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G4ReplicatedSlice.cc
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27 // $Id: G4ReplicatedSlice.cc 89815 2015-04-30 14:50:22Z gcosmo $
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29 // --------------------------------------------------------------------
30 
31 #include "G4ReplicatedSlice.hh"
32 #include "G4LogicalVolume.hh"
33 #include "G4VSolid.hh"
34 #include "G4ReflectedSolid.hh"
35 #include "G4ParameterisationBox.hh"
38 #include "G4ParameterisationTrd.hh"
42 
43 //--------------------------------------------------------------------------
45  G4LogicalVolume* pLogical,
46  G4LogicalVolume* pMotherLogical,
47  const EAxis pAxis,
48  const G4int nDivs,
49  const G4double width,
50  const G4double half_gap,
51  const G4double offset )
52  : G4VPhysicalVolume(0,G4ThreeVector(),pName,pLogical,0), fcopyNo(-1)
53 {
54  CheckAndSetParameters(pAxis, nDivs, width, half_gap, offset,
55  DivNDIVandWIDTH, pMotherLogical, pLogical);
56 }
57 
58 //--------------------------------------------------------------------------
60  G4LogicalVolume* pLogical,
61  G4LogicalVolume* pMotherLogical,
62  const EAxis pAxis,
63  const G4int nDivs,
64  const G4double half_gap,
65  const G4double offset )
66  : G4VPhysicalVolume(0,G4ThreeVector(),pName,pLogical,0), fcopyNo(-1)
67 {
68  CheckAndSetParameters(pAxis, nDivs, 0., half_gap, offset,
69  DivNDIV, pMotherLogical, pLogical);
70 }
71 
72 //--------------------------------------------------------------------------
74  G4LogicalVolume* pLogical,
75  G4LogicalVolume* pMotherLogical,
76  const EAxis pAxis,
77  const G4double width,
78  const G4double half_gap,
79  const G4double offset )
80  : G4VPhysicalVolume(0,G4ThreeVector(),pName,pLogical,0), fcopyNo(-1)
81 {
82  CheckAndSetParameters(pAxis, 0, width, half_gap, offset,
83  DivWIDTH, pMotherLogical, pLogical);
84 }
85 
86 //--------------------------------------------------------------------------
88  G4LogicalVolume* pLogical,
89  G4VPhysicalVolume* pMotherPhysical,
90  const EAxis pAxis,
91  const G4int nDivs,
92  const G4double width,
93  const G4double half_gap,
94  const G4double offset )
95  : G4VPhysicalVolume(0,G4ThreeVector(),pName,pLogical,0), fcopyNo(-1)
96 {
97  CheckAndSetParameters(pAxis, nDivs, width, half_gap, offset,
98  DivNDIVandWIDTH, pMotherPhysical->GetLogicalVolume(), pLogical);
99 }
100 
101 //--------------------------------------------------------------------------
103  G4LogicalVolume* pLogical,
104  G4VPhysicalVolume* pMotherPhysical,
105  const EAxis pAxis,
106  const G4int nDivs,
107  const G4double half_gap,
108  const G4double offset )
109  : G4VPhysicalVolume(0,G4ThreeVector(),pName,pLogical,0), fcopyNo(-1)
110 {
111  CheckAndSetParameters(pAxis, nDivs, 0., half_gap, offset,
112  DivNDIV, pMotherPhysical->GetLogicalVolume(), pLogical);
113 }
114 
115 //--------------------------------------------------------------------------
117  G4LogicalVolume* pLogical,
118  G4VPhysicalVolume* pMotherPhysical,
119  const EAxis pAxis,
120  const G4double width,
121  const G4double half_gap,
122  const G4double offset )
123  : G4VPhysicalVolume(0,G4ThreeVector(),pName,pLogical,0), fcopyNo(-1)
124 {
125  CheckAndSetParameters(pAxis, 0, width, half_gap, offset,
126  DivWIDTH, pMotherPhysical->GetLogicalVolume(), pLogical);
127 }
128 
129 //--------------------------------------------------------------------------
130 void
132  const G4int nDivs,
133  const G4double width,
134  const G4double half_gap,
135  const G4double offset,
136  DivisionType divType,
137  G4LogicalVolume* pMotherLogical,
138  const G4LogicalVolume* pLogical )
139 {
140  if(!pMotherLogical)
141  {
142  std::ostringstream message;
143  message << "Invalid setup." << G4endl
144  << "NULL pointer specified as mother! Volume: " << GetName();
145  G4Exception("G4ReplicatedSlice::CheckAndSetParameters()", "GeomDiv0002",
146  FatalException, message);
147  }
148  if(pLogical == pMotherLogical)
149  {
150  std::ostringstream message;
151  message << "Invalid setup." << G4endl
152  << "Cannot place a volume inside itself! Volume: " << GetName();
153  G4Exception("G4ReplicatedSlice::CheckAndSetParameters()", "GeomDiv0002",
154  FatalException, message);
155  }
156 
157  //----- Check that mother solid is of the same type as
158  // daughter solid (otherwise, the corresponding
159  // Parameterisation::ComputeDimension() will not be called)
160  //
161  G4String msolType = pMotherLogical->GetSolid()->GetEntityType();
162  G4String dsolType = pLogical->GetSolid()->GetEntityType();
163  if( msolType != dsolType && ( msolType != "G4Trd" || dsolType != "G4Trap" ) )
164  {
165  std::ostringstream message;
166  message << "Invalid setup." << G4endl
167  << "Incorrect solid type for division of volume: "
168  << GetName() << G4endl
169  << " It is: " << msolType
170  << ", while it should be: " << dsolType;
171  G4Exception("G4ReplicatedSlice::CheckAndSetParameters()",
172  "GeomDiv0002", FatalException, message);
173  }
174 
175  pMotherLogical->AddDaughter(this);
176  SetMotherLogical(pMotherLogical);
177  SetParameterisation(pMotherLogical, pAxis, nDivs,
178  width, half_gap, offset, divType);
179 
180  if( divType == DivWIDTH )
181  {
183  }
184  else
185  {
186  fnReplicas = nDivs;
187  }
188  if (fnReplicas < 1 )
189  {
190  G4Exception("G4ReplicatedSlice::CheckAndSetParameters()", "GeomDiv0002",
191  FatalException, "Illegal number of replicas!");
192  }
193  if( divType != DivNDIV)
194  {
195  fwidth = fparam->GetWidth();
196  }
197  else
198  {
199  fwidth = width;
200  }
201  if( fwidth < 0 )
202  {
203  G4Exception("G4ReplicatedSlice::CheckAndSetParameters()", "GeomDiv0002",
204  FatalException, "Width must be positive!");
205  }
206  if( fwidth < 2.*half_gap )
207  {
208  G4Exception("G4ReplicatedSlice::CheckAndSetParameters()", "GeomDiv0002",
209  FatalException, "Half_gap is too large!");
210  }
211 
212  foffset = offset;
213  fdivAxis = pAxis;
214 
216  //
217  if( pAxis == kRho || pAxis == kRadial3D || pAxis == kPhi )
218  {
219  faxis = kZAxis;
220  }
221  else
222  {
223  faxis = pAxis;
224  }
225 
226  switch (faxis)
227  {
228  case kPhi:
229  case kRho:
230  case kXAxis:
231  case kYAxis:
232  case kZAxis:
233  break;
234  default:
235  G4Exception("G4ReplicatedSlice::CheckAndSetParameters()", "GeomDiv0002",
236  FatalException, "Unknown axis of replication.");
237  break;
238  }
239 
240  // Create rotation matrix: for phi axis it will be changed
241  // in G4VPVParameterisation::ComputeTransformation, for others
242  // it will stay the unity
243  //
244  G4RotationMatrix *pRMat = new G4RotationMatrix();
245  SetRotation(pRMat);
246 }
247 
248 //--------------------------------------------------------------------------
250 {
251  delete GetRotation();
252 }
253 
254 //--------------------------------------------------------------------------
256 {
257  return fdivAxis;
258 }
259 
260 //--------------------------------------------------------------------------
262 {
263  return true;
264 }
265 
266 //--------------------------------------------------------------------------
268 {
269  return false;
270 }
271 
272 //--------------------------------------------------------------------------
274 {
275  return fcopyNo;
276 }
277 
278 //--------------------------------------------------------------------------
280 {
281  fcopyNo= newCopyNo;
282 }
283 
284 //--------------------------------------------------------------------------
286 {
287  return true;
288 }
289 
290 //--------------------------------------------------------------------------
292 {
293  return fparam;
294 }
295 
296 //--------------------------------------------------------------------------
298  G4int& nDivs,
299  G4double& width,
300  G4double& offset,
301  G4bool& consuming ) const
302 {
303  axis=faxis;
304  nDivs=fnReplicas;
305  width=fwidth;
306  offset=foffset;
307  consuming=false;
308 }
309 
310 
311 //--------------------------------------------------------------------------
313  const EAxis axis,
314  const G4int nDivs,
315  const G4double width,
316  const G4double half_gap,
317  const G4double offset,
318  DivisionType divType )
319 {
320  G4VSolid* mSolid = motherLogical->GetSolid();
321  G4String mSolidType = mSolid->GetEntityType();
322  fparam = 0;
323 
324  // If the solid is a reflected one, update type to its
325  // real constituent solid.
326  //
327  if (mSolidType == "G4ReflectedSolid")
328  {
329  mSolidType = ((G4ReflectedSolid*)mSolid)->GetConstituentMovedSolid()
330  ->GetEntityType();
331  }
332 
333  // Parameterisation type depend of mother solid type and axis of division
334  //
335  if( mSolidType == "G4Box" )
336  {
337  switch( axis )
338  {
339  case kXAxis:
340  fparam = new G4ParameterisationBoxX( axis, nDivs, width,
341  offset, mSolid, divType );
342  break;
343  case kYAxis:
344  fparam = new G4ParameterisationBoxY( axis, nDivs, width,
345  offset, mSolid, divType );
346  break;
347  case kZAxis:
348  fparam = new G4ParameterisationBoxZ( axis, nDivs, width,
349  offset, mSolid, divType );
350  break;
351  default:
352  ErrorInAxis( axis, mSolid );
353  break;
354  }
355  }
356  else if( mSolidType == "G4Tubs" )
357  {
358  switch( axis )
359  {
360  case kRho:
361  fparam = new G4ParameterisationTubsRho( axis, nDivs, width,
362  offset, mSolid, divType );
363  break;
364  case kPhi:
365  fparam = new G4ParameterisationTubsPhi( axis, nDivs, width,
366  offset, mSolid, divType );
367  break;
368  case kZAxis:
369  fparam = new G4ParameterisationTubsZ( axis, nDivs, width,
370  offset, mSolid, divType );
371  break;
372  default:
373  ErrorInAxis( axis, mSolid );
374  break;
375  }
376  }
377  else if( mSolidType == "G4Cons" )
378  {
379  switch( axis )
380  {
381  case kRho:
382  fparam = new G4ParameterisationConsRho( axis, nDivs, width,
383  offset, mSolid, divType );
384  break;
385  case kPhi:
386  fparam = new G4ParameterisationConsPhi( axis, nDivs, width,
387  offset, mSolid, divType );
388  break;
389  case kZAxis:
390  fparam = new G4ParameterisationConsZ( axis, nDivs, width,
391  offset, mSolid, divType );
392  break;
393  default:
394  ErrorInAxis( axis, mSolid );
395  break;
396  }
397  }
398  else if( mSolidType == "G4Trd" )
399  {
400  switch( axis )
401  {
402  case kXAxis:
403  fparam = new G4ParameterisationTrdX( axis, nDivs, width,
404  offset, mSolid, divType );
405  break;
406  case kYAxis:
407  fparam = new G4ParameterisationTrdY( axis, nDivs, width,
408  offset, mSolid, divType );
409  break;
410  case kZAxis:
411  fparam = new G4ParameterisationTrdZ( axis, nDivs, width,
412  offset, mSolid, divType );
413  break;
414  default:
415  ErrorInAxis( axis, mSolid );
416  break;
417  }
418  }
419  else if( mSolidType == "G4Para" )
420  {
421  switch( axis )
422  {
423  case kXAxis:
424  fparam = new G4ParameterisationParaX( axis, nDivs, width,
425  offset, mSolid, divType );
426  break;
427  case kYAxis:
428  fparam = new G4ParameterisationParaY( axis, nDivs, width,
429  offset, mSolid, divType );
430  break;
431  case kZAxis:
432  fparam = new G4ParameterisationParaZ( axis, nDivs, width,
433  offset, mSolid, divType );
434  break;
435  default:
436  ErrorInAxis( axis, mSolid );
437  break;
438  }
439  }
440 // else if( mSolidType == "G4Trap" )
441 // {
442 // }
443 // else if( mSolidType == "G4Polycone" )
444 // {
445 // switch( axis )
446 // {
447 // case kRho:
448 // fparam = new G4ParameterisationPolyconeRho( axis, nDivs, width,
449 // offset, mSolid, divType );
450 // break;
451 // case kPhi:
452 // fparam = new G4ParameterisationPolyconePhi( axis, nDivs, width,
453 // offset, mSolid, divType );
454 // break;
455 // case kZAxis:
456 // fparam = new G4ParameterisationPolyconeZ( axis, nDivs, width,
457 // offset, mSolid, divType );
458 // break;
459 // default:
460 // ErrorInAxis( axis, mSolid );
461 // break;
462 // }
463 // }
464 // else if( mSolidType == "G4Polyhedra" )
465 // {
466 // switch( axis )
467 // {
468 // case kRho:
469 // fparam = new G4ParameterisationPolyhedraRho( axis, nDivs, width,
470 // offset, mSolid, divType );
471 // break;
472 // case kPhi:
473 // fparam = new G4ParameterisationPolyhedraPhi( axis, nDivs, width,
474 // offset, mSolid, divType );
475 // break;
476 // case kZAxis:
477 // fparam = new G4ParameterisationPolyhedraZ( axis, nDivs, width,
478 // offset, mSolid, divType );
479 // break;
480 // default:
481 // ErrorInAxis( axis, mSolid );
482 // break;
483 // }
484 // }
485  else
486  {
487  std::ostringstream message;
488  message << "Solid type not supported: " << mSolidType << "." << G4endl
489  << "Divisions for " << mSolidType << " not implemented.";
490  G4Exception("G4ReplicatedSlice::SetParameterisation()", "GeomDiv0001",
491  FatalException, message);
492  }
493 
494  fparam->SetHalfGap(half_gap);
495 }
496 
497 //--------------------------------------------------------------------------
499 {
500  G4String error = "Trying to divide solid " + solid->GetName()
501  + " of type " + solid->GetEntityType() + " along axis ";
502  switch( axis )
503  {
504  case kXAxis:
505  error += "X.";
506  break;
507  case kYAxis:
508  error += "Y.";
509  break;
510  case kZAxis:
511  error += "Z.";
512  break;
513  case kRho:
514  error += "Rho.";
515  break;
516  case kRadial3D:
517  error += "Radial3D.";
518  break;
519  case kPhi:
520  error += "Phi.";
521  break;
522  default:
523  break;
524  }
525  G4Exception("G4ReplicatedSlice::ErrorInAxis()", "GeomDiv0002",
526  FatalException, error);
527 }
528 
529 // The next methods are for specialised repeated volumes
530 // (replicas, parameterised vol.) which are completely regular.
531 // Currently this is not applicable to divisions ( J.A. Nov 2005 )
532 // ----------------------------------------------------------------------
533 // IsRegularRepeatedStructure()
534 //
536 {
537  return false;
538 }
539 
540 // ----------------------------------------------------------------------
541 // IsRegularRepeatedStructure()
542 //
544 {
545  return 0;
546 }
Definition: geomdefs.hh:54
virtual G4bool IsMany() const
void SetMotherLogical(G4LogicalVolume *pMother)
void SetHalfGap(G4double hg)
G4ReplicatedSlice(const G4String &pName, G4LogicalVolume *pLogical, G4LogicalVolume *pMotherLogical, const EAxis pAxis, const G4int nReplicas, const G4double width, const G4double half_gap, const G4double offset)
EAxis GetDivisionAxis() const
G4LogicalVolume * GetLogicalVolume() const
void CheckAndSetParameters(const EAxis pAxis, const G4int nDivs, const G4double width, const G4double half_gap, const G4double offset, DivisionType divType, G4LogicalVolume *pMotherLogical, const G4LogicalVolume *pLogical)
G4int GetRegularStructureId() const
CLHEP::HepRotation G4RotationMatrix
#define G4endl
Definition: G4ios.hh:61
void message(RunManager *runmanager)
Definition: ts_scorers.cc:72
G4VDivisionParameterisation * fparam
G4bool IsParameterised() const
G4double GetWidth() const
double G4double
Definition: G4Types.hh:76
bool G4bool
Definition: G4Types.hh:79
#define width
G4bool IsRegularStructure() const
void AddDaughter(G4VPhysicalVolume *p)
virtual G4int GetCopyNo() const
void SetParameterisation(G4LogicalVolume *motherLogical, const EAxis pAxis, const G4int nReplicas, const G4double width, const G4double half_gap, const G4double offset, DivisionType divType)
void G4Exception(const char *originOfException, const char *exceptionCode, G4ExceptionSeverity severity, const char *description)
Definition: G4Exception.hh:65
virtual G4VPVParameterisation * GetParameterisation() const
int G4int
Definition: G4Types.hh:78
EAxis
Definition: geomdefs.hh:54
G4String GetName() const
virtual void GetReplicationData(EAxis &axis, G4int &nReplicas, G4double &width, G4double &offset, G4bool &consuming) const
virtual void SetCopyNo(G4int CopyNo)
G4VSolid * GetSolid() const
void SetRotation(G4RotationMatrix *)
static PROLOG_HANDLER error
Definition: xmlrole.cc:112
const G4RotationMatrix * GetRotation() const
Definition: geomdefs.hh:54
void ErrorInAxis(EAxis axis, G4VSolid *solid)
virtual G4GeometryType GetEntityType() const =0
const G4String & GetName() const
virtual G4bool IsReplicated() const