Geant4 Cross Reference

Cross-Referencing   Geant4
Geant4/geometry/solids/Boolean/src/G4BooleanSolid.cc

Version: [ ReleaseNotes ] [ 1.0 ] [ 1.1 ] [ 2.0 ] [ 3.0 ] [ 3.1 ] [ 3.2 ] [ 4.0 ] [ 4.0.p1 ] [ 4.0.p2 ] [ 4.1 ] [ 4.1.p1 ] [ 5.0 ] [ 5.0.p1 ] [ 5.1 ] [ 5.1.p1 ] [ 5.2 ] [ 5.2.p1 ] [ 5.2.p2 ] [ 6.0 ] [ 6.0.p1 ] [ 6.1 ] [ 6.2 ] [ 6.2.p1 ] [ 6.2.p2 ] [ 7.0 ] [ 7.0.p1 ] [ 7.1 ] [ 7.1.p1 ] [ 8.0 ] [ 8.0.p1 ] [ 8.1 ] [ 8.1.p1 ] [ 8.1.p2 ] [ 8.2 ] [ 8.2.p1 ] [ 8.3 ] [ 8.3.p1 ] [ 8.3.p2 ] [ 9.0 ] [ 9.0.p1 ] [ 9.0.p2 ] [ 9.1 ] [ 9.1.p1 ] [ 9.1.p2 ] [ 9.1.p3 ] [ 9.2 ] [ 9.2.p1 ] [ 9.2.p2 ] [ 9.2.p3 ] [ 9.2.p4 ] [ 9.3 ] [ 9.3.p1 ] [ 9.3.p2 ] [ 9.4 ] [ 9.4.p1 ] [ 9.4.p2 ] [ 9.4.p3 ] [ 9.4.p4 ] [ 9.5 ] [ 9.5.p1 ] [ 9.5.p2 ] [ 9.6 ] [ 9.6.p1 ] [ 9.6.p2 ] [ 9.6.p3 ] [ 9.6.p4 ] [ 10.0 ] [ 10.0.p1 ] [ 10.0.p2 ] [ 10.0.p3 ] [ 10.0.p4 ] [ 10.1 ] [ 10.1.p1 ] [ 10.1.p2 ] [ 10.1.p3 ] [ 10.2 ] [ 10.2.p1 ] [ 10.2.p2 ] [ 10.2.p3 ] [ 10.3 ] [ 10.3.p1 ] [ 10.3.p2 ] [ 10.3.p3 ] [ 10.4 ] [ 10.4.p1 ] [ 10.4.p2 ] [ 10.4.p3 ] [ 10.5 ] [ 10.5.p1 ] [ 10.6 ] [ 10.6.p1 ] [ 10.6.p2 ] [ 10.6.p3 ] [ 10.7 ] [ 10.7.p1 ] [ 10.7.p2 ] [ 10.7.p3 ] [ 10.7.p4 ] [ 11.0 ] [ 11.0.p1 ] [ 11.0.p2 ] [ 11.0.p3, ] [ 11.0.p4 ] [ 11.1 ] [ 11.1.1 ] [ 11.1.2 ] [ 11.1.3 ] [ 11.2 ] [ 11.2.1 ] [ 11.2.2 ] [ 11.3.0 ]

Diff markup

Differences between /geometry/solids/Boolean/src/G4BooleanSolid.cc (Version 11.3.0) and /geometry/solids/Boolean/src/G4BooleanSolid.cc (Version 9.5.p1)


  1 //                                                  1 //
  2 // *******************************************      2 // ********************************************************************
  3 // * License and Disclaimer                         3 // * License and Disclaimer                                           *
  4 // *                                                4 // *                                                                  *
  5 // * The  Geant4 software  is  copyright of th      5 // * The  Geant4 software  is  copyright of the Copyright Holders  of *
  6 // * the Geant4 Collaboration.  It is provided      6 // * the Geant4 Collaboration.  It is provided  under  the terms  and *
  7 // * conditions of the Geant4 Software License      7 // * conditions of the Geant4 Software License,  included in the file *
  8 // * LICENSE and available at  http://cern.ch/      8 // * LICENSE and available at  http://cern.ch/geant4/license .  These *
  9 // * include a list of copyright holders.           9 // * include a list of copyright holders.                             *
 10 // *                                               10 // *                                                                  *
 11 // * Neither the authors of this software syst     11 // * Neither the authors of this software system, nor their employing *
 12 // * institutes,nor the agencies providing fin     12 // * institutes,nor the agencies providing financial support for this *
 13 // * work  make  any representation or  warran     13 // * work  make  any representation or  warranty, express or implied, *
 14 // * regarding  this  software system or assum     14 // * regarding  this  software system or assume any liability for its *
 15 // * use.  Please see the license in the file      15 // * use.  Please see the license in the file  LICENSE  and URL above *
 16 // * for the full disclaimer and the limitatio     16 // * for the full disclaimer and the limitation of liability.         *
 17 // *                                               17 // *                                                                  *
 18 // * This  code  implementation is the result      18 // * This  code  implementation is the result of  the  scientific and *
 19 // * technical work of the GEANT4 collaboratio     19 // * technical work of the GEANT4 collaboration.                      *
 20 // * By using,  copying,  modifying or  distri     20 // * By using,  copying,  modifying or  distributing the software (or *
 21 // * any work based  on the software)  you  ag     21 // * any work based  on the software)  you  agree  to acknowledge its *
 22 // * use  in  resulting  scientific  publicati     22 // * use  in  resulting  scientific  publications,  and indicate your *
 23 // * acceptance of all terms of the Geant4 Sof     23 // * acceptance of all terms of the Geant4 Software license.          *
 24 // *******************************************     24 // ********************************************************************
 25 //                                                 25 //
 26 // Implementation of the base class for solids <<  26 //
                                                   >>  27 // $Id: G4BooleanSolid.cc,v 1.24 2010-09-22 14:57:59 gcosmo Exp $
                                                   >>  28 // GEANT4 tag $Name: not supported by cvs2svn $
                                                   >>  29 //
                                                   >>  30 // Implementation for the abstract base class for solids created by boolean 
 27 // operations between other solids                 31 // operations between other solids
 28 //                                                 32 //
 29 // 1998.09.10 V.Grichine - created             <<  33 // History:
                                                   >>  34 //
                                                   >>  35 // 10.09.98 V.Grichine, created
                                                   >>  36 //
 30 // -------------------------------------------     37 // --------------------------------------------------------------------
 31                                                    38 
 32 #include "G4BooleanSolid.hh"                       39 #include "G4BooleanSolid.hh"
 33 #include "G4VSolid.hh"                             40 #include "G4VSolid.hh"
 34 #include "G4DisplacedSolid.hh"                 << 
 35 #include "G4ReflectedSolid.hh"                 << 
 36 #include "G4ScaledSolid.hh"                    << 
 37 #include "G4Polyhedron.hh"                         41 #include "G4Polyhedron.hh"
 38 #include "HepPolyhedronProcessor.h"                42 #include "HepPolyhedronProcessor.h"
 39 #include "G4QuickRand.hh"                      <<  43 #include "Randomize.hh"
 40                                                << 
 41 #include "G4AutoLock.hh"                       << 
 42                                                << 
 43 namespace                                      << 
 44 {                                              << 
 45   G4RecursiveMutex polyhedronMutex = G4MUTEX_I << 
 46 }                                              << 
 47                                                << 
 48 G4VBooleanProcessor* G4BooleanSolid::fExternal << 
 49                                                    44 
 50 //////////////////////////////////////////////     45 //////////////////////////////////////////////////////////////////
 51 //                                                 46 //
 52 // Constructor                                     47 // Constructor
 53                                                    48 
 54 G4BooleanSolid::G4BooleanSolid( const G4String     49 G4BooleanSolid::G4BooleanSolid( const G4String& pName,
 55                                 G4VSolid* pSol     50                                 G4VSolid* pSolidA ,
 56                                 G4VSolid* pSol <<  51                                 G4VSolid* pSolidB   ) :
 57   : G4VSolid(pName), fPtrSolidA(pSolidA), fPtr <<  52   G4VSolid(pName), fStatistics(1000000), fCubVolEpsilon(0.001),
                                                   >>  53   fAreaAccuracy(-1.), fCubicVolume(0.), fSurfaceArea(0.),
                                                   >>  54   fpPolyhedron(0), createdDisplacedSolid(false)
 58 {                                                  55 {
                                                   >>  56   fPtrSolidA = pSolidA ;
                                                   >>  57   fPtrSolidB = pSolidB ;
 59 }                                                  58 }
 60                                                    59 
 61 //////////////////////////////////////////////     60 //////////////////////////////////////////////////////////////////
 62 //                                                 61 //
 63 // Constructor                                     62 // Constructor
 64                                                    63 
 65 G4BooleanSolid::G4BooleanSolid( const G4String     64 G4BooleanSolid::G4BooleanSolid( const G4String& pName,
 66                                       G4VSolid     65                                       G4VSolid* pSolidA ,
 67                                       G4VSolid     66                                       G4VSolid* pSolidB ,
 68                                       G4Rotati     67                                       G4RotationMatrix* rotMatrix,
 69                                 const G4ThreeV <<  68                                 const G4ThreeVector& transVector    ) :
 70   : G4VSolid(pName), createdDisplacedSolid(tru <<  69   G4VSolid(pName), fStatistics(1000000), fCubVolEpsilon(0.001),
                                                   >>  70   fAreaAccuracy(-1.), fCubicVolume(0.), fSurfaceArea(0.),
                                                   >>  71   fpPolyhedron(0), createdDisplacedSolid(true)
 71 {                                                  72 {
 72   fPtrSolidA = pSolidA ;                           73   fPtrSolidA = pSolidA ;
 73   fPtrSolidB = new G4DisplacedSolid("placedB",     74   fPtrSolidB = new G4DisplacedSolid("placedB",pSolidB,rotMatrix,transVector) ;
 74 }                                                  75 }
 75                                                    76 
 76 //////////////////////////////////////////////     77 //////////////////////////////////////////////////////////////////
 77 //                                                 78 //
 78 // Constructor                                     79 // Constructor
 79                                                    80 
 80 G4BooleanSolid::G4BooleanSolid( const G4String     81 G4BooleanSolid::G4BooleanSolid( const G4String& pName,
 81                                       G4VSolid     82                                       G4VSolid* pSolidA ,
 82                                       G4VSolid     83                                       G4VSolid* pSolidB ,
 83                                 const G4Transf <<  84                                 const G4Transform3D& transform    ) :
 84   : G4VSolid(pName), createdDisplacedSolid(tru <<  85   G4VSolid(pName), fStatistics(1000000), fCubVolEpsilon(0.001),
                                                   >>  86   fAreaAccuracy(-1.), fCubicVolume(0.), fSurfaceArea(0.),
                                                   >>  87   fpPolyhedron(0), createdDisplacedSolid(true)
 85 {                                                  88 {
 86   fPtrSolidA = pSolidA ;                           89   fPtrSolidA = pSolidA ;
 87   fPtrSolidB = new G4DisplacedSolid("placedB",     90   fPtrSolidB = new G4DisplacedSolid("placedB",pSolidB,transform) ;
 88 }                                                  91 }
 89                                                    92 
 90 //////////////////////////////////////////////     93 ///////////////////////////////////////////////////////////////
 91 //                                                 94 //
 92 // Fake default constructor - sets only member     95 // Fake default constructor - sets only member data and allocates memory
 93 //                            for usage restri     96 //                            for usage restricted to object persistency.
 94                                                    97 
 95 G4BooleanSolid::G4BooleanSolid( __void__& a )      98 G4BooleanSolid::G4BooleanSolid( __void__& a )
 96   : G4VSolid(a)                                <<  99   : G4VSolid(a), fPtrSolidA(0), fPtrSolidB(0),
                                                   >> 100     fStatistics(1000000), fCubVolEpsilon(0.001), 
                                                   >> 101     fAreaAccuracy(-1.), fCubicVolume(0.), fSurfaceArea(0.),
                                                   >> 102     fpPolyhedron(0), createdDisplacedSolid(false)
 97 {                                                 103 {
 98 }                                                 104 }
 99                                                   105 
100 //////////////////////////////////////////////    106 ///////////////////////////////////////////////////////////////
101 //                                                107 //
102 // Destructor deletes transformation contents     108 // Destructor deletes transformation contents of the created displaced solid
103                                                   109 
104 G4BooleanSolid::~G4BooleanSolid()                 110 G4BooleanSolid::~G4BooleanSolid() 
105 {                                                 111 {
106   if(createdDisplacedSolid)                       112   if(createdDisplacedSolid)
107   {                                               113   {
108     ((G4DisplacedSolid*)fPtrSolidB)->CleanTran    114     ((G4DisplacedSolid*)fPtrSolidB)->CleanTransformations();
109   }                                               115   }
110   delete fpPolyhedron; fpPolyhedron = nullptr; << 116   delete fpPolyhedron;
111 }                                                 117 }
112                                                   118 
113 //////////////////////////////////////////////    119 ///////////////////////////////////////////////////////////////
114 //                                                120 //
115 // Copy constructor                               121 // Copy constructor
116                                                   122 
117 G4BooleanSolid::G4BooleanSolid(const G4Boolean    123 G4BooleanSolid::G4BooleanSolid(const G4BooleanSolid& rhs)
118   : G4VSolid (rhs), fPtrSolidA(rhs.fPtrSolidA)    124   : G4VSolid (rhs), fPtrSolidA(rhs.fPtrSolidA), fPtrSolidB(rhs.fPtrSolidB),
119     fCubicVolume(rhs.fCubicVolume), fSurfaceAr << 125     fStatistics(rhs.fStatistics), fCubVolEpsilon(rhs.fCubVolEpsilon),
120     fCubVolStatistics(rhs.fCubVolStatistics),  << 126     fAreaAccuracy(rhs.fAreaAccuracy), fCubicVolume(rhs.fCubicVolume),
121     fAreaStatistics(rhs.fAreaStatistics),      << 127     fSurfaceArea(rhs.fSurfaceArea), fpPolyhedron(0),
122     fCubVolEpsilon(rhs.fCubVolEpsilon),        << 
123     fAreaAccuracy(rhs.fAreaAccuracy),          << 
124     createdDisplacedSolid(rhs.createdDisplaced    128     createdDisplacedSolid(rhs.createdDisplacedSolid)
125 {                                                 129 {
126   fPrimitives.resize(0); fPrimitivesSurfaceAre << 
127 }                                                 130 }
128                                                   131 
129 //////////////////////////////////////////////    132 ///////////////////////////////////////////////////////////////
130 //                                                133 //
131 // Assignment operator                            134 // Assignment operator
132                                                   135 
133 G4BooleanSolid& G4BooleanSolid::operator = (co    136 G4BooleanSolid& G4BooleanSolid::operator = (const G4BooleanSolid& rhs) 
134 {                                                 137 {
135   // Check assignment to self                     138   // Check assignment to self
136   //                                              139   //
137   if (this == &rhs)  { return *this; }            140   if (this == &rhs)  { return *this; }
138                                                   141 
139   // Copy base class data                         142   // Copy base class data
140   //                                              143   //
141   G4VSolid::operator=(rhs);                       144   G4VSolid::operator=(rhs);
142                                                   145 
143   // Copy data                                    146   // Copy data
144   //                                              147   //
145   fPtrSolidA= rhs.fPtrSolidA; fPtrSolidB= rhs.    148   fPtrSolidA= rhs.fPtrSolidA; fPtrSolidB= rhs.fPtrSolidB;
146   fCubicVolume= rhs.fCubicVolume; fSurfaceArea << 149   fStatistics= rhs.fStatistics; fCubVolEpsilon= rhs.fCubVolEpsilon;
147   fCubVolStatistics = rhs.fCubVolStatistics; f << 150   fAreaAccuracy= rhs.fAreaAccuracy; fCubicVolume= rhs.fCubicVolume;
148   fAreaStatistics = rhs.fAreaStatistics; fArea << 151   fSurfaceArea= rhs.fSurfaceArea; fpPolyhedron= 0;
149   createdDisplacedSolid= rhs.createdDisplacedS    152   createdDisplacedSolid= rhs.createdDisplacedSolid;
150                                                   153 
151   fRebuildPolyhedron = false;                  << 
152   delete fpPolyhedron; fpPolyhedron = nullptr; << 
153   fPrimitives.resize(0); fPrimitivesSurfaceAre << 
154                                                << 
155   return *this;                                   154   return *this;
156 }                                                 155 }  
157                                                   156 
158 //////////////////////////////////////////////    157 ///////////////////////////////////////////////////////////////
159 //                                                158 //
160 // If solid is made up from a Boolean operatio << 159 // If Solid is made up from a Boolean operation of two solids,
161 // return the corresponding solid (for no=0 an << 160 //   return the corresponding solid (for no=0 and 1)
162 // If the solid is not a "Boolean", return 0      161 // If the solid is not a "Boolean", return 0
163                                                   162 
164 const G4VSolid* G4BooleanSolid::GetConstituent    163 const G4VSolid* G4BooleanSolid::GetConstituentSolid(G4int no) const
165 {                                                 164 {
166   const G4VSolid* subSolid = nullptr;          << 165   const G4VSolid*  subSolid=0;
167   if( no == 0 )                                   166   if( no == 0 )  
168     subSolid = fPtrSolidA;                        167     subSolid = fPtrSolidA;
169   else if( no == 1 )                              168   else if( no == 1 ) 
170     subSolid = fPtrSolidB;                        169     subSolid = fPtrSolidB;
171   else                                            170   else
172   {                                               171   {
173     DumpInfo();                                   172     DumpInfo();
174     G4Exception("G4BooleanSolid::GetConstituen    173     G4Exception("G4BooleanSolid::GetConstituentSolid()",
175                 "GeomSolids0002", FatalExcepti    174                 "GeomSolids0002", FatalException, "Invalid solid index.");
176   }                                               175   }
                                                   >> 176 
177   return subSolid;                                177   return subSolid;
178 }                                                 178 }
179                                                   179 
180 //////////////////////////////////////////////    180 ///////////////////////////////////////////////////////////////
181 //                                                181 //
182 // If solid is made up from a Boolean operatio << 182 // If Solid is made up from a Boolean operation of two solids,
183 // return the corresponding solid (for no=0 an << 183 //   return the corresponding solid (for no=0 and 1)
184 // If the solid is not a "Boolean", return 0      184 // If the solid is not a "Boolean", return 0
185                                                   185 
186 G4VSolid* G4BooleanSolid::GetConstituentSolid(    186 G4VSolid* G4BooleanSolid::GetConstituentSolid(G4int no)
187 {                                                 187 {
188   G4VSolid* subSolid = nullptr;                << 188   G4VSolid*  subSolid=0;
189   if( no == 0 )                                   189   if( no == 0 )  
190     subSolid = fPtrSolidA;                        190     subSolid = fPtrSolidA;
191   else if( no == 1 )                              191   else if( no == 1 ) 
192     subSolid = fPtrSolidB;                        192     subSolid = fPtrSolidB;
193   else                                            193   else
194   {                                               194   {
195     DumpInfo();                                   195     DumpInfo();
196     G4Exception("G4BooleanSolid::GetConstituen    196     G4Exception("G4BooleanSolid::GetConstituentSolid()",
197                 "GeomSolids0002", FatalExcepti    197                 "GeomSolids0002", FatalException, "Invalid solid index.");
198   }                                               198   }
                                                   >> 199 
199   return subSolid;                                200   return subSolid;
200 }                                                 201 }
201                                                   202 
202 //////////////////////////////////////////////    203 //////////////////////////////////////////////////////////////////////////
203 //                                                204 //
204 // Returns entity type                            205 // Returns entity type
205                                                   206 
206 G4GeometryType G4BooleanSolid::GetEntityType()    207 G4GeometryType G4BooleanSolid::GetEntityType() const 
207 {                                                 208 {
208   return {"G4BooleanSolid"};                   << 209   return G4String("G4BooleanSolid");
209 }                                              << 
210                                                << 
211 ////////////////////////////////////////////// << 
212 //                                             << 
213 // Set number of random points to be used for  << 
214                                                << 
215 void G4BooleanSolid::SetCubVolStatistics(G4int << 
216 {                                              << 
217   if (st != fCubVolStatistics) { fCubicVolume  << 
218   fCubVolStatistics = st;                      << 
219                                                << 
220   // Propagate st to all components of the 1st << 
221   if (fPtrSolidA->GetNumOfConstituents() > 1)  << 
222   {                                            << 
223     G4VSolid* ptr = fPtrSolidA;                << 
224     while(true)                                << 
225     {                                          << 
226       G4String type = ptr->GetEntityType();    << 
227       if (type == "G4DisplacedSolid")          << 
228       {                                        << 
229         ptr = ((G4DisplacedSolid*)ptr)->GetCon << 
230         continue;                              << 
231       }                                        << 
232       if (type == "G4ReflectedSolid")          << 
233       {                                        << 
234         ptr = ((G4ReflectedSolid*)ptr)->GetCon << 
235         continue;                              << 
236       }                                        << 
237       if (type == "G4ScaledSolid")             << 
238       {                                        << 
239         ptr = ((G4ScaledSolid*)ptr)->GetUnscal << 
240         continue;                              << 
241       }                                        << 
242       if (type != "G4MultiUnion") // G4MultiUn << 
243       {                                        << 
244   ((G4BooleanSolid*)ptr)->SetCubVolStatistics( << 
245       }                                        << 
246       break;                                   << 
247     }                                          << 
248   }                                            << 
249                                                << 
250   // Propagate st to all components of the 2nd << 
251   if (fPtrSolidB->GetNumOfConstituents() > 1)  << 
252   {                                            << 
253     G4VSolid* ptr = fPtrSolidB;                << 
254     while(true)                                << 
255     {                                          << 
256       G4String type = ptr->GetEntityType();    << 
257       if (type == "G4DisplacedSolid")          << 
258       {                                        << 
259         ptr = ((G4DisplacedSolid*)ptr)->GetCon << 
260         continue;                              << 
261       }                                        << 
262       if (type == "G4ReflectedSolid")          << 
263       {                                        << 
264         ptr = ((G4ReflectedSolid*)ptr)->GetCon << 
265         continue;                              << 
266       }                                        << 
267       if (type == "G4ScaledSolid")             << 
268       {                                        << 
269         ptr = ((G4ScaledSolid*)ptr)->GetUnscal << 
270         continue;                              << 
271       }                                        << 
272       if (type != "G4MultiUnion") // G4MultiUn << 
273       {                                        << 
274   ((G4BooleanSolid*)ptr)->SetCubVolStatistics( << 
275       }                                        << 
276       break;                                   << 
277     }                                          << 
278   }                                            << 
279 }                                              << 
280                                                << 
281 ////////////////////////////////////////////// << 
282 //                                             << 
283 // Set epsilon for computing cubic volume      << 
284                                                << 
285 void G4BooleanSolid::SetCubVolEpsilon(G4double << 
286 {                                              << 
287   if (ep != fCubVolEpsilon) { fCubicVolume = - << 
288   fCubVolEpsilon = ep;                         << 
289                                                << 
290   // Propagate ep to all components of the 1st << 
291   if (fPtrSolidA->GetNumOfConstituents() > 1)  << 
292   {                                            << 
293     G4VSolid* ptr = fPtrSolidA;                << 
294     while(true)                                << 
295     {                                          << 
296       G4String type = ptr->GetEntityType();    << 
297       if (type == "G4DisplacedSolid")          << 
298       {                                        << 
299         ptr = ((G4DisplacedSolid*)ptr)->GetCon << 
300         continue;                              << 
301       }                                        << 
302       if (type == "G4ReflectedSolid")          << 
303       {                                        << 
304         ptr = ((G4ReflectedSolid*)ptr)->GetCon << 
305         continue;                              << 
306       }                                        << 
307       if (type == "G4ScaledSolid")             << 
308       {                                        << 
309         ptr = ((G4ScaledSolid*)ptr)->GetUnscal << 
310         continue;                              << 
311       }                                        << 
312       if (type != "G4MultiUnion") // G4MultiUn << 
313       {                                        << 
314   ((G4BooleanSolid*)ptr)->SetCubVolEpsilon(ep) << 
315       }                                        << 
316       break;                                   << 
317     }                                          << 
318   }                                            << 
319                                                << 
320   // Propagate ep to all components of the 2nd << 
321   if (fPtrSolidB->GetNumOfConstituents() > 1)  << 
322   {                                            << 
323     G4VSolid* ptr = fPtrSolidB;                << 
324     while(true)                                << 
325     {                                          << 
326       G4String type = ptr->GetEntityType();    << 
327       if (type == "G4DisplacedSolid")          << 
328       {                                        << 
329         ptr = ((G4DisplacedSolid*)ptr)->GetCon << 
330         continue;                              << 
331       }                                        << 
332       if (type == "G4ReflectedSolid")          << 
333       {                                        << 
334         ptr = ((G4ReflectedSolid*)ptr)->GetCon << 
335         continue;                              << 
336       }                                        << 
337       if (type == "G4ScaledSolid")             << 
338       {                                        << 
339         ptr = ((G4ScaledSolid*)ptr)->GetUnscal << 
340         continue;                              << 
341       }                                        << 
342       if (type != "G4MultiUnion") // G4MultiUn << 
343       {                                        << 
344   ((G4BooleanSolid*)ptr)->SetCubVolEpsilon(ep) << 
345       }                                        << 
346       break;                                   << 
347     }                                          << 
348   }                                            << 
349 }                                                 210 }
350                                                   211 
351 //////////////////////////////////////////////    212 //////////////////////////////////////////////////////////////////////////
352 //                                                213 //
353 // Stream object contents to an output stream     214 // Stream object contents to an output stream
354                                                   215 
355 std::ostream& G4BooleanSolid::StreamInfo(std::    216 std::ostream& G4BooleanSolid::StreamInfo(std::ostream& os) const
356 {                                                 217 {
357   os << "-------------------------------------    218   os << "-----------------------------------------------------------\n"
358      << "    *** Dump for Boolean solid - " <<    219      << "    *** Dump for Boolean solid - " << GetName() << " ***\n"
359      << "    =================================    220      << "    ===================================================\n"
360      << " Solid type: " << GetEntityType() <<     221      << " Solid type: " << GetEntityType() << "\n"
361      << " Parameters of constituent solids: \n    222      << " Parameters of constituent solids: \n"
362      << "=====================================    223      << "===========================================================\n";
363   fPtrSolidA->StreamInfo(os);                     224   fPtrSolidA->StreamInfo(os);
364   fPtrSolidB->StreamInfo(os);                     225   fPtrSolidB->StreamInfo(os);
365   os << "=====================================    226   os << "===========================================================\n";
366                                                   227 
367   return os;                                      228   return os;
368 }                                                 229 }
369                                                   230 
370 //////////////////////////////////////////////    231 //////////////////////////////////////////////////////////////////////////
371 //                                                232 //
372 // Creates list of constituent primitives of a << 
373                                                << 
374 void G4BooleanSolid::GetListOfPrimitives(      << 
375        std::vector<std::pair<G4VSolid*,G4Trans << 
376        const G4Transform3D& curPlacement) cons << 
377 {                                              << 
378   G4Transform3D transform;                     << 
379   G4VSolid* solid;                             << 
380   G4String type;                               << 
381                                                << 
382   // Repeat two times, first time for fPtrSoli << 
383   //                                           << 
384   for (auto i=0; i<2; ++i)                     << 
385   {                                            << 
386     transform = curPlacement;                  << 
387     solid     = (i == 0) ? fPtrSolidA : fPtrSo << 
388     type      = solid->GetEntityType();        << 
389                                                << 
390     // While current solid is a trasformed sol << 
391     //                                         << 
392     while (type == "G4DisplacedSolid" ||       << 
393            type == "G4ReflectedSolid" ||       << 
394            type == "G4ScaledSolid")            << 
395     {                                          << 
396       if (type == "G4DisplacedSolid")          << 
397       {                                        << 
398         transform = transform * G4Transform3D( << 
399                     ((G4DisplacedSolid*)solid) << 
400                     ((G4DisplacedSolid*)solid) << 
401         solid     = ((G4DisplacedSolid*)solid) << 
402       }                                        << 
403       else if (type == "G4ReflectedSolid")     << 
404       {                                        << 
405         transform= transform*((G4ReflectedSoli << 
406         solid    = ((G4ReflectedSolid*)solid)- << 
407       }                                        << 
408       else if (type == "G4ScaledSolid")        << 
409       {                                        << 
410         transform = transform * ((G4ScaledSoli << 
411         solid     = ((G4ScaledSolid*)solid)->G << 
412       }                                        << 
413       type  = solid->GetEntityType();          << 
414     }                                          << 
415                                                << 
416     // If current solid is a Boolean solid the << 
417     // otherwise add it to the list of primiti << 
418     //                                         << 
419     if (type == "G4UnionSolid"        ||       << 
420         type == "G4SubtractionSolid"  ||       << 
421         type == "G4IntersectionSolid" ||       << 
422         type == "G4BooleanSolid")              << 
423     {                                          << 
424       ((G4BooleanSolid *)solid)->GetListOfPrim << 
425     }                                          << 
426     else                                       << 
427     {                                          << 
428       primitives.emplace_back(solid,transform) << 
429     }                                          << 
430   }                                            << 
431 }                                              << 
432                                                << 
433 ////////////////////////////////////////////// << 
434 //                                             << 
435 // Returns a point (G4ThreeVector) randomly an    233 // Returns a point (G4ThreeVector) randomly and uniformly selected
436 // on the surface of the solid                 << 234 // on the solid surface
                                                   >> 235 //
437                                                   236 
438 G4ThreeVector G4BooleanSolid::GetPointOnSurfac    237 G4ThreeVector G4BooleanSolid::GetPointOnSurface() const
439 {                                                 238 {
440   std::size_t nprims = fPrimitives.size();     << 239   G4bool condition = true;
441   std::pair<G4VSolid *, G4Transform3D> prim;   << 240   G4double rand;
                                                   >> 241   G4ThreeVector p;
442                                                   242 
443   // Get list of primitives and find the total << 243   while(condition)
444   //                                           << 
445   if (nprims == 0)                             << 
446   {                                               244   {
447     GetListOfPrimitives(fPrimitives, G4Transfo << 245     rand = G4UniformRand();
448     nprims = fPrimitives.size();               << 
449     fPrimitivesSurfaceArea = 0.;               << 
450     for (std::size_t i=0; i<nprims; ++i)       << 
451     {                                          << 
452       fPrimitivesSurfaceArea += fPrimitives[i] << 
453     }                                          << 
454   }                                            << 
455                                                   246 
456   // Select random primitive, get random point << 247     if(rand > 0.5) { p = fPtrSolidA->GetPointOnSurface(); }
457   // check that the point belongs to the surfa << 248     else           { p = fPtrSolidB->GetPointOnSurface(); }
458   //                                           << 249 
459   G4ThreeVector p;                             << 250     if(Inside(p) == kSurface)  { break; }
460   for (std::size_t k=0; k<100000; ++k) // try  << 
461   {                                            << 
462      G4double rand = fPrimitivesSurfaceArea *  << 
463      G4double area = 0.;                       << 
464      for (std::size_t i=0; i<nprims; ++i)      << 
465      {                                         << 
466        prim  = fPrimitives[i];                 << 
467        area += prim.first->GetSurfaceArea();   << 
468        if (rand < area) break;                 << 
469      }                                         << 
470      p = prim.first->GetPointOnSurface();      << 
471      p = prim.second * G4Point3D(p);           << 
472      if (Inside(p) == kSurface) return p;      << 
473   }                                               251   }
474   std::ostringstream message;                  << 
475   message << "Solid - " << GetName() << "\n"   << 
476           << "All 100k attempts to generate a  << 
477           << "The solid created may be an inva << 
478   G4Exception("G4BooleanSolid::GetPointOnSurfa << 
479               "GeomSolids1001", JustWarning, m << 
480   return p;                                       252   return p;
481 }                                                 253 }
482                                                   254 
483 //////////////////////////////////////////////    255 //////////////////////////////////////////////////////////////////////////
484 //                                                256 //
485 // Return total number of constituents used fo << 
486                                                << 
487 G4int G4BooleanSolid::GetNumOfConstituents() c << 
488 {                                              << 
489   return (fPtrSolidA->GetNumOfConstituents() + << 
490 }                                              << 
491                                                << 
492 ////////////////////////////////////////////// << 
493 //                                             << 
494 // Return true if the resulting solid has only << 
495                                                << 
496 G4bool G4BooleanSolid::IsFaceted() const       << 
497 {                                              << 
498   return (fPtrSolidA->IsFaceted() && fPtrSolid << 
499 }                                              << 
500                                                << 
501 ////////////////////////////////////////////// << 
502 //                                             << 
503 // Returns polyhedron for visualization           257 // Returns polyhedron for visualization
504                                                   258 
505 G4Polyhedron* G4BooleanSolid::GetPolyhedron ()    259 G4Polyhedron* G4BooleanSolid::GetPolyhedron () const
506 {                                                 260 {
507   if (fpPolyhedron == nullptr ||               << 261   if (!fpPolyhedron ||
508       fRebuildPolyhedron ||                    << 
509       fpPolyhedron->GetNumberOfRotationStepsAt    262       fpPolyhedron->GetNumberOfRotationStepsAtTimeOfCreation() !=
510       fpPolyhedron->GetNumberOfRotationSteps()    263       fpPolyhedron->GetNumberOfRotationSteps())
511     {                                             264     {
512       G4RecursiveAutoLock l(&polyhedronMutex); << 
513       delete fpPolyhedron;                        265       delete fpPolyhedron;
514       fpPolyhedron = CreatePolyhedron();          266       fpPolyhedron = CreatePolyhedron();
515       fRebuildPolyhedron = false;              << 
516       l.unlock();                              << 
517     }                                             267     }
518   return fpPolyhedron;                            268   return fpPolyhedron;
519 }                                                 269 }
520                                                   270 
521 //////////////////////////////////////////////    271 //////////////////////////////////////////////////////////////////////////
522 //                                                272 //
523 // Stacks polyhedra for processing. Returns to    273 // Stacks polyhedra for processing. Returns top polyhedron.
524                                                   274 
525 G4Polyhedron*                                     275 G4Polyhedron*
526 G4BooleanSolid::StackPolyhedron(HepPolyhedronP    276 G4BooleanSolid::StackPolyhedron(HepPolyhedronProcessor& processor,
527                                 const G4VSolid    277                                 const G4VSolid* solid) const
528 {                                                 278 {
529   HepPolyhedronProcessor::Operation operation;    279   HepPolyhedronProcessor::Operation operation;
530   const G4String& type = solid->GetEntityType(    280   const G4String& type = solid->GetEntityType();
531   if (type == "G4UnionSolid")                     281   if (type == "G4UnionSolid")
532     { operation = HepPolyhedronProcessor::UNIO    282     { operation = HepPolyhedronProcessor::UNION; }
533   else if (type == "G4IntersectionSolid")         283   else if (type == "G4IntersectionSolid")
534     { operation = HepPolyhedronProcessor::INTE    284     { operation = HepPolyhedronProcessor::INTERSECTION; }
535   else if (type == "G4SubtractionSolid")          285   else if (type == "G4SubtractionSolid")
536     { operation = HepPolyhedronProcessor::SUBT    286     { operation = HepPolyhedronProcessor::SUBTRACTION; }
537   else                                            287   else
538   {                                               288   {
539     std::ostringstream message;                   289     std::ostringstream message;
540     message << "Solid - " << solid->GetName()     290     message << "Solid - " << solid->GetName()
541             << " - Unrecognised composite soli    291             << " - Unrecognised composite solid" << G4endl
542             << " Returning NULL !";               292             << " Returning NULL !";
543     G4Exception("StackPolyhedron()", "GeomSoli    293     G4Exception("StackPolyhedron()", "GeomSolids1001", JustWarning, message);
544     return nullptr;                            << 294     return 0;
545   }                                               295   }
546                                                   296 
547   G4Polyhedron* top = nullptr;                 << 297   G4Polyhedron* top = 0;
548   const G4VSolid* solidA = solid->GetConstitue    298   const G4VSolid* solidA = solid->GetConstituentSolid(0);
549   const G4VSolid* solidB = solid->GetConstitue    299   const G4VSolid* solidB = solid->GetConstituentSolid(1);
550                                                   300 
551   if (solidA->GetConstituentSolid(0) != nullpt << 301   if (solidA->GetConstituentSolid(0))
552   {                                               302   {
553     top = StackPolyhedron(processor, solidA);     303     top = StackPolyhedron(processor, solidA);
554   }                                               304   }
555   else                                            305   else
556   {                                               306   {
557     top = solidA->GetPolyhedron();                307     top = solidA->GetPolyhedron();
558   }                                               308   }
559   G4Polyhedron* operand = solidB->GetPolyhedro    309   G4Polyhedron* operand = solidB->GetPolyhedron();
560   if (operand != nullptr)                      << 310   processor.push_back (operation, *operand);
561   {                                            << 
562     processor.push_back (operation, *operand); << 
563   }                                            << 
564   else                                         << 
565   {                                            << 
566     std::ostringstream message;                << 
567     message << "Solid - " << solid->GetName()  << 
568             << " - No G4Polyhedron for Boolean << 
569     G4Exception("G4BooleanSolid::StackPolyhedr << 
570                 "GeomSolids2001", JustWarning, << 
571   }                                            << 
572                                                   311 
573   return top;                                     312   return top;
574 }                                              << 
575                                                << 
576                                                << 
577 ////////////////////////////////////////////// << 
578 //                                             << 
579 // Estimate Cubic Volume (capacity) and cache  << 
580                                                << 
581 G4double G4BooleanSolid::GetCubicVolume()      << 
582 {                                              << 
583   if(fCubicVolume < 0.)                        << 
584   {                                            << 
585     fCubicVolume = EstimateCubicVolume(fCubVol << 
586   }                                            << 
587   return fCubicVolume;                         << 
588 }                                              << 
589                                                << 
590 ////////////////////////////////////////////// << 
591 //                                             << 
592 // Set external Boolean processor.             << 
593                                                << 
594 void                                           << 
595 G4BooleanSolid::SetExternalBooleanProcessor(G4 << 
596 {                                              << 
597   fExternalBoolProcessor = extProcessor;       << 
598 }                                              << 
599                                                << 
600 ////////////////////////////////////////////// << 
601 //                                             << 
602 // Get external Boolean processor.             << 
603                                                << 
604 G4VBooleanProcessor* G4BooleanSolid::GetExtern << 
605 {                                              << 
606   return fExternalBoolProcessor;               << 
607 }                                                 313 }
608                                                   314