Geant4 11.1.1
Toolkit for the simulation of the passage of particles through matter
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G4ITMultiNavigator.cc
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26//
27// GEANT4 tag $ Name: $
28//
29// class G4PathFinder Implementation
30//
31// Author: John Apostolakis, November 2006
32// --------------------------------------------------------------------
33
34#include <iomanip>
35
36#include "G4ITMultiNavigator.hh"
37
38class G4FieldManager;
39
40#include "G4SystemOfUnits.hh"
41#include "G4ITNavigator.hh"
44
45#define State(X) fpTrackState->X
46#define fLimitedStep State(fLimitedStep)
47#define fLimitTruth State(fLimitTruth)
48#define fCurrentStepSize State(fCurrentStepSize)
49#define fNewSafety State(fNewSafety)
50#define fNoLimitingStep State(fNoLimitingStep)
51#define fIdNavLimiting State(fIdNavLimiting)
52#define fMinStep State(fMinStep)
53#define fMinSafety State(fMinSafety)
54#define fTrueMinStep State(fTrueMinStep)
55#define fLocatedVolume State(fLocatedVolume)
56#define fLastLocatedPosition State(fLastLocatedPosition)
57#define fSafetyLocation State(fSafetyLocation)
58#define fMinSafety_atSafLocation State(fMinSafety_atSafLocation)
59#define fPreStepLocation State(fPreStepLocation)
60#define fMinSafety_PreStepPt State(fMinSafety_PreStepPt)
61#define fWasLimitedByGeometry State(fWasLimitedByGeometry)
62
63// ********************************************************************
64// Constructor
65// ********************************************************************
66//
68 : G4ITNavigator(), fLastMassWorld(0)
69{
70 fNoActiveNavigators= 0;
71
72 for(G4int num=0; num< fMaxNav; ++num )
73 {
74 fpNavigator[num] = 0;
75 }
76
78
79 G4ITNavigator* massNav= pTransportManager->GetNavigatorForTracking();
80 if( massNav )
81 {
82 G4VPhysicalVolume* pWorld= massNav->GetWorldVolume();
83 if( pWorld )
84 {
85 SetWorldVolume( pWorld );
86 fLastMassWorld = pWorld;
87 }
88 }
89}
90
92{
93}
94
96 const G4ThreeVector &pDirection,
97 const G4double proposedStepLength,
98 G4double &pNewSafety)
99{
100 G4double safety= 0.0, step=0.0;
101 G4double minSafety= kInfinity, minStep= kInfinity;
102
103 fNoLimitingStep= -1;
104 fIdNavLimiting= -1; // Reset for new step
105
106#ifdef G4DEBUG_NAVIGATION
107 if( fVerbose > 2 )
108 {
109 G4cout << " G4ITMultiNavigator::ComputeStep : entered " << G4endl;
110 G4cout << " Input position= " << pGlobalPoint
111 << " direction= " << pDirection << G4endl;
112 G4cout << " Requested step= " << proposedStepLength << G4endl;
113 }
114#endif
115
116 std::vector<G4ITNavigator*>::iterator pNavigatorIter;
117
118 pNavigatorIter= pTransportManager-> GetActiveNavigatorsIterator();
119
120 G4ThreeVector initialPosition = pGlobalPoint;
121 G4ThreeVector initialDirection= pDirection;
122
123 for( G4int num=0; num< fNoActiveNavigators; ++pNavigatorIter,++num )
124 {
125 safety= kInfinity;
126
127 step= (*pNavigatorIter)->ComputeStep( initialPosition,
128 initialDirection,
129 proposedStepLength,
130 safety );
131 if( safety < minSafety ){ minSafety = safety; }
132 if( step < minStep ) { minStep= step; }
133
134 fCurrentStepSize[num] = step;
135 fNewSafety[num]= safety;
136 // This is currently the safety from the last sub-step
137
138#ifdef G4DEBUG_NAVIGATION
139 if( fVerbose > 2 )
140 {
141 G4cout << "G4ITMultiNavigator::ComputeStep : Navigator ["
142 << num << "] -- step size " << step
143 << " safety= " << safety << G4endl;
144 }
145#endif
146 }
147
148 // Save safety value, related position
149 //
150 fPreStepLocation = initialPosition;
151 fMinSafety_PreStepPt = minSafety;
152 fMinStep = minStep;
153
154 if( fMinStep == kInfinity )
155 {
156 fTrueMinStep = proposedStepLength; // Use this below for endpoint !!
157 }
158 else
159 {
160 fTrueMinStep = minStep;
161 }
162
163#ifdef G4DEBUG_NAVIGATION
164 if( fVerbose > 1 )
165 {
166 G4ThreeVector endPosition = initialPosition+fTrueMinStep*initialDirection;
167
168 G4int oldPrec = G4cout.precision(8);
169 G4cout << "G4ITMultiNavigator::ComputeStep : "
170 << " initialPosition = " << initialPosition
171 << " and endPosition = " << endPosition << G4endl;
172 G4cout.precision( oldPrec );
173 }
174#endif
175
176 pNewSafety = minSafety;
177
178 this->WhichLimited();
179
180#ifdef G4DEBUG_NAVIGATION
181 if( fVerbose > 2 )
182 {
183 G4cout << " G4ITMultiNavigator::ComputeStep : exits returning "
184 << minStep << G4endl;
185 }
186#endif
187
188 return minStep; // must return kInfinity if do not limit step
189}
190
191// ----------------------------------------------------------------------
192
195 G4double &pNewSafety, // for this geometry
196 G4double &minStep,
197 ELimited &limitedStep)
198{
199 if( navigatorId > fNoActiveNavigators )
200 {
201 std::ostringstream message;
202 message << "Bad Navigator Id!" << G4endl
203 << " Navigator Id = " << navigatorId
204 << " No Active = " << fNoActiveNavigators << ".";
205 G4Exception("G4ITMultiNavigator::ObtainFinalStep()", "GeomNav0002",
206 FatalException, message);
207 }
208
209 // Prepare the information to return
210 //
211 pNewSafety = fNewSafety[ navigatorId ];
212 limitedStep = fLimitedStep[ navigatorId ];
213 minStep= fMinStep;
214
215#ifdef G4DEBUG_NAVIGATION
216 if( fVerbose > 1 )
217 {
218 G4cout << " G4ITMultiNavigator::ComputeStep returns "
219 << fCurrentStepSize[ navigatorId ]
220 << " for Navigator " << navigatorId
221 << " Limited step = " << limitedStep
222 << " Safety(mm) = " << pNewSafety / mm << G4endl;
223 }
224#endif
225
226 return fCurrentStepSize[ navigatorId ];
227}
228
229// ----------------------------------------------------------------------
230
232 const G4ThreeVector direction )
233{
234#ifdef G4DEBUG_NAVIGATION
235 if( fVerbose > 1 )
236 {
237 G4cout << " Entered G4ITMultiNavigator::PrepareNewTrack() " << G4endl;
238 }
239#endif
240
242
243 LocateGlobalPointAndSetup( position, &direction, false, false );
244 //
245 // The first location for each Navigator must be non-relative
246 // or else call ResetStackAndState() for each Navigator
247 // Use direction to get correct side of boundary (ignore dir= false)
248}
249
250// ----------------------------------------------------------------------
251
253{
254 // Key purposes:
255 // - Check and cache set of active navigators
256 // - Reset state for new track
257
258#ifdef G4DEBUG_NAVIGATION
259 if( fVerbose > 1 )
260 {
261 G4cout << " Entered G4ITMultiNavigator::PrepareNavigators() " << G4endl;
262 }
263#endif
264
265 // Message the transportation-manager to find active navigators
266
267 std::vector<G4ITNavigator*>::iterator pNavigatorIter;
268 fNoActiveNavigators = (G4int)pTransportManager-> GetNoActiveNavigators();
269
270 if( fNoActiveNavigators > fMaxNav )
271 {
272 std::ostringstream message;
273 message << "Too many active Navigators / worlds !" << G4endl
274 << " Active Navigators (worlds): "
275 << fNoActiveNavigators << G4endl
276 << " which is more than the number allowed: "
277 << fMaxNav << " !";
278 G4Exception("G4ITMultiNavigator::PrepareNavigators()", "GeomNav0002",
279 FatalException, message);
280 }
281
282 pNavigatorIter= pTransportManager-> GetActiveNavigatorsIterator();
283 for( G4int num=0; num< fNoActiveNavigators; ++pNavigatorIter,++num )
284 {
285 fpNavigator[num] = *pNavigatorIter;
286 fLimitTruth[num] = false;
287 fLimitedStep[num] = kDoNot;
288 fCurrentStepSize[num] = 0.0;
289 fLocatedVolume[num] = 0;
290 }
291 fWasLimitedByGeometry = false;
292
293 // Check the world volume of the mass navigator
294 // in case a call to SetWorldVolume() changed it
295
296 G4VPhysicalVolume* massWorld = GetWorldVolume();
297
298 if( (massWorld != fLastMassWorld) && (massWorld!=0) )
299 {
300 // Pass along change to Mass Navigator
301 fpNavigator[0] -> SetWorldVolume( massWorld );
302
303#ifdef G4DEBUG_NAVIGATION
304 if( fVerbose > 0 )
305 {
306 G4cout << " G4ITMultiNavigator::PrepareNavigators() changed world volume "
307 << " for mass geometry to " << massWorld->GetName() << G4endl;
308 }
309#endif
310
311 fLastMassWorld = massWorld;
312 }
313}
314
315// ----------------------------------------------------------------------
316
319 const G4ThreeVector* pDirection,
320 const G4bool pRelativeSearch,
321 const G4bool ignoreDirection )
322{
323 // Locate the point in each geometry
324
325 G4ThreeVector direction(0.0, 0.0, 0.0);
326 G4bool relative = pRelativeSearch;
327 std::vector<G4ITNavigator*>::iterator pNavIter
328 = pTransportManager->GetActiveNavigatorsIterator();
329
330 if( pDirection ) { direction = *pDirection; }
331
332#ifdef G4DEBUG_NAVIGATION
333 if( fVerbose > 2 )
334 {
335 G4cout << " Entered G4ITMultiNavigator::LocateGlobalPointAndSetup() "
336 << G4endl;
337 G4cout << " Locating at position: " << position
338 << ", with direction: " << direction << G4endl
339 << " Relative: " << relative
340 << ", ignore direction: " << ignoreDirection << G4endl;
341 G4cout << " Number of active navigators: " << fNoActiveNavigators
342 << G4endl;
343 }
344#endif
345
346 for ( G4int num=0; num< fNoActiveNavigators ; ++pNavIter,++num )
347 {
349 {
350 (*pNavIter)->SetGeometricallyLimitedStep();
351 }
352
353 G4VPhysicalVolume *pLocated
354 = (*pNavIter)->LocateGlobalPointAndSetup( position, &direction,
355 relative, ignoreDirection );
356 // Set the state related to the location
357 //
358 fLocatedVolume[num] = pLocated;
359
360 // Clear state related to the step
361 //
362 fLimitedStep[num] = kDoNot;
363 fCurrentStepSize[num] = 0.0;
364 fLimitTruth[ num ] = false; // Always clear on locating (see Navigator)
365
366#ifdef G4DEBUG_NAVIGATION
367 if( fVerbose > 2 )
368 {
369 G4cout << " Located in world: " << num << ", at: " << position << G4endl
370 << " Used geomLimStp: " << fLimitTruth[num]
371 << ", found in volume: " << pLocated << G4endl;
372 G4cout << " Name = '" ;
373 if( pLocated )
374 {
375 G4cout << pLocated->GetName() << "'";
376 G4cout << " - CopyNo= " << pLocated->GetCopyNo();
377 }
378 else
379 {
380 G4cout << "Null' Id: Not-Set ";
381 }
382 G4cout << G4endl;
383 }
384#endif
385 }
386
387 fWasLimitedByGeometry = false; // Clear on locating
388 G4VPhysicalVolume* volMassLocated= fLocatedVolume[0];
389
390 return volMassLocated;
391}
392
393// ----------------------------------------------------------------------
394
395void
397{
398 // Relocate the point in each geometry
399
400 std::vector<G4ITNavigator*>::iterator pNavIter
401 = pTransportManager->GetActiveNavigatorsIterator();
402
403#ifdef G4DEBUG_NAVIGATION
404 if( fVerbose > 2 )
405 {
406 G4cout << " Entered G4ITMultiNavigator::ReLocate() " << G4endl
407 << " Re-locating at position: " << position << G4endl;
408 }
409#endif
410
411 for ( G4int num=0; num< fNoActiveNavigators ; ++pNavIter,++num )
412 {
413 // ... none limited the step
414
415 (*pNavIter)->LocateGlobalPointWithinVolume( position );
416
417 // Clear state related to the step
418 //
419 fLimitedStep[num] = kDoNot;
420 fCurrentStepSize[num] = 0.0;
421
422 fLimitTruth[ num ] = false; // Always clear on locating (see Navigator)
423 }
424 fWasLimitedByGeometry = false; // Clear on locating
426}
427
428// ----------------------------------------------------------------------
429
431 const G4double maxDistance,
432 const G4bool state)
433{
434 // Recompute safety for the relevant point
435
436 G4double minSafety = kInfinity, safety = kInfinity;
437
438 std::vector<G4ITNavigator*>::iterator pNavigatorIter;
439 pNavigatorIter= pTransportManager-> GetActiveNavigatorsIterator();
440
441 for( G4int num=0; num< fNoActiveNavigators; ++pNavigatorIter,++num )
442 {
443 safety = (*pNavigatorIter)->ComputeSafety( position, maxDistance, state);
444 if( safety < minSafety ) { minSafety = safety; }
445 }
446
448 fMinSafety_atSafLocation = minSafety;
449
450#ifdef G4DEBUG_NAVIGATION
451 if( fVerbose > 1 )
452 {
453 G4cout << " G4ITMultiNavigator::ComputeSafety - returns: "
454 << minSafety << ", at location: " << position << G4endl;
455 }
456#endif
457 return minSafety;
458}
459
460// -----------------------------------------------------------------------
461
464{
465 G4Exception( "G4ITMultiNavigator::CreateTouchableHistoryHandle()",
466 "GeomNav0001", FatalException,
467 "Getting a touchable from G4ITMultiNavigator is not defined.");
468
469 G4TouchableHistory* touchHist;
470 touchHist= fpNavigator[0] -> CreateTouchableHistory();
471
472 G4VPhysicalVolume* locatedVolume= fLocatedVolume[0];
473 if( locatedVolume == 0 )
474 {
475 // Workaround to ensure that the touchable is fixed !! // TODO: fix
476 //
477 touchHist->UpdateYourself( locatedVolume, touchHist->GetHistory() );
478 }
479
480 return G4TouchableHistoryHandle(touchHist);
481}
482
483// -----------------------------------------------------------------------
484
486{
487 // Flag which processes limited the step
488
489 G4int last=-1;
490 const G4int IdTransport= 0; // Id of Mass Navigator !!
491 G4int noLimited=0;
492 ELimited shared= kSharedOther;
493
494#ifdef G4DEBUG_NAVIGATION
495 if( fVerbose > 2 )
496 {
497 G4cout << " Entered G4ITMultiNavigator::WhichLimited() " << G4endl;
498 }
499#endif
500
501 // Assume that [IdTransport] is Mass / Transport
502 //
503 G4bool transportLimited = (fCurrentStepSize[IdTransport] == fMinStep)
504 && ( fMinStep!= kInfinity);
505 if( transportLimited )
506 {
507 shared= kSharedTransport;
508 }
509
510 for ( G4int num= 0; num < fNoActiveNavigators; num++ )
511 {
512 G4bool limitedStep;
513
514 G4double step= fCurrentStepSize[num];
515
516 limitedStep = ( step == fMinStep ) && ( step != kInfinity);
517
518 fLimitTruth[ num ] = limitedStep;
519 if( limitedStep )
520 {
521 noLimited++;
522 fLimitedStep[num] = shared;
523 last= num;
524 }
525 else
526 {
527 fLimitedStep[num] = kDoNot;
528 }
529 }
530 if( (last > -1) && (noLimited == 1 ) )
531 {
532 fLimitedStep[ last ] = kUnique;
533 }
534
535 fNoLimitingStep= noLimited;
536
537 return;
538}
539
540// -----------------------------------------------------------------------
541
542void
544{
545 // Report results -- for checking
546
547 static const G4String StrDoNot("DoNot"), StrUnique("Unique"),
548 StrUndefined("Undefined"),
549 StrSharedTransport("SharedTransport"),
550 StrSharedOther("SharedOther");
551 G4cout << "### G4ITMultiNavigator::PrintLimited() reports: " << G4endl;
552 G4cout << " Minimum step (true): " << fTrueMinStep
553 << ", reported min: " << fMinStep << G4endl;
554
555#ifdef G4DEBUG_NAVIGATION
556 if(fVerbose>=2)
557 {
558 G4cout << std::setw(5) << " NavId" << " "
559 << std::setw(12) << " step-size " << " "
560 << std::setw(12) << " raw-size " << " "
561 << std::setw(12) << " pre-safety " << " "
562 << std::setw(15) << " Limited / flag" << " "
563 << std::setw(15) << " World " << " "
564 << G4endl;
565 }
566#endif
567
568 for ( G4int num= 0; num < fNoActiveNavigators; num++ )
569 {
570 G4double rawStep = fCurrentStepSize[num];
571 G4double stepLen = fCurrentStepSize[num];
572 if( stepLen > fTrueMinStep )
573 {
574 stepLen = fTrueMinStep; // did not limit (went as far as asked)
575 }
576 G4long oldPrec= G4cout.precision(9);
577
578 G4cout << std::setw(5) << num << " "
579 << std::setw(12) << stepLen << " "
580 << std::setw(12) << rawStep << " "
581 << std::setw(12) << fNewSafety[num] << " "
582 << std::setw(5) << (fLimitTruth[num] ? "YES" : " NO") << " ";
583 G4String limitedStr;
584 switch ( fLimitedStep[num] )
585 {
586 case kDoNot : limitedStr= StrDoNot; break;
587 case kUnique : limitedStr = StrUnique; break;
588 case kSharedTransport: limitedStr= StrSharedTransport; break;
589 case kSharedOther : limitedStr = StrSharedOther; break;
590 default : limitedStr = StrUndefined; break;
591 }
592 G4cout << " " << std::setw(15) << limitedStr << " ";
593 G4cout.precision(oldPrec);
594
595 G4ITNavigator *pNav= fpNavigator[ num ];
596 G4String WorldName( "Not-Set" );
597 if (pNav)
598 {
599 G4VPhysicalVolume *pWorld= pNav->GetWorldVolume();
600 if( pWorld )
601 {
602 WorldName = pWorld->GetName();
603 }
604 }
605 G4cout << " " << WorldName ;
606 G4cout << G4endl;
607 }
608}
609
610
611// -----------------------------------------------------------------------
612
614{
615 fWasLimitedByGeometry= false;
616
617 G4Exception("G4ITMultiNavigator::ResetState()", "GeomNav0001",
619 "Cannot reset state for navigators of G4ITMultiNavigator.");
620
621 std::vector<G4ITNavigator*>::iterator pNavigatorIter;
622 pNavigatorIter= pTransportManager-> GetActiveNavigatorsIterator();
623 for( G4int num=0; num< fNoActiveNavigators; ++pNavigatorIter,++num )
624 {
625 // (*pNavigatorIter)->ResetState(); // KEEP THIS comment !!!
626 }
627}
628
629// -----------------------------------------------------------------------
630
632{
633 G4Exception( "G4ITMultiNavigator::SetupHierarchy()",
634 "GeomNav0001", FatalException,
635 "Cannot setup hierarchy for navigators of G4ITMultiNavigator.");
636}
637
638// -----------------------------------------------------------------------
639
641{
642 G4VPhysicalVolume* navTrackWorld=
643 pTransportManager->GetNavigatorForTracking()->GetWorldVolume();
644
645 if( navTrackWorld != fLastMassWorld )
646 {
647 G4Exception( "G4ITMultiNavigator::CheckMassWorld()",
648 "GeomNav0003", FatalException,
649 "Mass world pointer has been changed." );
650 }
651}
652
653// -----------------------------------------------------------------------
654
657 const G4ThreeVector &direction,
658 const G4TouchableHistory &MassHistory)
659{
660 // Reset geometry for all -- and use the touchable for the mass history
661
662 G4VPhysicalVolume* massVolume=0;
663 G4ITNavigator* pMassNavigator= fpNavigator[0];
664
665 if( pMassNavigator )
666 {
667 massVolume= pMassNavigator->ResetHierarchyAndLocate( point, direction,
668 MassHistory);
669 }
670 else
671 {
672 G4Exception("G4ITMultiNavigator::ResetHierarchyAndLocate()",
673 "GeomNav0002", FatalException,
674 "Cannot reset hierarchy before navigators are initialised.");
675 }
676
677 std::vector<G4ITNavigator*>::iterator pNavIter=
678 pTransportManager->GetActiveNavigatorsIterator();
679
680 for ( G4int num=0; num< fNoActiveNavigators ; ++pNavIter,++num )
681 {
682 G4bool relativeSearch, ignoreDirection;
683
684 (*pNavIter)-> LocateGlobalPointAndSetup( point,
685 &direction,
686 relativeSearch=false,
687 ignoreDirection=false);
688 }
689 return massVolume;
690}
691
692// ----------------- ooooooOOOOOOOOOOOOOOOoooooo -------------------------------------
693
696 G4bool* argpObtained) // obtained valid
697{
698 G4ThreeVector normalGlobalCrd(0.0, 0.0, 0.0);
699 G4bool isObtained= false;
700 // These default values will be used if fNoLimitingStep== 0
701 G4int firstNavigatorId= -1;
702 G4bool oneObtained= false;
703
704 if( fNoLimitingStep==1 )
705 {
706 // Only message the Navigator which limited the step!
707 normalGlobalCrd= fpNavigator[ fIdNavLimiting ]->GetGlobalExitNormal( argPoint, &isObtained);
708 *argpObtained= isObtained;
709 }
710 else
711 {
712 if( fNoLimitingStep > 1 )
713 {
714 std::vector<G4ITNavigator*>::iterator pNavIter=
715 pTransportManager->GetActiveNavigatorsIterator();
716
717 for ( G4int num=0; num< fNoActiveNavigators ; ++pNavIter,++num )
718 {
719 G4ThreeVector oneNormal;
720 if( fLimitTruth[ num ] ) // Did this geometry limit the step ?
721 {
722 G4ThreeVector newNormal= (*pNavIter)-> GetGlobalExitNormal( argPoint, &oneObtained );
723 if( oneObtained )
724 {
725 // Keep first one - only if it is valid (ie not null)
726 if( !isObtained && (newNormal.mag2() != 0.0) )
727 {
728 normalGlobalCrd= newNormal;
729 isObtained = oneObtained;
730 firstNavigatorId= num;
731 }else{
732 // Check for clash
733 G4double dotNewPrevious= newNormal.dot( normalGlobalCrd );
734 G4double productMagSq= normalGlobalCrd.mag2() * newNormal.mag2();
735 if( productMagSq > 0.0 )
736 {
737 G4double productMag= std::sqrt( productMagSq );
738 dotNewPrevious /= productMag; // Normalise
739 if( dotNewPrevious < (1 - perThousand) )
740 {
741 *argpObtained= false;
742
743 if( fVerbose > 2 ) // dotNewPrevious <= 0.0 )
744 {
745 std::ostringstream message;
746 message << "Clash of Normal from different Navigators!" << G4endl
747 << " Previous Navigator Id = " << firstNavigatorId << G4endl
748 << " Current Navigator Id = " << num << G4endl;
749 message << " Dot product of 2 normals = " << dotNewPrevious << G4endl;
750 message << " Normal (previous) = " << normalGlobalCrd << G4endl;
751 message << " Normal (current) = " << newNormal << G4endl;
752 G4Exception("G4ITMultiNavigator::GetGlobalExitNormal()", "GeomNav0002",
753 JustWarning, message);
754 }
755 }
756 else
757 {
758 // Close agreement - Do not change
759 }
760 }
761 }
762 }
763 }
764 } // end for over the Navigators
765
766 // Report if no Normal was obtained
767 if( !oneObtained )
768 {
769 std::ostringstream message;
770 message << "No Normal obtained despite having " << fNoLimitingStep
771 << " candidate Navigators limiting the step!" << G4endl;
772 G4Exception("G4ITMultiNavigator::GetGlobalExitNormal()", "GeomNav0002",
773 JustWarning, message);
774 }
775
776 } // end if ( fNoLimiting > 1 )
777 } // end else
778
779 *argpObtained= isObtained;
780 return normalGlobalCrd;
781}
782
783// ----------------- ooooooOOOOOOOOOOOOOOOoooooo -------------------------------------
784
787{
788 // If it is the mass navigator, then expect
789 G4ThreeVector normalGlobalCrd(0.0, 0.0, 0.0);
790 G4bool isObtained= false;
791 // These default values will be used if fNoLimitingStep== 0
792
793 if( fNoLimitingStep==1 )
794 {
795 // Only message the Navigator which limited the step!
796 normalGlobalCrd= fpNavigator[ fIdNavLimiting ]->GetLocalExitNormal( &isObtained);
797 *argpObtained= isObtained;
798
799 static G4ThreadLocal G4int numberWarnings= 0;
800 G4int noWarningsStart= 10, noModuloWarnings=100;
801 numberWarnings++;
802 if( (numberWarnings < noWarningsStart ) || (numberWarnings%noModuloWarnings==0) )
803 {
804 std::ostringstream message;
805 message << "Cannot obtain normal in local coordinates of two or more coordinate systems." << G4endl;
806 G4Exception("G4ITMultiNavigator::GetGlobalExitNormal()", "GeomNav0002",
807 JustWarning, message);
808 }
809 }
810 else
811 {
812 if( fNoLimitingStep > 1 )
813 {
814 // Does not make sense - cannot obtain *local* normal in several coordinate systems
815 std::ostringstream message;
816 message << "Cannot obtain normal in local coordinates of two or more coordinate systems." << G4endl;
817 G4Exception("G4ITMultiNavigator::GetGlobalExitNormal()", "GeomNav0002",
818 FatalException, message);
819 }
820 }
821
822 *argpObtained= isObtained;
823 return normalGlobalCrd;
824}
825
826
827// ----------------- ooooooOOOOOOOOOOOOOOOoooooo -------------------------------------
828
831 G4bool* obtained)
832{
834}
@ JustWarning
@ FatalException
void G4Exception(const char *originOfException, const char *exceptionCode, G4ExceptionSeverity severity, const char *description)
Definition: G4Exception.cc:59
#define fMinStep
#define fLocatedVolume
#define fWasLimitedByGeometry
#define fTrueMinStep
#define fLimitTruth
#define fIdNavLimiting
#define fNoLimitingStep
#define fMinSafety_atSafLocation
#define fNewSafety
#define fLastLocatedPosition
#define fPreStepLocation
#define fCurrentStepSize
#define fLimitedStep
#define fSafetyLocation
#define fMinSafety_PreStepPt
ELimited
@ kDoNot
@ kUnique
@ kSharedOther
@ kSharedTransport
G4ReferenceCountedHandle< G4TouchableHistory > G4TouchableHistoryHandle
double G4double
Definition: G4Types.hh:83
long G4long
Definition: G4Types.hh:87
bool G4bool
Definition: G4Types.hh:86
int G4int
Definition: G4Types.hh:85
#define G4endl
Definition: G4ios.hh:57
G4GLOB_DLL std::ostream G4cout
double mag2() const
double dot(const Hep3Vector &) const
G4double ComputeStep(const G4ThreeVector &pGlobalPoint, const G4ThreeVector &pDirection, const G4double pCurrentProposedStepLength, G4double &pNewSafety)
void PrepareNewTrack(const G4ThreeVector position, const G4ThreeVector direction)
G4VPhysicalVolume * ResetHierarchyAndLocate(const G4ThreeVector &point, const G4ThreeVector &direction, const G4TouchableHistory &h)
virtual G4ThreeVector GetGlobalExitNormal(const G4ThreeVector &CurrentE_Point, G4bool *obtained)
G4VPhysicalVolume * LocateGlobalPointAndSetup(const G4ThreeVector &point, const G4ThreeVector *direction=0, const G4bool pRelativeSearch=true, const G4bool ignoreDirection=true)
void LocateGlobalPointWithinVolume(const G4ThreeVector &position)
virtual G4ThreeVector GetLocalExitNormalAndCheck(const G4ThreeVector &CurrentE_Point, G4bool *obtained)
G4TouchableHistoryHandle CreateTouchableHistoryHandle() const
virtual G4ThreeVector GetLocalExitNormal(G4bool *obtained)
G4double ObtainFinalStep(G4int navigatorId, G4double &pNewSafety, G4double &minStepLast, ELimited &limitedStep)
G4double ComputeSafety(const G4ThreeVector &globalpoint, const G4double pProposedMaxLength=DBL_MAX, const G4bool keepState=false)
std::vector< G4ITNavigator * >::iterator GetActiveNavigatorsIterator()
static G4ITTransportationManager * GetTransportationManager()
G4ITNavigator * GetNavigatorForTracking() const
void UpdateYourself(G4VPhysicalVolume *pPhysVol, const G4NavigationHistory *history=nullptr)
const G4NavigationHistory * GetHistory() const
virtual G4int GetCopyNo() const =0
const G4String & GetName() const
#define G4ThreadLocal
Definition: tls.hh:77