Geant4 Cross Reference

Cross-Referencing   Geant4
Geant4/g3tog4/src/G3VolTableEntry.cc

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Differences between /g3tog4/src/G3VolTableEntry.cc (Version 11.3.0) and /g3tog4/src/G3VolTableEntry.cc (Version 9.4.p4)


  1 //                                                  1 //
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  3 // * License and Disclaimer                         3 // * License and Disclaimer                                           *
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 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.         *
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 19 // * technical work of the GEANT4 collaboratio     19 // * technical work of the GEANT4 collaboration.                      *
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 25 //                                                 25 //
 26 //                                                 26 //
                                                   >>  27 // $Id: G3VolTableEntry.cc,v 1.12 2006-06-29 18:13:22 gunter Exp $
                                                   >>  28 // GEANT4 tag $Name: not supported by cvs2svn $
 27 //                                                 29 //
 28 // modified by I.Hrivnacova, 13.10.99              30 // modified by I.Hrivnacova, 13.10.99
 29                                                    31 
 30 #include "globals.hh"                              32 #include "globals.hh"
 31 #include "G3VolTableEntry.hh"                      33 #include "G3VolTableEntry.hh"
 32 #include "G3VolTable.hh"                           34 #include "G3VolTable.hh"
 33 #include "G3RotTable.hh"                           35 #include "G3RotTable.hh"
 34 #include "G4LogicalVolume.hh"                      36 #include "G4LogicalVolume.hh"
 35 #include "G4SubtractionSolid.hh"                   37 #include "G4SubtractionSolid.hh"
 36 #include "G3Pos.hh"                                38 #include "G3Pos.hh"
 37 #include "G3toG4.hh"                               39 #include "G3toG4.hh"
 38                                                    40 
 39 G3VolTableEntry::G3VolTableEntry(G4String& vna     41 G3VolTableEntry::G3VolTableEntry(G4String& vname, G4String& shape, 
 40                G4double* rpar, G4int npar, G4i     42                G4double* rpar, G4int npar, G4int nmed, 
 41                G4VSolid* solid, G4bool hasNegP     43                G4VSolid* solid, G4bool hasNegPars)
 42   : fVname(vname), fShape(shape), fRpar(0), fN     44   : fVname(vname), fShape(shape), fRpar(0), fNpar(npar), fNmed(nmed), 
 43     fSolid(solid), fLV(0), fHasNegPars(hasNegP     45     fSolid(solid), fLV(0), fHasNegPars(hasNegPars), fHasMANY(false),
 44     fDivision(0)                                   46     fDivision(0)               
 45 {                                                  47 {
 46   if (npar>0 && rpar!=0) {                         48   if (npar>0 && rpar!=0) {
 47     fRpar = new G4double[npar];                    49     fRpar = new G4double[npar];
 48     for (G4int i=0; i<npar; i++) fRpar[i] = rp     50     for (G4int i=0; i<npar; i++) fRpar[i] = rpar[i];
 49   }                                                51   }
 50   fClones.push_back(this);                         52   fClones.push_back(this);
 51 }                                                  53 }
 52                                                    54 
 53 G3VolTableEntry::~G3VolTableEntry(){               55 G3VolTableEntry::~G3VolTableEntry(){
 54   if (fRpar!=0) delete [] fRpar;                   56   if (fRpar!=0) delete [] fRpar;
 55   delete fDivision;                                57   delete fDivision;
 56 }                                                  58 }
 57                                                    59 
 58 G4bool                                         <<  60 inline G4bool 
 59 G3VolTableEntry::operator == ( const G3VolTabl     61 G3VolTableEntry::operator == ( const G3VolTableEntry& lv) const {
 60   return (this==&lv) ? true : false;               62   return (this==&lv) ? true : false;
 61 }                                                  63 }
 62                                                    64 
 63 void                                               65 void 
 64 G3VolTableEntry::AddG3Pos(G3Pos* aG3Pos){          66 G3VolTableEntry::AddG3Pos(G3Pos* aG3Pos){
 65                                                    67 
 66   // insert this position to the vector            68   // insert this position to the vector
 67   G3Vol.CountG3Pos();                              69   G3Vol.CountG3Pos();
 68   fG3Pos.push_back(aG3Pos);                        70   fG3Pos.push_back(aG3Pos);
 69                                                    71 
 70   // pass MANY info                                72   // pass MANY info 
 71   G4String vonly = aG3Pos->GetOnly();              73   G4String vonly = aG3Pos->GetOnly();
 72   if (vonly == "MANY") SetHasMANY(true);           74   if (vonly == "MANY") SetHasMANY(true);
 73 }                                                  75 }
 74                                                    76 
 75 void                                               77 void 
 76 G3VolTableEntry::AddDaughter(G3VolTableEntry*      78 G3VolTableEntry::AddDaughter(G3VolTableEntry* aDaughter){
 77   if (FindDaughter(aDaughter->GetName()) == 0)     79   if (FindDaughter(aDaughter->GetName()) == 0) {
 78     fDaughters.push_back(aDaughter);               80     fDaughters.push_back(aDaughter);
 79   }                                                81   }
 80 }                                                  82 }
 81                                                    83 
 82 void                                               84 void 
 83 G3VolTableEntry::AddMother(G3VolTableEntry* it     85 G3VolTableEntry::AddMother(G3VolTableEntry* itsMother){
 84   if (FindMother(itsMother->GetName()) == 0) {     86   if (FindMother(itsMother->GetName()) == 0) {
 85     fMothers.push_back(itsMother);                 87     fMothers.push_back(itsMother);
 86   }                                                88   }  
 87 }                                                  89 }
 88                                                    90 
 89 void                                               91 void 
 90 G3VolTableEntry::AddClone(G3VolTableEntry* its     92 G3VolTableEntry::AddClone(G3VolTableEntry* itsClone){
 91   if (FindClone(itsClone->GetName()) == 0) {       93   if (FindClone(itsClone->GetName()) == 0) {
 92     fClones.push_back(itsClone);                   94     fClones.push_back(itsClone);
 93   }                                                95   }  
 94 }                                                  96 }
 95                                                    97 
 96 void                                               98 void 
 97 G3VolTableEntry::AddOverlap(G3VolTableEntry* o     99 G3VolTableEntry::AddOverlap(G3VolTableEntry* overlap){
 98     fOverlaps.push_back(overlap);                 100     fOverlaps.push_back(overlap);
 99 }                                                 101 }
100                                                   102 
101 void                                              103 void 
102 G3VolTableEntry::ReplaceDaughter(G3VolTableEnt    104 G3VolTableEntry::ReplaceDaughter(G3VolTableEntry* vteOld, 
103                                  G3VolTableEnt    105                                  G3VolTableEntry* vteNew)
104 {                                                 106 {
105   G4int index = -1;                               107   G4int index = -1;
106   for (G4int i=0; i<GetNoDaughters(); i++){       108   for (G4int i=0; i<GetNoDaughters(); i++){
107     if (fDaughters[i]->GetName() == vteOld->Ge    109     if (fDaughters[i]->GetName() == vteOld->GetName()) index = i;
108   }                                               110   }
109   if (index<0) {                                  111   if (index<0) {
110     G4String err_message = "Old daughter " + v << 112     G4Exception(
111                          + " does not exist."; << 113       "G3VolTableEntry::ReplaceDaughter: old daughter " +
112     G4Exception("G3VolTableEntry::ReplaceDaugh << 114        vteOld->GetName() + " does not exist.");
113                 FatalException, err_message);  << 
114     return;                                    << 
115   }                                               115   }      
116   fDaughters[index] = vteNew;                     116   fDaughters[index] = vteNew;
117 }                                                 117 }
118                                                   118 
119 void                                              119 void 
120 G3VolTableEntry::ReplaceMother(G3VolTableEntry    120 G3VolTableEntry::ReplaceMother(G3VolTableEntry* vteOld, 
121                                G3VolTableEntry    121                                G3VolTableEntry* vteNew)
122 {                                                 122 {
123   G4int index = -1;                               123   G4int index = -1;
124   for (G4int i=0; i<GetNoMothers(); i++){         124   for (G4int i=0; i<GetNoMothers(); i++){
125     if (fMothers[i]->GetName() == vteOld->GetN    125     if (fMothers[i]->GetName() == vteOld->GetName()) index = i;
126   }                                               126   }
127   if (index<0) {                                  127   if (index<0) {
128     G4String err_message = "Old mother " + vte << 128     G4Exception(
129                          + " does not exist."; << 129       "G3VolTableEntry::ReplaceMother: old mother " +
130     G4Exception("G3VolTableEntry::ReplaceMothe << 130        vteOld->GetName() + " does not exist.");
131                 FatalException, err_message);  << 
132     return;                                    << 
133   }                                               131   }      
134   fMothers[index] = vteNew;                       132   fMothers[index] = vteNew;
135 }                                                 133 }
136                                                   134 
137 G3VolTableEntry*                                  135 G3VolTableEntry*
138 G3VolTableEntry::FindDaughter(const G4String&     136 G3VolTableEntry::FindDaughter(const G4String& Dname){
139   for (G4int idau=0; idau<GetNoDaughters(); id    137   for (G4int idau=0; idau<GetNoDaughters(); idau++){
140     if (GetDaughter(idau)->GetName() == Dname)    138     if (GetDaughter(idau)->GetName() == Dname) return GetDaughter(idau);
141   }                                               139   }
142   return 0;                                       140   return 0;
143 }                                                 141 }
144                                                   142 
145 G3VolTableEntry*                                  143 G3VolTableEntry*
146 G3VolTableEntry::FindMother(const G4String& Mn    144 G3VolTableEntry::FindMother(const G4String& Mname){
147   for (G4int i=0; i<GetNoMothers(); i++){         145   for (G4int i=0; i<GetNoMothers(); i++){
148     G3VolTableEntry* mvte = GetMother(i);         146     G3VolTableEntry* mvte = GetMother(i);
149     if (mvte->GetName() == Mname) return mvte;    147     if (mvte->GetName() == Mname) return mvte;
150   }                                               148   }
151   return 0;                                       149   return 0;
152 }                                                 150 }
153                                                   151 
154 G3VolTableEntry*                                  152 G3VolTableEntry*
155 G3VolTableEntry::FindClone(const G4String& Cna    153 G3VolTableEntry::FindClone(const G4String& Cname){
156   for (G4int i=0; i<GetNoClones(); i++){          154   for (G4int i=0; i<GetNoClones(); i++){
157     G3VolTableEntry* cvte = GetClone(i);          155     G3VolTableEntry* cvte = GetClone(i);
158     if (cvte->GetName() == Cname) return cvte;    156     if (cvte->GetName() == Cname) return cvte;
159   }                                               157   }
160   return 0;                                       158   return 0;
161 }                                                 159 }
162                                                   160 
163 void G3VolTableEntry::PrintSolidInfo() {          161 void G3VolTableEntry::PrintSolidInfo() {
164 // only parameters related to solid definition    162 // only parameters related to solid definition
165 // are printed                                    163 // are printed
166   G4cout << "VTE: " << fVname << " " << this <    164   G4cout << "VTE: " << fVname << " " << this << G4endl;
167   G4cout << "Solid: " << fSolid << G4endl;        165   G4cout << "Solid: " << fSolid << G4endl;
168   G4cout << "Parameters (npar = " << fNpar <<     166   G4cout << "Parameters (npar = " << fNpar << ") fRpar: ";
169   for (G4int i=0; i<fNpar; i++) G4cout << fRpa    167   for (G4int i=0; i<fNpar; i++) G4cout << fRpar[i] << " ";
170   G4cout << G4endl;                               168   G4cout << G4endl;
171   G4cout << "HasNegPars: " << fHasNegPars << G    169   G4cout << "HasNegPars: " << fHasNegPars << G4endl;
172   G4cout << "HasMANY: " << fHasMANY << G4endl;    170   G4cout << "HasMANY: " << fHasMANY << G4endl;
173   G4cout << "=================================    171   G4cout << "================================= " << G4endl;
174 }                                                 172 }
175                                                   173 
176 void                                              174 void
177 G3VolTableEntry::SetName(G4String name){          175 G3VolTableEntry::SetName(G4String name){
178   fVname = name;                                  176   fVname = name;
179 }                                                 177 }
180                                                   178 
181 void                                              179 void
182 G3VolTableEntry::SetLV(G4LogicalVolume* lv){      180 G3VolTableEntry::SetLV(G4LogicalVolume* lv){
183   fLV = lv;                                       181   fLV = lv;
184 }                                                 182 }
185                                                   183 
186 void                                              184 void 
187 G3VolTableEntry::SetSolid(G4VSolid* solid){       185 G3VolTableEntry::SetSolid(G4VSolid* solid){
188   fSolid = solid;                                 186   fSolid = solid;
189 }                                                 187 }
190                                                   188 
191 void G3VolTableEntry::SetNmed(G4int nmed) {       189 void G3VolTableEntry::SetNmed(G4int nmed) {
192   fNmed = nmed;                                   190   fNmed = nmed;
193 }                                                 191 }
194                                                   192 
195 void G3VolTableEntry::SetNRpar(G4int npar, G4d << 193 void G3VolTableEntry::SetNRpar(G4int npar, G4double* Rpar) {
196   if (npar != fNpar) {                            194   if (npar != fNpar) {
197     fNpar = npar;                                 195     fNpar = npar;
198     delete [] fRpar;                              196     delete [] fRpar;
199     fRpar = new G4double[fNpar];                  197     fRpar = new G4double[fNpar];
200   }                                               198   }      
201   for (G4int i=0; i<fNpar; i++) fRpar[i] = rpa << 199   for (G4int i=0; i<fNpar; i++) fRpar[i] = Rpar[i];
202 }                                                 200 }  
203                                                   201 
204 void G3VolTableEntry::SetHasNegPars(G4bool has    202 void G3VolTableEntry::SetHasNegPars(G4bool hasNegPars) {
205   fHasNegPars = hasNegPars;                       203   fHasNegPars = hasNegPars;
206 }                                                 204 }
207                                                   205 
208 void G3VolTableEntry::SetHasMANY(G4bool hasMAN    206 void G3VolTableEntry::SetHasMANY(G4bool hasMANY) {
209   fHasMANY = hasMANY;                             207   fHasMANY = hasMANY;
210 }                                                 208 }
211                                                   209 
212 void G3VolTableEntry::ClearG3PosCopy(G4int cop    210 void G3VolTableEntry::ClearG3PosCopy(G4int copy) {
213   if (fG3Pos.size()>0 && copy>=0 && copy<G4int    211   if (fG3Pos.size()>0 && copy>=0 && copy<G4int(fG3Pos.size())) {
214      std::vector<G3Pos*>::iterator it=fG3Pos.b    212      std::vector<G3Pos*>::iterator it=fG3Pos.begin();
215      for(G4int j=0;j<copy;j++) it++;              213      for(G4int j=0;j<copy;j++) it++;
216      if(it!=fG3Pos.end()) {                       214      if(it!=fG3Pos.end()) {
217          fG3Pos.erase(it);                        215          fG3Pos.erase(it);
218      }                                            216      }
219   }                                               217   }
220 }                                                 218 }
221                                                   219 
222 void G3VolTableEntry::ClearDivision() {           220 void G3VolTableEntry::ClearDivision() {
223   delete fDivision;                               221   delete fDivision;
224   fDivision = 0;                                  222   fDivision = 0;
225 }                                                 223 }
226                                                   224 
227 G4String                                          225 G4String
228 G3VolTableEntry::GetName() {                      226 G3VolTableEntry::GetName() {
229   return fVname;                                  227   return fVname;
230 }                                                 228 }
231                                                   229 
232 G4String                                          230 G4String
233 G3VolTableEntry::GetShape() {                     231 G3VolTableEntry::GetShape() {
234   return fShape;                                  232   return fShape;
235 }                                                 233 }
236                                                   234 
237 G4int                                             235 G4int
238 G3VolTableEntry::GetNmed() {                      236 G3VolTableEntry::GetNmed() {
239   return fNmed;                                   237   return fNmed;
240 }                                                 238 }
241                                                   239 
242 G4int                                             240 G4int 
243 G3VolTableEntry::GetNpar() {                      241 G3VolTableEntry::GetNpar() {
244   return fNpar;                                   242   return fNpar;
245 }                                                 243 }
246                                                   244 
247 G4double*                                         245 G4double* 
248 G3VolTableEntry::GetRpar() {                      246 G3VolTableEntry::GetRpar() {
249   return fRpar;                                   247   return fRpar;
250 }                                                 248 }
251                                                   249 
252 G4int                                             250 G4int 
253 G3VolTableEntry::NPCopies() {                     251 G3VolTableEntry::NPCopies() {
254   return (G4int)fG3Pos.size();                 << 252   return fG3Pos.size();
255 }                                                 253 }
256                                                   254 
257 G3Pos*                                            255 G3Pos* 
258 G3VolTableEntry::GetG3PosCopy(G4int copy) {       256 G3VolTableEntry::GetG3PosCopy(G4int copy) {
259   if (fG3Pos.size()>0 && copy>=0)                 257   if (fG3Pos.size()>0 && copy>=0)
260     return fG3Pos[copy];                          258     return fG3Pos[copy];
261   else                                            259   else
262     return 0;                                     260     return 0;
263 }                                                 261 }
264                                                   262 
265 G4bool                                            263 G4bool 
266 G3VolTableEntry::HasNegPars(){                    264 G3VolTableEntry::HasNegPars(){
267   return fHasNegPars;                             265   return fHasNegPars;
268 }                                                 266 }
269                                                   267 
270 G4bool                                            268 G4bool 
271 G3VolTableEntry::HasMANY(){                       269 G3VolTableEntry::HasMANY(){
272   return fHasMANY;                                270   return fHasMANY;
273 }                                                 271 }
274                                                   272 
275 G4VSolid*                                         273 G4VSolid*
276 G3VolTableEntry::GetSolid() {                     274 G3VolTableEntry::GetSolid() {
277   return fSolid;                                  275   return fSolid;
278 }                                                 276 }
279                                                   277 
280 G4LogicalVolume*                                  278 G4LogicalVolume* 
281 G3VolTableEntry::GetLV() {                        279 G3VolTableEntry::GetLV() {
282   return fLV;                                     280   return fLV;
283 }                                                 281 }
284                                                   282 
285 G4int                                             283 G4int
286 G3VolTableEntry::GetNoDaughters() {               284 G3VolTableEntry::GetNoDaughters() {
287   return (G4int)fDaughters.size();             << 285   return fDaughters.size();
288 }                                                 286 }
289                                                   287 
290 G4int                                             288 G4int
291 G3VolTableEntry::GetNoMothers() {                 289 G3VolTableEntry::GetNoMothers() {
292   return (G4int)fMothers.size();               << 290   return fMothers.size();
293 }                                                 291 }
294                                                   292 
295 G4int                                             293 G4int
296 G3VolTableEntry::GetNoClones() {                  294 G3VolTableEntry::GetNoClones() {
297   return (G4int)fClones.size();                << 295   return fClones.size();
298 }                                                 296 }
299                                                   297 
300 G4int                                             298 G4int
301 G3VolTableEntry::GetNoOverlaps() {                299 G3VolTableEntry::GetNoOverlaps() {
302   return (G4int)fOverlaps.size();              << 300   return fOverlaps.size();
303 }                                                 301 }
304                                                   302 
305 G3VolTableEntry*                                  303 G3VolTableEntry* 
306 G3VolTableEntry::GetDaughter(G4int i) {           304 G3VolTableEntry::GetDaughter(G4int i) {
307   if (i<G4int(fDaughters.size()) && i>=0)         305   if (i<G4int(fDaughters.size()) && i>=0)
308     return fDaughters[i];                         306     return fDaughters[i];
309   else                                            307   else 
310     return 0;                                     308     return 0;
311 }                                                 309 }
312                                                   310 
313 G3VolTableEntry*                                  311 G3VolTableEntry*
314 G3VolTableEntry::GetMother(G4int i){              312 G3VolTableEntry::GetMother(G4int i){
315   if (i<G4int(fMothers.size()) && i>=0)           313   if (i<G4int(fMothers.size()) && i>=0)
316     return fMothers[i];                           314     return fMothers[i];
317   else                                            315   else
318     return 0;                                     316     return 0;
319 }                                                 317 }
320                                                   318 
321 // to be removed                                  319 // to be removed
322 G3VolTableEntry*                                  320 G3VolTableEntry*
323 G3VolTableEntry::GetMother(){                     321 G3VolTableEntry::GetMother(){
324   if (fMothers.size()>0)                          322   if (fMothers.size()>0)
325     return fMothers[0];                           323     return fMothers[0];
326   else                                            324   else
327     return 0;                                     325     return 0;  
328 }                                                 326 }
329                                                   327 
330 G3VolTableEntry*                                  328 G3VolTableEntry*
331 G3VolTableEntry::GetClone(G4int i){               329 G3VolTableEntry::GetClone(G4int i){
332   if (i<G4int(fClones.size()) && i>=0)            330   if (i<G4int(fClones.size()) && i>=0)
333     return fClones[i];                            331     return fClones[i];
334   else                                            332   else
335     return 0;                                     333     return 0;
336 }                                                 334 }
337                                                   335 
338 G3VolTableEntry*                                  336 G3VolTableEntry*
339 G3VolTableEntry::GetMasterClone(){                337 G3VolTableEntry::GetMasterClone(){
340   G3VolTableEntry* master;                        338   G3VolTableEntry* master;
341   G4String name = fVname;                         339   G4String name = fVname;
342   if (G4StrUtil::contains(name, gSeparator)) { << 340   if (name.contains(gSeparator)) {
343     name = name.substr(0, name.find(gSeparator << 341     name = name(0, name.first(gSeparator));
344     master = G3Vol.GetVTE(name);                  342     master = G3Vol.GetVTE(name); 
345   }                                               343   }
346   else                                            344   else 
347     master = this;                                345     master = this;
348                                                   346 
349   return master;                                  347   return master;
350 }                                                 348 }
351                                                   349 
352 std::vector<G3VolTableEntry*>*                    350 std::vector<G3VolTableEntry*>*
353 G3VolTableEntry::GetOverlaps(){                   351 G3VolTableEntry::GetOverlaps(){
354   return &fOverlaps;                              352   return &fOverlaps;
355 }                                                 353 }
356                                                   354