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Geant4/geometry/solids/CSG/src/G4UPara.cc

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Diff markup

Differences between /geometry/solids/CSG/src/G4UPara.cc (Version 11.3.0) and /geometry/solids/CSG/src/G4UPara.cc (Version 10.0.p3)


  1 //                                                  1 
  2 // *******************************************    
  3 // * License and Disclaimer                       
  4 // *                                              
  5 // * The  Geant4 software  is  copyright of th    
  6 // * the Geant4 Collaboration.  It is provided    
  7 // * conditions of the Geant4 Software License    
  8 // * LICENSE and available at  http://cern.ch/    
  9 // * include a list of copyright holders.         
 10 // *                                              
 11 // * Neither the authors of this software syst    
 12 // * institutes,nor the agencies providing fin    
 13 // * work  make  any representation or  warran    
 14 // * regarding  this  software system or assum    
 15 // * use.  Please see the license in the file     
 16 // * for the full disclaimer and the limitatio    
 17 // *                                              
 18 // * This  code  implementation is the result     
 19 // * technical work of the GEANT4 collaboratio    
 20 // * By using,  copying,  modifying or  distri    
 21 // * any work based  on the software)  you  ag    
 22 // * use  in  resulting  scientific  publicati    
 23 // * acceptance of all terms of the Geant4 Sof    
 24 // *******************************************    
 25 //                                                
 26 // Implementation for G4UPara wrapper class       
 27 //                                                
 28 // 13.09.13 G.Cosmo, CERN/PH                      
 29 // -------------------------------------------    
 30                                                   
 31 #include "G4Para.hh"                              
 32 #include "G4UPara.hh"                             
 33                                                   
 34 #if ( defined(G4GEOM_USE_USOLIDS) || defined(G    
 35                                                   
 36 #include "G4AffineTransform.hh"                   
 37 #include "G4VPVParameterisation.hh"               
 38 #include "G4BoundingEnvelope.hh"                  
 39                                                   
 40 using namespace CLHEP;                            
 41                                                   
 42 //////////////////////////////////////////////    
 43 //                                                
 44 //  Constructor - set & check half widths         
 45                                                   
 46 G4UPara::G4UPara(const G4String& pName,           
 47                        G4double pDx, G4double     
 48                        G4double pAlpha, G4doub    
 49   : Base_t(pName, pDx, pDy, pDz, pAlpha, pThet    
 50 {                                                 
 51   fTalpha = std::tan(pAlpha);                     
 52   fTthetaCphi = std::tan(pTheta)*std::cos(pPhi    
 53   fTthetaSphi = std::tan(pTheta)*std::sin(pPhi    
 54   CheckParameters();                              
 55   MakePlanes();                                   
 56 }                                                 
 57                                                   
 58 //////////////////////////////////////////////    
 59 //                                                
 60 // Constructor - design of trapezoid based on     
 61                                                   
 62 G4UPara::G4UPara( const G4String& pName,          
 63                   const G4ThreeVector pt[8] )     
 64   : Base_t(pName)                                 
 65 {                                                 
 66   // Find dimensions and trigonometric values     
 67   //                                              
 68   G4double fDx = (pt[3].x() - pt[2].x())*0.5;     
 69   G4double fDy = (pt[2].y() - pt[1].y())*0.5;     
 70   G4double fDz = pt[7].z();                       
 71   SetDimensions(fDx, fDy, fDz);                   
 72   CheckParameters(); // check dimensions          
 73                                                   
 74   fTalpha = (pt[2].x() + pt[3].x() - pt[1].x()    
 75   fTthetaCphi = (pt[4].x() + fDy*fTalpha + fDx    
 76   fTthetaSphi = (pt[4].y() + fDy)/fDz;            
 77   SetAlpha(std::atan(fTalpha));                   
 78   SetTheta(std::atan(std::sqrt(fTthetaSphi*fTt    
 79                               + fTthetaCphi*fT    
 80   SetPhi (std::atan2(fTthetaSphi, fTthetaCphi)    
 81   MakePlanes();                                   
 82                                                   
 83   // Recompute vertices                           
 84   //                                              
 85   G4ThreeVector v[8];                             
 86   G4double DyTalpha = fDy*fTalpha;                
 87   G4double DzTthetaSphi = fDz*fTthetaSphi;        
 88   G4double DzTthetaCphi = fDz*fTthetaCphi;        
 89   v[0].set(-DzTthetaCphi-DyTalpha-fDx, -DzTthe    
 90   v[1].set(-DzTthetaCphi-DyTalpha+fDx, -DzTthe    
 91   v[2].set(-DzTthetaCphi+DyTalpha-fDx, -DzTthe    
 92   v[3].set(-DzTthetaCphi+DyTalpha+fDx, -DzTthe    
 93   v[4].set( DzTthetaCphi-DyTalpha-fDx,  DzTthe    
 94   v[5].set( DzTthetaCphi-DyTalpha+fDx,  DzTthe    
 95   v[6].set( DzTthetaCphi+DyTalpha-fDx,  DzTthe    
 96   v[7].set( DzTthetaCphi+DyTalpha+fDx,  DzTthe    
 97                                                   
 98   // Compare with original vertices               
 99   //                                              
100   for (G4int i=0; i<8; ++i)                       
101   {                                               
102     G4double delx = std::abs(pt[i].x() - v[i].    
103     G4double dely = std::abs(pt[i].y() - v[i].    
104     G4double delz = std::abs(pt[i].z() - v[i].    
105     G4double discrepancy = std::max(std::max(d    
106     if (discrepancy > 0.1*kCarTolerance)          
107     {                                             
108       std::ostringstream message;                 
109       G4long oldprc = message.precision(16);      
110       message << "Invalid vertice coordinates     
111               << "\nVertix #" << i << ", discr    
112               << "\n  original   : " << pt[i]     
113               << "\n  recomputed : " << v[i];     
114       G4cout.precision(oldprc);                   
115       G4Exception("G4UPara::G4UPara()", "GeomS    
116                   FatalException, message);       
117                                                   
118     }                                             
119   }                                               
120 }                                                 
121                                                   
122 //////////////////////////////////////////////    
123 //                                                
124 // Fake default constructor - sets only member    
125 //                            for usage restri    
126                                                   
127 G4UPara::G4UPara( __void__& a )                   
128   : Base_t(a)                                     
129 {                                                 
130   SetAllParameters(1., 1., 1., 0., 0., 0.);       
131   fRebuildPolyhedron = false;                     
132 }                                                 
133                                                   
134 //////////////////////////////////////////////    
135 //                                                
136 // Destructor                                     
137                                                   
138 G4UPara::~G4UPara() = default;                    
139                                                   
140 //////////////////////////////////////////////    
141 //                                                
142 // Copy constructor                               
143                                                   
144 G4UPara::G4UPara(const G4UPara& rhs)              
145   : Base_t(rhs), fTalpha(rhs.fTalpha),            
146     fTthetaCphi(rhs.fTthetaCphi),fTthetaSphi(r    
147 {                                                 
148   for (G4int i=0; i<4; ++i) { fPlanes[i] = rhs    
149 }                                                 
150                                                   
151 //////////////////////////////////////////////    
152 //                                                
153 // Assignment operator                            
154                                                   
155 G4UPara& G4UPara::operator = (const G4UPara& r    
156 {                                                 
157    // Check assignment to self                    
158    //                                             
159    if (this == &rhs)  { return *this; }           
160                                                   
161    // Copy base class data                        
162    //                                             
163    Base_t::operator=(rhs);                        
164                                                   
165    // Copy data                                   
166    //                                             
167    fTalpha = rhs.fTalpha;                         
168    fTthetaCphi = rhs.fTthetaCphi;                 
169    fTthetaSphi = rhs.fTthetaSphi;                 
170    for (G4int i=0; i<4; ++i) { fPlanes[i] = rh    
171                                                   
172    return *this;                                  
173 }                                                 
174                                                   
175 //////////////////////////////////////////////    
176 //                                                
177 // Accessors & modifiers                          
178                                                   
179 G4double G4UPara::GetZHalfLength() const          
180 {                                                 
181   return GetZ();                                  
182 }                                                 
183 G4double G4UPara::GetYHalfLength() const          
184 {                                                 
185   return GetY();                                  
186 }                                                 
187 G4double G4UPara::GetXHalfLength() const          
188 {                                                 
189   return GetX();                                  
190 }                                                 
191 G4ThreeVector G4UPara::GetSymAxis() const         
192 {                                                 
193   return G4ThreeVector(fTthetaCphi,fTthetaSphi    
194 }                                                 
195 G4double G4UPara::GetTanAlpha() const             
196 {                                                 
197   return fTalpha;                                 
198 }                                                 
199                                                   
200 G4double G4UPara::GetPhi() const                  
201 {                                                 
202    return std::atan2(fTthetaSphi,fTthetaCphi);    
203 }                                                 
204                                                   
205 G4double G4UPara::GetTheta() const                
206 {                                                 
207    return std::atan(std::sqrt(fTthetaCphi*fTth    
208                               +fTthetaSphi*fTt    
209 }                                                 
210                                                   
211 G4double G4UPara::GetAlpha() const                
212 {                                                 
213   return std::atan(fTalpha);                      
214 }                                                 
215                                                   
216 void G4UPara::SetXHalfLength(G4double val)        
217 {                                                 
218   SetDimensions(val, GetY(), GetZ());             
219   fRebuildPolyhedron = true;                      
220                                                   
221   CheckParameters();                              
222   MakePlanes();                                   
223 }                                                 
224 void G4UPara::SetYHalfLength(G4double val)        
225 {                                                 
226   SetDimensions(GetX(), val, GetZ());             
227   fRebuildPolyhedron = true;                      
228                                                   
229   CheckParameters();                              
230   MakePlanes();                                   
231 }                                                 
232 void G4UPara::SetZHalfLength(G4double val)        
233 {                                                 
234   SetDimensions(GetX(), GetY(), val);             
235   fRebuildPolyhedron = true;                      
236                                                   
237   CheckParameters();                              
238   MakePlanes();                                   
239 }                                                 
240 void G4UPara::SetAlpha(G4double alpha)            
241 {                                                 
242   Base_t::SetAlpha(alpha);                        
243   fTalpha = std::tan(alpha);                      
244   fRebuildPolyhedron = true;                      
245                                                   
246   MakePlanes();                                   
247 }                                                 
248 void G4UPara::SetTanAlpha(G4double val)           
249 {                                                 
250   fTalpha = val;                                  
251   fRebuildPolyhedron = true;                      
252                                                   
253   MakePlanes();                                   
254 }                                                 
255 void G4UPara::SetThetaAndPhi(double pTheta, do    
256 {                                                 
257   Base_t::SetThetaAndPhi(pTheta, pPhi);           
258   G4double tanTheta = std::tan(pTheta);           
259   fTthetaCphi = tanTheta*std::cos(pPhi);          
260   fTthetaSphi = tanTheta*std::sin(pPhi);          
261   fRebuildPolyhedron = true;                      
262                                                   
263   MakePlanes();                                   
264 }                                                 
265                                                   
266 //////////////////////////////////////////////    
267 //                                                
268 // Set all parameters, as for constructor - se    
269                                                   
270 void G4UPara::SetAllParameters(G4double pDx, G    
271                                G4double pAlpha    
272 {                                                 
273   // Reset data of the base class                 
274   fRebuildPolyhedron = true;                      
275                                                   
276   // Set parameters                               
277   SetDimensions(pDx, pDy, pDz);                   
278   Base_t::SetAlpha(pAlpha);                       
279   Base_t::SetThetaAndPhi(pTheta, pPhi);           
280   fTalpha = std::tan(pAlpha);                     
281   fTthetaCphi = std::tan(pTheta)*std::cos(pPhi    
282   fTthetaSphi = std::tan(pTheta)*std::sin(pPhi    
283                                                   
284   CheckParameters();                              
285   MakePlanes();                                   
286 }                                                 
287                                                   
288 //////////////////////////////////////////////    
289 //                                                
290 // Check dimensions                               
291                                                   
292 void G4UPara::CheckParameters()                   
293 {                                                 
294   if (GetX() < 2*kCarTolerance ||                 
295       GetY() < 2*kCarTolerance ||                 
296       GetZ() < 2*kCarTolerance)                   
297   {                                               
298     std::ostringstream message;                   
299     message << "Invalid (too small or negative    
300             << GetName()                          
301             << "\n  X - " << GetX()               
302             << "\n  Y - " << GetY()               
303             << "\n  Z - " << GetZ();              
304     G4Exception("G4UPara::CheckParameters()",     
305                 FatalException, message);         
306   }                                               
307 }                                                 
308                                                   
309 //////////////////////////////////////////////    
310 //                                                
311 // Set side planes                                
312                                                   
313 void G4UPara::MakePlanes()                        
314 {                                                 
315   G4ThreeVector vx(1, 0, 0);                      
316   G4ThreeVector vy(fTalpha, 1, 0);                
317   G4ThreeVector vz(fTthetaCphi, fTthetaSphi, 1    
318                                                   
319   // Set -Y & +Y planes                           
320   //                                              
321   G4ThreeVector ynorm = (vx.cross(vz)).unit();    
322                                                   
323   fPlanes[0].a = 0.;                              
324   fPlanes[0].b = ynorm.y();                       
325   fPlanes[0].c = ynorm.z();                       
326   fPlanes[0].d = fPlanes[0].b*GetY(); // point    
327                                                   
328   fPlanes[1].a =  0.;                             
329   fPlanes[1].b = -fPlanes[0].b;                   
330   fPlanes[1].c = -fPlanes[0].c;                   
331   fPlanes[1].d =  fPlanes[0].d;                   
332                                                   
333   // Set -X & +X planes                           
334   //                                              
335   G4ThreeVector xnorm = (vz.cross(vy)).unit();    
336                                                   
337   fPlanes[2].a = xnorm.x();                       
338   fPlanes[2].b = xnorm.y();                       
339   fPlanes[2].c = xnorm.z();                       
340   fPlanes[2].d = fPlanes[2].a*GetZ(); // point    
341                                                   
342   fPlanes[3].a = -fPlanes[2].a;                   
343   fPlanes[3].b = -fPlanes[2].b;                   
344   fPlanes[3].c = -fPlanes[2].c;                   
345   fPlanes[3].d =  fPlanes[2].d;                   
346 }                                                 
347                                                   
348 //////////////////////////////////////////////    
349 //                                                
350 // Dispatch to parameterisation for replicatio    
351 // computation & modification                     
352                                                   
353 void G4UPara::ComputeDimensions(      G4VPVPar    
354                                 const G4int n,    
355                                 const G4VPhysi    
356 {                                                 
357   p->ComputeDimensions(*(G4Para*)this,n,pRep);    
358 }                                                 
359                                                   
360 //////////////////////////////////////////////    
361 //                                                
362 // Get bounding box                               
363                                                   
364 void G4UPara::BoundingLimits(G4ThreeVector& pM    
365 {                                                 
366   G4double dz = GetZHalfLength();                 
367   G4double dx = GetXHalfLength();                 
368   G4double dy = GetYHalfLength();                 
369                                                   
370   G4double x0 = dz*fTthetaCphi;                   
371   G4double x1 = dy*GetTanAlpha();                 
372   G4double xmin =                                 
373     std::min(                                     
374     std::min(                                     
375     std::min(-x0-x1-dx,-x0+x1-dx),x0-x1-dx),x0    
376   G4double xmax =                                 
377     std::max(                                     
378     std::max(                                     
379     std::max(-x0-x1+dx,-x0+x1+dx),x0-x1+dx),x0    
380                                                   
381   G4double y0 = dz*fTthetaSphi;                   
382   G4double ymin = std::min(-y0-dy,y0-dy);         
383   G4double ymax = std::max(-y0+dy,y0+dy);         
384                                                   
385   pMin.set(xmin,ymin,-dz);                        
386   pMax.set(xmax,ymax, dz);                        
387                                                   
388   // Check correctness of the bounding box        
389   //                                              
390   if (pMin.x() >= pMax.x() || pMin.y() >= pMax    
391   {                                               
392     std::ostringstream message;                   
393     message << "Bad bounding box (min >= max)     
394             << GetName() << " !"                  
395             << "\npMin = " << pMin                
396             << "\npMax = " << pMax;               
397     G4Exception("G4UPara::BoundingLimits()", "    
398                 JustWarning, message);            
399     StreamInfo(G4cout);                           
400   }                                               
401 }                                                 
402                                                   
403 //////////////////////////////////////////////    
404 //                                                
405 // Calculate extent under transform and specif    
406                                                   
407 G4bool G4UPara::CalculateExtent( const EAxis p    
408                                  const G4Voxel    
409                                  const G4Affin    
410                                        G4doubl    
411 {                                                 
412   G4ThreeVector bmin, bmax;                       
413   G4bool exist;                                   
414                                                   
415   // Check bounding box (bbox)                    
416   //                                              
417   BoundingLimits(bmin,bmax);                      
418   G4BoundingEnvelope bbox(bmin,bmax);             
419 #ifdef G4BBOX_EXTENT                              
420   if (true) return bbox.CalculateExtent(pAxis,    
421 #endif                                            
422   if (bbox.BoundingBoxVsVoxelLimits(pAxis,pVox    
423   {                                               
424     return exist = pMin < pMax;                   
425   }                                               
426                                                   
427   // Set bounding envelope (benv) and calculat    
428   //                                              
429   G4double dz = GetZHalfLength();                 
430   G4double dx = GetXHalfLength();                 
431   G4double dy = GetYHalfLength();                 
432                                                   
433   G4double x0 = dz*fTthetaCphi;                   
434   G4double x1 = dy*GetTanAlpha();                 
435   G4double y0 = dz*fTthetaSphi;                   
436                                                   
437   G4ThreeVectorList baseA(4), baseB(4);           
438   baseA[0].set(-x0-x1-dx,-y0-dy,-dz);             
439   baseA[1].set(-x0-x1+dx,-y0-dy,-dz);             
440   baseA[2].set(-x0+x1+dx,-y0+dy,-dz);             
441   baseA[3].set(-x0+x1-dx,-y0+dy,-dz);             
442                                                   
443   baseB[0].set(+x0-x1-dx, y0-dy, dz);             
444   baseB[1].set(+x0-x1+dx, y0-dy, dz);             
445   baseB[2].set(+x0+x1+dx, y0+dy, dz);             
446   baseB[3].set(+x0+x1-dx, y0+dy, dz);             
447                                                   
448   std::vector<const G4ThreeVectorList *> polyg    
449   polygons[0] = &baseA;                           
450   polygons[1] = &baseB;                           
451                                                   
452   G4BoundingEnvelope benv(bmin,bmax,polygons);    
453   exist = benv.CalculateExtent(pAxis,pVoxelLim    
454   return exist;                                   
455 }                                                 
456                                                   
457 //////////////////////////////////////////////    
458 //                                                
459 // Make a clone of the object                     
460 //                                                
461 G4VSolid* G4UPara::Clone() const                  
462 {                                                 
463   return new G4UPara(*this);                      
464 }                                                 
465                                                   
466 //////////////////////////////////////////////    
467 //                                                
468 // Methods for visualisation                      
469                                                   
470 G4Polyhedron* G4UPara::CreatePolyhedron () con    
471 {                                                 
472   return new G4PolyhedronPara(GetX(), GetY(),     
473                               GetAlpha(), GetT    
474 }                                                 
475                                                   
476 #endif  // G4GEOM_USE_USOLIDS                     
477