Geant4 Cross Reference

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Geant4/processes/cuts/include/G4ProductionCutsTable.hh

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Differences between /processes/cuts/include/G4ProductionCutsTable.hh (Version 11.3.0) and /processes/cuts/include/G4ProductionCutsTable.hh (Version 6.2)


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 25 //                                                 22 //
 26 // G4ProductionCutsTable                       << 
 27 //                                                 23 //
 28 // Class description:                          <<  24 // $Id: G4ProductionCutsTable.hh,v 1.3 2004/02/03 08:29:35 kurasige Exp $
                                                   >>  25 // GEANT4 tag $Name: geant4-06-02 $
 29 //                                                 26 //
 30 // G4ProductionCutsTable is a singleton class  <<  27 // 
 31 // G4ProductionCuts objects. This class manage <<  28 // ------------------------------------------------------------
 32 // cuts and energy cuts for each particle type <<  29 //  GEANT 4 class header file 
 33                                                <<  30 //
 34 // Author: M.Asai, 5 October 2002 - First impl <<  31 //
 35 // Modifications: H.Kurashige, 2004-2008       <<  32 // ------------------------------------------------------------
 36 // ------------------------------------------- <<  33 //   First Implementation          05 Oct. 2002  M.Asai    
 37 #ifndef G4ProductionCutsTable_hh               <<  34 //
 38 #define G4ProductionCutsTable_hh 1             <<  35 //   Modified                      03 Feb 2004 H.Kurashige
                                                   >>  36 //    Modify RetrieveCutsTable to allow ordering of materials and 
                                                   >>  37 //    couples can be different from one in file (i.e. at storing)
                                                   >>  38 // ------------------------------------------------------------
 39                                                    39 
 40 #include <cmath>                               <<  40 #ifndef G4ProductionCutsTable_h 
 41 #include <vector>                              <<  41 #define G4ProductionCutsTable_h 1
                                                   >>  42 
                                                   >>  43 class G4RegionStore;
                                                   >>  44 class G4VRangeToEnergyConverter;
                                                   >>  45 class G4LogicalVolume;
                                                   >>  46 class G4ProductionCuts;
 42                                                    47 
 43 #include "globals.hh"                              48 #include "globals.hh"
 44 #include "G4ios.hh"                                49 #include "G4ios.hh"
                                                   >>  50 #include <vector>
 45 #include "G4MaterialCutsCouple.hh"                 51 #include "G4MaterialCutsCouple.hh"
 46 #include "G4MCCIndexConversionTable.hh"        << 
 47 #include "G4Region.hh"                             52 #include "G4Region.hh"
 48                                                    53 
 49 class G4RegionStore;                           << 
 50 class G4VRangeToEnergyConverter;               << 
 51 class G4LogicalVolume;                         << 
 52 class G4VPhysicalVolume;                       << 
 53 class G4ProductionCuts;                        << 
 54 class G4ProductionCutsTableMessenger;          << 
 55                                                    54 
 56 class G4ProductionCutsTable                        55 class G4ProductionCutsTable  
 57 {                                                  56 {
 58   public:                                      <<  57   // Class Description
                                                   >>  58   //  G4ProductionCutsTable is a static singleton class of a table of
                                                   >>  59   //  G4ProductionCuts objects. This class also manages tables of
                                                   >>  60   //  production cut and energy cut for each particle type.
 59                                                    61 
                                                   >>  62   public: // with description
 60     static G4ProductionCutsTable* GetProductio     63     static G4ProductionCutsTable* GetProductionCutsTable();
 61       // This static method returns the single <<  64     // This static method returns the singleton pointer of this class object.
 62       // At first invocation, the singleton ob <<  65     // At the first invokation of this method, the singleton object is instantiated.
 63                                                    66 
 64     G4ProductionCutsTable(const G4ProductionCu <<  67   protected:
 65     G4ProductionCutsTable& operator=(const G4P <<  68     G4ProductionCutsTable();
                                                   >>  69   private:
                                                   >>  70     G4ProductionCutsTable(const G4ProductionCutsTable& right);
 66                                                    71 
                                                   >>  72   public:
 67     virtual ~G4ProductionCutsTable();              73     virtual ~G4ProductionCutsTable();
 68                                                    74 
 69     void CreateCoupleTables();                 <<  75   public: // with description
 70       // Creates material cuts couples table a <<  76     void UpdateCoupleTable();
 71                                                <<  77     // This method triggers an update of the table of G4ProductionCuts objects.
 72     void UpdateCoupleTable(G4VPhysicalVolume*  << 
 73       // Triggers an update of the table of G4 << 
 74                                                    78 
 75     void SetEnergyRange(G4double lowedge, G4do     79     void SetEnergyRange(G4double lowedge, G4double highedge);
 76       // Sets the limits of energy cuts for al <<  80     // This method sets the limits of energy cuts for all particles.
 77                                                    81 
 78     G4double GetLowEdgeEnergy() const;             82     G4double GetLowEdgeEnergy() const;
 79     G4double GetHighEdgeEnergy() const;            83     G4double GetHighEdgeEnergy() const;
 80       // Get the limits of energy cuts for all <<  84     // These methods get the limits of energy cuts for all particles.
 81                                                << 
 82     G4double GetMaxEnergyCut();                << 
 83     void SetMaxEnergyCut(G4double value);      << 
 84       // Get/set max cut energy of RangeToEner << 
 85       // for all particle types                << 
 86                                                    85 
 87     void DumpCouples() const;                      86     void DumpCouples() const;
 88       // Displays a list of registered couples <<  87     // Display a list of registored couples
                                                   >>  88 
                                                   >>  89   private:
 89                                                    90 
 90     const G4MCCIndexConversionTable* GetMCCInd <<  91    static G4ProductionCutsTable* fG4ProductionCutsTable;
 91       // Gives the pointer to the MCCIndexConv << 
 92                                                    92 
 93     const std::vector<G4double>* GetRangeCutsV <<  93    typedef std::vector<G4MaterialCutsCouple*> G4CoupleTable;
 94     const std::vector<G4double>* GetEnergyCuts <<  94    typedef std::vector<G4MaterialCutsCouple*>::const_iterator CoupleTableIterator;
                                                   >>  95    typedef std::vector<G4double> G4CutVectorForAParticle;
                                                   >>  96    typedef std::vector<G4CutVectorForAParticle*> G4CutTable;
                                                   >>  97    G4CoupleTable coupleTable;
                                                   >>  98    G4CutTable rangeCutTable;
                                                   >>  99    G4CutTable energyCutTable;
                                                   >> 100 
                                                   >> 101    G4RegionStore* fG4RegionStore;
                                                   >> 102    G4VRangeToEnergyConverter* converters[NumberOfG4CutIndex]; 
                                                   >> 103 
                                                   >> 104    G4ProductionCuts* defaultProductionCuts;
                                                   >> 105 
                                                   >> 106 // These two vectors are for the backward comparibility
                                                   >> 107    G4double* rangeDoubleVector[NumberOfG4CutIndex];
                                                   >> 108    G4double* energyDoubleVector[NumberOfG4CutIndex];
                                                   >> 109 
                                                   >> 110   public: 
                                                   >> 111    const std::vector<G4double>* GetRangeCutsVector(size_t pcIdx) const;
                                                   >> 112    const std::vector<G4double>* GetEnergyCutsVector(size_t pcIdx) const;
                                                   >> 113 
                                                   >> 114 // These two vectors are for the backward comparibility
                                                   >> 115    G4double* GetRangeCutsDoubleVector(size_t pcIdx) const;
                                                   >> 116    G4double* GetEnergyCutsDoubleVector(size_t pcIdx) const;
 95                                                   117   
 96     std::size_t GetTableSize() const;          << 118   public: // with description
 97       // Returns the size of the couple table  << 119    size_t GetTableSize() const;
                                                   >> 120      // This method returns the size of the couple table.
                                                   >> 121 
                                                   >> 122    const G4MaterialCutsCouple* GetMaterialCutsCouple(G4int i) const;
                                                   >> 123     // This method returns the pointer to the couple.
                                                   >> 124 
                                                   >> 125    const G4MaterialCutsCouple*
                                                   >> 126      GetMaterialCutsCouple(const G4Material* aMat,
                                                   >> 127                            const G4ProductionCuts* aCut) const;
                                                   >> 128     // This method returns the pointer to the couple.
                                                   >> 129 
                                                   >> 130    G4int GetCoupleIndex(const G4MaterialCutsCouple* aCouple) const;
                                                   >> 131    G4int GetCoupleIndex(const G4Material* aMat,
                                                   >> 132                            const G4ProductionCuts* aCut) const;
                                                   >> 133     // These methods return the index of the couple.
                                                   >> 134     // -1 is returned if index is not found.
 98                                                   135 
 99     const G4MaterialCutsCouple* GetMaterialCut << 136    G4bool IsModified() const;
100       // Returns the pointer to the couple     << 137     // This method returns TRUE if at least one production cut value is modified.
                                                   >> 138   
                                                   >> 139    void PhysicsTableUpdated();
                                                   >> 140     // This method resets the status of IsModified(). This method must
                                                   >> 141     // be exclusively used by RunManager when physics tables are built.
                                                   >> 142 
                                                   >> 143    G4ProductionCuts* GetDefaultProductionCuts() const;
                                                   >> 144     // This method returns the default production cuts.
                                                   >> 145    
                                                   >> 146   private:
                                                   >> 147     void ScanAndSetCouple(G4LogicalVolume* aLV,
                                                   >> 148         G4MaterialCutsCouple* aCouple,
                                                   >> 149         G4Region* aRegion);
101                                                   150 
102     const G4MaterialCutsCouple* GetMaterialCut << 151     bool IsCoupleUsedInTheRegion(const G4MaterialCutsCouple* aCouple,
103                                             co << 152          const G4Region* aRegion) const;
104      // Returns the pointer to the couple      << 
105                                                << 
106     G4int GetCoupleIndex(const G4MaterialCutsC << 
107     G4int GetCoupleIndex(const G4Material* aMa << 
108                          const G4ProductionCut << 
109       // Return the index of the couple.       << 
110       // -1 is returned if index is not found  << 
111                                                   153 
112     G4bool IsModified() const;                 << 154   public: // with description
113       // Returns TRUE if at least one producti << 155    // Store cuts and material information in files under the specified directory.
                                                   >> 156   G4bool  StoreCutsTable(const G4String& directory, 
                                                   >> 157        G4bool          ascii = false);
114                                                   158   
115     void PhysicsTableUpdated();                << 159   // Retrieve cuts values information in files under the specified directory.
116       // Resets the status of IsModified(). Th << 160   G4bool  RetrieveCutsTable(const G4String& directory,
117       // used by the RunManager when physics t << 161           G4bool          ascii = false);
118                                                << 162   
119     G4ProductionCuts* GetDefaultProductionCuts << 163   // check stored material and cut values are consistent with the current detector setup. 
120       // Returns the default production cuts   << 164   G4bool CheckForRetrieveCutsTable(const G4String& directory, 
121                                                << 165            G4bool          ascii = false);
122     G4double ConvertRangeToEnergy(const G4Part << 
123                                   const G4Mate << 
124                                         G4doub << 
125       // Gives energy corresponding to range v << 
126       // -1 is returned if particle or materia << 
127                                                << 
128     void ResetConverters();                    << 
129       // Resets all range to energy converters << 
130                                                << 
131     G4bool StoreCutsTable(const G4String& dire << 
132                           G4bool ascii = false << 
133       // Stores cuts and material information  << 
134       // the specified directory               << 
135                                                << 
136     G4bool RetrieveCutsTable(const G4String& d << 
137                              G4bool ascii = fa << 
138       // Retrieve material cut couple informat << 
139       // in files under the specified director << 
140                                                << 
141     G4bool CheckForRetrieveCutsTable(const G4S << 
142                                      G4bool as << 
143       // Checks stored material and cut values << 
144       // with the current detector setup       << 
145                                                << 
146     G4double* GetRangeCutsDoubleVector(std::si << 
147     G4double* GetEnergyCutsDoubleVector(std::s << 
148       // Methods for backward compatibility    << 
149                                                << 
150     void SetEnergyCutVector(const std::vector< << 
151       // User defined cut vectors (idx < 4) ra << 
152       // to avoid inconsistency in physics     << 
153                                                << 
154     void  SetVerboseLevel(G4int value);        << 
155     G4int GetVerboseLevel() const;             << 
156       // Control flag for output message       << 
157       //  0: Silent                            << 
158       //  1: Warning message                   << 
159       //  2: More                              << 
160                                                   166 
161   protected:                                      167   protected:
162                                                   168 
163     G4ProductionCutsTable();                   << 169   // Store material information in files under the specified directory.
164                                                << 170   virtual G4bool  StoreMaterialInfo(const G4String& directory, 
165     virtual G4bool StoreMaterialInfo(const G4S << 171             G4bool          ascii = false);
166                                      G4bool as << 172 
167       // Stores material information in files  << 173   // check stored material is consistent with the current detector setup. 
168                                                << 174   virtual G4bool  CheckMaterialInfo(const G4String& directory, 
169     virtual G4bool CheckMaterialInfo(const G4S << 175             G4bool          ascii = false);
170                                      G4bool as << 176   
171       // Checks stored material is consistent  << 177   // Store materialCutsCouple information in files under the specified directory.
172                                                << 178   virtual G4bool  StoreMaterialCutsCoupleInfo(const G4String& directory, 
173     virtual G4bool StoreMaterialCutsCoupleInfo << 179             G4bool          ascii = false);
174                                                << 180 
175       // Stores materialCutsCouple information << 181   // Retreive materialCutsCouple information in files under the specified directory.
176       // specified directory                   << 182   virtual G4bool  RetrieveMaterialCutsCoupleInfo(const G4String& directory, 
177                                                << 183            G4bool          ascii = false);
178     virtual G4bool CheckMaterialCutsCoupleInfo << 184 
179                                                << 185   // check stored materialCutsCouple is consistent with the current detector setup. 
180       // Checks stored materialCutsCouple is c << 186   virtual G4bool  CheckMaterialCutsCoupleInfo(const G4String& directory, 
181       // the current detector setup            << 187             G4bool          ascii = false);
182                                                << 188 
183     virtual G4bool StoreCutsInfo(const G4Strin << 189   // Store cut values information in files under the specified directory.
184                                  G4bool ascii  << 190   virtual G4bool  StoreCutsInfo(const G4String& directory, 
185       // Stores cut values information in file << 191                                 G4bool          ascii = false);
186                                                << 192   
187     virtual G4bool  RetrieveCutsInfo(const G4S << 193   // Retrieve cut values information in files under the specified directory.
188                                      G4bool as << 194   virtual G4bool  RetrieveCutsInfo(const G4String& directory,
189       // Retrieves cut values information in f << 195                                    G4bool          ascii = false);
190       // specified directory                   << 
191                                                   196 
192   private:                                        197   private:
193                                                << 198    G4bool firstUse;
194     void ScanAndSetCouple(G4LogicalVolume* aLV << 199    G4bool isNeedForRestoreCoupleInfo;
195                           G4MaterialCutsCouple << 200    enum { FixedStringLengthForStore = 32 }; 
196                           G4Region* aRegion);  << 201 
197                                                << 202   public: // with description  
198     G4bool IsCoupleUsedInTheRegion(const G4Mat << 203       void  SetVerboseLevel(G4int value);
199                                    const G4Reg << 204       G4int GetVerboseLevel() const;
200                                                << 205       // controle flag for output message
                                                   >> 206       //  0: Silent
                                                   >> 207       //  1: Warning message
                                                   >> 208       //  2: More
201                                                   209 
202   private:                                        210   private:
                                                   >> 211    G4int verboseLevel;
203                                                   212 
204     static G4ProductionCutsTable* fProductionC << 
205                                                << 
206     std::vector<G4MaterialCutsCouple*> coupleT << 
207     std::vector<std::vector<G4double>*> rangeC << 
208     std::vector<std::vector<G4double>*> energy << 
209                                                << 
210     std::vector<G4double>* userEnergyCuts[4] = << 
211                                                << 
212     G4RegionStore* fG4RegionStore = nullptr;   << 
213     G4VRangeToEnergyConverter* converters[Numb << 
214                                                << 
215     G4ProductionCuts* defaultProductionCuts =  << 
216                                                << 
217     G4MCCIndexConversionTable mccConversionTab << 
218                                                << 
219     // These two vectors are for backward comp << 
220     G4double* rangeDoubleVector[NumberOfG4CutI << 
221     G4double* energyDoubleVector[NumberOfG4Cut << 
222                                                << 
223     enum { FixedStringLengthForStore = 32 };   << 
224                                                << 
225     G4ProductionCutsTableMessenger* fMessenger << 
226     G4int verboseLevel = 1;                    << 
227     G4bool firstUse = true;                    << 
228 };                                                213 };
229                                                   214 
230 // ------------------                          << 
231 // Inline methods                              << 
232 // ------------------                          << 
233                                                << 
234 inline                                            215 inline 
235 const std::vector<G4double>*                   << 216  const std::vector<G4double>* G4ProductionCutsTable::GetRangeCutsVector(size_t pcIdx) const
236 G4ProductionCutsTable::GetRangeCutsVector(std: << 
237 {                                                 217 { 
238   return rangeCutTable[pcIdx];                    218   return rangeCutTable[pcIdx]; 
239 }                                                 219 }
240                                                   220 
241 inline                                            221 inline 
242 const std::vector<G4double>*                   << 222  const std::vector<G4double>* G4ProductionCutsTable::GetEnergyCutsVector(size_t pcIdx) const
243 G4ProductionCutsTable::GetEnergyCutsVector(std << 
244 {                                                 223 {
245   return energyCutTable[pcIdx];                << 224  return energyCutTable[pcIdx]; 
246 }                                                 225 }
247                                                   226 
248 inline                                            227 inline 
249 std::size_t G4ProductionCutsTable::GetTableSiz << 228  size_t G4ProductionCutsTable::GetTableSize() const
250 {                                                 229 {
251   return coupleTable.size();                      230   return coupleTable.size(); 
252 }                                                 231 }
253                                                   232 
254 inline                                            233 inline 
255 const G4MaterialCutsCouple*                    << 234  const G4MaterialCutsCouple* G4ProductionCutsTable::GetMaterialCutsCouple(G4int i) const
256 G4ProductionCutsTable::GetMaterialCutsCouple(G << 
257 {                                                 235 { 
258   return coupleTable[std::size_t(i)];          << 236   return coupleTable[size_t(i)]; 
259 }                                                 237 }
260                                                   238 
261 inline                                            239 inline 
262 G4bool G4ProductionCutsTable::IsModified() con << 240  G4bool G4ProductionCutsTable::IsModified() const
263 {                                                 241 { 
264   if(firstUse) return true;                       242   if(firstUse) return true;
265   for(auto itr=coupleTable.cbegin(); itr!=coup << 243   for(G4ProductionCutsTable::CoupleTableIterator itr=coupleTable.begin();
266   {                                            << 244     itr!=coupleTable.end();itr++){ 
267     if((*itr)->IsRecalcNeeded())                  245     if((*itr)->IsRecalcNeeded())
268     {                                             246     {
269       return true;                                247       return true; 
270     }                                             248     }
271   }                                               249   }
272   return false;                                   250   return false;
273 }                                                 251 }
274                                                   252   
275 inline                                            253 inline 
276 void G4ProductionCutsTable::PhysicsTableUpdate << 254  void G4ProductionCutsTable::PhysicsTableUpdated()
277 {                                                 255 { 
278   for(auto itr=coupleTable.cbegin(); itr!=coup << 256   for(G4ProductionCutsTable::CoupleTableIterator itr=coupleTable.begin();itr!=coupleTable.end();itr++){ 
279   {                                            << 
280     (*itr)->PhysicsTableUpdated();                257     (*itr)->PhysicsTableUpdated(); 
281   }                                               258   }
282 }                                                 259 }
283                                                   260 
284 inline                                            261 inline
285 G4double*                                      << 262  G4double* G4ProductionCutsTable::GetRangeCutsDoubleVector(size_t pcIdx) const
286 G4ProductionCutsTable::GetRangeCutsDoubleVecto << 263 { return rangeDoubleVector[pcIdx]; }
287 {                                              << 
288   return rangeDoubleVector[pcIdx];             << 
289 }                                              << 
290                                                   264 
291 inline                                            265 inline
292 G4double*                                      << 266  G4double* G4ProductionCutsTable::GetEnergyCutsDoubleVector(size_t pcIdx) const
293 G4ProductionCutsTable::GetEnergyCutsDoubleVect << 267 { return energyDoubleVector[pcIdx]; }
294 {                                              << 
295   return energyDoubleVector[pcIdx];            << 
296 }                                              << 
297                                                   268 
298 inline                                            269 inline
299 G4ProductionCuts* G4ProductionCutsTable::GetDe << 270  G4ProductionCuts* G4ProductionCutsTable::GetDefaultProductionCuts() const
300 {                                              << 271 { return defaultProductionCuts; }
301   return defaultProductionCuts;                << 
302 }                                              << 
303                                                   272 
304 inline                                            273 inline
305 G4bool G4ProductionCutsTable::IsCoupleUsedInTh << 274 bool G4ProductionCutsTable::IsCoupleUsedInTheRegion(
306                                  const G4Mater    275                                  const G4MaterialCutsCouple* aCouple,
307                                  const G4Regio    276                                  const G4Region* aRegion) const
308 {                                                 277 {
309   G4ProductionCuts* fProductionCut = aRegion->    278   G4ProductionCuts* fProductionCut = aRegion->GetProductionCuts();
310   auto mItr = aRegion->GetMaterialIterator();  << 279   std::vector<G4Material*>::const_iterator mItr = aRegion->GetMaterialIterator();
311   std::size_t nMaterial = aRegion->GetNumberOf << 280   size_t nMaterial = aRegion->GetNumberOfMaterials();
312   for(std::size_t iMate=0;iMate<nMaterial; ++i << 281   for(size_t iMate=0;iMate<nMaterial;iMate++, mItr++){
313   {                                            << 
314     if(aCouple->GetMaterial()==(*mItr) &&         282     if(aCouple->GetMaterial()==(*mItr) &&
315        aCouple->GetProductionCuts()==fProducti << 283        aCouple->GetProductionCuts()==fProductionCut){
316     {                                          << 
317       return true;                                284       return true;
318     }                                             285     }
319   }                                               286   }
320   return false;                                   287   return false;
321 }                                                 288 }
322                                                   289 
323 inline                                            290 inline
324 const G4MaterialCutsCouple*                       291 const G4MaterialCutsCouple* 
325 G4ProductionCutsTable::GetMaterialCutsCouple(c << 292      G4ProductionCutsTable::GetMaterialCutsCouple(const G4Material* aMat,
326                                              c << 293                            const G4ProductionCuts* aCut) const
327 {                                              << 294 { 
328   for(auto cItr=coupleTable.cbegin(); cItr!=co << 295   for(CoupleTableIterator cItr=coupleTable.begin();cItr!=coupleTable.end();cItr++)
329   {                                               296   { 
330     if((*cItr)->GetMaterial()!=aMat) continue;    297     if((*cItr)->GetMaterial()!=aMat) continue;
331     if((*cItr)->GetProductionCuts()==aCut) ret    298     if((*cItr)->GetProductionCuts()==aCut) return (*cItr);
332   }                                               299   }
333   return nullptr;                              << 300   return 0;
334 }                                                 301 }
335                                                   302 
336 inline                                            303 inline
337 G4int                                          << 304 G4int G4ProductionCutsTable::GetCoupleIndex(const G4MaterialCutsCouple* aCouple) const
338 G4ProductionCutsTable::GetCoupleIndex(const G4 << 
339 {                                                 305 { 
340   G4int idx = 0;                                  306   G4int idx = 0;
341   for(auto cItr=coupleTable.cbegin(); cItr!=co << 307   for(CoupleTableIterator cItr=coupleTable.begin();cItr!=coupleTable.end();cItr++)
342   {                                               308   {
343     if((*cItr)==aCouple) return idx;              309     if((*cItr)==aCouple) return idx;
344     ++idx;                                     << 310     idx++;
345   }                                               311   }
346   return -1;                                      312   return -1;
347 }                                                 313 }
348                                                   314 
349 inline                                            315 inline
350 G4int G4ProductionCutsTable::GetCoupleIndex(co << 316 G4int G4ProductionCutsTable:: GetCoupleIndex(const G4Material* aMat,
351                                             co << 317                            const G4ProductionCuts* aCut) const
352 {                                                 318 {
353   const G4MaterialCutsCouple* aCouple = GetMat    319   const G4MaterialCutsCouple* aCouple = GetMaterialCutsCouple(aMat,aCut);
354   return GetCoupleIndex(aCouple);                 320   return GetCoupleIndex(aCouple);
355 }                                                 321 }
356                                                   322 
357 inline                                            323 inline 
358 G4int G4ProductionCutsTable::GetVerboseLevel() << 324  void G4ProductionCutsTable::SetVerboseLevel(G4int value)
359 {                                                 325 {
360   return verboseLevel;                         << 326    verboseLevel = value;
361 }                                                 327 }
362                                                   328 
363 inline                                         << 329 inline 
364 const G4MCCIndexConversionTable*               << 330  G4int G4ProductionCutsTable::GetVerboseLevel() const
365 G4ProductionCutsTable::GetMCCIndexConversionTa << 
366 {                                                 331 {
367   return &mccConversionTable;                  << 332    return verboseLevel;
368 }                                                 333 }
369                                                   334 
                                                   >> 335 
370 #endif                                            336 #endif
                                                   >> 337 
                                                   >> 338 
                                                   >> 339 
                                                   >> 340 
                                                   >> 341 
                                                   >> 342 
371                                                   343