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Geant4/processes/electromagnetic/utils/src/G4EnergyLossTables.cc

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Differences between /processes/electromagnetic/utils/src/G4EnergyLossTables.cc (Version 11.3.0) and /processes/electromagnetic/utils/src/G4EnergyLossTables.cc (Version 3.1)


                                                   >>   1 // This code implementation is the intellectual property of
                                                   >>   2 // the GEANT4 collaboration.
                                                   >>   3 //  
                                                   >>   4 // By copying, distributing or modifying the Program (or any work
                                                   >>   5 // based on the Program) you indicate your acceptance of this statement,
                                                   >>   6 // and all its terms.
  1 //                                                  7 //
  2 // ******************************************* <<   8 // $Id: G4EnergyLossTables.cc,v 1.13 2000/11/04 16:47:29 maire Exp $
  3 // * License and Disclaimer                    <<   9 // GEANT4 tag $Name: geant4-03-01 $
  4 // *                                           << 
  5 // * The  Geant4 software  is  copyright of th << 
  6 // * the Geant4 Collaboration.  It is provided << 
  7 // * conditions of the Geant4 Software License << 
  8 // * LICENSE and available at  http://cern.ch/ << 
  9 // * include a list of copyright holders.      << 
 10 // *                                           << 
 11 // * Neither the authors of this software syst << 
 12 // * institutes,nor the agencies providing fin << 
 13 // * work  make  any representation or  warran << 
 14 // * regarding  this  software system or assum << 
 15 // * use.  Please see the license in the file  << 
 16 // * for the full disclaimer and the limitatio << 
 17 // *                                           << 
 18 // * This  code  implementation is the result  << 
 19 // * technical work of the GEANT4 collaboratio << 
 20 // * By using,  copying,  modifying or  distri << 
 21 // * any work based  on the software)  you  ag << 
 22 // * use  in  resulting  scientific  publicati << 
 23 // * acceptance of all terms of the Geant4 Sof << 
 24 // ******************************************* << 
 25 //                                                 10 //
 26 //                                             <<  11 // ------------------------------------------------------------------- 
 27 //                                             << 
 28 // ------------------------------------------- << 
 29 // first version created by P.Urban , 06/04/19     12 // first version created by P.Urban , 06/04/1998
 30 // modifications + "precise" functions added b     13 // modifications + "precise" functions added by L.Urban , 27/05/98
 31 // modifications , TOF functions , 26/10/98, L     14 // modifications , TOF functions , 26/10/98, L.Urban
 32 // cache mechanism in order to gain time, 11/0     15 // cache mechanism in order to gain time, 11/02/99, L.Urban
 33 // bug fixed , 12/04/99 , L.Urban                  16 // bug fixed , 12/04/99 , L.Urban
 34 // 10.11.99: moved from RWT hash dictionary to <<  17 // 10/11/99: moved from RWT hash dictionary to STL map, G.Barrand, M.Maire
 35 // 27.09.01 L.Urban , bug fixed (negative ener << 
 36 // 26.10.01 all static functions moved from .i << 
 37 // 15.01.03 Add interfaces required for "cut p << 
 38 // 12.03.03 Add warnings to obsolete interface << 
 39 // 10.04.03 Add call to G4LossTableManager is  << 
 40 //                                             << 
 41 // -------------------------------------------     18 // -------------------------------------------------------------------
 42                                                    19 
 43 #include "G4EnergyLossTables.hh"                   20 #include "G4EnergyLossTables.hh"
 44 #include "G4SystemOfUnits.hh"                  << 
 45 #include "G4MaterialCutsCouple.hh"             << 
 46 #include "G4RegionStore.hh"                    << 
 47 #include "G4LossTableManager.hh"               << 
 48                                                << 
 49                                                    21 
 50 //....oooOO0OOooo........oooOO0OOooo........oo     22 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo......
 51                                                    23 
 52 G4EnergyLossTablesHelper *G4EnergyLossTables:: <<  24 G4EnergyLossTablesHelper G4EnergyLossTables::t  ;
 53 G4EnergyLossTablesHelper *G4EnergyLossTables:: <<  25 const G4ParticleDefinition* G4EnergyLossTables::lastParticle = NULL ; 
 54 G4ParticleDefinition* G4EnergyLossTables::last <<  26 G4double G4EnergyLossTables::QQPositron = eplus*eplus ;
 55 G4double G4EnergyLossTables::QQPositron = 1.0; << 
 56 G4double G4EnergyLossTables::Chargesquare ;        27 G4double G4EnergyLossTables::Chargesquare ;
 57 G4int    G4EnergyLossTables::oldIndex = -1 ;       28 G4int    G4EnergyLossTables::oldIndex = -1 ;
 58 G4double G4EnergyLossTables::rmin = 0. ;           29 G4double G4EnergyLossTables::rmin = 0. ;
 59 G4double G4EnergyLossTables::rmax = 0. ;           30 G4double G4EnergyLossTables::rmax = 0. ;
 60 G4double G4EnergyLossTables::Thigh = 0. ;          31 G4double G4EnergyLossTables::Thigh = 0. ;
 61 G4int    G4EnergyLossTables::let_counter = 0;  << 
 62 G4int    G4EnergyLossTables::let_max_num_warni << 
 63 G4bool   G4EnergyLossTables::first_loss = true << 
 64                                                << 
 65 G4EnergyLossTables::helper_map *G4EnergyLossTa << 
 66                                                << 
 67 //....oooOO0OOooo........oooOO0OOooo........oo << 
 68                                                    32 
 69 G4EnergyLossTablesHelper::G4EnergyLossTablesHe <<  33 G4EnergyLossTables::helper_map G4EnergyLossTables::dict;
 70   const G4PhysicsTable* aDEDXTable,            << 
 71   const G4PhysicsTable* aRangeTable,           << 
 72   const G4PhysicsTable* anInverseRangeTable,   << 
 73   const G4PhysicsTable* aLabTimeTable,         << 
 74   const G4PhysicsTable* aProperTimeTable,      << 
 75   G4double aLowestKineticEnergy,               << 
 76   G4double aHighestKineticEnergy,              << 
 77   G4double aMassRatio,                         << 
 78   G4int aNumberOfBins)                         << 
 79   :                                            << 
 80   theDEDXTable(aDEDXTable), theRangeTable(aRan << 
 81   theInverseRangeTable(anInverseRangeTable),   << 
 82   theLabTimeTable(aLabTimeTable),              << 
 83   theProperTimeTable(aProperTimeTable),        << 
 84   theLowestKineticEnergy(aLowestKineticEnergy) << 
 85   theHighestKineticEnergy(aHighestKineticEnerg << 
 86   theMassRatio(aMassRatio),                    << 
 87   theNumberOfBins(aNumberOfBins)               << 
 88 { }                                            << 
 89                                                << 
 90 //....oooOO0OOooo........oooOO0OOooo........oo << 
 91                                                << 
 92 G4EnergyLossTablesHelper::G4EnergyLossTablesHe << 
 93 {                                              << 
 94   theLowestKineticEnergy = 0.0;                << 
 95   theHighestKineticEnergy= 0.0;                << 
 96   theMassRatio = 0.0;                          << 
 97   theNumberOfBins = 0;                         << 
 98   theDEDXTable = theRangeTable = theInverseRan << 
 99     = theProperTimeTable = nullptr;            << 
100 }                                              << 
101                                                    34 
102 //....oooOO0OOooo........oooOO0OOooo........oo     35 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo......
103                                                    36 
104 void G4EnergyLossTables::Register(                 37 void G4EnergyLossTables::Register(
105   const G4ParticleDefinition* p,                   38   const G4ParticleDefinition* p,
106   const G4PhysicsTable* tDEDX,                     39   const G4PhysicsTable* tDEDX,
107   const G4PhysicsTable* tRange,                    40   const G4PhysicsTable* tRange,
108   const G4PhysicsTable* tInverseRange,             41   const G4PhysicsTable* tInverseRange,
109   const G4PhysicsTable* tLabTime,                  42   const G4PhysicsTable* tLabTime,
110   const G4PhysicsTable* tProperTime,               43   const G4PhysicsTable* tProperTime,
111   G4double lowestKineticEnergy,                    44   G4double lowestKineticEnergy,
112   G4double highestKineticEnergy,                   45   G4double highestKineticEnergy,
113   G4double massRatio,                              46   G4double massRatio,
114   G4int NumberOfBins)                              47   G4int NumberOfBins)
115 {                                                  48 {
116   if (!dict) dict = new G4EnergyLossTables::he <<  49   dict[p]= G4EnergyLossTablesHelper(tDEDX, tRange,tInverseRange,
117   if (!null_loss) null_loss = new G4EnergyLoss << 
118   if (!t) t = new G4EnergyLossTablesHelper;    << 
119                                                << 
120   (*dict)[p]= G4EnergyLossTablesHelper(tDEDX,  << 
121                     tLabTime,tProperTime,lowes     50                     tLabTime,tProperTime,lowestKineticEnergy,
122         highestKineticEnergy, massRatio,Number     51         highestKineticEnergy, massRatio,NumberOfBins);
123                                                <<  52            
124   *t = GetTables(p) ;    // important for cach <<  53   t = GetTables(p) ;    // important for cache !!!!!
125   lastParticle = (G4ParticleDefinition*) p ;   <<  54   lastParticle = p ;
126   Chargesquare = (p->GetPDGCharge())*(p->GetPD     55   Chargesquare = (p->GetPDGCharge())*(p->GetPDGCharge())/
127                   QQPositron ;                     56                   QQPositron ;
128   if (first_loss ) {                           << 
129     *null_loss = G4EnergyLossTablesHelper(     << 
130                  nullptr, nullptr, nullptr, nu << 
131     first_loss = false;                        << 
132   }                                            << 
133 }                                              << 
134                                                << 
135 //....oooOO0OOooo........oooOO0OOooo........oo << 
136                                                << 
137 const G4PhysicsTable* G4EnergyLossTables::GetD << 
138   const G4ParticleDefinition* p)               << 
139 {                                              << 
140   if (!dict) dict = new G4EnergyLossTables::he << 
141   helper_map::iterator it;                     << 
142   if((it=dict->find(p))==dict->end()) return n << 
143   return (*it).second.theDEDXTable;            << 
144 }                                              << 
145                                                << 
146 //....oooOO0OOooo........oooOO0OOooo........oo << 
147                                                << 
148 const G4PhysicsTable* G4EnergyLossTables::GetR << 
149   const G4ParticleDefinition* p)               << 
150 {                                              << 
151   if (!dict) dict = new G4EnergyLossTables::he << 
152   helper_map::iterator it;                     << 
153   if((it=dict->find(p))==dict->end()) return n << 
154   return (*it).second.theRangeTable;           << 
155 }                                              << 
156                                                << 
157 //....oooOO0OOooo........oooOO0OOooo........oo << 
158                                                << 
159 const G4PhysicsTable* G4EnergyLossTables::GetI << 
160   const G4ParticleDefinition* p)               << 
161 {                                              << 
162   if (!dict) dict = new G4EnergyLossTables::he << 
163   helper_map::iterator it;                     << 
164   if((it=dict->find(p))==dict->end()) return n << 
165   return (*it).second.theInverseRangeTable;    << 
166 }                                              << 
167                                                << 
168 //....oooOO0OOooo........oooOO0OOooo........oo << 
169                                                << 
170 const G4PhysicsTable* G4EnergyLossTables::GetL << 
171   const G4ParticleDefinition* p)               << 
172 {                                              << 
173   if (!dict) dict = new G4EnergyLossTables::he << 
174   helper_map::iterator it;                     << 
175   if((it=dict->find(p))==dict->end()) return n << 
176   return (*it).second.theLabTimeTable;         << 
177 }                                              << 
178                                                << 
179 //....oooOO0OOooo........oooOO0OOooo........oo << 
180                                                << 
181 const G4PhysicsTable* G4EnergyLossTables::GetP << 
182   const G4ParticleDefinition* p)               << 
183 {                                              << 
184   if (!dict) dict = new G4EnergyLossTables::he << 
185   helper_map::iterator it;                     << 
186   if((it=dict->find(p))==dict->end()) return n << 
187   return (*it).second.theProperTimeTable;      << 
188 }                                              << 
189                                                << 
190 //....oooOO0OOooo........oooOO0OOooo........oo << 
191                                                << 
192 G4EnergyLossTablesHelper G4EnergyLossTables::G << 
193   const G4ParticleDefinition* p)               << 
194 {                                              << 
195   if (!dict) dict = new G4EnergyLossTables::he << 
196   if (!null_loss) null_loss = new G4EnergyLoss << 
197                                                << 
198   helper_map::iterator it;                     << 
199   if ((it=dict->find(p))==dict->end()) {       << 
200     return *null_loss;                         << 
201   }                                            << 
202   return (*it).second;                         << 
203 }                                              << 
204                                                << 
205 //....oooOO0OOooo........oooOO0OOooo........oo << 
206                                                << 
207 G4double G4EnergyLossTables::GetDEDX(          << 
208     const G4ParticleDefinition *aParticle,     << 
209     G4double KineticEnergy,                    << 
210     const G4Material *aMaterial)               << 
211 {                                              << 
212   if (!t) t = new G4EnergyLossTablesHelper;    << 
213                                                << 
214   CPRWarning();                                << 
215   if(aParticle != (const G4ParticleDefinition* << 
216   {                                            << 
217     *t= GetTables(aParticle);                  << 
218     lastParticle = (G4ParticleDefinition*) aPa << 
219     Chargesquare = (aParticle->GetPDGCharge()) << 
220                    (aParticle->GetPDGCharge()) << 
221                    QQPositron ;                << 
222     oldIndex = -1 ;                            << 
223   }                                            << 
224   const G4PhysicsTable*  dEdxTable= t->theDEDX << 
225   if (!dEdxTable) {                            << 
226     ParticleHaveNoLoss(aParticle,"dEdx");      << 
227     return 0.0;                                << 
228   }                                            << 
229                                                << 
230   G4int materialIndex = (G4int)aMaterial->GetI << 
231   G4double scaledKineticEnergy = KineticEnergy << 
232   G4double dEdx;                               << 
233   G4bool isOut;                                << 
234                                                << 
235   if (scaledKineticEnergy<t->theLowestKineticE << 
236                                                << 
237      dEdx =(*dEdxTable)(materialIndex)->GetVal << 
238               t->theLowestKineticEnergy,isOut) << 
239            *std::sqrt(scaledKineticEnergy/t->t << 
240                                                << 
241   } else if (scaledKineticEnergy>t->theHighest << 
242                                                << 
243      dEdx = (*dEdxTable)(materialIndex)->GetVa << 
244         t->theHighestKineticEnergy,isOut);     << 
245                                                << 
246   } else {                                     << 
247                                                << 
248     dEdx = (*dEdxTable)(materialIndex)->GetVal << 
249          scaledKineticEnergy,isOut);           << 
250                                                << 
251   }                                            << 
252                                                << 
253   return dEdx*Chargesquare;                    << 
254 }                                              << 
255                                                << 
256 //....oooOO0OOooo........oooOO0OOooo........oo << 
257                                                << 
258 G4double G4EnergyLossTables::GetLabTime(       << 
259     const G4ParticleDefinition *aParticle,     << 
260     G4double KineticEnergy,                    << 
261     const G4Material *aMaterial)               << 
262 {                                              << 
263   if (!t) t = new G4EnergyLossTablesHelper;    << 
264                                                << 
265   CPRWarning();                                << 
266   if(aParticle != (const G4ParticleDefinition* << 
267   {                                            << 
268     *t= GetTables(aParticle);                  << 
269     lastParticle = (G4ParticleDefinition*) aPa << 
270     oldIndex = -1 ;                            << 
271   }                                            << 
272   const G4PhysicsTable* labtimeTable= t->theLa << 
273   if (!labtimeTable) {                         << 
274     ParticleHaveNoLoss(aParticle,"LabTime");   << 
275     return 0.0;                                << 
276   }                                            << 
277                                                << 
278   const G4double parlowen=0.4 , ppar=0.5-parlo << 
279   G4int materialIndex = (G4int)aMaterial->GetI << 
280   G4double scaledKineticEnergy = KineticEnergy << 
281   G4double time;                               << 
282   G4bool isOut;                                << 
283                                                << 
284   if (scaledKineticEnergy<t->theLowestKineticE << 
285                                                << 
286      time = std::exp(ppar*std::log(scaledKinet << 
287             (*labtimeTable)(materialIndex)->Ge << 
288               t->theLowestKineticEnergy,isOut) << 
289                                                << 
290                                                << 
291   } else if (scaledKineticEnergy>t->theHighest << 
292                                                << 
293      time = (*labtimeTable)(materialIndex)->Ge << 
294               t->theHighestKineticEnergy,isOut << 
295                                                << 
296   } else {                                     << 
297                                                << 
298     time = (*labtimeTable)(materialIndex)->Get << 
299                scaledKineticEnergy,isOut);     << 
300                                                << 
301   }                                            << 
302                                                << 
303   return time/t->theMassRatio ;                << 
304 }                                              << 
305                                                << 
306 //....oooOO0OOooo........oooOO0OOooo........oo << 
307                                                << 
308 G4double G4EnergyLossTables::GetDeltaLabTime(  << 
309     const G4ParticleDefinition *aParticle,     << 
310     G4double KineticEnergyStart,               << 
311     G4double KineticEnergyEnd,                 << 
312     const G4Material *aMaterial)               << 
313 {                                              << 
314   if (!t) t = new G4EnergyLossTablesHelper;    << 
315                                                << 
316   CPRWarning();                                << 
317   if(aParticle != (const G4ParticleDefinition* << 
318   {                                            << 
319     *t= GetTables(aParticle);                  << 
320     lastParticle = (G4ParticleDefinition*) aPa << 
321     oldIndex = -1 ;                            << 
322   }                                            << 
323   const G4PhysicsTable* labtimeTable= t->theLa << 
324   if (!labtimeTable) {                         << 
325     ParticleHaveNoLoss(aParticle,"LabTime");   << 
326     return 0.0;                                << 
327   }                                            << 
328                                                << 
329   const G4double parlowen=0.4 , ppar=0.5-parlo << 
330   const G4double dToverT = 0.05 , facT = 1. -d << 
331   G4double timestart,timeend,deltatime,dTT;    << 
332   G4bool isOut;                                << 
333                                                << 
334   G4int materialIndex = (G4int)aMaterial->GetI << 
335   G4double scaledKineticEnergy = KineticEnergy << 
336                                                << 
337   if (scaledKineticEnergy<t->theLowestKineticE << 
338                                                << 
339      timestart = std::exp(ppar*std::log(scaled << 
340                 (*labtimeTable)(materialIndex) << 
341                 t->theLowestKineticEnergy,isOu << 
342                                                << 
343                                                << 
344   } else if (scaledKineticEnergy>t->theHighest << 
345                                                << 
346      timestart = (*labtimeTable)(materialIndex << 
347                 t->theHighestKineticEnergy,isO << 
348                                                << 
349   } else {                                     << 
350                                                << 
351     timestart = (*labtimeTable)(materialIndex) << 
352                 scaledKineticEnergy,isOut);    << 
353                                                << 
354   }                                            << 
355                                                << 
356   dTT = (KineticEnergyStart - KineticEnergyEnd << 
357                                                << 
358   if( dTT < dToverT )                          << 
359     scaledKineticEnergy = facT*KineticEnergySt << 
360   else                                         << 
361     scaledKineticEnergy = KineticEnergyEnd*t-> << 
362                                                << 
363   if (scaledKineticEnergy<t->theLowestKineticE << 
364                                                << 
365      timeend = std::exp(ppar*std::log(scaledKi << 
366                 (*labtimeTable)(materialIndex) << 
367                 t->theLowestKineticEnergy,isOu << 
368                                                << 
369                                                << 
370   } else if (scaledKineticEnergy>t->theHighest << 
371                                                << 
372      timeend = (*labtimeTable)(materialIndex)- << 
373                 t->theHighestKineticEnergy,isO << 
374                                                << 
375   } else {                                     << 
376                                                << 
377     timeend = (*labtimeTable)(materialIndex)-> << 
378                 scaledKineticEnergy,isOut);    << 
379                                                << 
380   }                                            << 
381                                                << 
382   deltatime = timestart - timeend ;            << 
383                                                << 
384   if( dTT < dToverT )                          << 
385     deltatime *= dTT/dToverT;                  << 
386                                                << 
387   return deltatime/t->theMassRatio ;           << 
388 }                                              << 
389                                                << 
390 //....oooOO0OOooo........oooOO0OOooo........oo << 
391                                                << 
392 G4double G4EnergyLossTables::GetProperTime(    << 
393     const G4ParticleDefinition *aParticle,     << 
394     G4double KineticEnergy,                    << 
395     const G4Material *aMaterial)               << 
396 {                                              << 
397   if (!t) t = new G4EnergyLossTablesHelper;    << 
398                                                << 
399   CPRWarning();                                << 
400   if(aParticle != (const G4ParticleDefinition* << 
401   {                                            << 
402     *t= GetTables(aParticle);                  << 
403     lastParticle = (G4ParticleDefinition*) aPa << 
404     oldIndex = -1 ;                            << 
405   }                                            << 
406   const G4PhysicsTable* propertimeTable= t->th << 
407   if (!propertimeTable) {                      << 
408     ParticleHaveNoLoss(aParticle,"ProperTime") << 
409     return 0.0;                                << 
410   }                                            << 
411                                                << 
412   const G4double parlowen=0.4 , ppar=0.5-parlo << 
413   G4int materialIndex = (G4int)aMaterial->GetI << 
414   G4double scaledKineticEnergy = KineticEnergy << 
415   G4double time;                               << 
416   G4bool isOut;                                << 
417                                                << 
418   if (scaledKineticEnergy<t->theLowestKineticE << 
419                                                << 
420      time = std::exp(ppar*std::log(scaledKinet << 
421             (*propertimeTable)(materialIndex)- << 
422               t->theLowestKineticEnergy,isOut) << 
423                                                << 
424                                                << 
425   } else if (scaledKineticEnergy>t->theHighest << 
426                                                << 
427      time = (*propertimeTable)(materialIndex)- << 
428               t->theHighestKineticEnergy,isOut << 
429                                                << 
430   } else {                                     << 
431                                                << 
432     time = (*propertimeTable)(materialIndex)-> << 
433                scaledKineticEnergy,isOut);     << 
434                                                << 
435   }                                            << 
436                                                << 
437   return time/t->theMassRatio ;                << 
438 }                                              << 
439                                                << 
440 //....oooOO0OOooo........oooOO0OOooo........oo << 
441                                                << 
442 G4double G4EnergyLossTables::GetDeltaProperTim << 
443     const G4ParticleDefinition *aParticle,     << 
444     G4double KineticEnergyStart,               << 
445     G4double KineticEnergyEnd,                 << 
446     const G4Material *aMaterial)               << 
447 {                                              << 
448   if (!t) t = new G4EnergyLossTablesHelper;    << 
449                                                << 
450   CPRWarning();                                << 
451   if(aParticle != (const G4ParticleDefinition* << 
452   {                                            << 
453     *t= GetTables(aParticle);                  << 
454     lastParticle = (G4ParticleDefinition*) aPa << 
455     oldIndex = -1 ;                            << 
456   }                                            << 
457   const G4PhysicsTable* propertimeTable= t->th << 
458   if (!propertimeTable) {                      << 
459     ParticleHaveNoLoss(aParticle,"ProperTime") << 
460     return 0.0;                                << 
461   }                                            << 
462                                                << 
463   const G4double parlowen=0.4 , ppar=0.5-parlo << 
464   const G4double dToverT = 0.05 , facT = 1. -d << 
465   G4double timestart,timeend,deltatime,dTT;    << 
466   G4bool isOut;                                << 
467                                                << 
468   G4int materialIndex = (G4int)aMaterial->GetI << 
469   G4double scaledKineticEnergy = KineticEnergy << 
470                                                << 
471   if (scaledKineticEnergy<t->theLowestKineticE << 
472                                                << 
473      timestart = std::exp(ppar*std::log(scaled << 
474                 (*propertimeTable)(materialInd << 
475                 t->theLowestKineticEnergy,isOu << 
476                                                << 
477                                                << 
478   } else if (scaledKineticEnergy>t->theHighest << 
479                                                << 
480      timestart = (*propertimeTable)(materialIn << 
481                 t->theHighestKineticEnergy,isO << 
482                                                << 
483   } else {                                     << 
484                                                << 
485     timestart = (*propertimeTable)(materialInd << 
486                 scaledKineticEnergy,isOut);    << 
487                                                << 
488   }                                            << 
489                                                << 
490   dTT = (KineticEnergyStart - KineticEnergyEnd << 
491                                                << 
492   if( dTT < dToverT )                          << 
493     scaledKineticEnergy = facT*KineticEnergySt << 
494   else                                         << 
495     scaledKineticEnergy = KineticEnergyEnd*t-> << 
496                                                << 
497   if (scaledKineticEnergy<t->theLowestKineticE << 
498                                                << 
499      timeend = std::exp(ppar*std::log(scaledKi << 
500                 (*propertimeTable)(materialInd << 
501                 t->theLowestKineticEnergy,isOu << 
502                                                << 
503                                                << 
504   } else if (scaledKineticEnergy>t->theHighest << 
505                                                << 
506      timeend = (*propertimeTable)(materialInde << 
507                 t->theHighestKineticEnergy,isO << 
508                                                << 
509   } else {                                     << 
510                                                << 
511     timeend = (*propertimeTable)(materialIndex << 
512                 scaledKineticEnergy,isOut);    << 
513                                                << 
514   }                                            << 
515                                                << 
516   deltatime = timestart - timeend ;            << 
517                                                << 
518   if( dTT < dToverT )                          << 
519     deltatime *= dTT/dToverT ;                 << 
520                                                << 
521   return deltatime/t->theMassRatio ;           << 
522 }                                              << 
523                                                << 
524 //....oooOO0OOooo........oooOO0OOooo........oo << 
525                                                << 
526 G4double G4EnergyLossTables::GetRange(         << 
527     const G4ParticleDefinition *aParticle,     << 
528     G4double KineticEnergy,                    << 
529     const G4Material *aMaterial)               << 
530 {                                              << 
531   if (!t) t = new G4EnergyLossTablesHelper;    << 
532                                                << 
533   CPRWarning();                                << 
534   if(aParticle != (const G4ParticleDefinition* << 
535   {                                            << 
536     *t= GetTables(aParticle);                  << 
537     lastParticle = (G4ParticleDefinition*) aPa << 
538     Chargesquare = (aParticle->GetPDGCharge()) << 
539                    (aParticle->GetPDGCharge()) << 
540                     QQPositron ;               << 
541     oldIndex = -1 ;                            << 
542   }                                            << 
543   const G4PhysicsTable* rangeTable= t->theRang << 
544   const G4PhysicsTable*  dEdxTable= t->theDEDX << 
545   if (!rangeTable) {                           << 
546     ParticleHaveNoLoss(aParticle,"Range");     << 
547     return 0.0;                                << 
548   }                                            << 
549                                                << 
550   G4int materialIndex = (G4int)aMaterial->GetI << 
551   G4double scaledKineticEnergy = KineticEnergy << 
552   G4double Range;                              << 
553   G4bool isOut;                                << 
554                                                << 
555   if (scaledKineticEnergy<t->theLowestKineticE << 
556                                                << 
557     Range = std::sqrt(scaledKineticEnergy/t->t << 
558             (*rangeTable)(materialIndex)->GetV << 
559               t->theLowestKineticEnergy,isOut) << 
560                                                << 
561   } else if (scaledKineticEnergy>t->theHighest << 
562                                                << 
563     Range = (*rangeTable)(materialIndex)->GetV << 
564         t->theHighestKineticEnergy,isOut)+     << 
565             (scaledKineticEnergy-t->theHighest << 
566             (*dEdxTable)(materialIndex)->GetVa << 
567               t->theHighestKineticEnergy,isOut << 
568                                                << 
569   } else {                                     << 
570                                                << 
571     Range = (*rangeTable)(materialIndex)->GetV << 
572          scaledKineticEnergy,isOut);           << 
573                                                << 
574   }                                            << 
575                                                << 
576   return Range/(Chargesquare*t->theMassRatio); << 
577 }                                              << 
578                                                << 
579 //....oooOO0OOooo........oooOO0OOooo........oo << 
580                                                << 
581 G4double G4EnergyLossTables::GetPreciseEnergyF << 
582                                      const G4P << 
583                                            G4d << 
584                                      const G4M << 
585 // it returns the value of the kinetic energy  << 
586 {                                              << 
587   if (!t) t = new G4EnergyLossTablesHelper;    << 
588                                                << 
589   CPRWarning();                                << 
590   if( aParticle != (const G4ParticleDefinition << 
591   {                                            << 
592     *t= GetTables(aParticle);                  << 
593     lastParticle = (G4ParticleDefinition*) aPa << 
594     Chargesquare = (aParticle->GetPDGCharge()) << 
595                    (aParticle->GetPDGCharge()) << 
596                     QQPositron ;               << 
597     oldIndex = -1 ;                            << 
598   }                                            << 
599   const G4PhysicsTable*  dEdxTable= t->theDEDX << 
600   const G4PhysicsTable*  inverseRangeTable= t- << 
601   if (!inverseRangeTable) {                    << 
602     ParticleHaveNoLoss(aParticle,"InverseRange << 
603     return 0.0;                                << 
604   }                                            << 
605                                                << 
606   G4double scaledrange,scaledKineticEnergy ;   << 
607   G4bool isOut ;                               << 
608                                                << 
609   G4int materialIndex = (G4int)aMaterial->GetI << 
610                                                << 
611   if(materialIndex != oldIndex)                << 
612   {                                            << 
613     oldIndex = materialIndex ;                 << 
614     rmin = (*inverseRangeTable)(materialIndex) << 
615                               GetLowEdgeEnergy << 
616     rmax = (*inverseRangeTable)(materialIndex) << 
617                    GetLowEdgeEnergy(t->theNumb << 
618     Thigh = (*inverseRangeTable)(materialIndex << 
619                               GetValue(rmax,is << 
620   }                                            << 
621                                                << 
622   scaledrange = range*Chargesquare*t->theMassR << 
623                                                << 
624   if(scaledrange < rmin)                       << 
625   {                                            << 
626     scaledKineticEnergy = t->theLowestKineticE << 
627                    scaledrange*scaledrange/(rm << 
628   }                                            << 
629   else                                         << 
630   {                                            << 
631     if(scaledrange < rmax)                     << 
632     {                                          << 
633       scaledKineticEnergy = (*inverseRangeTabl << 
634                               GetValue( scaled << 
635     }                                          << 
636     else                                       << 
637     {                                          << 
638       scaledKineticEnergy = Thigh +            << 
639                       (scaledrange-rmax)*      << 
640                       (*dEdxTable)(materialInd << 
641                                  GetValue(Thig << 
642     }                                          << 
643   }                                            << 
644                                                << 
645   return scaledKineticEnergy/t->theMassRatio ; << 
646 }                                                  57 }
647                                                    58 
648 //....oooOO0OOooo........oooOO0OOooo........oo     59 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo......
649                                                    60 
650  G4double G4EnergyLossTables::GetPreciseDEDX(      61  G4double G4EnergyLossTables::GetPreciseDEDX(
651     const G4ParticleDefinition *aParticle,         62     const G4ParticleDefinition *aParticle,
652     G4double KineticEnergy,                        63     G4double KineticEnergy,
653     const G4Material *aMaterial)                   64     const G4Material *aMaterial)
654 {                                                  65 {
655   if (!t) t = new G4EnergyLossTablesHelper;    <<  66   if( aParticle != lastParticle)
656                                                << 
657   CPRWarning();                                << 
658   if( aParticle != (const G4ParticleDefinition << 
659   {                                                67   {
660     *t= GetTables(aParticle);                  <<  68     t= GetTables(aParticle);
661     lastParticle = (G4ParticleDefinition*) aPa <<  69     lastParticle = aParticle;
662     Chargesquare = (aParticle->GetPDGCharge())     70     Chargesquare = (aParticle->GetPDGCharge())*
663                    (aParticle->GetPDGCharge())     71                    (aParticle->GetPDGCharge())/
664                     QQPositron ;                   72                     QQPositron ;
665     oldIndex = -1 ;                            << 
666   }                                            << 
667   const G4PhysicsTable*  dEdxTable= t->theDEDX << 
668   if (!dEdxTable) {                            << 
669     ParticleHaveNoLoss(aParticle,"dEdx");      << 
670     return 0.0;                                << 
671   }                                                73   }
                                                   >>  74   const G4PhysicsTable*  dEdxTable= t.theDEDXTable;
672                                                    75 
673   G4int materialIndex = (G4int)aMaterial->GetI <<  76   G4int materialIndex = aMaterial->GetIndex();
674   G4double scaledKineticEnergy = KineticEnergy <<  77   G4double scaledKineticEnergy = KineticEnergy*t.theMassRatio;
675   G4double dEdx;                                   78   G4double dEdx;
676   G4bool isOut;                                    79   G4bool isOut;
677                                                    80 
678   if (scaledKineticEnergy<t->theLowestKineticE <<  81   if (scaledKineticEnergy<t.theLowestKineticEnergy) {
679                                                    82 
680      dEdx = std::sqrt(scaledKineticEnergy/t->t <<  83      dEdx = sqrt(scaledKineticEnergy/t.theLowestKineticEnergy)
681             *(*dEdxTable)(materialIndex)->GetV     84             *(*dEdxTable)(materialIndex)->GetValue(
682               t->theLowestKineticEnergy,isOut) <<  85               t.theLowestKineticEnergy,isOut);
683                                                    86 
684   } else if (scaledKineticEnergy>t->theHighest <<  87   } else if (scaledKineticEnergy>t.theHighestKineticEnergy) {
685                                                    88 
686      dEdx = (*dEdxTable)(materialIndex)->GetVa     89      dEdx = (*dEdxTable)(materialIndex)->GetValue(
687         t->theHighestKineticEnergy,isOut);     <<  90         t.theHighestKineticEnergy,isOut);
688                                                    91 
689   } else {                                         92   } else {
690                                                <<  93     
691       dEdx = (*dEdxTable)(materialIndex)->GetV     94       dEdx = (*dEdxTable)(materialIndex)->GetValue(
692                           scaledKineticEnergy,     95                           scaledKineticEnergy,isOut) ;
693                                                    96 
694   }                                                97   }
695                                                    98 
696   return dEdx*Chargesquare;                        99   return dEdx*Chargesquare;
697 }                                                 100 }
698                                                   101 
699 //....oooOO0OOooo........oooOO0OOooo........oo    102 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo......
700                                                   103 
701  G4double G4EnergyLossTables::GetPreciseRangeF    104  G4double G4EnergyLossTables::GetPreciseRangeFromEnergy(
702     const G4ParticleDefinition *aParticle,        105     const G4ParticleDefinition *aParticle,
703     G4double KineticEnergy,                       106     G4double KineticEnergy,
704     const G4Material *aMaterial)                  107     const G4Material *aMaterial)
705 {                                                 108 {
706   if (!t) t = new G4EnergyLossTablesHelper;    << 109   if( aParticle != lastParticle)
707                                                << 
708   CPRWarning();                                << 
709   if( aParticle != (const G4ParticleDefinition << 
710   {                                            << 
711     *t= GetTables(aParticle);                  << 
712     lastParticle = (G4ParticleDefinition*) aPa << 
713     Chargesquare = (aParticle->GetPDGCharge()) << 
714                    (aParticle->GetPDGCharge()) << 
715                     QQPositron ;               << 
716     oldIndex = -1 ;                            << 
717   }                                            << 
718   const G4PhysicsTable* rangeTable= t->theRang << 
719   const G4PhysicsTable*  dEdxTable= t->theDEDX << 
720   if (!rangeTable) {                           << 
721     ParticleHaveNoLoss(aParticle,"Range");     << 
722     return 0.0;                                << 
723   }                                            << 
724   G4int materialIndex = (G4int)aMaterial->GetI << 
725                                                << 
726   G4double Thighr = t->theHighestKineticEnergy << 
727                    (*rangeTable)(materialIndex << 
728                    GetLowEdgeEnergy(1) ;       << 
729                                                << 
730   G4double scaledKineticEnergy = KineticEnergy << 
731   G4double Range;                              << 
732   G4bool isOut;                                << 
733                                                << 
734   if (scaledKineticEnergy<t->theLowestKineticE << 
735                                                << 
736     Range = std::sqrt(scaledKineticEnergy/t->t << 
737             (*rangeTable)(materialIndex)->GetV << 
738               t->theLowestKineticEnergy,isOut) << 
739                                                << 
740   } else if (scaledKineticEnergy>Thighr) {     << 
741                                                << 
742     Range = (*rangeTable)(materialIndex)->GetV << 
743         Thighr,isOut)+                         << 
744             (scaledKineticEnergy-Thighr)/      << 
745             (*dEdxTable)(materialIndex)->GetVa << 
746               Thighr,isOut);                   << 
747                                                << 
748   } else {                                     << 
749                                                << 
750      Range = (*rangeTable)(materialIndex)->Get << 
751                        scaledKineticEnergy,isO << 
752                                                << 
753   }                                            << 
754                                                << 
755   return Range/(Chargesquare*t->theMassRatio); << 
756 }                                              << 
757                                                << 
758 //....oooOO0OOooo........oooOO0OOooo........oo << 
759                                                << 
760 G4double G4EnergyLossTables::GetDEDX(          << 
761     const G4ParticleDefinition *aParticle,     << 
762     G4double KineticEnergy,                    << 
763     const G4MaterialCutsCouple *couple,        << 
764     G4bool check)                              << 
765 {                                              << 
766   if (!t) t = new G4EnergyLossTablesHelper;    << 
767                                                << 
768   if(aParticle != (const G4ParticleDefinition* << 
769   {                                            << 
770     *t= GetTables(aParticle);                  << 
771     lastParticle = (G4ParticleDefinition*) aPa << 
772     Chargesquare = (aParticle->GetPDGCharge()) << 
773                    (aParticle->GetPDGCharge()) << 
774                    QQPositron ;                << 
775     oldIndex = -1 ;                            << 
776   }                                            << 
777   const G4PhysicsTable*  dEdxTable= t->theDEDX << 
778                                                << 
779   if (!dEdxTable ) {                           << 
780     if (check) return G4LossTableManager::Inst << 
781     else       ParticleHaveNoLoss(aParticle, " << 
782     return 0.0;                                << 
783   }                                            << 
784                                                << 
785   G4int materialIndex = couple->GetIndex();    << 
786   G4double scaledKineticEnergy = KineticEnergy << 
787   G4double dEdx;                               << 
788   G4bool isOut;                                << 
789                                                << 
790   if (scaledKineticEnergy<t->theLowestKineticE << 
791                                                << 
792      dEdx =(*dEdxTable)(materialIndex)->GetVal << 
793               t->theLowestKineticEnergy,isOut) << 
794            *std::sqrt(scaledKineticEnergy/t->t << 
795                                                << 
796   } else if (scaledKineticEnergy>t->theHighest << 
797                                                << 
798      dEdx = (*dEdxTable)(materialIndex)->GetVa << 
799         t->theHighestKineticEnergy,isOut);     << 
800                                                << 
801   } else {                                     << 
802                                                << 
803     dEdx = (*dEdxTable)(materialIndex)->GetVal << 
804          scaledKineticEnergy,isOut);           << 
805                                                << 
806   }                                            << 
807                                                << 
808   return dEdx*Chargesquare;                    << 
809 }                                              << 
810                                                << 
811 //....oooOO0OOooo........oooOO0OOooo........oo << 
812                                                << 
813 G4double G4EnergyLossTables::GetRange(         << 
814     const G4ParticleDefinition *aParticle,     << 
815     G4double KineticEnergy,                    << 
816     const G4MaterialCutsCouple *couple,        << 
817     G4bool check)                              << 
818 {                                              << 
819   if (!t) t = new G4EnergyLossTablesHelper;    << 
820                                                << 
821   if(aParticle != (const G4ParticleDefinition* << 
822   {                                            << 
823     *t= GetTables(aParticle);                  << 
824     lastParticle = (G4ParticleDefinition*) aPa << 
825     Chargesquare = (aParticle->GetPDGCharge()) << 
826                    (aParticle->GetPDGCharge()) << 
827                     QQPositron ;               << 
828     oldIndex = -1 ;                            << 
829   }                                            << 
830   const G4PhysicsTable* rangeTable= t->theRang << 
831   const G4PhysicsTable*  dEdxTable= t->theDEDX << 
832   if (!rangeTable) {                           << 
833     if(check) return G4LossTableManager::Insta << 
834     else      return DBL_MAX;                  << 
835       //ParticleHaveNoLoss(aParticle,"Range"); << 
836   }                                            << 
837                                                << 
838   G4int materialIndex = couple->GetIndex();    << 
839   G4double scaledKineticEnergy = KineticEnergy << 
840   G4double Range;                              << 
841   G4bool isOut;                                << 
842                                                << 
843   if (scaledKineticEnergy<t->theLowestKineticE << 
844                                                << 
845     Range = std::sqrt(scaledKineticEnergy/t->t << 
846             (*rangeTable)(materialIndex)->GetV << 
847               t->theLowestKineticEnergy,isOut) << 
848                                                << 
849   } else if (scaledKineticEnergy>t->theHighest << 
850                                                << 
851     Range = (*rangeTable)(materialIndex)->GetV << 
852         t->theHighestKineticEnergy,isOut)+     << 
853             (scaledKineticEnergy-t->theHighest << 
854             (*dEdxTable)(materialIndex)->GetVa << 
855               t->theHighestKineticEnergy,isOut << 
856                                                << 
857   } else {                                     << 
858                                                << 
859     Range = (*rangeTable)(materialIndex)->GetV << 
860          scaledKineticEnergy,isOut);           << 
861                                                << 
862   }                                            << 
863                                                << 
864   return Range/(Chargesquare*t->theMassRatio); << 
865 }                                              << 
866                                                << 
867 //....oooOO0OOooo........oooOO0OOooo........oo << 
868                                                << 
869 G4double G4EnergyLossTables::GetPreciseEnergyF << 
870                                      const G4P << 
871                                            G4d << 
872                                      const G4M << 
873                    G4bool check)               << 
874 // it returns the value of the kinetic energy  << 
875 {                                              << 
876   if (!t) t = new G4EnergyLossTablesHelper;    << 
877                                                << 
878   if( aParticle != (const G4ParticleDefinition << 
879   {                                               110   {
880     *t= GetTables(aParticle);                  << 111     t= GetTables(aParticle);
881     lastParticle = (G4ParticleDefinition*) aPa << 112     lastParticle = aParticle;
882     Chargesquare = (aParticle->GetPDGCharge())    113     Chargesquare = (aParticle->GetPDGCharge())*
883                    (aParticle->GetPDGCharge())    114                    (aParticle->GetPDGCharge())/
884                     QQPositron ;                  115                     QQPositron ;
885     oldIndex = -1 ;                            << 
886   }                                            << 
887   const G4PhysicsTable*  dEdxTable= t->theDEDX << 
888   const G4PhysicsTable*  inverseRangeTable= t- << 
889                                                << 
890   if (!inverseRangeTable) {                    << 
891     if(check) return G4LossTableManager::Insta << 
892     else      return DBL_MAX;                  << 
893     //    else      ParticleHaveNoLoss(aPartic << 
894   }                                               116   }
                                                   >> 117   const G4PhysicsTable* rangeTable= t.theRangeTable;
                                                   >> 118   const G4PhysicsTable*  dEdxTable= t.theDEDXTable;
895                                                   119 
896   G4double scaledrange,scaledKineticEnergy ;   << 120   G4int materialIndex = aMaterial->GetIndex();
897   G4bool isOut ;                               << 
898                                                << 
899   G4int materialIndex = couple->GetIndex() ;   << 
900                                                << 
901   if(materialIndex != oldIndex)                << 
902   {                                            << 
903     oldIndex = materialIndex ;                 << 
904     rmin = (*inverseRangeTable)(materialIndex) << 
905                               GetLowEdgeEnergy << 
906     rmax = (*inverseRangeTable)(materialIndex) << 
907                    GetLowEdgeEnergy(t->theNumb << 
908     Thigh = (*inverseRangeTable)(materialIndex << 
909                               GetValue(rmax,is << 
910   }                                            << 
911                                                << 
912   scaledrange = range*Chargesquare*t->theMassR << 
913                                                << 
914   if(scaledrange < rmin)                       << 
915   {                                            << 
916     scaledKineticEnergy = t->theLowestKineticE << 
917                    scaledrange*scaledrange/(rm << 
918   }                                            << 
919   else                                         << 
920   {                                            << 
921     if(scaledrange < rmax)                     << 
922     {                                          << 
923       scaledKineticEnergy = (*inverseRangeTabl << 
924                               GetValue( scaled << 
925     }                                          << 
926     else                                       << 
927     {                                          << 
928       scaledKineticEnergy = Thigh +            << 
929                       (scaledrange-rmax)*      << 
930                       (*dEdxTable)(materialInd << 
931                                  GetValue(Thig << 
932     }                                          << 
933   }                                            << 
934                                                << 
935   return scaledKineticEnergy/t->theMassRatio ; << 
936 }                                              << 
937                                                << 
938 //....oooOO0OOooo........oooOO0OOooo........oo << 
939                                                   121 
940 G4double G4EnergyLossTables::GetPreciseDEDX(   << 122   G4double Thighr = t.theHighestKineticEnergy*t.theLowestKineticEnergy/
941     const G4ParticleDefinition *aParticle,     << 
942     G4double KineticEnergy,                    << 
943     const G4MaterialCutsCouple *couple)        << 
944 {                                              << 
945   if (!t) t = new G4EnergyLossTablesHelper;    << 
946                                                << 
947   if( aParticle != (const G4ParticleDefinition << 
948   {                                            << 
949     *t= GetTables(aParticle);                  << 
950     lastParticle = (G4ParticleDefinition*) aPa << 
951     Chargesquare = (aParticle->GetPDGCharge()) << 
952                    (aParticle->GetPDGCharge()) << 
953                     QQPositron ;               << 
954     oldIndex = -1 ;                            << 
955   }                                            << 
956   const G4PhysicsTable*  dEdxTable= t->theDEDX << 
957   if ( !dEdxTable )                            << 
958     return G4LossTableManager::Instance()->Get << 
959                                                << 
960   G4int materialIndex = couple->GetIndex();    << 
961   G4double scaledKineticEnergy = KineticEnergy << 
962   G4double dEdx;                               << 
963   G4bool isOut;                                << 
964                                                << 
965   if (scaledKineticEnergy<t->theLowestKineticE << 
966                                                << 
967      dEdx = std::sqrt(scaledKineticEnergy/t->t << 
968             *(*dEdxTable)(materialIndex)->GetV << 
969               t->theLowestKineticEnergy,isOut) << 
970                                                << 
971   } else if (scaledKineticEnergy>t->theHighest << 
972                                                << 
973      dEdx = (*dEdxTable)(materialIndex)->GetVa << 
974         t->theHighestKineticEnergy,isOut);     << 
975                                                << 
976   } else {                                     << 
977                                                << 
978       dEdx = (*dEdxTable)(materialIndex)->GetV << 
979                           scaledKineticEnergy, << 
980                                                << 
981   }                                            << 
982                                                << 
983   return dEdx*Chargesquare;                    << 
984 }                                              << 
985                                                << 
986 //....oooOO0OOooo........oooOO0OOooo........oo << 
987                                                << 
988 G4double G4EnergyLossTables::GetPreciseRangeFr << 
989     const G4ParticleDefinition *aParticle,     << 
990     G4double KineticEnergy,                    << 
991     const G4MaterialCutsCouple *couple)        << 
992 {                                              << 
993   if (!t) t = new G4EnergyLossTablesHelper;    << 
994                                                << 
995   if( aParticle != (const G4ParticleDefinition << 
996   {                                            << 
997     *t= GetTables(aParticle);                  << 
998     lastParticle = (G4ParticleDefinition*) aPa << 
999     Chargesquare = (aParticle->GetPDGCharge()) << 
1000                    (aParticle->GetPDGCharge() << 
1001                     QQPositron ;              << 
1002     oldIndex = -1 ;                           << 
1003   }                                           << 
1004   const G4PhysicsTable* rangeTable= t->theRan << 
1005   const G4PhysicsTable*  dEdxTable= t->theDED << 
1006   if ( !dEdxTable || !rangeTable)             << 
1007     return G4LossTableManager::Instance()->Ge << 
1008                                               << 
1009   G4int materialIndex = couple->GetIndex();   << 
1010                                               << 
1011   G4double Thighr = t->theHighestKineticEnerg << 
1012                    (*rangeTable)(materialInde    123                    (*rangeTable)(materialIndex)->
1013                    GetLowEdgeEnergy(1) ;         124                    GetLowEdgeEnergy(1) ;
1014                                                  125 
1015   G4double scaledKineticEnergy = KineticEnerg << 126   G4double scaledKineticEnergy = KineticEnergy*t.theMassRatio;
1016   G4double Range;                                127   G4double Range;
1017   G4bool isOut;                                  128   G4bool isOut;
1018                                                  129 
1019   if (scaledKineticEnergy<t->theLowestKinetic << 130   if (scaledKineticEnergy<t.theLowestKineticEnergy) {
1020                                                  131 
1021     Range = std::sqrt(scaledKineticEnergy/t-> << 132     Range = sqrt(scaledKineticEnergy/t.theLowestKineticEnergy)*
1022             (*rangeTable)(materialIndex)->Get    133             (*rangeTable)(materialIndex)->GetValue(
1023               t->theLowestKineticEnergy,isOut << 134               t.theLowestKineticEnergy,isOut);
1024                                                  135 
1025   } else if (scaledKineticEnergy>Thighr) {       136   } else if (scaledKineticEnergy>Thighr) {
1026                                                  137 
1027     Range = (*rangeTable)(materialIndex)->Get    138     Range = (*rangeTable)(materialIndex)->GetValue(
1028         Thighr,isOut)+                           139         Thighr,isOut)+
1029             (scaledKineticEnergy-Thighr)/        140             (scaledKineticEnergy-Thighr)/
1030             (*dEdxTable)(materialIndex)->GetV    141             (*dEdxTable)(materialIndex)->GetValue(
1031               Thighr,isOut);                     142               Thighr,isOut);
1032                                                  143 
1033   } else {                                       144   } else {
1034                                               << 145     
1035      Range = (*rangeTable)(materialIndex)->Ge    146      Range = (*rangeTable)(materialIndex)->GetValue(
1036                        scaledKineticEnergy,is    147                        scaledKineticEnergy,isOut) ;
1037                                                  148 
1038   }                                              149   }
1039                                                  150 
1040   return Range/(Chargesquare*t->theMassRatio) << 151   return Range/(Chargesquare*t.theMassRatio);
1041 }                                                152 }
1042                                                  153 
1043 //....oooOO0OOooo........oooOO0OOooo........o    154 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo......
1044                                                  155 
1045 void G4EnergyLossTables::CPRWarning()         << 
1046 {                                             << 
1047   if (let_counter <  let_max_num_warnings) {  << 
1048                                                  156 
1049     G4cout << G4endl;                         << 
1050     G4cout << "##### G4EnergyLossTable WARNIN << 
1051     G4cout << "##### RESULTS ARE NOT GARANTEE << 
1052     G4cout << "##### Please, substitute G4Mat << 
1053     G4cout << "##### Obsolete interface will  << 
1054     G4cout << G4endl;                         << 
1055     let_counter++;                            << 
1056                                                  157 
1057   } else if (let_counter == let_max_num_warni << 
1058                                               << 
1059     G4cout << "##### G4EnergyLossTable WARNIN << 
1060     let_counter++;                            << 
1061   }                                           << 
1062 }                                             << 
1063                                                  158 
1064 //....oooOO0OOooo........oooOO0OOooo........o << 
1065                                               << 
1066 void                                          << 
1067 G4EnergyLossTables::ParticleHaveNoLoss(const  << 
1068                const G4String& /*q*/)         << 
1069 {                                             << 
1070 }                                             << 
1071                                               << 
1072 //....oooOO0OOooo........oooOO0OOooo........o << 
1073                                                  159