << 
501   onIsolated = val;                            << 
502 }                                              << 
503                                                << 
504 G4bool G4EmParameters::OnIsolated() const      << 
505 {                                              << 
506   return onIsolated;                           << 
507 }                                              << 
508                                                << 
509 void G4EmParameters::SetEnableSamplingTable(G4 << 
510 {                                              << 
511   if(IsLocked()) { return; }                   << 
512   fSamplingTable = val;                        << 
513 }                                              << 
514                                                << 
515 G4bool G4EmParameters::EnableSamplingTable() c << 
516 {                                              << 
517   return fSamplingTable;                       << 
518 }                                              << 
519                                                << 
520 G4bool G4EmParameters::PhotoeffectBelowKShell( << 
521 {                                              << 
522   return fPEKShell;                            << 
523 }                                              << 
524                                                << 
525 void G4EmParameters::SetPhotoeffectBelowKShell << 
526 {                                              << 
527   if(IsLocked()) { return; }                   << 
528   fPEKShell = v;                               << 
529 }                                              << 
530                                                << 
531 G4bool G4EmParameters::MscPositronCorrection() << 
532 {                                              << 
533   return fMscPosiCorr;                         << 
534 }                                              << 
535                                                << 
536 void G4EmParameters::SetMscPositronCorrection( << 
537 {                                              << 
538   if(IsLocked()) { return; }                   << 
539   fMscPosiCorr = v;                            << 
540 }                                              << 
541                                                << 
542 G4bool G4EmParameters::UseEPICS2017XS() const  << 
543 {                                              << 
544   return fUseEPICS2017XS;                      << 
545 }                                              << 
546                                                << 
547 void G4EmParameters::SetUseEPICS2017XS(G4bool  << 
548 {                                              << 
549   if(IsLocked()) { return; }                   << 
550   fUseEPICS2017XS = v;                         << 
551 }                                              << 
552                                                << 
553 G4bool G4EmParameters::Use3GammaAnnihilationOn << 
554 {                                              << 
555   return f3GammaAnnihilationOnFly;             << 
556 }                                              << 
557                                                << 
558 void G4EmParameters::Set3GammaAnnihilationOnFl << 
559 {                                              << 
560   if(IsLocked()) { return; }                   << 
561   f3GammaAnnihilationOnFly = v;                << 
562 }                                              << 
563                                                << 
564 G4bool G4EmParameters::UseRiGePairProductionMo << 
565 {                                              << 
566   return fUseRiGePairProductionModel;          << 
567 }                                              << 
568                                                << 
569 void G4EmParameters::SetUseRiGePairProductionM << 
570 {                                                 381 {
571   if (IsLocked()) { return; }                  << 382   if(!emSaturation) { SetBirksActive(true); }
572   fUseRiGePairProductionModel = v;             << 383   return emSaturation;
573 }                                                 384 }
574                                                   385 
575 void G4EmParameters::ActivateDNA()             << 386 void G4EmParameters::SetMinSubRange(G4double val)
576 {                                                 387 {
577   if(IsLocked()) { return; }                      388   if(IsLocked()) { return; }
578   fDNA = true;                                 << 389   if(val > 0.0 && val < 1.0) {
579 }                                              << 390     minSubRange = val;
580                                                << 391   } else {
581 void G4EmParameters::SetIsPrintedFlag(G4bool v << 392     G4ExceptionDescription ed;
582 {                                              << 393     ed << "Value of MinSubRange is out of range (0 - 1): " << val
583   fIsPrinted = val;                            << 394        << " is ignored"; 
584 }                                              << 395     PrintWarning(ed);
585                                                << 396   }
586 G4bool G4EmParameters::IsPrintLocked() const   << 
587 {                                              << 
588   return fIsPrinted;                           << 
589 }                                                 397 }
590                                                   398 
591 G4EmSaturation* G4EmParameters::GetEmSaturatio << 399 G4double G4EmParameters::MinSubRange() const
592 {                                                 400 {
593   if(nullptr == emSaturation) {                << 401   return minSubRange;
594 #ifdef G4MULTITHREADED                         << 
595     G4MUTEXLOCK(&emParametersMutex);           << 
596     if(nullptr == emSaturation) {              << 
597 #endif                                         << 
598       emSaturation = new G4EmSaturation(1);    << 
599 #ifdef G4MULTITHREADED                         << 
600     }                                          << 
601     G4MUTEXUNLOCK(&emParametersMutex);         << 
602 #endif                                         << 
603   }                                            << 
604   birks = true;                                << 
605   return emSaturation;                         << 
606 }                                                 402 }
607                                                   403 
608 void G4EmParameters::SetMinEnergy(G4double val    404 void G4EmParameters::SetMinEnergy(G4double val)
609 {                                                 405 {
610   if(IsLocked()) { return; }                      406   if(IsLocked()) { return; }
611   if(val > 1.e-3*CLHEP::eV && val < maxKinEner << 407   if(val > 1.e-3*eV && val < maxKinEnergy) {
612     minKinEnergy = val;                           408     minKinEnergy = val;
                                                   >> 409     nbins = nbinsPerDecade*G4lrint(std::log10(maxKinEnergy/minKinEnergy));
613   } else {                                        410   } else {
614     G4ExceptionDescription ed;                    411     G4ExceptionDescription ed;
615     ed << "Value of MinKinEnergy - is out of r << 412     ed << "Value of MinKinEnergy is out of range: " << val/MeV 
616        << " MeV is ignored";                      413        << " MeV is ignored"; 
617     PrintWarning(ed);                             414     PrintWarning(ed);
618   }                                               415   }
619 }                                                 416 }
620                                                   417 
621 G4double G4EmParameters::MinKinEnergy() const     418 G4double G4EmParameters::MinKinEnergy() const
622 {                                                 419 {
623   return minKinEnergy;                            420   return minKinEnergy;
624 }                                                 421 }
625                                                   422 
626 void G4EmParameters::SetMaxEnergy(G4double val    423 void G4EmParameters::SetMaxEnergy(G4double val)
627 {                                                 424 {
628   if(IsLocked()) { return; }                      425   if(IsLocked()) { return; }
629   if(val > std::max(minKinEnergy,599.9*CLHEP:: << 426   if(val > minKinEnergy && val < 1.e+7*TeV) {
630     maxKinEnergy = val;                           427     maxKinEnergy = val;
                                                   >> 428     nbins = nbinsPerDecade*G4lrint(std::log10(maxKinEnergy/minKinEnergy));
631   } else {                                        429   } else {
632     G4ExceptionDescription ed;                    430     G4ExceptionDescription ed;
633     ed << "Value of MaxKinEnergy is out of ran    431     ed << "Value of MaxKinEnergy is out of range: " 
634        << val/CLHEP::GeV                       << 432        << val/GeV << " GeV is ignored"; 
635        << " GeV is ignored; allowed range 600  << 
636     PrintWarning(ed);                             433     PrintWarning(ed);
637   }                                               434   }
638 }                                                 435 }
639                                                   436 
640 G4double G4EmParameters::MaxKinEnergy() const     437 G4double G4EmParameters::MaxKinEnergy() const
641 {                                                 438 {
642   return maxKinEnergy;                            439   return maxKinEnergy;
643 }                                                 440 }
644                                                   441 
645 void G4EmParameters::SetMaxEnergyForCSDARange(    442 void G4EmParameters::SetMaxEnergyForCSDARange(G4double val)
646 {                                                 443 {
647   if(IsLocked()) { return; }                      444   if(IsLocked()) { return; }
648   if(val > minKinEnergy && val <= 100*CLHEP::T << 445   if(val > minKinEnergy && val <= 100*TeV) {
649     maxKinEnergyCSDA = val;                       446     maxKinEnergyCSDA = val;
650   } else {                                        447   } else {
651     G4ExceptionDescription ed;                    448     G4ExceptionDescription ed;
652     ed << "Value of MaxKinEnergyCSDA is out of    449     ed << "Value of MaxKinEnergyCSDA is out of range: " 
653        << val/CLHEP::GeV << " GeV is ignored;  << 450        << val/GeV << " GeV is ignored"; 
654        << minKinEnergy << " MeV - 100 TeV";    << 
655     PrintWarning(ed);                             451     PrintWarning(ed);
656   }                                               452   }
657 }                                                 453 }
658                                                   454 
659 G4double G4EmParameters::MaxEnergyForCSDARange    455 G4double G4EmParameters::MaxEnergyForCSDARange() const
660 {                                                 456 {
661   return maxKinEnergyCSDA;                        457   return maxKinEnergyCSDA; 
662 }                                                 458 }
663                                                   459 
664 void G4EmParameters::SetLowestElectronEnergy(G    460 void G4EmParameters::SetLowestElectronEnergy(G4double val)
665 {                                                 461 {
666   if(IsLocked()) { return; }                      462   if(IsLocked()) { return; }
667   if(val >= 0.0) { lowestElectronEnergy = val; << 463   if(val >= 0.0) {
                                                   >> 464     lowestElectronEnergy = val;
                                                   >> 465   } else {
                                                   >> 466     G4ExceptionDescription ed;
                                                   >> 467     ed << "Value of lowestElectronEnergy is out of range: " 
                                                   >> 468        << val/MeV << " MeV is ignored"; 
                                                   >> 469     PrintWarning(ed);
                                                   >> 470   }
668 }                                                 471 }
669                                                   472 
670 G4double G4EmParameters::LowestElectronEnergy(    473 G4double G4EmParameters::LowestElectronEnergy() const
671 {                                                 474 {
672   return lowestElectronEnergy;                    475   return lowestElectronEnergy; 
673 }                                                 476 }
674                                                   477 
675 void G4EmParameters::SetLowestMuHadEnergy(G4do    478 void G4EmParameters::SetLowestMuHadEnergy(G4double val)
676 {                                                 479 {
677   if(IsLocked()) { return; }                      480   if(IsLocked()) { return; }
678   if(val >= 0.0) { lowestMuHadEnergy = val; }  << 481   if(val >= 0.0) {
                                                   >> 482     lowestMuHadEnergy = val;
                                                   >> 483   } else {
                                                   >> 484     G4ExceptionDescription ed;
                                                   >> 485     ed << "Value of lowestMuHadEnergy is out of range: " 
                                                   >> 486        << val/MeV << " MeV is ignored"; 
                                                   >> 487     PrintWarning(ed);
                                                   >> 488   }
679 }                                                 489 }
680                                                   490 
681 G4double G4EmParameters::LowestMuHadEnergy() c    491 G4double G4EmParameters::LowestMuHadEnergy() const
682 {                                                 492 {
683   return lowestMuHadEnergy;                       493   return lowestMuHadEnergy; 
684 }                                                 494 }
685                                                   495 
686 void G4EmParameters::SetLowestTripletEnergy(G4 << 
687 {                                              << 
688   if(IsLocked()) { return; }                   << 
689   if(val > 0.0) { lowestTripletEnergy = val; } << 
690 }                                              << 
691                                                << 
692 G4double G4EmParameters::LowestTripletEnergy() << 
693 {                                              << 
694   return lowestTripletEnergy;                  << 
695 }                                              << 
696                                                << 
697 void G4EmParameters::SetMaxNIELEnergy(G4double << 
698 {                                              << 
699   if(IsLocked()) { return; }                   << 
700   if(val >= 0.0) { maxNIELEnergy = val; }      << 
701 }                                              << 
702                                                << 
703 G4double G4EmParameters::MaxNIELEnergy() const << 
704 {                                              << 
705   return maxNIELEnergy;                        << 
706 }                                              << 
707                                                << 
708 void G4EmParameters::SetMaxEnergyFor5DMuPair(G << 
709 {                                              << 
710   if(IsLocked()) { return; }                   << 
711   if(val > 0.0) { max5DEnergyForMuPair = val;  << 
712 }                                              << 
713                                                << 
714 G4double G4EmParameters::MaxEnergyFor5DMuPair( << 
715 {                                              << 
716   return max5DEnergyForMuPair;                 << 
717 }                                              << 
718                                                << 
719 void G4EmParameters::SetLinearLossLimit(G4doub    496 void G4EmParameters::SetLinearLossLimit(G4double val)
720 {                                                 497 {
721   if(IsLocked()) { return; }                      498   if(IsLocked()) { return; }
722   if(val > 0.0 && val < 0.5) {                    499   if(val > 0.0 && val < 0.5) {
723     linLossLimit = val;                           500     linLossLimit = val;
724   } else {                                        501   } else {
725     G4ExceptionDescription ed;                    502     G4ExceptionDescription ed;
726     ed << "Value of linLossLimit is out of ran    503     ed << "Value of linLossLimit is out of range: " << val 
727        << " is ignored";                          504        << " is ignored"; 
728     PrintWarning(ed);                             505     PrintWarning(ed);
729   }                                               506   }
730 }                                                 507 }
731                                                   508 
732 G4double G4EmParameters::LinearLossLimit() con    509 G4double G4EmParameters::LinearLossLimit() const
733 {                                                 510 {
734   return linLossLimit;                            511   return linLossLimit;
735 }                                                 512 }
736                                                   513 
737 void G4EmParameters::SetBremsstrahlungTh(G4dou    514 void G4EmParameters::SetBremsstrahlungTh(G4double val)
738 {                                                 515 {
739   if(IsLocked()) { return; }                      516   if(IsLocked()) { return; }
740   if(val > 0.0) {                                 517   if(val > 0.0) {
741     bremsTh = val;                                518     bremsTh = val;
742   } else {                                        519   } else {
743     G4ExceptionDescription ed;                    520     G4ExceptionDescription ed;
744     ed << "Value of bremsstrahlung threshold i    521     ed << "Value of bremsstrahlung threshold is out of range: " 
745        << val/GeV << " GeV is ignored";           522        << val/GeV << " GeV is ignored"; 
746     PrintWarning(ed);                             523     PrintWarning(ed);
747   }                                               524   }
748 }                                                 525 }
749                                                   526 
750 G4double G4EmParameters::BremsstrahlungTh() co    527 G4double G4EmParameters::BremsstrahlungTh() const 
751 {                                                 528 {
752   return bremsTh;                                 529   return bremsTh;
753 }                                                 530 }
754                                                   531 
755 void G4EmParameters::SetMuHadBremsstrahlungTh( << 
756 {                                              << 
757   if(IsLocked()) { return; }                   << 
758   if(val > 0.0) {                              << 
759     bremsMuHadTh = val;                        << 
760   } else {                                     << 
761     G4ExceptionDescription ed;                 << 
762     ed << "Value of bremsstrahlung threshold i << 
763        << val/GeV << " GeV is ignored";        << 
764     PrintWarning(ed);                          << 
765   }                                            << 
766 }                                              << 
767                                                << 
768 G4double G4EmParameters::MuHadBremsstrahlungTh << 
769 {                                              << 
770   return bremsMuHadTh;                         << 
771 }                                              << 
772                                                << 
773 void G4EmParameters::SetLambdaFactor(G4double     532 void G4EmParameters::SetLambdaFactor(G4double val)
774 {                                                 533 {
775   if(IsLocked()) { return; }                      534   if(IsLocked()) { return; }
776   if(val > 0.0 && val < 1.0) {                    535   if(val > 0.0 && val < 1.0) {
777     lambdaFactor = val;                           536     lambdaFactor = val;
778   } else {                                        537   } else {
779     G4ExceptionDescription ed;                    538     G4ExceptionDescription ed;
780     ed << "Value of lambda factor is out of ra    539     ed << "Value of lambda factor is out of range: " << val 
781        << " is ignored";                          540        << " is ignored"; 
782     PrintWarning(ed);                             541     PrintWarning(ed);
783   }                                               542   }
784 }                                                 543 }
785                                                   544 
786 G4double G4EmParameters::LambdaFactor() const     545 G4double G4EmParameters::LambdaFactor() const 
787 {                                                 546 {
788   return lambdaFactor;                            547   return lambdaFactor;
789 }                                                 548 }
790                                                   549 
791 void G4EmParameters::SetFactorForAngleLimit(G4    550 void G4EmParameters::SetFactorForAngleLimit(G4double val)
792 {                                                 551 {
793   if(IsLocked()) { return; }                      552   if(IsLocked()) { return; }
794   if(val > 0.0) {                                 553   if(val > 0.0) {
795     factorForAngleLimit = val;                    554     factorForAngleLimit = val;
796   } else {                                        555   } else {
797     G4ExceptionDescription ed;                    556     G4ExceptionDescription ed;
798     ed << "Value of factor for enegry limit is    557     ed << "Value of factor for enegry limit is out of range: " 
799        << val << " is ignored";                   558        << val << " is ignored"; 
800     PrintWarning(ed);                             559     PrintWarning(ed);
801   }                                               560   }
802 }                                                 561 }
803                                                   562 
804 G4double G4EmParameters::FactorForAngleLimit()    563 G4double G4EmParameters::FactorForAngleLimit() const 
805 {                                                 564 {
806   return factorForAngleLimit;                     565   return factorForAngleLimit;
807 }                                                 566 }
808                                                   567 
809 void G4EmParameters::SetMscThetaLimit(G4double    568 void G4EmParameters::SetMscThetaLimit(G4double val)
810 {                                                 569 {
811   if(IsLocked()) { return; }                      570   if(IsLocked()) { return; }
812   if(val >= 0.0 && val <= pi) {                   571   if(val >= 0.0 && val <= pi) {
813     thetaLimit = val;                             572     thetaLimit = val;
814   } else {                                        573   } else {
815     G4ExceptionDescription ed;                    574     G4ExceptionDescription ed;
816     ed << "Value of polar angle limit is out o    575     ed << "Value of polar angle limit is out of range: " 
817        << val << " is ignored";                   576        << val << " is ignored"; 
818     PrintWarning(ed);                             577     PrintWarning(ed);
819   }                                               578   }
820 }                                                 579 }
821                                                   580 
822 G4double G4EmParameters::MscThetaLimit() const    581 G4double G4EmParameters::MscThetaLimit() const 
823 {                                                 582 {
824   return thetaLimit;                              583   return thetaLimit;
825 }                                                 584 }
826                                                   585 
827 void G4EmParameters::SetMscEnergyLimit(G4doubl << 
828 {                                              << 
829   if(IsLocked()) { return; }                   << 
830   if(val >= 0.0) {                             << 
831     energyLimit = val;                         << 
832   } else {                                     << 
833     G4ExceptionDescription ed;                 << 
834     ed << "Value of msc energy limit is out of << 
835        << val << " is ignored";                << 
836     PrintWarning(ed);                          << 
837   }                                            << 
838 }                                              << 
839                                                << 
840 G4double G4EmParameters::MscEnergyLimit() cons << 
841 {                                              << 
842   return energyLimit;                          << 
843 }                                              << 
844                                                << 
845 void G4EmParameters::SetMscRangeFactor(G4doubl    586 void G4EmParameters::SetMscRangeFactor(G4double val)
846 {                                                 587 {
847   if(IsLocked()) { return; }                      588   if(IsLocked()) { return; }
848   if(val > 0.0 && val < 1.0) {                    589   if(val > 0.0 && val < 1.0) {
849     rangeFactor = val;                            590     rangeFactor = val;
850   } else {                                        591   } else {
851     G4ExceptionDescription ed;                    592     G4ExceptionDescription ed;
852     ed << "Value of rangeFactor is out of rang    593     ed << "Value of rangeFactor is out of range: " 
853        << val << " is ignored";                   594        << val << " is ignored"; 
854     PrintWarning(ed);                             595     PrintWarning(ed);
855   }                                               596   }
856 }                                                 597 }
857                                                   598 
858 G4double G4EmParameters::MscRangeFactor() cons    599 G4double G4EmParameters::MscRangeFactor() const 
859 {                                                 600 {
860   return rangeFactor;                             601   return rangeFactor;
861 }                                                 602 }
862                                                   603 
863 void G4EmParameters::SetMscMuHadRangeFactor(G4    604 void G4EmParameters::SetMscMuHadRangeFactor(G4double val)
864 {                                                 605 {
865   if(IsLocked()) { return; }                      606   if(IsLocked()) { return; }
866   if(val > 0.0 && val < 1.0) {                    607   if(val > 0.0 && val < 1.0) {
867     rangeFactorMuHad = val;                       608     rangeFactorMuHad = val;
868   } else {                                        609   } else {
869     G4ExceptionDescription ed;                    610     G4ExceptionDescription ed;
870     ed << "Value of rangeFactorMuHad is out of    611     ed << "Value of rangeFactorMuHad is out of range: " 
871        << val << " is ignored";                   612        << val << " is ignored"; 
872     PrintWarning(ed);                             613     PrintWarning(ed);
873   }                                               614   }
874 }                                                 615 }
875                                                   616 
876 G4double G4EmParameters::MscMuHadRangeFactor()    617 G4double G4EmParameters::MscMuHadRangeFactor() const 
877 {                                                 618 {
878   return rangeFactorMuHad;                        619   return rangeFactorMuHad;
879 }                                                 620 }
880                                                   621 
881 void G4EmParameters::SetMscGeomFactor(G4double    622 void G4EmParameters::SetMscGeomFactor(G4double val)
882 {                                                 623 {
883   if(IsLocked()) { return; }                      624   if(IsLocked()) { return; }
884   if(val >= 1.0) {                                625   if(val >= 1.0) {
885     geomFactor = val;                             626     geomFactor = val;
886   } else {                                        627   } else {
887     G4ExceptionDescription ed;                    628     G4ExceptionDescription ed;
888     ed << "Value of geomFactor is out of range    629     ed << "Value of geomFactor is out of range: " 
889        << val << " is ignored";                   630        << val << " is ignored"; 
890     PrintWarning(ed);                             631     PrintWarning(ed);
891   }                                               632   }
892 }                                                 633 }
893                                                   634 
894 G4double G4EmParameters::MscGeomFactor() const    635 G4double G4EmParameters::MscGeomFactor() const 
895 {                                                 636 {
896   return geomFactor;                              637   return geomFactor;
897 }                                                 638 }
898                                                   639 
899 void G4EmParameters::SetMscSafetyFactor(G4doub << 640 void G4EmParameters::SetMscSkin(G4double val)
900 {                                                 641 {
901   if(IsLocked()) { return; }                      642   if(IsLocked()) { return; }
902   if(val >= 0.1) {                             << 643   if(val >= 1.0) {
903     safetyFactor = val;                        << 644     skin = val;
904   } else {                                        645   } else {
905     G4ExceptionDescription ed;                    646     G4ExceptionDescription ed;
906     ed << "Value of safetyFactor is out of ran << 647     ed << "Value of skin is out of range: " 
907        << val << " is ignored";                   648        << val << " is ignored"; 
908     PrintWarning(ed);                             649     PrintWarning(ed);
909   }                                               650   }
910 }                                                 651 }
911                                                   652 
912 G4double G4EmParameters::MscSafetyFactor() con << 653 G4double G4EmParameters::MscSkin() const 
913 {                                                 654 {
914   return safetyFactor;                         << 655   return skin;
915 }                                                 656 }
916                                                   657 
917 void G4EmParameters::SetMscLambdaLimit(G4doubl << 658 void G4EmParameters::SetStepFunction(G4double v1, G4double v2)
918 {                                                 659 {
919   if(IsLocked()) { return; }                      660   if(IsLocked()) { return; }
920   if(val >= 0.0) {                             << 661   if(v1 > 0.0 && v1 <= 1.0 && v2 > 0.0) {
921     lambdaLimit = val;                         << 662     dRoverRange = v1;
                                                   >> 663     finalRange = v2;
922   } else {                                        664   } else {
923     G4ExceptionDescription ed;                    665     G4ExceptionDescription ed;
924     ed << "Value of lambdaLimit is out of rang << 666     ed << "Values of step function are out of range: " 
925        << val << " is ignored";                << 667        << v1 << ", " << v2/CLHEP::mm << " mm - are ignored"; 
926     PrintWarning(ed);                             668     PrintWarning(ed);
927   }                                               669   }
928 }                                                 670 }
929                                                   671 
930 G4double G4EmParameters::MscLambdaLimit() cons << 672 void G4EmParameters::SetStepFunctionMuHad(G4double v1, G4double v2)
931 {                                              << 
932   return lambdaLimit;                          << 
933 }                                              << 
934                                                << 
935 void G4EmParameters::SetMscSkin(G4double val)  << 
936 {                                                 673 {
937   if(IsLocked()) { return; }                      674   if(IsLocked()) { return; }
938   if(val >= 1.0) {                             << 675   if(v1 > 0.0 && v1 <= 1.0 && v2 > 0.0) {
939     skin = val;                                << 676     dRoverRangeMuHad = v1;
                                                   >> 677     finalRangeMuHad = v2;
940   } else {                                        678   } else {
941     G4ExceptionDescription ed;                    679     G4ExceptionDescription ed;
942     ed << "Value of skin is out of range: "    << 680     ed << "Values of step function are out of range: " 
943        << val << " is ignored";                << 681        << v1 << ", " << v2/CLHEP::mm << " mm - are ignored"; 
944     PrintWarning(ed);                             682     PrintWarning(ed);
945   }                                               683   }
946 }                                                 684 }
947                                                   685 
948 G4double G4EmParameters::MscSkin() const       << 686 void G4EmParameters::SetNumberOfBins(G4int val)
949 {                                              << 
950   return skin;                                 << 
951 }                                              << 
952                                                << 
953 void G4EmParameters::SetScreeningFactor(G4doub << 
954 {                                                 687 {
955   if(IsLocked()) { return; }                      688   if(IsLocked()) { return; }
956   if(val > 0.0) {                              << 689   if(val >= 5 && val < 10000000) {
957     factorScreen = val;                        << 690     nbins = val;
                                                   >> 691     nbinsPerDecade = G4lrint(nbins/std::log10(maxKinEnergy/minKinEnergy));
958   } else {                                        692   } else {
959     G4ExceptionDescription ed;                    693     G4ExceptionDescription ed;
960     ed << "Value of factorScreen is out of ran << 694     ed << "Value of number of bins is out of range: " 
961        << val << " is ignored";                   695        << val << " is ignored"; 
962     PrintWarning(ed);                             696     PrintWarning(ed);
963   }                                               697   }
964 }                                                 698 }
965                                                   699 
966 G4double G4EmParameters::ScreeningFactor() con << 
967 {                                              << 
968   return factorScreen;                         << 
969 }                                              << 
970                                                << 
971 void G4EmParameters::SetStepFunction(G4double  << 
972 {                                              << 
973   if(IsLocked()) { return; }                   << 
974   fBParameters->SetStepFunction(v1, v2);       << 
975 }                                              << 
976                                                << 
977 void G4EmParameters::SetStepFunctionMuHad(G4do << 
978 {                                              << 
979   if(IsLocked()) { return; }                   << 
980   fBParameters->SetStepFunctionMuHad(v1, v2);  << 
981 }                                              << 
982                                                << 
983 void G4EmParameters::SetStepFunctionLightIons( << 
984 {                                              << 
985   if(IsLocked()) { return; }                   << 
986   fBParameters->SetStepFunctionLightIons(v1, v << 
987 }                                              << 
988                                                << 
989 void G4EmParameters::SetStepFunctionIons(G4dou << 
990 {                                              << 
991   if(IsLocked()) { return; }                   << 
992   fBParameters->SetStepFunctionIons(v1, v2);   << 
993 }                                              << 
994                                                << 
995 void G4EmParameters::FillStepFunction(const G4 << 
996 {                                              << 
997   fBParameters->FillStepFunction(part, proc);  << 
998 }                                              << 
999                                                << 
1000 G4int G4EmParameters::NumberOfBins() const       700 G4int G4EmParameters::NumberOfBins() const 
1001 {                                                701 {
1002   return nbinsPerDecade*G4lrint(std::log10(ma << 702   return nbins;
1003 }                                                703 }
1004                                                  704 
1005 void G4EmParameters::SetNumberOfBinsPerDecade    705 void G4EmParameters::SetNumberOfBinsPerDecade(G4int val)
1006 {                                                706 {
1007   if(IsLocked()) { return; }                     707   if(IsLocked()) { return; }
1008   if(val >= 5 && val < 1000000) {                708   if(val >= 5 && val < 1000000) {
1009     nbinsPerDecade = val;                        709     nbinsPerDecade = val;
                                                   >> 710     nbins = nbinsPerDecade*G4lrint(std::log10(maxKinEnergy/minKinEnergy));
1010   } else {                                       711   } else {
1011     G4ExceptionDescription ed;                   712     G4ExceptionDescription ed;
1012     ed << "Value of number of bins per decade    713     ed << "Value of number of bins per decade is out of range: " 
1013        << val << " is ignored";                  714        << val << " is ignored"; 
1014     PrintWarning(ed);                            715     PrintWarning(ed);
1015   }                                              716   }
1016 }                                                717 }
1017                                                  718 
1018 G4int G4EmParameters::NumberOfBinsPerDecade()    719 G4int G4EmParameters::NumberOfBinsPerDecade() const 
1019 {                                                720 {
1020   return nbinsPerDecade;                         721   return nbinsPerDecade; 
1021 }                                                722 }
1022                                                  723 
1023 void G4EmParameters::SetVerbose(G4int val)       724 void G4EmParameters::SetVerbose(G4int val)
1024 {                                                725 {
1025   if(IsLocked()) { return; }                     726   if(IsLocked()) { return; }
1026   verbose = val;                                 727   verbose = val;
1027   workerVerbose = std::min(workerVerbose, ver    728   workerVerbose = std::min(workerVerbose, verbose);
1028 }                                                729 }
1029                                                  730 
1030 G4int G4EmParameters::Verbose() const            731 G4int G4EmParameters::Verbose() const 
1031 {                                                732 {
1032   return verbose;                                733   return verbose;
1033 }                                                734 }
1034                                                  735 
1035 void G4EmParameters::SetWorkerVerbose(G4int v    736 void G4EmParameters::SetWorkerVerbose(G4int val)
1036 {                                                737 {
1037   if(IsLocked()) { return; }                     738   if(IsLocked()) { return; }
1038   workerVerbose = val;                           739   workerVerbose = val;
1039 }                                                740 }
1040                                                  741 
1041 G4int G4EmParameters::WorkerVerbose() const      742 G4int G4EmParameters::WorkerVerbose() const 
1042 {                                                743 {
1043   return workerVerbose;                          744   return workerVerbose;
1044 }                                                745 }
1045                                                  746 
1046 void G4EmParameters::SetNumberForFreeVector(G << 
1047 {                                             << 
1048   if(IsLocked()) { return; }                  << 
1049   nForFreeVector = val;                       << 
1050 }                                             << 
1051                                               << 
1052 G4int G4EmParameters::NumberForFreeVector() c << 
1053 {                                             << 
1054   return nForFreeVector;                      << 
1055 }                                             << 
1056                                               << 
1057 void G4EmParameters::SetTransportationWithMsc << 
1058 {                                             << 
1059   if(IsLocked()) { return; }                  << 
1060   fTransportationWithMsc = val;               << 
1061 }                                             << 
1062                                               << 
1063 G4TransportationWithMscType G4EmParameters::T << 
1064 {                                             << 
1065   return fTransportationWithMsc;              << 
1066 }                                             << 
1067                                               << 
1068 void G4EmParameters::SetFluctuationType(G4EmF << 
1069 {                                             << 
1070   if(IsLocked()) { return; }                  << 
1071   fFluct = val;                               << 
1072 }                                             << 
1073                                               << 
1074 G4EmFluctuationType G4EmParameters::Fluctuati << 
1075 {                                             << 
1076   return fFluct;                              << 
1077 }                                             << 
1078                                               << 
1079 void G4EmParameters::SetPositronAtRestModelTy << 
1080 {                                             << 
1081   if(IsLocked()) { return; }                  << 
1082   fPositronium = val;                         << 
1083 }                                             << 
1084                                               << 
1085 G4PositronAtRestModelType G4EmParameters::Pos << 
1086 {                                             << 
1087   return fPositronium;                        << 
1088 }                                             << 
1089                                               << 
1090 void G4EmParameters::SetMscStepLimitType(G4Ms    747 void G4EmParameters::SetMscStepLimitType(G4MscStepLimitType val)
1091 {                                                748 {
1092   if(IsLocked()) { return; }                     749   if(IsLocked()) { return; }
1093   mscStepLimit = val;                            750   mscStepLimit = val;
1094 }                                                751 }
1095                                                  752 
1096 G4MscStepLimitType G4EmParameters::MscStepLim    753 G4MscStepLimitType G4EmParameters::MscStepLimitType() const 
1097 {                                                754 {
1098   return mscStepLimit;                           755   return mscStepLimit;
1099 }                                                756 }
1100                                                  757 
1101 void G4EmParameters::SetMscMuHadStepLimitType    758 void G4EmParameters::SetMscMuHadStepLimitType(G4MscStepLimitType val)
1102 {                                                759 {
1103   if(IsLocked()) { return; }                     760   if(IsLocked()) { return; }
1104   mscStepLimitMuHad = val;                       761   mscStepLimitMuHad = val;
1105 }                                                762 }
1106                                                  763 
1107 G4MscStepLimitType G4EmParameters::MscMuHadSt    764 G4MscStepLimitType G4EmParameters::MscMuHadStepLimitType() const 
1108 {                                                765 {
1109   return mscStepLimitMuHad;                      766   return mscStepLimitMuHad;
1110 }                                                767 }
1111                                                  768 
1112 void G4EmParameters::SetSingleScatteringType( << 
1113 {                                             << 
1114   if(IsLocked()) { return; }                  << 
1115   fSStype = val;                              << 
1116 }                                             << 
1117                                               << 
1118 G4eSingleScatteringType G4EmParameters::Singl << 
1119 {                                             << 
1120   return fSStype;                             << 
1121 }                                             << 
1122                                               << 
1123 void                                             769 void 
1124 G4EmParameters::SetNuclearFormfactorType(G4Nu    770 G4EmParameters::SetNuclearFormfactorType(G4NuclearFormfactorType val)
1125 {                                                771 {
1126   if(IsLocked()) { return; }                     772   if(IsLocked()) { return; }
1127   nucFormfactor = val;                           773   nucFormfactor = val;
1128 }                                                774 }
1129                                                  775 
1130 G4NuclearFormfactorType G4EmParameters::Nucle    776 G4NuclearFormfactorType G4EmParameters::NuclearFormfactorType() const
1131 {                                                777 {
1132   return nucFormfactor;                          778   return nucFormfactor;
1133 }                                                779 }
1134                                                  780 
1135 void G4EmParameters::SetDNAeSolvationSubType( << 
1136 {                                             << 
1137   if(IsLocked()) { return; }                  << 
1138   fCParameters->SetDNAeSolvationSubType(val); << 
1139   ActivateDNA();                              << 
1140 }                                             << 
1141                                               << 
1142 G4DNAModelSubType G4EmParameters::DNAeSolvati << 
1143 {                                             << 
1144   return fCParameters->DNAeSolvationSubType() << 
1145 }                                             << 
1146                                               << 
1147 void G4EmParameters::SetConversionType(G4int  << 
1148 {                                             << 
1149   if(IsLocked()) { return; }                  << 
1150   tripletConv = val;                          << 
1151 }                                             << 
1152                                               << 
1153 G4int G4EmParameters::GetConversionType() con << 
1154 {                                             << 
1155   return tripletConv;                         << 
1156 }                                             << 
1157                                               << 
1158 void G4EmParameters::SetPIXECrossSectionModel    781 void G4EmParameters::SetPIXECrossSectionModel(const G4String& sss)
1159 {                                                782 {
                                                   >> 783   G4cout << "G4EmParameters::SetPIXECrossSectionModel " << sss << G4endl;
1160   if(IsLocked()) { return; }                     784   if(IsLocked()) { return; }
1161   fCParameters->SetPIXECrossSectionModel(sss) << 785   namePIXE = sss;
1162 }                                                786 }
1163                                                  787 
1164 const G4String& G4EmParameters::PIXECrossSect    788 const G4String& G4EmParameters::PIXECrossSectionModel()
1165 {                                                789 {
1166   return fCParameters->PIXECrossSectionModel( << 790   return namePIXE;
1167 }                                                791 }
1168                                                  792 
1169 void G4EmParameters::SetPIXEElectronCrossSect    793 void G4EmParameters::SetPIXEElectronCrossSectionModel(const G4String& sss)
1170 {                                                794 {
1171   if(IsLocked()) { return; }                     795   if(IsLocked()) { return; }
1172   fCParameters->SetPIXEElectronCrossSectionMo << 796   nameElectronPIXE = sss;
1173 }                                                797 }
1174                                                  798 
1175 const G4String& G4EmParameters::PIXEElectronC    799 const G4String& G4EmParameters::PIXEElectronCrossSectionModel()
1176 {                                                800 {
1177   return fCParameters->PIXEElectronCrossSecti << 801   return nameElectronPIXE;
1178 }                                                802 }
1179                                                  803 
1180 void G4EmParameters::SetLivermoreDataDir(cons << 804 void G4EmParameters::PrintWarning(G4ExceptionDescription& ed) const
1181 {                                             << 
1182   if(IsLocked()) { return; }                  << 
1183   fCParameters->SetLivermoreDataDir(sss);     << 
1184 }                                             << 
1185                                               << 
1186 const G4String& G4EmParameters::LivermoreData << 
1187 {                                                805 {
1188   return fCParameters->LivermoreDataDir();    << 806   G4Exception("G4EmParameters", "em0044", JustWarning, ed);
1189 }                                                807 }
1190                                                  808 
1191 void G4EmParameters::PrintWarning(G4Exception << 809 G4String G4EmParameters::CheckRegion(const G4String& reg) const
1192 {                                                810 {
1193   G4Exception("G4EmParameters", "em0044", Jus << 811   G4String r = reg;
                                                   >> 812   if(r == "" || r == "world" || r == "World") {
                                                   >> 813     r = "DefaultRegionForTheWorld";
                                                   >> 814   }
                                                   >> 815   return r;
1194 }                                                816 }
1195                                                  817 
1196 void G4EmParameters::AddPAIModel(const G4Stri    818 void G4EmParameters::AddPAIModel(const G4String& particle,
1197                                  const G4Stri    819                                  const G4String& region,
1198                                  const G4Stri    820                                  const G4String& type)
1199 {                                                821 {
1200   if(IsLocked()) { return; }                  << 822   G4String r = CheckRegion(region);
1201   fBParameters->AddPAIModel(particle, region, << 823   G4int nreg =  m_regnamesPAI.size();
                                                   >> 824   for(G4int i=0; i<nreg; ++i) {
                                                   >> 825     if((m_particlesPAI[i] == particle || 
                                                   >> 826         m_particlesPAI[i] == "all" || 
                                                   >> 827         particle == "all") && 
                                                   >> 828        (m_regnamesPAI[i] == r || 
                                                   >> 829         m_regnamesPAI[i] == "DefaultRegionForTheWorld" || 
                                                   >> 830         r == "DefaultRegionForTheWorld") ) {
                                                   >> 831 
                                                   >> 832       m_typesPAI[i] = type;
                                                   >> 833       if(particle == "all") { m_particlesPAI[i] = particle; }
                                                   >> 834       if(r == "DefaultRegionForTheWorld") { m_regnamesPAI[i] = r; }
                                                   >> 835       return;
                                                   >> 836     }
                                                   >> 837   }
                                                   >> 838   m_particlesPAI.push_back(particle);
                                                   >> 839   m_regnamesPAI.push_back(r);
                                                   >> 840   m_typesPAI.push_back(type);
1202 }                                                841 }
1203                                                  842 
1204 const std::vector<G4String>& G4EmParameters::    843 const std::vector<G4String>& G4EmParameters::ParticlesPAI() const
1205 {                                                844 {
1206   return fBParameters->ParticlesPAI();        << 845   return m_particlesPAI;
1207 }                                                846 }
1208                                                  847 
1209 const std::vector<G4String>& G4EmParameters::    848 const std::vector<G4String>& G4EmParameters::RegionsPAI() const
1210 {                                                849 {
1211   return fBParameters->RegionsPAI();          << 850   return m_regnamesPAI;
1212 }                                                851 }
1213                                                  852 
1214 const std::vector<G4String>& G4EmParameters::    853 const std::vector<G4String>& G4EmParameters::TypesPAI() const
1215 {                                                854 {
1216   return fBParameters->TypesPAI();            << 855   return m_typesPAI;
1217 }                                                856 }
1218                                                  857 
1219 void G4EmParameters::AddMicroElec(const G4Str    858 void G4EmParameters::AddMicroElec(const G4String& region)
1220 {                                                859 {
1221   if(IsLocked()) { return; }                  << 860   G4String r = CheckRegion(region);
1222   fCParameters->AddMicroElec(region);         << 861   G4int nreg =  m_regnamesME.size();
                                                   >> 862   for(G4int i=0; i<nreg; ++i) {
                                                   >> 863     if(r == m_regnamesME[i]) { return; }
                                                   >> 864   }
                                                   >> 865   m_regnamesME.push_back(r);
1223 }                                                866 }
1224                                                  867 
1225 const std::vector<G4String>& G4EmParameters::    868 const std::vector<G4String>& G4EmParameters::RegionsMicroElec() const
1226 {                                                869 {
1227   return fCParameters->RegionsMicroElec();    << 870   return m_regnamesME;
1228 }                                                871 }
1229                                                  872 
1230 void G4EmParameters::AddDNA(const G4String& r    873 void G4EmParameters::AddDNA(const G4String& region, const G4String& type)
1231 {                                                874 {
1232   if(IsLocked()) { return; }                  << 875   G4String r = CheckRegion(region);
1233   fCParameters->AddDNA(region, type);         << 876   G4int nreg =  m_regnamesDNA.size();
1234   ActivateDNA();                              << 877   for(G4int i=0; i<nreg; ++i) {
                                                   >> 878     if(r == m_regnamesDNA[i]) { return; }
                                                   >> 879   }
                                                   >> 880   m_regnamesDNA.push_back(r);
                                                   >> 881   m_typesDNA.push_back(type);
1235 }                                                882 }
1236                                                  883 
1237 const std::vector<G4String>& G4EmParameters::    884 const std::vector<G4String>& G4EmParameters::RegionsDNA() const
1238 {                                                885 {
1239   return fCParameters->RegionsDNA();          << 886   return m_regnamesDNA;
1240 }                                                887 }
1241                                                  888 
1242 const std::vector<G4String>& G4EmParameters::    889 const std::vector<G4String>& G4EmParameters::TypesDNA() const
1243 {                                                890 {
1244   return fCParameters->TypesDNA();            << 891   return m_typesDNA;
1245 }                                                892 }
1246                                                  893 
1247 void G4EmParameters::AddPhysics(const G4Strin << 894 void G4EmParameters::AddMsc(const G4String& region, const G4String& type)
1248 {                                                895 {
1249   if(IsLocked()) { return; }                  << 896   G4String r = CheckRegion(region);
1250   fBParameters->AddPhysics(region, type);     << 897   G4int nreg =  m_regnamesMsc.size();
                                                   >> 898   for(G4int i=0; i<nreg; ++i) {
                                                   >> 899     if(r == m_regnamesMsc[i]) { return; }
                                                   >> 900   }
                                                   >> 901   m_regnamesMsc.push_back(r);
                                                   >> 902   m_typesMsc.push_back(type);
1251 }                                                903 }
1252                                                  904 
1253 const std::vector<G4String>& G4EmParameters:: << 905 const std::vector<G4String>& G4EmParameters::RegionsMsc() const
1254 {                                                906 {
1255   return fBParameters->RegionsPhysics();      << 907   return m_regnamesMsc;
1256 }                                                908 }
1257                                                  909 
1258 const std::vector<G4String>& G4EmParameters:: << 910 const std::vector<G4String>& G4EmParameters::TypesMsc() const
1259 {                                                911 {
1260   return fBParameters->TypesPhysics();        << 912   return m_typesMsc;
1261 }                                                913 }
1262                                                  914 
1263 void G4EmParameters::SetSubCutRegion(const G4 << 915 void G4EmParameters::SetSubCutoff(G4bool val, const G4String& region)
1264 {                                                916 {
1265   if(IsLocked()) { return; }                     917   if(IsLocked()) { return; }
1266   fBParameters->SetSubCutRegion(region);      << 918   G4String r = CheckRegion(region);
                                                   >> 919   G4int nreg =  m_regnamesSubCut.size();
                                                   >> 920   for(G4int i=0; i<nreg; ++i) {
                                                   >> 921     if(r == m_regnamesSubCut[i]) { 
                                                   >> 922       m_subCuts[i] = val;
                                                   >> 923       return; 
                                                   >> 924     }
                                                   >> 925   }
                                                   >> 926   m_regnamesSubCut.push_back(r);
                                                   >> 927   m_subCuts.push_back(val);
1267 }                                                928 }
1268                                                  929 
1269 void                                             930 void 
1270 G4EmParameters::SetDeexActiveRegion(const G4S << 931 G4EmParameters::SetDeexActiveRegion(const G4String& region, G4bool fdeex,
1271                                     G4bool aa << 932                                     G4bool fauger, G4bool fpixe)
1272 {                                                933 {
1273   if(IsLocked()) { return; }                     934   if(IsLocked()) { return; }
1274   fCParameters->SetDeexActiveRegion(region, a << 935   if(fdeex) { fluo = true; }
                                                   >> 936   G4String r = CheckRegion(region);
                                                   >> 937   G4int nreg =  m_regnamesDeex.size();
                                                   >> 938   if(0 == nreg && r != "DefaultRegionForTheWorld") {
                                                   >> 939     m_regnamesDeex.push_back("DefaultRegionForTheWorld");
                                                   >> 940     m_fluo.push_back(false);
                                                   >> 941     m_auger.push_back(false);
                                                   >> 942     m_pixe.push_back(false);
                                                   >> 943     nreg = 1;
                                                   >> 944   }
                                                   >> 945   for(G4int i=0; i<nreg; ++i) {
                                                   >> 946     if(r == m_regnamesDeex[i]) { 
                                                   >> 947       m_fluo[i] = fdeex;
                                                   >> 948       m_auger[i]= fauger;
                                                   >> 949       m_pixe[i] = fpixe;
                                                   >> 950       return; 
                                                   >> 951     }
                                                   >> 952   }
                                                   >> 953   m_regnamesDeex.push_back(r);
                                                   >> 954   m_fluo.push_back(fdeex);
                                                   >> 955   m_auger.push_back(fauger);
                                                   >> 956   m_pixe.push_back(fpixe);
1275 }                                                957 }
1276                                                  958 
1277 void                                             959 void 
1278 G4EmParameters::SetProcessBiasingFactor(const    960 G4EmParameters::SetProcessBiasingFactor(const G4String& procname, 
1279                                         G4dou    961                                         G4double val, G4bool wflag)
1280 {                                                962 {
1281   if(IsLocked()) { return; }                     963   if(IsLocked()) { return; }
1282   fBParameters->SetProcessBiasingFactor(procn << 964   if(val > 0.0) {
                                                   >> 965     G4int n =  m_procBiasedXS.size();
                                                   >> 966     for(G4int i=0; i<n; ++i) {
                                                   >> 967       if(procname == m_procBiasedXS[i]) { 
                                                   >> 968   m_factBiasedXS[i] = val;
                                                   >> 969   m_weightBiasedXS[i]= wflag;
                                                   >> 970   return; 
                                                   >> 971       }
                                                   >> 972     }
                                                   >> 973     m_procBiasedXS.push_back(procname);
                                                   >> 974     m_factBiasedXS.push_back(val);
                                                   >> 975     m_weightBiasedXS.push_back(wflag);
                                                   >> 976   } else {
                                                   >> 977     G4ExceptionDescription ed;
                                                   >> 978     ed << "Process: " << procname << " XS biasing factor " 
                                                   >> 979        << val << " is negative - ignored"; 
                                                   >> 980     PrintWarning(ed);
                                                   >> 981   }
1283 }                                                982 }
1284                                                  983 
1285 void                                             984 void 
1286 G4EmParameters::ActivateForcedInteraction(con    985 G4EmParameters::ActivateForcedInteraction(const G4String& procname, 
1287                                           con    986                                           const G4String& region,
1288                                           G4d    987                                           G4double length, 
1289                                           G4b    988                                           G4bool wflag)
1290 {                                                989 {
1291   if(IsLocked() && !gener) { return; }        << 990   if(IsLocked()) { return; }
1292   fBParameters->ActivateForcedInteraction(pro << 991   G4String r = CheckRegion(region);
                                                   >> 992   if(length >= 0.0) {
                                                   >> 993     G4int n =  m_procForced.size();
                                                   >> 994     for(G4int i=0; i<n; ++i) {
                                                   >> 995       if(procname == m_procForced[i] && r == m_regnamesForced[i] ) { 
                                                   >> 996   m_lengthForced[i] = length;
                                                   >> 997   m_weightForced[i]= wflag;
                                                   >> 998   return; 
                                                   >> 999       }
                                                   >> 1000     }
                                                   >> 1001     m_regnamesForced.push_back(r);
                                                   >> 1002     m_procForced.push_back(procname);
                                                   >> 1003     m_lengthForced.push_back(length);
                                                   >> 1004     m_weightForced.push_back(wflag);
                                                   >> 1005   } else {
                                                   >> 1006     G4ExceptionDescription ed;
                                                   >> 1007     ed << "Process: " << procname << " in region " << r
                                                   >> 1008        << " : forced interacttion length= " 
                                                   >> 1009        << length << " is negative - ignored"; 
                                                   >> 1010     PrintWarning(ed);
                                                   >> 1011   }
1293 }                                                1012 }
1294                                                  1013 
1295 void                                             1014 void 
1296 G4EmParameters::ActivateSecondaryBiasing(cons    1015 G4EmParameters::ActivateSecondaryBiasing(const G4String& procname,
1297                                          cons    1016                                          const G4String& region, 
1298                                          G4do    1017                                          G4double factor,
1299                                          G4do << 1018                                          G4double energyLimit)
1300 {                                                1019 {
1301   if(IsLocked()) { return; }                     1020   if(IsLocked()) { return; }
1302   fBParameters->ActivateSecondaryBiasing(proc << 1021   G4String r = CheckRegion(region);
1303 }                                             << 1022   if(factor >= 0.0 && energyLimit >= 0.0) {
1304                                               << 1023     G4int n =  m_procBiasedSec.size();
1305 void G4EmParameters::DefineRegParamForLoss(G4 << 1024     for(G4int i=0; i<n; ++i) {
1306 {                                             << 1025       if(procname == m_procBiasedSec[i] && r == m_regnamesBiasedSec[i] ) { 
1307   fBParameters->DefineRegParamForLoss(ptr);   << 1026   m_factBiasedSec[i] = factor;
                                                   >> 1027   m_elimBiasedSec[i] = energyLimit;
                                                   >> 1028   return; 
                                                   >> 1029       }
                                                   >> 1030     }
                                                   >> 1031     m_regnamesBiasedSec.push_back(r);
                                                   >> 1032     m_procBiasedSec.push_back(procname);
                                                   >> 1033     m_factBiasedSec.push_back(factor);
                                                   >> 1034     m_elimBiasedSec.push_back(energyLimit);
                                                   >> 1035   } else {
                                                   >> 1036     G4ExceptionDescription ed;
                                                   >> 1037     ed << "Process: " << procname << " in region " << r
                                                   >> 1038        << " : secondary bised factor= " 
                                                   >> 1039        << factor << ", Elim= " << energyLimit <<  " - ignored"; 
                                                   >> 1040     PrintWarning(ed);
                                                   >> 1041   }
1308 }                                                1042 }
1309                                                  1043 
1310 void G4EmParameters::DefineRegParamForEM(G4VE << 1044 void G4EmParameters::DefineRegParamForLoss(G4VEnergyLossProcess* ptr, 
                                                   >> 1045                                            G4bool isElectron) const
1311 {                                                1046 {
1312   fBParameters->DefineRegParamForEM(ptr);     << 1047   if(isElectron) { ptr->SetStepFunction(dRoverRange, finalRange, false); }
1313 }                                             << 1048   else { ptr->SetStepFunction(dRoverRangeMuHad, finalRangeMuHad, false); }
1314                                                  1049 
1315 G4bool G4EmParameters::QuantumEntanglement()  << 1050   G4RegionStore* regionStore = G4RegionStore::GetInstance();
1316 {                                             << 1051   G4int n = m_regnamesSubCut.size();
1317   return fBParameters->QuantumEntanglement(); << 1052   for(G4int i=0; i<n; ++i) { 
                                                   >> 1053     const G4Region* reg = regionStore->GetRegion(m_regnamesSubCut[i], false);
                                                   >> 1054     if(reg) { ptr->ActivateSubCutoff(m_subCuts[i], reg); }
                                                   >> 1055   }
                                                   >> 1056   n = m_procBiasedXS.size();
                                                   >> 1057   for(G4int i=0; i<n; ++i) {
                                                   >> 1058     if(ptr->GetProcessName() == m_procBiasedXS[i]) {
                                                   >> 1059       ptr->SetCrossSectionBiasingFactor(m_factBiasedXS[i], 
                                                   >> 1060           m_weightBiasedXS[i]);
                                                   >> 1061       break; 
                                                   >> 1062     }
                                                   >> 1063   }
                                                   >> 1064   n = m_procForced.size();
                                                   >> 1065   for(G4int i=0; i<n; ++i) {
                                                   >> 1066     if(ptr->GetProcessName() == m_procForced[i]) {
                                                   >> 1067       ptr->ActivateForcedInteraction(m_lengthForced[i],
                                                   >> 1068              m_regnamesForced[i],
                                                   >> 1069              m_weightForced[i]);
                                                   >> 1070       break; 
                                                   >> 1071     }
                                                   >> 1072   }
                                                   >> 1073   n = m_procBiasedSec.size();
                                                   >> 1074   for(G4int i=0; i<n; ++i) {
                                                   >> 1075     if(ptr->GetProcessName() == m_procBiasedSec[i]) {
                                                   >> 1076       ptr->ActivateSecondaryBiasing(m_regnamesBiasedSec[i],
                                                   >> 1077             m_factBiasedSec[i], 
                                                   >> 1078             m_elimBiasedSec[i]);
                                                   >> 1079       break; 
                                                   >> 1080     }
                                                   >> 1081   }
1318 }                                                1082 }
1319                                                  1083 
1320 void G4EmParameters::SetQuantumEntanglement(G << 1084 void G4EmParameters::DefineRegParamForEM(G4VEmProcess* ptr) const
1321 {                                                1085 {
1322   if(IsLocked()) { return; }                  << 1086   G4int n = m_procBiasedXS.size();
1323   fBParameters->SetQuantumEntanglement(v);    << 1087   for(G4int i=0; i<n; ++i) {
1324 }                                             << 1088     if(ptr->GetProcessName() == m_procBiasedXS[i]) {
1325                                               << 1089       ptr->SetCrossSectionBiasingFactor(m_factBiasedXS[i], 
1326 G4bool G4EmParameters::GetDirectionalSplittin << 1090           m_weightBiasedXS[i]);
1327   return fBParameters->GetDirectionalSplittin << 1091       break; 
1328 }                                             << 1092     }
1329                                               << 1093   }
1330 void G4EmParameters::SetDirectionalSplitting( << 1094   n = m_procForced.size();
1331 {                                             << 1095   for(G4int i=0; i<n; ++i) {
1332   if(IsLocked()) { return; }                  << 1096     if(ptr->GetProcessName() == m_procForced[i]) {
1333   fBParameters->SetDirectionalSplitting(v);   << 1097       ptr->ActivateForcedInteraction(m_lengthForced[i],
1334 }                                             << 1098              m_regnamesForced[i],
1335                                               << 1099              m_weightForced[i]);
1336 void G4EmParameters::SetDirectionalSplittingT << 1100       break; 
1337 {                                             << 1101     }
1338   if(IsLocked()) { return; }                  << 1102   }
1339   fBParameters->SetDirectionalSplittingTarget << 1103   n = m_procBiasedSec.size();
1340 }                                             << 1104   for(G4int i=0; i<n; ++i) {
1341                                               << 1105     if(ptr->GetProcessName() == m_procBiasedSec[i]) {
1342 G4ThreeVector G4EmParameters::GetDirectionalS << 1106       ptr->ActivateSecondaryBiasing(m_regnamesBiasedSec[i],
1343 {                                             << 1107             m_factBiasedSec[i], 
1344   return fBParameters->GetDirectionalSplittin << 1108             m_elimBiasedSec[i]);
1345 }                                             << 1109       break; 
1346                                               << 1110     }
1347 void G4EmParameters::SetDirectionalSplittingR << 1111   }
1348 {                                             << 
1349   if(IsLocked()) { return; }                  << 
1350   fBParameters->SetDirectionalSplittingRadius << 
1351 }                                             << 
1352                                               << 
1353 G4double G4EmParameters::GetDirectionalSplitt << 
1354 {                                             << 
1355   return fBParameters->GetDirectionalSplittin << 
1356 }                                                1112 }
1357                                                  1113 
1358 void G4EmParameters::DefineRegParamForDeex(G4    1114 void G4EmParameters::DefineRegParamForDeex(G4VAtomDeexcitation* ptr) const
1359 {                                                1115 {
1360   fCParameters->DefineRegParamForDeex(ptr);   << 1116   G4int n = m_regnamesDeex.size();
1361 }                                             << 1117   for(G4int i=0; i<n; ++i) {
1362                                               << 1118     ptr->SetDeexcitationActiveRegion(m_regnamesDeex[i],
1363 const G4String& G4EmParameters::GetDirLEDATA( << 1119              m_fluo[i], m_auger[i], m_pixe[i]);
1364 {                                             << 1120   }
1365   return fDirLEDATA;                          << 
1366 }                                                1121 }
1367                                                  1122 
1368 void G4EmParameters::StreamInfo(std::ostream& << 1123 std::ostream& G4EmParameters::StreamInfo(std::ostream& os) const
1369 {                                                1124 {
1370   G4long prec = os.precision(5);              << 1125   G4int prec = os.precision(5);
1371   os << "====================================    1126   os << "=======================================================================" << "\n";
1372   os << "======                 Electromagnet    1127   os << "======                 Electromagnetic Physics Parameters      ========" << "\n";
1373   os << "====================================    1128   os << "=======================================================================" << "\n";
                                                   >> 1129   os << "Fluctuations of dE/dx are enabled                  " <<lossFluctuation << "\n";
                                                   >> 1130   os << "Build CSDA range enabled                           " <<buildCSDARange << "\n";
1374   os << "LPM effect enabled                      1131   os << "LPM effect enabled                                 " <<flagLPM << "\n";
1375   os << "Enable creation and use of sampling  << 1132   os << "Spline of EM tables enabled                        " <<spline << "\n";
                                                   >> 1133   os << "Use cut as a final range enabled                   " <<finalRange << "\n";
1376   os << "Apply cuts on all EM processes          1134   os << "Apply cuts on all EM processes                     " <<applyCuts << "\n";
1377   const char* transportationWithMsc = "Disabl << 1135   os << "Fluorescence enabled                               " <<fluo << "\n";
1378   if(fTransportationWithMsc == G4Transportati << 1136   os << "Fluorescence Bearden data files enabled            " <<beardenFluoDir << "\n";
1379     transportationWithMsc = "Enabled";        << 1137   os << "Auger electron production enabled                  " <<auger << "\n";
1380   } else if (fTransportationWithMsc == G4Tran << 1138   os << "Auger cascade enabled                              " <<augerCascade << "\n";
1381     transportationWithMsc = "MultipleSteps";  << 1139   os << "PIXE atomic de-excitation enabled                  " <<pixe << "\n";
1382   }                                           << 1140   os << "De-excitation module ignores cuts                  " <<deexIgnoreCut << "\n";
1383   os << "Use combined TransportationWithMsc   << 1141   os << "Msc lateraral displacement for e+- enabled         " <<lateralDisplacement << "\n";
1384   os << "Use general process                  << 1142   os << "Msc lateraral displacement for muons and hadrons   " <<muhadLateralDisplacement << "\n";
1385   os << "Enable linear polarisation for gamma << 1143   os << "Msc lateraral displacement beyond geometry safety  " <<latDisplacementBeyondSafety << "\n";
1386   os << "Enable photoeffect sampling below K- << 1144   os << "Enable angular generator interface                 " 
1387   os << "Enable sampling of quantum entanglem << 1145      <<useAngGeneratorForIonisation << "\n";
1388      <<fBParameters->QuantumEntanglement()  < << 1146   os << "Use Mott correction for e- scattering              " 
1389   os << "X-section factor for integral approa << 1147      <<useMottCorrection << "\n";
                                                   >> 1148   os << "Use integral approach for tracking                 " 
                                                   >> 1149      <<integral << "\n";
                                                   >> 1150   os << "Use built-in Birks satuaration                     " 
                                                   >> 1151      << birks << "\n";
                                                   >> 1152 
                                                   >> 1153   os << "Factor of cut reduction for sub-cutoff method      " <<minSubRange << "\n";
1390   os << "Min kinetic energy for tables           1154   os << "Min kinetic energy for tables                      " 
1391      <<G4BestUnit(minKinEnergy,"Energy") << "    1155      <<G4BestUnit(minKinEnergy,"Energy") << "\n";
1392   os << "Max kinetic energy for tables           1156   os << "Max kinetic energy for tables                      " 
1393      <<G4BestUnit(maxKinEnergy,"Energy") << "    1157      <<G4BestUnit(maxKinEnergy,"Energy") << "\n";
1394   os << "Number of bins per decade of a table << 1158   os << "Max kinetic energy for CSDA tables                 " 
1395   os << "Verbose level                        << 1159      <<G4BestUnit(maxKinEnergyCSDA,"Energy") << "\n";
1396   os << "Verbose level for worker thread      << 
1397   os << "Bremsstrahlung energy threshold abov << 
1398      << "  primary e+- is added to the list o << 
1399      <<G4BestUnit(bremsTh,"Energy") << "\n";  << 
1400   os << "Bremsstrahlung energy threshold abov << 
1401      << "  muon/hadron is added to the list o << 
1402      <<G4BestUnit(bremsMuHadTh,"Energy") << " << 
1403   G4String name3g = "SimplePositronium";      << 
1404   if (fPositronium == fAllisonPositronium) {  << 
1405   else if (fPositronium == fOrePowell) { name << 
1406   else if (fPositronium == fOrePowellPolar) { << 
1407   os << "Positron annihilation at rest model  << 
1408                                               << 
1409   os << "Enable 3 gamma annihilation on fly   << 
1410      << f3GammaAnnihilationOnFly << "\n";     << 
1411   os << "Lowest triplet kinetic energy        << 
1412      <<G4BestUnit(lowestTripletEnergy,"Energy << 
1413   os << "Enable sampling of gamma linear pola << 
1414   os << "5D gamma conversion model type       << 
1415   os << "5D gamma conversion model on isolate << 
1416   if(max5DEnergyForMuPair>0.0) {              << 
1417   os << "5D gamma conversion limit for muon p << 
1418      << max5DEnergyForMuPair/CLHEP::GeV << "  << 
1419   }                                           << 
1420   os << "Use Ricardo-Gerardo pair production  << 
1421      << fUseRiGePairProductionModel << "\n";  << 
1422   os << "Livermore data directory             << 
1423      << fCParameters->LivermoreDataDir() << " << 
1424                                               << 
1425   os << "==================================== << 
1426   os << "======                 Ionisation Pa << 
1427   os << "==================================== << 
1428   os << "Step function for e+-                << 
1429      <<"("<<fBParameters->GetStepFunctionP1() << 
1430      << fBParameters->GetStepFunctionP2()/CLH << 
1431   os << "Step function for muons/hadrons      << 
1432      <<"("<<fBParameters->GetStepFunctionMuHa << 
1433      << fBParameters->GetStepFunctionMuHadP2( << 
1434   os << "Step function for light ions         << 
1435      <<"("<<fBParameters->GetStepFunctionLigh << 
1436      << fBParameters->GetStepFunctionLightIon << 
1437   os << "Step function for general ions       << 
1438      <<"("<<fBParameters->GetStepFunctionIons << 
1439      << fBParameters->GetStepFunctionIonsP2() << 
1440   os << "Lowest e+e- kinetic energy              1160   os << "Lowest e+e- kinetic energy                         " 
1441      <<G4BestUnit(lowestElectronEnergy,"Energ    1161      <<G4BestUnit(lowestElectronEnergy,"Energy") << "\n";
1442   os << "Lowest muon/hadron kinetic energy       1162   os << "Lowest muon/hadron kinetic energy                  " 
1443      <<G4BestUnit(lowestMuHadEnergy,"Energy")    1163      <<G4BestUnit(lowestMuHadEnergy,"Energy") << "\n";
1444   os << "Use ICRU90 data                      << 1164   os << "Linear loss limit " <<linLossLimit << "\n";
1445   os << "Fluctuations of dE/dx are enabled    << 1165   os << "Bremsstrahlung energy threshold above which \n" 
1446   G4String namef = "Universal";               << 1166      << "  primary is added to the list of secondary        " 
1447   if(fFluct == fUrbanFluctuation) { namef = " << 1167      <<G4BestUnit(bremsTh,"Energy") << "\n";
1448   else if(fFluct == fDummyFluctuation) { name << 1168   os << "X-section factor for integral approach             " <<lambdaFactor << "\n";
1449   os << "Type of fluctuation model for lepton << 
1450   os << "Use built-in Birks satuaration       << 
1451   os << "Build CSDA range enabled             << 
1452   os << "Use cut as a final range enabled     << 
1453   os << "Enable angular generator interface   << 
1454      <<useAngGeneratorForIonisation << "\n";  << 
1455   os << "Max kinetic energy for CSDA tables   << 
1456      <<G4BestUnit(maxKinEnergyCSDA,"Energy")  << 
1457   os << "Max kinetic energy for NIEL computat << 
1458      <<G4BestUnit(maxNIELEnergy,"Energy") <<  << 
1459   os << "Linear loss limit                    << 
1460   os << "Read data from file for e+e- pair pr << 
1461                                               << 
1462   os << "==================================== << 
1463   os << "======                 Multiple Scat << 
1464   os << "==================================== << 
1465   os << "Type of msc step limit algorithm for << 
1466   os << "Type of msc step limit algorithm for << 
1467   os << "Msc lateral displacement for e+- ena << 
1468   os << "Msc lateral displacement for muons a << 
1469   os << "Urban msc model lateral displacement << 
1470   os << "Range factor for msc step limit for  << 
1471   os << "Range factor for msc step limit for  << 
1472   os << "Geometry factor for msc step limitat << 
1473   os << "Safety factor for msc step limit for << 
1474   os << "Skin parameter for msc step limitati << 
1475   os << "Lambda limit for msc step limit for  << 
1476   os << "Use Mott correction for e- scatterin << 
1477   os << "Factor used for dynamic computation     1169   os << "Factor used for dynamic computation of angular \n" 
1478      << "  limit between single and multiple     1170      << "  limit between single and multiple scattering     " << factorForAngleLimit << "\n";
1479   os << "Fixed angular limit between single \    1171   os << "Fixed angular limit between single \n"
1480      << "  and multiple scattering               1172      << "  and multiple scattering                          " 
1481      << thetaLimit/CLHEP::rad << " rad\n";    << 1173      <<thetaLimit/rad << " rad" << "\n";
1482   os << "Upper energy limit for e+- multiple  << 1174   os << "Range factor for msc step limit for e+-            " <<rangeFactor << "\n";
1483      << energyLimit/CLHEP::MeV << " MeV\n";   << 1175   os << "Range factor for msc step limit for muons/hadrons  " <<rangeFactorMuHad << "\n";
1484   os << "Type of electron single scattering m << 1176   os << "Geometry factor for msc step limitation of e+-     " <<geomFactor << "\n";
                                                   >> 1177   os << "Skin parameter for msc step limitation of e+-      " <<skin << "\n";
                                                   >> 1178   os << "Step function for e+-                              " <<"("<< dRoverRange
                                                   >> 1179      << ", " << finalRange << " mm)\n";
                                                   >> 1180   os << "Step function for muons/hadrons                    " <<"("<< dRoverRangeMuHad
                                                   >> 1181      << ", " << finalRangeMuHad << " mm)\n";
                                                   >> 1182 
                                                   >> 1183   os << "Number of bins in tables                           " <<nbins   << "\n";
                                                   >> 1184   os << "Number of bins per decade of a table               " <<nbinsPerDecade << "\n";
                                                   >> 1185   os << "Verbose level                                      " <<verbose << "\n";
                                                   >> 1186   os << "Verbose level for worker thread                    " <<workerVerbose << "\n";
                                                   >> 1187 
                                                   >> 1188   os << "Type of msc step limit algorithm for e+-           " <<mscStepLimit << "\n";
                                                   >> 1189   os << "Type of msc step limit algorithm for muons/hadrons " <<mscStepLimitMuHad << "\n";
1485   os << "Type of nuclear form-factor             1190   os << "Type of nuclear form-factor                        " <<nucFormfactor << "\n";
1486   os << "Screening factor                     << 
1487   os << "==================================== << 
1488                                                  1191 
1489   if(fCParameters->Fluo()) {                  << 1192   os << "Type of PIXE cross section for hadrons             " <<namePIXE << "\n";
1490   os << "======                 Atomic Deexci << 1193   os << "Type of PIXE cross section for e+-                 " <<nameElectronPIXE << "\n";
1491   os << "==================================== << 
1492   os << "Fluorescence enabled                 << 
1493   G4String named = "fluor";                   << 
1494   G4EmFluoDirectory fdir = FluoDirectory();   << 
1495   if(fdir == fluoBearden) { named = "fluor_Be << 
1496   else if(fdir == fluoANSTO) { named = "fluor << 
1497   else if(fdir == fluoXDB_EADL) { named = "fl << 
1498   os << "Directory in G4LEDATA for fluorescen << 
1499   os << "Auger electron cascade enabled       << 
1500      <<fCParameters->Auger() << "\n";         << 
1501   os << "PIXE atomic de-excitation enabled    << 
1502   os << "De-excitation module ignores cuts    << 
1503      <<fCParameters->DeexcitationIgnoreCut()  << 
1504   os << "Type of PIXE cross section for hadro << 
1505      <<fCParameters->PIXECrossSectionModel()  << 
1506   os << "Type of PIXE cross section for e+-   << 
1507      <<fCParameters->PIXEElectronCrossSection << 
1508   os << "====================================    1194   os << "=======================================================================" << "\n";
1509   }                                           << 
1510   if(fDNA) {                                  << 
1511   os << "======                 DNA Physics P << 
1512   os << "==================================== << 
1513   os << "Use fast sampling in DNA models      << 
1514      << fCParameters->DNAFast() << "\n";      << 
1515   os << "Use Stationary option in DNA models  << 
1516      << fCParameters->DNAStationary() << "\n" << 
1517   os << "Use DNA with multiple scattering of  << 
1518      << fCParameters->DNAElectronMsc() << "\n << 
1519   os << "Use DNA e- solvation model type      << 
1520      << fCParameters->DNAeSolvationSubType()  << 
1521   auto chemModel = fCParameters->GetChemTimeS << 
1522   if(fCParameters->GetChemTimeStepModel() !=  << 
1523   {                                           << 
1524     std::vector<G4String> ChemModel{"Unknown" << 
1525     os << "Use DNA Chemistry model            << 
1526        << ChemModel.at((std::size_t)chemModel << 
1527   }                                           << 
1528   os << "==================================== << 
1529   }                                           << 
1530   os.precision(prec);                            1195   os.precision(prec);
                                                   >> 1196   return os;
1531 }                                                1197 }
1532                                                  1198 
1533 void G4EmParameters::Dump()                   << 1199 void G4EmParameters::Dump() const
1534 {                                                1200 {
1535   if(fIsPrinted) return;                      << 
1536                                               << 
1537 #ifdef G4MULTITHREADED                        << 
1538   G4MUTEXLOCK(&emParametersMutex);            << 
1539 #endif                                        << 
1540   StreamInfo(G4cout);                            1201   StreamInfo(G4cout);
1541 #ifdef G4MULTITHREADED                        << 
1542   G4MUTEXUNLOCK(&emParametersMutex);          << 
1543 #endif                                        << 
1544 }                                                1202 }
1545                                                  1203 
1546 std::ostream& operator<< (std::ostream& os, c    1204 std::ostream& operator<< (std::ostream& os, const G4EmParameters& par)
1547 {                                                1205 {
1548   par.StreamInfo(os);                         << 1206   return par.StreamInfo(os);
1549   return os;                                  << 
1550 }                                                1207 }
1551                                                  1208 
1552 G4bool G4EmParameters::IsLocked() const          1209 G4bool G4EmParameters::IsLocked() const
1553 {                                                1210 {
1554   return (!G4Threading::IsMasterThread() ||      1211   return (!G4Threading::IsMasterThread() ||
1555     (fStateManager->GetCurrentState() != G4St    1212     (fStateManager->GetCurrentState() != G4State_PreInit &&
1556            fStateManager->GetCurrentState() ! << 1213      fStateManager->GetCurrentState() != G4State_Init &&
1557      fStateManager->GetCurrentState() != G4St    1214      fStateManager->GetCurrentState() != G4State_Idle));
1558 }                                                1215 }
1559                                                  1216 
1560                                               << 
1561 void G4EmParameters::SetTimeStepModel(const G << 
1562 {                                             << 
1563   fCParameters-> SetChemTimeStepModel(model); << 
1564 }                                             << 
1565                                               << 
1566 G4ChemTimeStepModel G4EmParameters::GetTimeSt << 
1567 {                                             << 
1568   return fCParameters->GetChemTimeStepModel() << 
1569 }                                             << 
1570 //....oooOO0OOooo........oooOO0OOooo........o    1217 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo.....
                                                   >> 1218 
1571                                                  1219