| Geant4 Cross Reference |
1 // 1 //
2 // ******************************************* 2 // ********************************************************************
3 // * License and Disclaimer 3 // * License and Disclaimer *
4 // * 4 // * *
5 // * The Geant4 software is copyright of th 5 // * The Geant4 software is copyright of the Copyright Holders of *
6 // * the Geant4 Collaboration. It is provided 6 // * the Geant4 Collaboration. It is provided under the terms and *
7 // * conditions of the Geant4 Software License 7 // * conditions of the Geant4 Software License, included in the file *
8 // * LICENSE and available at http://cern.ch/ 8 // * LICENSE and available at http://cern.ch/geant4/license . These *
9 // * include a list of copyright holders. 9 // * include a list of copyright holders. *
10 // * 10 // * *
11 // * Neither the authors of this software syst 11 // * Neither the authors of this software system, nor their employing *
12 // * institutes,nor the agencies providing fin 12 // * institutes,nor the agencies providing financial support for this *
13 // * work make any representation or warran 13 // * work make any representation or warranty, express or implied, *
14 // * regarding this software system or assum 14 // * regarding this software system or assume any liability for its *
15 // * use. Please see the license in the file 15 // * use. Please see the license in the file LICENSE and URL above *
16 // * for the full disclaimer and the limitatio 16 // * for the full disclaimer and the limitation of liability. *
17 // * 17 // * *
18 // * This code implementation is the result 18 // * This code implementation is the result of the scientific and *
19 // * technical work of the GEANT4 collaboratio 19 // * technical work of the GEANT4 collaboration. *
20 // * By using, copying, modifying or distri 20 // * By using, copying, modifying or distributing the software (or *
21 // * any work based on the software) you ag 21 // * any work based on the software) you agree to acknowledge its *
22 // * use in resulting scientific publicati 22 // * use in resulting scientific publications, and indicate your *
23 // * acceptance of all terms of the Geant4 Sof 23 // * acceptance of all terms of the Geant4 Software license. *
24 // ******************************************* 24 // ********************************************************************
25 // 25 //
26 // 26 //
27 // Author: Mathieu Karamitros 27 // Author: Mathieu Karamitros
28 28
29 // The code is developed in the framework of t 29 // The code is developed in the framework of the ESA AO7146
30 // 30 //
31 // We would be very happy hearing from you, se 31 // We would be very happy hearing from you, send us your feedback! :)
32 // 32 //
33 // In order for Geant4-DNA to be maintained an 33 // In order for Geant4-DNA to be maintained and still open-source,
34 // article citations are crucial. << 34 // article citations are crucial.
35 // If you use Geant4-DNA chemistry and you pub << 35 // If you use Geant4-DNA chemistry and you publish papers about your software,
36 // in addition to the general paper on Geant4- 36 // in addition to the general paper on Geant4-DNA:
37 // 37 //
38 // Int. J. Model. Simul. Sci. Comput. 1 (2010) 38 // Int. J. Model. Simul. Sci. Comput. 1 (2010) 157–178
39 // 39 //
40 // we would be very happy if you could please 40 // we would be very happy if you could please also cite the following
41 // reference papers on chemistry: 41 // reference papers on chemistry:
42 // 42 //
43 // J. Comput. Phys. 274 (2014) 841-882 43 // J. Comput. Phys. 274 (2014) 841-882
44 // Prog. Nucl. Sci. Tec. 2 (2011) 503-508 << 44 // Prog. Nucl. Sci. Tec. 2 (2011) 503-508
>> 45
>> 46
45 47
46 #ifndef G4Scheduler_h 48 #ifndef G4Scheduler_h
47 #define G4Scheduler_h 49 #define G4Scheduler_h
48 50
>> 51 #include <G4VScheduler.hh>
>> 52 #include <vector>
>> 53 #include <map>
>> 54 #include <memory>
>> 55
>> 56 #include "globals.hh"
>> 57
49 #include "G4ITModelHandler.hh" 58 #include "G4ITModelHandler.hh"
50 #include "G4ITReaction.hh" <<
51 #include "G4ITStepStatus.hh" 59 #include "G4ITStepStatus.hh"
52 #include "G4ITTrackHolder.hh" 60 #include "G4ITTrackHolder.hh"
53 #include "G4VScavengerMaterial.hh" <<
54 #include "G4VStateDependent.hh" 61 #include "G4VStateDependent.hh"
55 #include "globals.hh" << 62 #include "G4ITReaction.hh"
56 << 63 #include "G4VScavengerMaterial.hh"
57 #include <G4VScheduler.hh> <<
58 <<
59 #include <map> <<
60 #include <memory> <<
61 #include <vector> <<
62 64
63 class G4ITTrackingManager; 65 class G4ITTrackingManager;
64 class G4ITModelProcessor; 66 class G4ITModelProcessor;
65 class G4ITStepProcessor; 67 class G4ITStepProcessor;
66 class G4Track; 68 class G4Track;
67 class G4UserTimeStepAction; 69 class G4UserTimeStepAction;
68 class G4SchedulerMessenger; 70 class G4SchedulerMessenger;
69 class G4ITTrackingInteractivity; 71 class G4ITTrackingInteractivity;
70 class G4ITGun; 72 class G4ITGun;
71 73
72 #ifndef compTrackPerID__ 74 #ifndef compTrackPerID__
73 # define compTrackPerID__ << 75 #define compTrackPerID__
74 struct compTrackPerID << 76 struct compTrackPerID
75 { << 77 {
76 G4bool operator()(G4Track* rhs, G4Track* l 78 G4bool operator()(G4Track* rhs, G4Track* lhs) const
77 { 79 {
78 return rhs->GetTrackID() < lhs->GetTrack 80 return rhs->GetTrackID() < lhs->GetTrackID();
79 } 81 }
80 }; << 82 };
81 #endif 83 #endif
82 84
83 /** 85 /**
84 * G4Scheduler synchronizes (in time) track st 86 * G4Scheduler synchronizes (in time) track stepping
85 */ 87 */
86 class G4Scheduler : public G4VScheduler, publi << 88 class G4Scheduler :
87 { << 89 public G4VScheduler,
88 protected: << 90 public G4VStateDependent
89 ~G4Scheduler() override; << 91 {
90 << 92 protected:
91 public: << 93 virtual ~G4Scheduler();
92 G4Scheduler(const G4Scheduler&) = delete; << 94
93 G4Scheduler& operator=(const G4Scheduler&) << 95 public:
94 << 96 static G4Scheduler* Instance();
95 static G4Scheduler* Instance(); << 97 /** DeleteInstance should be used instead
96 /** DeleteInstance should be used instead << 98 * of the destructor
97 * of the destructor << 99 */
98 */ << 100 static void DeleteInstance();
99 static void DeleteInstance(); << 101 virtual G4bool Notify(G4ApplicationState requestedState);
100 G4bool Notify(G4ApplicationState requested << 102
101 << 103 virtual void RegisterModel(G4VITStepModel*, G4double);
102 void RegisterModel(G4VITStepModel*, G4doub << 104
103 << 105 void Initialize();
104 void Initialize() override; << 106 void ForceReinitialization();
105 void ForceReinitialization(); << 107 inline G4bool IsInitialized();
106 inline G4bool IsInitialized(); << 108 inline G4bool IsRunning(){return fRunning;}
107 inline G4bool IsRunning() override { retur << 109 void Reset();
108 void Reset() override; << 110 void Process();
109 void Process() override; << 111 void ClearList();
110 void ClearList(); << 112
111 << 113 inline void SetGun(G4ITGun*);
112 inline void SetGun(G4ITGun*) override; << 114 inline G4ITGun* GetGun();
113 inline G4ITGun* GetGun(); << 115
114 << 116 inline void Stop();
115 inline void Stop(); << 117 void Clear();
116 void Clear(); << 118
117 << 119 // To be called only in UserReactionAction::EndProcessing()
118 // To be called only in UserReactionAction << 120 // after fRunning flag has been turned off.
119 // after fRunning flag has been turned off << 121 // This is not done automatically before UserReactionAction::EndProcessing()
120 // This is not done automatically before U << 122 // is called in case one would like to access some track information
121 // is called in case one would like to acc << 123 void EndTracking();
122 void EndTracking(); << 124
123 << 125 void SetEndTime(const G4double);
124 void SetEndTime(const G4double) override; << 126
125 << 127 /* Two tracks below the time tolerance are supposed to be
126 /* Two tracks below the time tolerance are << 128 * in the same time slice
127 * in the same time slice << 129 */
128 */ << 130 inline void SetTimeTolerance(G4double);
129 inline void SetTimeTolerance(G4double) ove << 131 inline G4double GetTimeTolerance() const;
130 inline G4double GetTimeTolerance() const o << 132
131 << 133 inline void SetMaxZeroTimeAllowed(G4int);
132 inline void SetMaxZeroTimeAllowed(G4int) o << 134 inline G4int GetMaxZeroTimeAllowed() const;
133 inline G4int GetMaxZeroTimeAllowed() const << 135
134 << 136 inline G4ITModelHandler* GetModelHandler();
135 inline G4ITModelHandler* GetModelHandler() << 137
136 << 138 inline void SetTimeSteps(std::map<G4double, G4double>*);
137 inline void SetTimeSteps(std::map<G4double << 139 inline void AddTimeStep(G4double, G4double);
138 inline void AddTimeStep(G4double, G4double << 140 inline void SetDefaultTimeStep(G4double);
139 inline void SetDefaultTimeStep(G4double) o << 141 G4double GetLimitingTimeStep() const;
140 G4double GetLimitingTimeStep() const overr << 142 inline G4int GetNbSteps() const;
141 inline G4int GetNbSteps() const override; << 143 inline void SetMaxNbSteps(G4int);
142 inline void SetMaxNbSteps(G4int) override; << 144 inline G4int GetMaxNbSteps() const;
143 inline G4int GetMaxNbSteps() const overrid << 145 inline G4double GetStartTime() const;
144 inline G4double GetStartTime() const overr << 146 inline G4double GetEndTime() const;
145 inline G4double GetEndTime() const overrid << 147 virtual inline G4double GetTimeStep() const;
146 inline G4double GetTimeStep() const overri << 148 inline G4double GetPreviousTimeStep() const;
147 inline G4double GetPreviousTimeStep() cons << 149 inline G4double GetGlobalTime() const;
148 inline G4double GetGlobalTime() const over << 150 inline void SetUserAction(G4UserTimeStepAction*);
149 inline void SetUserAction(G4UserTimeStepAc << 151 inline G4UserTimeStepAction* GetUserTimeStepAction() const;
150 inline G4UserTimeStepAction* GetUserTimeSt << 152
151 << 153 // To use with transportation only, no reactions
152 // To use with transportation only, no rea << 154 inline void UseDefaultTimeSteps(G4bool);
153 inline void UseDefaultTimeSteps(G4bool); << 155 inline G4bool AreDefaultTimeStepsUsed();
154 inline G4bool AreDefaultTimeStepsUsed(); << 156
155 << 157 inline G4ITStepStatus GetStatus() const;
156 inline G4ITStepStatus GetStatus() const; << 158
157 << 159 /* 1 : Reaction information
158 /* 1 : Reaction information << 160 * 2 : (1) + time step information
159 * 2 : (1) + time step information << 161 * 3 : (2) + step info for individual tracks
160 * 3 : (2) + step info for individual trac << 162 * 4 : (2) + trackList processing info + pushed and killed track info
161 * 4 : (2) + trackList processing info + p << 163 */
162 */ << 164 inline void SetVerbose(G4int);
163 inline void SetVerbose(G4int) override; << 165
164 << 166 inline G4int GetVerbose() const;
165 inline G4int GetVerbose() const; << 167
166 << 168 inline void WhyDoYouStop();
167 inline void WhyDoYouStop(); << 169
168 << 170 void SetInteractivity(G4ITTrackingInteractivity*);
169 void SetInteractivity(G4ITTrackingInteract << 171 inline G4ITTrackingInteractivity* GetInteractivity();
170 inline G4ITTrackingInteractivity* GetInter << 172
171 << 173 virtual size_t GetNTracks();
172 virtual size_t GetNTracks(); << 174
173 << 175 void GetCollisionType(G4String& interactionType);
174 void GetCollisionType(G4String& interactio << 176
175 << 177 void AddWatchedTime(G4double time)
176 void AddWatchedTime(G4double time) { fWatc << 178 {
>> 179 fWatchedTimes.insert(time);
>> 180 }
177 181
178 G4double GetNextWatchedTime() const; << 182 G4double GetNextWatchedTime() const;
179 183
180 inline void SetMaxTimeStep(G4double maxTim << 184 inline void SetMaxTimeStep(G4double maxTimeStep)
>> 185 {
>> 186 fMaxTimeStep = maxTimeStep;
>> 187 }
181 188
182 inline G4double GetMaxTimeStep() const { r << 189 inline G4double GetMaxTimeStep() const
>> 190 {
>> 191 return fMaxTimeStep;
>> 192 }
183 193
184 inline G4VScavengerMaterial* GetScavengerM << 194 inline G4VScavengerMaterial* GetScavengerMaterial() const
185 inline void SetScavengerMaterial(std::uniq << 195 {
186 { << 196 return fpUserScavenger.get();
>> 197 }
>> 198 inline void SetScavengerMaterial(std::unique_ptr<G4VScavengerMaterial> scavengerMaterial)
>> 199 {
187 fpUserScavenger = std::move(scavengerMat 200 fpUserScavenger = std::move(scavengerMaterial);
188 } << 201 }
189 202
190 protected: << 203 protected:
191 void DoProcess(); <<
192 void SynchronizeTracks(); <<
193 void Stepping(); <<
194 <<
195 void FindUserPreDefinedTimeStep(); <<
196 <<
197 G4bool CanICarryOn(); <<
198 <<
199 void PrintWhyDoYouStop(); <<
200 <<
201 private: <<
202 G4Scheduler(); <<
203 void Create(); <<
204 <<
205 G4SchedulerMessenger* fpMessenger = nullpt <<
206 <<
207 static G4ThreadLocal G4Scheduler* fgSchedu <<
208 G4int fVerbose; <<
209 G4bool fWhyDoYouStop; <<
210 G4bool fInitialized; <<
211 G4bool fRunning; <<
212 G4bool fContinue; <<
213 <<
214 G4int fNbSteps; <<
215 G4int fMaxSteps; <<
216 <<
217 G4ITStepStatus fITStepStatus; <<
218 <<
219 // Time members <<
220 G4bool fUseDefaultTimeSteps; <<
221 G4double fTimeTolerance; <<
222 G4double fGlobalTime; <<
223 G4double fStartTime; <<
224 G4double fStopTime; <<
225 G4double fEndTime; <<
226 G4double fPreviousTimeStep; <<
227 G4int fZeroTimeCount; <<
228 G4int fMaxNZeroTimeStepsAllowed; <<
229 <<
230 G4double fTimeStep; // The selected minim <<
231 G4double fMaxTimeStep; <<
232 <<
233 // User steps <<
234 G4bool fUsePreDefinedTimeSteps; <<
235 G4double fDefaultMinTimeStep; <<
236 std::map<G4double, G4double>* fpUserTimeSt <<
237 // One can give time steps in respect to t <<
238 mutable G4double fUserUpperTimeLimit; <<
239 G4double fDefinedMinTimeStep; <<
240 // selected user time step in respect to t <<
241 G4bool fReachedUserTimeLimit; // if fMinT <<
242 <<
243 std::set<G4double> fWatchedTimes; <<
244 <<
245 G4UserTimeStepAction* fpUserTimeStepAction <<
246 <<
247 std::unique_ptr<G4VScavengerMaterial> fpUs <<
248 <<
249 // ======================================= <<
250 // TO BE REMOVED <<
251 G4ITStepProcessor* fpStepProcessor = nullp <<
252 G4ITModelProcessor* fpModelProcessor = nul <<
253 G4ITTrackingManager* fpTrackingManager = n <<
254 G4ITTrackingInteractivity* fpTrackingInter <<
255 G4ITReactionSet* fReactionSet = nullptr; <<
256 G4ITTrackHolder& fTrackContainer; <<
257 G4ITModelHandler* fpModelHandler = nullptr <<
258 // ======================================= <<
259 <<
260 G4double fTSTimeStep; <<
261 // Time calculated by the time stepper in <<
262 G4double fILTimeStep; <<
263 // Time calculated by the interaction leng <<
264 // in ComputeInteractionLength() <<
265 <<
266 G4bool fInteractionStep; <<
267 // Flag : if the step is driven by the int <<
268 // NOT by the reaction between tracks <<
269 <<
270 G4ITGun* fpGun; <<
271 <<
272 // ======================================= <<
273 // Hoang <<
274 G4bool fResetScavenger; <<
275 204
276 public: << 205 void DoProcess();
277 void ResetScavenger(bool); << 206 void SynchronizeTracks();
>> 207 void Stepping();
>> 208
>> 209 void FindUserPreDefinedTimeStep();
>> 210
>> 211 G4bool CanICarryOn();
>> 212
>> 213 void PrintWhyDoYouStop();
>> 214
>> 215 private:
>> 216 G4Scheduler();
>> 217 void Create();
>> 218 G4Scheduler(const G4Scheduler&);
>> 219 G4Scheduler& operator=(const G4Scheduler&);
>> 220
>> 221 G4SchedulerMessenger* fpMessenger;
>> 222
>> 223 static G4ThreadLocal G4Scheduler* fgScheduler;
>> 224 G4int fVerbose;
>> 225 G4bool fWhyDoYouStop;
>> 226 G4bool fInitialized;
>> 227 G4bool fRunning;
>> 228 G4bool fContinue;
>> 229
>> 230 G4int fNbSteps;
>> 231 G4int fMaxSteps;
>> 232
>> 233 G4ITStepStatus fITStepStatus;
>> 234
>> 235 // Time members
>> 236 G4bool fUseDefaultTimeSteps;
>> 237 G4double fTimeTolerance;
>> 238 G4double fGlobalTime;
>> 239 G4double fTmpGlobalTime;
>> 240 G4double fStartTime;
>> 241 G4double fStopTime;
>> 242 G4double fEndTime;
>> 243 G4double fPreviousTimeStep;
>> 244 G4int fZeroTimeCount;
>> 245 G4int fMaxNZeroTimeStepsAllowed;
>> 246
>> 247 G4double fTimeStep; // The selected minimum time step
>> 248 G4double fMaxTimeStep;
>> 249
>> 250 // User steps
>> 251 G4bool fUsePreDefinedTimeSteps;
>> 252 G4double fDefaultMinTimeStep;
>> 253 std::map<G4double, G4double>* fpUserTimeSteps;
>> 254 // One can give time steps in respect to the global time
>> 255 mutable G4double fUserUpperTimeLimit;
>> 256 G4double fDefinedMinTimeStep;
>> 257 // selected user time step in respect to the global time
>> 258 G4bool fReachedUserTimeLimit; // if fMinTimeStep == the user time step
>> 259
>> 260 std::set<G4double> fWatchedTimes;
>> 261
>> 262 G4UserTimeStepAction* fpUserTimeStepAction;
>> 263
>> 264 std::unique_ptr<G4VScavengerMaterial> fpUserScavenger;
>> 265
>> 266 // ==========================================
>> 267 // TO BE REMOVED
>> 268 G4ITStepProcessor* fpStepProcessor;
>> 269 G4ITModelProcessor* fpModelProcessor;
>> 270 G4ITTrackingManager* fpTrackingManager;
>> 271 G4ITTrackingInteractivity* fpTrackingInteractivity;
>> 272 G4ITReactionSet* fReactionSet;
>> 273 G4ITTrackHolder& fTrackContainer;
>> 274 G4ITModelHandler* fpModelHandler;
>> 275 // ==========================================
>> 276
>> 277 G4double fTSTimeStep;
>> 278 // Time calculated by the time stepper in CalculateMinTimeStep()
>> 279 G4double fILTimeStep;
>> 280 // Time calculated by the interaction length methods
>> 281 // in ComputeInteractionLength()
>> 282
>> 283 G4bool fInteractionStep;
>> 284 // Flag : if the step is driven by the interaction with the matter and
>> 285 // NOT by the reaction between tracks
>> 286
>> 287 G4ITGun* fpGun;
>> 288
>> 289 // ==========================================
>> 290 //Hoang
>> 291 bool fResetScavenger;
>> 292 public:
>> 293 void ResetScavenger(bool);
278 }; 294 };
279 295
280 inline G4bool G4Scheduler::IsInitialized() 296 inline G4bool G4Scheduler::IsInitialized()
281 { 297 {
282 return fInitialized; 298 return fInitialized;
283 } 299 }
284 300
285 inline G4ITModelHandler* G4Scheduler::GetModel 301 inline G4ITModelHandler* G4Scheduler::GetModelHandler()
286 { 302 {
287 return fpModelHandler; 303 return fpModelHandler;
288 } 304 }
289 305
290 inline void G4Scheduler::SetEndTime(const G4do 306 inline void G4Scheduler::SetEndTime(const G4double __endtime)
291 { 307 {
292 fEndTime = __endtime; 308 fEndTime = __endtime;
293 } 309 }
294 310
295 inline void G4Scheduler::SetTimeSteps(std::map << 311 inline
>> 312 void G4Scheduler::SetTimeSteps(std::map<G4double, G4double>* steps)
296 { 313 {
297 fUsePreDefinedTimeSteps = true; 314 fUsePreDefinedTimeSteps = true;
298 fpUserTimeSteps = steps; 315 fpUserTimeSteps = steps;
299 } 316 }
300 317
301 inline void G4Scheduler::AddTimeStep(G4double 318 inline void G4Scheduler::AddTimeStep(G4double startingTime, G4double timeStep)
302 { 319 {
303 if (fpUserTimeSteps == nullptr) { << 320 if (fpUserTimeSteps == 0)
>> 321 {
304 fpUserTimeSteps = new std::map<G4double, G 322 fpUserTimeSteps = new std::map<G4double, G4double>();
305 fUsePreDefinedTimeSteps = true; 323 fUsePreDefinedTimeSteps = true;
306 } 324 }
307 325
308 (*fpUserTimeSteps)[startingTime] = timeStep; 326 (*fpUserTimeSteps)[startingTime] = timeStep;
309 } 327 }
310 328
311 inline G4int G4Scheduler::GetNbSteps() const 329 inline G4int G4Scheduler::GetNbSteps() const
312 { 330 {
313 return fNbSteps; 331 return fNbSteps;
314 } 332 }
315 333
316 inline void G4Scheduler::SetMaxNbSteps(G4int m 334 inline void G4Scheduler::SetMaxNbSteps(G4int maxSteps)
317 { 335 {
318 fMaxSteps = maxSteps; 336 fMaxSteps = maxSteps;
319 } 337 }
320 338
321 inline G4int G4Scheduler::GetMaxNbSteps() cons 339 inline G4int G4Scheduler::GetMaxNbSteps() const
322 { 340 {
323 return fMaxSteps; 341 return fMaxSteps;
324 } 342 }
325 343
326 inline G4double G4Scheduler::GetStartTime() co 344 inline G4double G4Scheduler::GetStartTime() const
327 { 345 {
328 return fStartTime; 346 return fStartTime;
329 } 347 }
330 348
331 inline G4double G4Scheduler::GetEndTime() cons 349 inline G4double G4Scheduler::GetEndTime() const
332 { 350 {
333 return fEndTime; 351 return fEndTime;
334 } 352 }
335 353
336 inline G4double G4Scheduler::GetTimeStep() con 354 inline G4double G4Scheduler::GetTimeStep() const
337 { 355 {
338 return fTimeStep; 356 return fTimeStep;
339 } 357 }
340 358
341 inline void G4Scheduler::SetDefaultTimeStep(G4 359 inline void G4Scheduler::SetDefaultTimeStep(G4double timeStep)
342 { 360 {
343 fDefaultMinTimeStep = timeStep; 361 fDefaultMinTimeStep = timeStep;
344 } 362 }
345 363
346 inline G4double G4Scheduler::GetGlobalTime() c 364 inline G4double G4Scheduler::GetGlobalTime() const
347 { 365 {
348 return fGlobalTime; 366 return fGlobalTime;
349 } 367 }
350 368
351 inline void G4Scheduler::SetUserAction(G4UserT << 369 inline
>> 370 void G4Scheduler::SetUserAction(G4UserTimeStepAction* userITAction)
352 { 371 {
353 fpUserTimeStepAction = userITAction; 372 fpUserTimeStepAction = userITAction;
354 } 373 }
355 374
356 inline G4UserTimeStepAction* G4Scheduler::GetU 375 inline G4UserTimeStepAction* G4Scheduler::GetUserTimeStepAction() const
357 { 376 {
358 return fpUserTimeStepAction; 377 return fpUserTimeStepAction;
359 } 378 }
360 379
361 inline void G4Scheduler::SetVerbose(G4int verb 380 inline void G4Scheduler::SetVerbose(G4int verbose)
362 { 381 {
363 fVerbose = verbose; 382 fVerbose = verbose;
364 } 383 }
365 384
366 inline G4int G4Scheduler::GetVerbose() const 385 inline G4int G4Scheduler::GetVerbose() const
367 { 386 {
368 return fVerbose; 387 return fVerbose;
369 } 388 }
370 389
371 inline void G4Scheduler::SetMaxZeroTimeAllowed << 390 inline
>> 391 void G4Scheduler::SetMaxZeroTimeAllowed(G4int maxTimeStepAllowed)
372 { 392 {
373 fMaxNZeroTimeStepsAllowed = maxTimeStepAllow 393 fMaxNZeroTimeStepsAllowed = maxTimeStepAllowed;
374 } 394 }
375 395
376 inline G4int G4Scheduler::GetMaxZeroTimeAllowe 396 inline G4int G4Scheduler::GetMaxZeroTimeAllowed() const
377 { 397 {
378 return fMaxNZeroTimeStepsAllowed; 398 return fMaxNZeroTimeStepsAllowed;
379 } 399 }
380 400
381 inline void G4Scheduler::SetTimeTolerance(G4do 401 inline void G4Scheduler::SetTimeTolerance(G4double time)
382 { 402 {
383 fTimeTolerance = time; 403 fTimeTolerance = time;
384 } 404 }
385 405
386 inline G4double G4Scheduler::GetTimeTolerance( 406 inline G4double G4Scheduler::GetTimeTolerance() const
387 { 407 {
388 return fTimeTolerance; 408 return fTimeTolerance;
389 } 409 }
390 410
391 inline G4double G4Scheduler::GetPreviousTimeSt 411 inline G4double G4Scheduler::GetPreviousTimeStep() const
392 { 412 {
393 return fPreviousTimeStep; 413 return fPreviousTimeStep;
394 } 414 }
395 415
396 inline G4ITStepStatus G4Scheduler::GetStatus() 416 inline G4ITStepStatus G4Scheduler::GetStatus() const
397 { 417 {
398 return fITStepStatus; 418 return fITStepStatus;
399 } 419 }
400 420
401 inline void G4Scheduler::Stop() 421 inline void G4Scheduler::Stop()
402 { 422 {
403 fContinue = false; 423 fContinue = false;
404 } 424 }
405 425
406 inline G4ITTrackingInteractivity* G4Scheduler: 426 inline G4ITTrackingInteractivity* G4Scheduler::GetInteractivity()
407 { 427 {
408 return fpTrackingInteractivity; 428 return fpTrackingInteractivity;
409 } 429 }
410 430
411 inline void G4Scheduler::SetGun(G4ITGun* gun) 431 inline void G4Scheduler::SetGun(G4ITGun* gun)
412 { 432 {
413 fpGun = gun; 433 fpGun = gun;
414 } 434 }
415 435
416 inline G4ITGun* G4Scheduler::GetGun() 436 inline G4ITGun* G4Scheduler::GetGun()
417 { 437 {
418 return fpGun; 438 return fpGun;
419 } 439 }
420 440
421 inline void G4Scheduler::WhyDoYouStop() 441 inline void G4Scheduler::WhyDoYouStop()
422 { 442 {
423 fWhyDoYouStop = true; 443 fWhyDoYouStop = true;
424 } 444 }
425 445
426 inline void G4Scheduler::UseDefaultTimeSteps(G 446 inline void G4Scheduler::UseDefaultTimeSteps(G4bool flag)
427 { 447 {
428 fUseDefaultTimeSteps = flag; 448 fUseDefaultTimeSteps = flag;
429 } 449 }
430 450
431 inline G4bool G4Scheduler::AreDefaultTimeSteps 451 inline G4bool G4Scheduler::AreDefaultTimeStepsUsed()
432 { 452 {
433 return (!fUseDefaultTimeSteps && !fUsePreDef << 453 return (fUseDefaultTimeSteps == false && fUsePreDefinedTimeSteps == false);
434 } 454 }
435 455
436 inline void G4Scheduler::ResetScavenger(bool v 456 inline void G4Scheduler::ResetScavenger(bool value)
437 { 457 {
438 fResetScavenger = value; << 458 fResetScavenger = value;
439 } 459 }
440 460
441 #endif 461 #endif
442 462