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Geant4/geometry/solids/CSG/src/G4UTrap.cc

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Differences between /geometry/solids/CSG/src/G4UTrap.cc (Version 11.3.0) and /geometry/solids/CSG/src/G4UTrap.cc (Version 10.6)


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 24 // *******************************************     24 // ********************************************************************
 25 //                                                 25 //
 26 // Implementation for G4UTrap wrapper class        26 // Implementation for G4UTrap wrapper class
 27 //                                                 27 //
 28 // 13.09.13 G.Cosmo, CERN                      <<  28 // 13.09.13 G.Cosmo, CERN/PH
 29 // -------------------------------------------     29 // --------------------------------------------------------------------
 30                                                    30 
 31 #include "G4Trap.hh"                               31 #include "G4Trap.hh"
 32 #include "G4UTrap.hh"                              32 #include "G4UTrap.hh"
 33                                                    33 
 34 #if ( defined(G4GEOM_USE_USOLIDS) || defined(G     34 #if ( defined(G4GEOM_USE_USOLIDS) || defined(G4GEOM_USE_PARTIAL_USOLIDS) )
 35                                                    35 
 36 #include "G4AffineTransform.hh"                    36 #include "G4AffineTransform.hh"
 37 #include "G4VPVParameterisation.hh"                37 #include "G4VPVParameterisation.hh"
 38 #include "G4BoundingEnvelope.hh"                   38 #include "G4BoundingEnvelope.hh"
 39                                                    39 
 40 using namespace CLHEP;                             40 using namespace CLHEP;
 41                                                    41 
 42 //////////////////////////////////////////////     42 /////////////////////////////////////////////////////////////////////////
 43 //                                                 43 //
 44 // Constructors                                    44 // Constructors
 45 //                                                 45 //
 46 G4UTrap::G4UTrap( const G4String& pName,           46 G4UTrap::G4UTrap( const G4String& pName,
 47                         G4double pdz,              47                         G4double pdz,
 48                         G4double pTheta, G4dou     48                         G4double pTheta, G4double pPhi,
 49                         G4double pdy1, G4doubl     49                         G4double pdy1, G4double pdx1, G4double pdx2,
 50                         G4double pAlp1,            50                         G4double pAlp1,
 51                         G4double pdy2, G4doubl     51                         G4double pdy2, G4double pdx3, G4double pdx4,
 52                         G4double pAlp2 )           52                         G4double pAlp2 )
 53   : Base_t(pName, pdz, pTheta, pPhi, pdy1, pdx     53   : Base_t(pName, pdz, pTheta, pPhi, pdy1, pdx1, pdx2,
 54            pAlp1, pdy2, pdx3, pdx4, pAlp2)         54            pAlp1, pdy2, pdx3, pdx4, pAlp2)
 55 {                                                  55 {
 56   G4ThreeVector pt[8];                         << 
 57   CheckParameters();                           << 
 58   GetVertices(pt);                             << 
 59   CheckPlanarity(pt);                          << 
 60 }                                                  56 }
 61                                                    57 
 62 G4UTrap::G4UTrap( const G4String& pName,           58 G4UTrap::G4UTrap( const G4String& pName,
 63                   const G4ThreeVector pt[8] )      59                   const G4ThreeVector pt[8] )
 64   : Base_t(pName)                                  60   : Base_t(pName)
 65 {                                                  61 {
 66   // Start with check of centering - the cente << 
 67   // should cross the origin of frame          << 
 68   if (  pt[0].z() >= 0                         << 
 69         || pt[0].z() != pt[1].z()              << 
 70         || pt[0].z() != pt[2].z()              << 
 71         || pt[0].z() != pt[3].z()              << 
 72                                                << 
 73         || pt[4].z() <= 0                      << 
 74         || pt[4].z() != pt[5].z()              << 
 75         || pt[4].z() != pt[6].z()              << 
 76         || pt[4].z() != pt[7].z()              << 
 77                                                << 
 78         || std::abs( pt[0].z() + pt[4].z() ) > << 
 79                                                << 
 80         || pt[0].y() != pt[1].y()              << 
 81         || pt[2].y() != pt[3].y()              << 
 82         || pt[4].y() != pt[5].y()              << 
 83         || pt[6].y() != pt[7].y()              << 
 84                                                << 
 85         || std::abs(pt[0].y()+pt[2].y()+pt[4]. << 
 86         || std::abs(pt[0].x()+pt[1].x()+pt[4]. << 
 87                     pt[2].x()+pt[3].x()+pt[6]. << 
 88   {                                            << 
 89     std::ostringstream message;                << 
 90     message << "Invalid vertice coordinates fo << 
 91     G4Exception("G4UTrap::G4UTrap()", "GeomSol << 
 92                 FatalException, message);      << 
 93   }                                            << 
 94                                                << 
 95   SetPlanes(pt);                                   62   SetPlanes(pt);
 96   CheckParameters();                           << 
 97   CheckPlanarity(pt);                          << 
 98 }                                                  63 }
 99                                                    64 
100 // Constructor for Right Angular Wedge from ST << 
101 // the UnplacedTrapezoid constructor taking fo << 
102 // a Trd1.                                     << 
103 G4UTrap::G4UTrap( const G4String& pName,           65 G4UTrap::G4UTrap( const G4String& pName,
104                         G4double pZ,               66                         G4double pZ,
105                         G4double pY,               67                         G4double pY,
106                         G4double pX, G4double      68                         G4double pX, G4double pLTX )
107   : Base_t(pName, 0.5*pZ, /*theta=*/0, /*phi=* <<  69   : Base_t(pName, pZ, pY, pX, pLTX)
108            /*dx1=*/0.5*pX, /*dx2=*/0.5*pLTX, / << 
109            /*dy2=*/0.5*pY, /*dx3=*/0.5*pX, /*d << 
110            /*Alpha2=*/0.5*(pLTX - pX)/pY)      << 
111 {                                                  70 {
112   CheckParameters();                           << 
113 }                                                  71 }
114                                                    72 
115 G4UTrap::G4UTrap( const G4String& pName,           73 G4UTrap::G4UTrap( const G4String& pName,
116                         G4double pdx1,  G4doub     74                         G4double pdx1,  G4double pdx2,
117                         G4double pdy1,  G4doub     75                         G4double pdy1,  G4double pdy2,
118                         G4double pdz )             76                         G4double pdz )
119   : Base_t(pName, pdx1, pdx2, pdy1, pdy2, pdz)     77   : Base_t(pName, pdx1, pdx2, pdy1, pdy2, pdz)
120 {                                                  78 {
121   CheckParameters();                           << 
122 }                                                  79 }
123                                                    80 
124 G4UTrap::G4UTrap(const G4String& pName,            81 G4UTrap::G4UTrap(const G4String& pName,
125                        G4double pdx, G4double      82                        G4double pdx, G4double pdy, G4double pdz,
126                        G4double pAlpha, G4doub     83                        G4double pAlpha, G4double pTheta, G4double pPhi )
127   : Base_t(pName, pdx, pdy, pdz, pAlpha, pThet     84   : Base_t(pName, pdx, pdy, pdz, pAlpha, pTheta, pPhi)
128 {                                                  85 {
129   CheckParameters();                           << 
130 }                                                  86 }
131                                                    87 
132 G4UTrap::G4UTrap( const G4String& pName )          88 G4UTrap::G4UTrap( const G4String& pName )
133   : Base_t(pName)                                  89   : Base_t(pName)
134 {                                                  90 {
135 }                                                  91 }
136                                                    92 
137 //////////////////////////////////////////////     93 ///////////////////////////////////////////////////////////////////////
138 //                                                 94 //
139 // Fake default constructor - sets only member     95 // Fake default constructor - sets only member data and allocates memory
140 //                            for usage restri     96 //                            for usage restricted to object persistency.
141 //                                                 97 //
142 G4UTrap::G4UTrap( __void__& a )                    98 G4UTrap::G4UTrap( __void__& a )
143   : Base_t(a)                                      99   : Base_t(a)
144 {                                                 100 {
145 }                                                 101 }
146                                                   102 
147 //////////////////////////////////////////////    103 //////////////////////////////////////////////////////////////////////////
148 //                                                104 //
149 // Destructor                                     105 // Destructor
150 //                                                106 //
151 G4UTrap::~G4UTrap() = default;                 << 107 G4UTrap::~G4UTrap()
                                                   >> 108 {
                                                   >> 109 }
152                                                   110 
153 //////////////////////////////////////////////    111 //////////////////////////////////////////////////////////////////////////
154 //                                                112 //
155 // Copy constructor                               113 // Copy constructor
156 //                                                114 //
157 G4UTrap::G4UTrap(const G4UTrap& rhs)              115 G4UTrap::G4UTrap(const G4UTrap& rhs)
158   : Base_t(rhs)                                   116   : Base_t(rhs)
159 {                                                 117 {
160 }                                                 118 }
161                                                   119 
162 //////////////////////////////////////////////    120 //////////////////////////////////////////////////////////////////////////
163 //                                                121 //
164 // Assignment operator                            122 // Assignment operator
165 //                                                123 //
166 G4UTrap& G4UTrap::operator = (const G4UTrap& r    124 G4UTrap& G4UTrap::operator = (const G4UTrap& rhs) 
167 {                                                 125 {
168    // Check assignment to self                    126    // Check assignment to self
169    //                                             127    //
170    if (this == &rhs)  { return *this; }           128    if (this == &rhs)  { return *this; }
171                                                   129 
172    // Copy base class data                        130    // Copy base class data
173    //                                             131    //
174    Base_t::operator=(rhs);                        132    Base_t::operator=(rhs);
175                                                   133 
176    return *this;                                  134    return *this;
177 }                                                 135 }
178                                                   136 
179 //////////////////////////////////////////////    137 //////////////////////////////////////////////////////////////////////////
180 //                                                138 //
181 // Accessors                                   << 139 // Accessors & modifiers
182 //                                             << 140 
183 G4double G4UTrap::GetZHalfLength() const          141 G4double G4UTrap::GetZHalfLength() const
184 {                                                 142 {
185   return GetDz();                                 143   return GetDz();
186 }                                                 144 }
187 G4double G4UTrap::GetYHalfLength1() const         145 G4double G4UTrap::GetYHalfLength1() const
188 {                                                 146 {
189   return GetDy1();                                147   return GetDy1();
190 }                                                 148 }
191 G4double G4UTrap::GetXHalfLength1() const         149 G4double G4UTrap::GetXHalfLength1() const
192 {                                                 150 {
193   return GetDx1();                                151   return GetDx1();
194 }                                                 152 }
195 G4double G4UTrap::GetXHalfLength2() const         153 G4double G4UTrap::GetXHalfLength2() const
196 {                                                 154 {
197   return GetDx2();                                155   return GetDx2();
198 }                                                 156 }
199 G4double G4UTrap::GetTanAlpha1() const         << 
200 {                                              << 
201   return Base_t::GetTanAlpha1();               << 
202 }                                              << 
203 G4double G4UTrap::GetYHalfLength2() const         157 G4double G4UTrap::GetYHalfLength2() const
204 {                                                 158 {
205   return GetDy2();                                159   return GetDy2();
206 }                                                 160 }
207 G4double G4UTrap::GetXHalfLength3() const         161 G4double G4UTrap::GetXHalfLength3() const
208 {                                                 162 {
209   return GetDx3();                                163   return GetDx3();
210 }                                                 164 }
211 G4double G4UTrap::GetXHalfLength4() const         165 G4double G4UTrap::GetXHalfLength4() const
212 {                                                 166 {
213   return GetDx4();                                167   return GetDx4();
214 }                                                 168 }
215 G4double G4UTrap::GetTanAlpha2() const         << 169 G4double G4UTrap::GetThetaCphi() const
216 {                                              << 
217   return Base_t::GetTanAlpha2();               << 
218 }                                              << 
219 G4double G4UTrap::GetPhi() const               << 
220 {                                              << 
221   return Base_t::GetPhi();                     << 
222 }                                              << 
223 G4double G4UTrap::GetTheta() const             << 
224 {                                              << 
225   return Base_t::GetTheta();                   << 
226 }                                              << 
227 G4double G4UTrap::GetAlpha1() const            << 
228 {                                                 170 {
229   return Base_t::GetAlpha1();                  << 171   return GetTanThetaCosPhi();
230 }                                                 172 }
231 G4double G4UTrap::GetAlpha2() const            << 173 G4double G4UTrap::GetThetaSphi() const
232 {                                                 174 {
233   return Base_t::GetAlpha2();                  << 175   return GetTanThetaSinPhi();
234 }                                                 176 }
235 TrapSidePlane G4UTrap::GetSidePlane(G4int n) c    177 TrapSidePlane G4UTrap::GetSidePlane(G4int n) const
236 {                                                 178 {
237   TrapSidePlane plane;                            179   TrapSidePlane plane;
238   plane.a = GetStruct().GetPlane(n).fA;           180   plane.a = GetStruct().GetPlane(n).fA;
239   plane.b = GetStruct().GetPlane(n).fB;           181   plane.b = GetStruct().GetPlane(n).fB;
240   plane.c = GetStruct().GetPlane(n).fC;           182   plane.c = GetStruct().GetPlane(n).fC;
241   plane.d = GetStruct().GetPlane(n).fD;           183   plane.d = GetStruct().GetPlane(n).fD;
242   return plane;                                   184   return plane;
243 }                                                 185 }
244 G4ThreeVector G4UTrap::GetSymAxis() const         186 G4ThreeVector G4UTrap::GetSymAxis() const
245 {                                                 187 {
246   G4double tanThetaSphi = GetTanThetaSinPhi();    188   G4double tanThetaSphi = GetTanThetaSinPhi();
247   G4double tanThetaCphi = GetTanThetaCosPhi();    189   G4double tanThetaCphi = GetTanThetaCosPhi();
248   G4double tan2Theta = tanThetaSphi*tanThetaSp    190   G4double tan2Theta = tanThetaSphi*tanThetaSphi + tanThetaCphi*tanThetaCphi;
249   G4double cosTheta = 1.0 / std::sqrt(1 + tan2    191   G4double cosTheta = 1.0 / std::sqrt(1 + tan2Theta);
250   return {tanThetaCphi*cosTheta, tanThetaSphi* << 192   return G4ThreeVector(tanThetaCphi*cosTheta, tanThetaSphi*cosTheta, cosTheta);
251 }                                                 193 }
252                                                   194 
253 ////////////////////////////////////////////// << 
254 //                                             << 
255 // Modifier                                    << 
256 //                                             << 
257 void G4UTrap::SetAllParameters(G4double pDz, G    195 void G4UTrap::SetAllParameters(G4double pDz, G4double pTheta, G4double pPhi,
258                                G4double pDy1,     196                                G4double pDy1, G4double pDx1, G4double pDx2,
259                                G4double pAlp1,    197                                G4double pAlp1,
260                                G4double pDy2,     198                                G4double pDy2, G4double pDx3, G4double pDx4,
261                                G4double pAlp2)    199                                G4double pAlp2)
262 {                                                 200 {
263   SetDz(pDz);                                     201   SetDz(pDz);
264   SetDy1(pDy1);                                   202   SetDy1(pDy1);
265   SetDy2(pDy2);                                   203   SetDy2(pDy2);
266   SetDx1(pDx1);                                   204   SetDx1(pDx1);
267   SetDx2(pDx2);                                   205   SetDx2(pDx2);
268   SetDx3(pDx3);                                   206   SetDx3(pDx3);
269   SetDx4(pDx4);                                   207   SetDx4(pDx4);
270   SetTanAlpha1(std::tan(pAlp1));                  208   SetTanAlpha1(std::tan(pAlp1));
271   SetTanAlpha2(std::tan(pAlp2));               << 209   SetTanAlpha1(std::tan(pAlp2));
272   // last two will also reset cached variables    210   // last two will also reset cached variables
273   SetTheta(pTheta);                               211   SetTheta(pTheta);
274   SetPhi(pPhi);                                   212   SetPhi(pPhi);
275   fRebuildPolyhedron = true;                      213   fRebuildPolyhedron = true;
276                                                << 
277   G4ThreeVector pt[8];                         << 
278   CheckParameters();                           << 
279   GetVertices(pt);                             << 
280   CheckPlanarity(pt);                          << 
281 }                                                 214 }
282                                                   215 
283 ////////////////////////////////////////////// << 
284 //                                             << 
285 // Set parameters using eight vertices         << 
286 //                                             << 
287 void G4UTrap::SetPlanes(const G4ThreeVector pt    216 void G4UTrap::SetPlanes(const G4ThreeVector pt[8])
288 {                                                 217 {
289   U3Vector upt[8];                                218   U3Vector upt[8];
290   for (unsigned int i=0; i<8; ++i)                219   for (unsigned int i=0; i<8; ++i)
291   {                                               220   {
292     upt[i] = U3Vector(pt[i].x(), pt[i].y(), pt    221     upt[i] = U3Vector(pt[i].x(), pt[i].y(), pt[i].z());
293   }                                               222   }
294   fromCornersToParameters(upt);                   223   fromCornersToParameters(upt);
295   fRebuildPolyhedron = true;                      224   fRebuildPolyhedron = true;
296 }                                                 225 }
297                                                   226 
298 //////////////////////////////////////////////    227 /////////////////////////////////////////////////////////////////////////
299 //                                                228 //
300 // Check dimensions                            << 
301 //                                             << 
302 void G4UTrap::CheckParameters() const          << 
303 {                                              << 
304   G4double fDz  = GetZHalfLength();            << 
305   G4double fDy1 = GetYHalfLength1();           << 
306   G4double fDx1 = GetXHalfLength1();           << 
307   G4double fDx2 = GetXHalfLength2();           << 
308   G4double fDy2 = GetYHalfLength2();           << 
309   G4double fDx3 = GetXHalfLength3();           << 
310   G4double fDx4 = GetXHalfLength4();           << 
311                                                << 
312   if (fDz<=0 ||                                << 
313       fDy1<=0 || fDx1<=0 || fDx2<=0 ||         << 
314       fDy2<=0 || fDx3<=0 || fDx4<=0)           << 
315   {                                            << 
316     std::ostringstream message;                << 
317     message << "Invalid Length Parameters for  << 
318             << "\n  X - " <<fDx1<<", "<<fDx2<< << 
319             << "\n  Y - " <<fDy1<<", "<<fDy2   << 
320             << "\n  Z - " <<fDz;               << 
321     G4Exception("G4UTrap::CheckParameters()",  << 
322                 FatalException, message);      << 
323   }                                            << 
324 }                                              << 
325                                                << 
326 ////////////////////////////////////////////// << 
327 //                                             << 
328 // Compute coordinates of vertices             << 
329 //                                             << 
330 void G4UTrap::GetVertices(G4ThreeVector pt[8]) << 
331 {                                              << 
332   G4double fDz      = GetZHalfLength();        << 
333   G4double fDy1     = GetYHalfLength1();       << 
334   G4double fDx1     = GetXHalfLength1();       << 
335   G4double fDx2     = GetXHalfLength2();       << 
336   G4double fDy2     = GetYHalfLength2();       << 
337   G4double fDx3     = GetXHalfLength3();       << 
338   G4double fDx4     = GetXHalfLength4();       << 
339   G4double fTalpha1 = GetTanAlpha1();          << 
340   G4double fTalpha2 = GetTanAlpha2();          << 
341                                                << 
342   G4double DzTthetaCphi = fDz*GetTanThetaCosPh << 
343   G4double DzTthetaSphi = fDz*GetTanThetaSinPh << 
344   G4double Dy1Talpha1   = fDy1*fTalpha1;       << 
345   G4double Dy2Talpha2   = fDy2*fTalpha2;       << 
346                                                << 
347   pt[0].set(-DzTthetaCphi-Dy1Talpha1-fDx1,-DzT << 
348   pt[1].set(-DzTthetaCphi-Dy1Talpha1+fDx1,-DzT << 
349   pt[2].set(-DzTthetaCphi+Dy1Talpha1-fDx2,-DzT << 
350   pt[3].set(-DzTthetaCphi+Dy1Talpha1+fDx2,-DzT << 
351   pt[4].set( DzTthetaCphi-Dy2Talpha2-fDx3, DzT << 
352   pt[5].set( DzTthetaCphi-Dy2Talpha2+fDx3, DzT << 
353   pt[6].set( DzTthetaCphi+Dy2Talpha2-fDx4, DzT << 
354   pt[7].set( DzTthetaCphi+Dy2Talpha2+fDx4, DzT << 
355 }                                              << 
356                                                << 
357 ////////////////////////////////////////////// << 
358 //                                             << 
359 // Check planarity of lateral planes           << 
360 //                                             << 
361 void G4UTrap::CheckPlanarity(const G4ThreeVect << 
362 {                                              << 
363   constexpr G4int iface[4][4] = { {0,4,5,1}, { << 
364   const static G4String side[4] = { "~-Y", "~+ << 
365                                                << 
366   for (G4int i=0; i<4; ++i)                    << 
367   {                                            << 
368     TrapSidePlane plane = GetSidePlane(i);     << 
369     G4double dmax = 0;                         << 
370     for (G4int k=0; k<4; ++k)                  << 
371     {                                          << 
372       const G4ThreeVector p = pt[iface[i][k]]; << 
373       G4double dist = plane.a*p.x() + plane.b* << 
374       if (std::abs(dist) > std::abs(dmax)) dma << 
375     }                                          << 
376     if (std::abs(dmax) > 1000 * kCarTolerance) << 
377     {                                          << 
378       std::ostringstream message;              << 
379       message << "Side face " << side[i] << "  << 
380               << GetName() << "\nDiscrepancy:  << 
381       StreamInfo(message);                     << 
382       G4Exception("G4UTrap::CheckPlanarity()", << 
383                   FatalException, message);    << 
384     }                                          << 
385   }                                            << 
386 }                                              << 
387                                                << 
388 ////////////////////////////////////////////// << 
389 //                                             << 
390 // Dispatch to parameterisation for replicatio    229 // Dispatch to parameterisation for replication mechanism dimension
391 // computation & modification.                    230 // computation & modification.
392 //                                                231 //
393 void G4UTrap::ComputeDimensions(      G4VPVPar    232 void G4UTrap::ComputeDimensions(      G4VPVParameterisation* p,
394                                 const G4int n,    233                                 const G4int n,
395                                 const G4VPhysi    234                                 const G4VPhysicalVolume* pRep)
396 {                                                 235 {
397   p->ComputeDimensions(*(G4Trap*)this,n,pRep);    236   p->ComputeDimensions(*(G4Trap*)this,n,pRep);
398 }                                                 237 }
399                                                   238 
400 //////////////////////////////////////////////    239 //////////////////////////////////////////////////////////////////////////
401 //                                                240 //
402 // Make a clone of the object                     241 // Make a clone of the object
403 //                                                242 //
404 G4VSolid* G4UTrap::Clone() const                  243 G4VSolid* G4UTrap::Clone() const
405 {                                                 244 {
406   return new G4UTrap(*this);                      245   return new G4UTrap(*this);
407 }                                                 246 }
408                                                   247 
409 //////////////////////////////////////////////    248 //////////////////////////////////////////////////////////////////////////
410 //                                                249 //
411 // Get bounding box                               250 // Get bounding box
412                                                   251 
413 void G4UTrap::BoundingLimits(G4ThreeVector& pM    252 void G4UTrap::BoundingLimits(G4ThreeVector& pMin, G4ThreeVector& pMax) const
414 {                                                 253 {
415   static G4bool checkBBox = true;                 254   static G4bool checkBBox = true;
416                                                   255 
417   TrapSidePlane planes[4];                        256   TrapSidePlane planes[4];
418   for (G4int i=0; i<4; ++i) { planes[i] = GetS    257   for (G4int i=0; i<4; ++i) { planes[i] = GetSidePlane(i); }
419                                                   258 
420   G4double xmin = kInfinity, xmax = -kInfinity    259   G4double xmin = kInfinity, xmax = -kInfinity;
421   G4double ymin = kInfinity, ymax = -kInfinity    260   G4double ymin = kInfinity, ymax = -kInfinity;
422   G4double dz   = GetZHalfLength();               261   G4double dz   = GetZHalfLength();
423   for (G4int i=0; i<8; ++i)                       262   for (G4int i=0; i<8; ++i)
424   {                                               263   {
425     G4int iy = (i==0 || i==1 || i==4 || i==5)     264     G4int iy = (i==0 || i==1 || i==4 || i==5) ? 0 : 1;
426     G4int ix = (i==0 || i==2 || i==4 || i==6)     265     G4int ix = (i==0 || i==2 || i==4 || i==6) ? 2 : 3;
427     G4double z = (i < 4) ? -dz : dz;              266     G4double z = (i < 4) ? -dz : dz;
428     G4double y = -(planes[iy].c*z + planes[iy]    267     G4double y = -(planes[iy].c*z + planes[iy].d)/planes[iy].b;
429     G4double x = -(planes[ix].b*y + planes[ix]    268     G4double x = -(planes[ix].b*y + planes[ix].c*z + planes[ix].d)/planes[ix].a;
430     if (x < xmin) xmin = x;                       269     if (x < xmin) xmin = x;
431     if (x > xmax) xmax = x;                       270     if (x > xmax) xmax = x;
432     if (y < ymin) ymin = y;                       271     if (y < ymin) ymin = y;
433     if (y > ymax) ymax = y;                       272     if (y > ymax) ymax = y;
434   }                                               273   }
435                                                   274 
436   pMin.set(xmin,ymin,-dz);                        275   pMin.set(xmin,ymin,-dz);
437   pMax.set(xmax,ymax, dz);                        276   pMax.set(xmax,ymax, dz);
438                                                   277 
439   // Check correctness of the bounding box        278   // Check correctness of the bounding box
440   //                                              279   //
441   if (pMin.x() >= pMax.x() || pMin.y() >= pMax    280   if (pMin.x() >= pMax.x() || pMin.y() >= pMax.y() || pMin.z() >= pMax.z())
442   {                                               281   {
443     std::ostringstream message;                   282     std::ostringstream message;
444     message << "Bad bounding box (min >= max)     283     message << "Bad bounding box (min >= max) for solid: "
445             << GetName() << " !"                  284             << GetName() << " !"
446             << "\npMin = " << pMin                285             << "\npMin = " << pMin
447             << "\npMax = " << pMax;               286             << "\npMax = " << pMax;
448     G4Exception("G4UTrap::BoundingLimits()", "    287     G4Exception("G4UTrap::BoundingLimits()", "GeomMgt0001",
449                 JustWarning, message);            288                 JustWarning, message);
450     StreamInfo(G4cout);                           289     StreamInfo(G4cout);
451   }                                               290   }
452                                                   291 
453   // Check consistency of bounding boxes          292   // Check consistency of bounding boxes
454   //                                              293   //
455   if (checkBBox)                                  294   if (checkBBox)
456   {                                               295   {
457     G4double tolerance = kCarTolerance;           296     G4double tolerance = kCarTolerance;
458     U3Vector vmin, vmax;                          297     U3Vector vmin, vmax;
459     Extent(vmin,vmax);                            298     Extent(vmin,vmax);
460     if (std::abs(pMin.x()-vmin.x()) > toleranc    299     if (std::abs(pMin.x()-vmin.x()) > tolerance ||
461         std::abs(pMin.y()-vmin.y()) > toleranc    300         std::abs(pMin.y()-vmin.y()) > tolerance ||
462         std::abs(pMin.z()-vmin.z()) > toleranc    301         std::abs(pMin.z()-vmin.z()) > tolerance ||
463         std::abs(pMax.x()-vmax.x()) > toleranc    302         std::abs(pMax.x()-vmax.x()) > tolerance ||
464         std::abs(pMax.y()-vmax.y()) > toleranc    303         std::abs(pMax.y()-vmax.y()) > tolerance ||
465         std::abs(pMax.z()-vmax.z()) > toleranc    304         std::abs(pMax.z()-vmax.z()) > tolerance)
466     {                                             305     {
467       std::ostringstream message;                 306       std::ostringstream message;
468       message << "Inconsistency in bounding bo    307       message << "Inconsistency in bounding boxes for solid: "
469               << GetName() << " !"                308               << GetName() << " !"
470               << "\nBBox min: wrapper = " << p    309               << "\nBBox min: wrapper = " << pMin << " solid = " << vmin
471               << "\nBBox max: wrapper = " << p    310               << "\nBBox max: wrapper = " << pMax << " solid = " << vmax;
472       G4Exception("G4UTrap::BoundingLimits()",    311       G4Exception("G4UTrap::BoundingLimits()", "GeomMgt0001",
473                   JustWarning, message);          312                   JustWarning, message);
474       checkBBox = false;                          313       checkBBox = false;
475     }                                             314     }
476   }                                               315   }
477 }                                                 316 }
478                                                   317 
479 //////////////////////////////////////////////    318 //////////////////////////////////////////////////////////////////////////
480 //                                                319 //
481 // Calculate extent under transform and specif    320 // Calculate extent under transform and specified limit
482                                                   321 
483 G4bool                                            322 G4bool
484 G4UTrap::CalculateExtent(const EAxis pAxis,       323 G4UTrap::CalculateExtent(const EAxis pAxis,
485                          const G4VoxelLimits&     324                          const G4VoxelLimits& pVoxelLimit,
486                          const G4AffineTransfo    325                          const G4AffineTransform& pTransform,
487                                G4double& pMin,    326                                G4double& pMin, G4double& pMax) const
488 {                                                 327 {
489   G4ThreeVector bmin, bmax;                       328   G4ThreeVector bmin, bmax;
490   G4bool exist;                                   329   G4bool exist;
491                                                   330 
492   // Check bounding box (bbox)                    331   // Check bounding box (bbox)
493   //                                              332   //
494   BoundingLimits(bmin,bmax);                      333   BoundingLimits(bmin,bmax);
495   G4BoundingEnvelope bbox(bmin,bmax);             334   G4BoundingEnvelope bbox(bmin,bmax);
496 #ifdef G4BBOX_EXTENT                              335 #ifdef G4BBOX_EXTENT
497   if (true) return bbox.CalculateExtent(pAxis,    336   if (true) return bbox.CalculateExtent(pAxis,pVoxelLimit,pTransform,pMin,pMax);
498 #endif                                            337 #endif
499   if (bbox.BoundingBoxVsVoxelLimits(pAxis,pVox    338   if (bbox.BoundingBoxVsVoxelLimits(pAxis,pVoxelLimit,pTransform,pMin,pMax))
500   {                                               339   {
501     return exist = pMin < pMax;                << 340     return exist = (pMin < pMax) ? true : false;
502   }                                               341   }
503                                                   342 
504   // Set bounding envelope (benv) and calculat    343   // Set bounding envelope (benv) and calculate extent
505   //                                              344   //
506   TrapSidePlane planes[4];                        345   TrapSidePlane planes[4];
507   for (G4int i=0; i<4; ++i) { planes[i] = GetS    346   for (G4int i=0; i<4; ++i) { planes[i] = GetSidePlane(i); }
508                                                   347 
509   G4ThreeVector pt[8];                            348   G4ThreeVector pt[8];
510   G4double dz = GetZHalfLength();                 349   G4double dz = GetZHalfLength();
511   for (G4int i=0; i<8; ++i)                       350   for (G4int i=0; i<8; ++i)
512   {                                               351   {
513     G4int iy = (i==0 || i==1 || i==4 || i==5)     352     G4int iy = (i==0 || i==1 || i==4 || i==5) ? 0 : 1;
514     G4int ix = (i==0 || i==2 || i==4 || i==6)     353     G4int ix = (i==0 || i==2 || i==4 || i==6) ? 2 : 3;
515     G4double z = (i < 4) ? -dz : dz;              354     G4double z = (i < 4) ? -dz : dz;
516     G4double y = -(planes[iy].c*z + planes[iy]    355     G4double y = -(planes[iy].c*z + planes[iy].d)/planes[iy].b;
517     G4double x = -(planes[ix].b*y + planes[ix]    356     G4double x = -(planes[ix].b*y + planes[ix].c*z + planes[ix].d)/planes[ix].a;
518     pt[i].set(x,y,z);                             357     pt[i].set(x,y,z);
519   }                                               358   }
520                                                   359 
521   G4ThreeVectorList baseA(4), baseB(4);           360   G4ThreeVectorList baseA(4), baseB(4);
522   baseA[0] = pt[0];                               361   baseA[0] = pt[0];
523   baseA[1] = pt[1];                               362   baseA[1] = pt[1];
524   baseA[2] = pt[3];                               363   baseA[2] = pt[3];
525   baseA[3] = pt[2];                               364   baseA[3] = pt[2];
526                                                   365 
527   baseB[0] = pt[4];                               366   baseB[0] = pt[4];
528   baseB[1] = pt[5];                               367   baseB[1] = pt[5];
529   baseB[2] = pt[7];                               368   baseB[2] = pt[7];
530   baseB[3] = pt[6];                               369   baseB[3] = pt[6];
531                                                   370 
532   std::vector<const G4ThreeVectorList *> polyg    371   std::vector<const G4ThreeVectorList *> polygons(2);
533   polygons[0] = &baseA;                           372   polygons[0] = &baseA;
534   polygons[1] = &baseB;                           373   polygons[1] = &baseB;
535                                                   374 
536   G4BoundingEnvelope benv(bmin,bmax,polygons);    375   G4BoundingEnvelope benv(bmin,bmax,polygons);
537   exist = benv.CalculateExtent(pAxis,pVoxelLim    376   exist = benv.CalculateExtent(pAxis,pVoxelLimit,pTransform,pMin,pMax);
538   return exist;                                   377   return exist;
539 }                                                 378 }
540                                                   379 
541 //////////////////////////////////////////////    380 //////////////////////////////////////////////////////////////////////////
542 //                                                381 //
543 // Create polyhedron for visualization            382 // Create polyhedron for visualization
544 //                                                383 //
545 G4Polyhedron* G4UTrap::CreatePolyhedron() cons    384 G4Polyhedron* G4UTrap::CreatePolyhedron() const
546 {                                                 385 {
547   return new G4PolyhedronTrap(GetZHalfLength() << 386   G4double fTthetaSphi = GetThetaSphi();
                                                   >> 387   G4double fTthetaCphi = GetThetaCphi();
                                                   >> 388   G4double phi = std::atan2(fTthetaSphi, fTthetaCphi);
                                                   >> 389   G4double alpha1 = std::atan(GetTanAlpha1());
                                                   >> 390   G4double alpha2 = std::atan(GetTanAlpha2());
                                                   >> 391   G4double theta = std::atan(std::sqrt(fTthetaCphi*fTthetaCphi+fTthetaSphi*fTthetaSphi));
                                                   >> 392 
                                                   >> 393   return new G4PolyhedronTrap(GetZHalfLength(), theta, phi,
548                               GetYHalfLength1(    394                               GetYHalfLength1(),
549                               GetXHalfLength1( << 395                               GetXHalfLength1(), GetXHalfLength2(), alpha1,
550                               GetYHalfLength2(    396                               GetYHalfLength2(),
551                               GetXHalfLength3( << 397                               GetXHalfLength3(), GetXHalfLength4(), alpha2);
552 }                                                 398 }
553                                                   399 
554 #endif  // G4GEOM_USE_USOLIDS                     400 #endif  // G4GEOM_USE_USOLIDS
555                                                   401