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Geant4/persistency/ascii/src/G4tgrLineProcessor.cc

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Differences between /persistency/ascii/src/G4tgrLineProcessor.cc (Version 11.3.0) and /persistency/ascii/src/G4tgrLineProcessor.cc (Version 10.3.p2)


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 25 //                                                 25 //
 26 // G4tgrLineProcessor                          << 
 27 //                                                 26 //
 28 // Author: P.Arce, CIEMAT (November 2007)      <<  27 //
 29 // ------------------------------------------- <<  28 // class G4tgrLineProcessor
                                                   >>  29 
                                                   >>  30 // History:
                                                   >>  31 // - Created.                                 P.Arce, CIEMAT (November 2007)
                                                   >>  32 // -------------------------------------------------------------------------
 30                                                    33 
 31 #include "G4tgrLineProcessor.hh"                   34 #include "G4tgrLineProcessor.hh"
 32                                                    35 
 33 #include "G4SystemOfUnits.hh"                      36 #include "G4SystemOfUnits.hh"
 34 #include "G4tgrParameterMgr.hh"                    37 #include "G4tgrParameterMgr.hh"
 35 #include "G4tgrFileIn.hh"                          38 #include "G4tgrFileIn.hh"
 36 #include "G4tgrElementSimple.hh"                   39 #include "G4tgrElementSimple.hh"
 37 #include "G4tgrElementFromIsotopes.hh"             40 #include "G4tgrElementFromIsotopes.hh"
 38 #include "G4tgrVolume.hh"                          41 #include "G4tgrVolume.hh"
 39 #include "G4tgrVolumeDivision.hh"                  42 #include "G4tgrVolumeDivision.hh"
 40 #include "G4tgrVolumeAssembly.hh"                  43 #include "G4tgrVolumeAssembly.hh"
 41 #include "G4tgrPlaceDivRep.hh"                     44 #include "G4tgrPlaceDivRep.hh"
 42 #include "G4tgrPlaceParameterisation.hh"           45 #include "G4tgrPlaceParameterisation.hh"
 43 #include "G4tgrVolumeMgr.hh"                       46 #include "G4tgrVolumeMgr.hh"
 44 #include "G4tgrUtils.hh"                           47 #include "G4tgrUtils.hh"
 45 #include "G4tgrMaterialFactory.hh"                 48 #include "G4tgrMaterialFactory.hh"
 46 #include "G4tgrRotationMatrixFactory.hh"           49 #include "G4tgrRotationMatrixFactory.hh"
 47 #include "G4tgrMessenger.hh"                       50 #include "G4tgrMessenger.hh"
 48                                                    51 
 49 // ------------------------------------------- <<  52 
                                                   >>  53 //---------------------------------------------------------------
 50 G4tgrLineProcessor::G4tgrLineProcessor()           54 G4tgrLineProcessor::G4tgrLineProcessor()
 51 {                                                  55 {
 52   volmgr = G4tgrVolumeMgr::GetInstance();          56   volmgr = G4tgrVolumeMgr::GetInstance();
 53 }                                                  57 }
 54                                                    58 
 55 // ------------------------------------------- <<  59 
                                                   >>  60 //---------------------------------------------------------------
 56 G4tgrLineProcessor::~G4tgrLineProcessor()          61 G4tgrLineProcessor::~G4tgrLineProcessor()
 57 {                                                  62 {
 58 }                                                  63 }
 59                                                    64 
 60 // ------------------------------------------- <<  65 
 61 G4bool G4tgrLineProcessor::ProcessLine(const s <<  66 //---------------------------------------------------------------
                                                   >>  67 G4bool G4tgrLineProcessor::ProcessLine( const std::vector<G4String>& wl )
 62 {                                                  68 {
 63 #ifdef G4VERBOSE                                   69 #ifdef G4VERBOSE
 64   if(G4tgrMessenger::GetVerboseLevel() >= 1)   <<  70   if( G4tgrMessenger::GetVerboseLevel() >= 1 )
 65   {                                                71   {
 66     G4tgrUtils::DumpVS(wl, "@@@ Processing inp     72     G4tgrUtils::DumpVS(wl, "@@@ Processing input line");
 67   }                                                73   }
 68 #endif                                         <<  74 #endif  
 69                                                    75 
 70   G4String wl0 = wl[0];                            76   G4String wl0 = wl[0];
 71   for(G4int ii = 0; ii < (G4int)wl0.length();  <<  77   for( size_t ii = 0; ii < wl0.length(); ii++ )
 72   {                                                78   {
 73     wl0[ii] = (char)std::toupper(wl0[ii]);     <<  79     wl0[ii] = toupper( wl0[ii] );
 74   }                                                80   }
 75                                                    81 
 76   //------------------------------- parameter      82   //------------------------------- parameter number
 77   if(wl0 == ":P")                              <<  83   if( wl0 == ":P" )
 78   {                                                84   {
 79     G4tgrParameterMgr::GetInstance()->AddParam <<  85     G4tgrParameterMgr::GetInstance()->AddParameterNumber( wl );
 80                                                <<  86     
 81     //------------------------------- paramete <<  87   //------------------------------- parameter string
 82   }                                                88   }
 83   else if(wl0 == ":PS")                        <<  89   else if( wl0 == ":PS" )
 84   {                                                90   {
 85     G4tgrParameterMgr::GetInstance()->AddParam <<  91     G4tgrParameterMgr::GetInstance()->AddParameterString( wl );
 86                                                    92 
 87     //------------------------------- isotope  <<  93   //------------------------------- isotope
 88   }                                                94   }
 89   else if(wl0 == ":ISOT")                      <<  95   else if( wl0 == ":ISOT" )
 90   {                                                96   {
 91     G4tgrIsotope* isot = G4tgrMaterialFactory: <<  97     G4tgrIsotope* isot = G4tgrMaterialFactory::GetInstance()
 92     volmgr->RegisterMe(isot);                  <<  98                        ->AddIsotope( wl );
                                                   >>  99     volmgr->RegisterMe( isot );
 93                                                   100 
 94     //------------------------------- element  << 101   //------------------------------- element
 95   }                                               102   }
 96   else if(wl0 == ":ELEM")                      << 103   else if( wl0 == ":ELEM" )
 97   {                                               104   {
 98     G4tgrElementSimple* elem =                 << 105     G4tgrElementSimple* elem = G4tgrMaterialFactory::GetInstance()
 99       G4tgrMaterialFactory::GetInstance()->Add << 106                              ->AddElementSimple( wl );
100     volmgr->RegisterMe(elem);                  << 107     volmgr->RegisterMe( elem );
101                                                   108 
102     //------------------------------- element  << 109   //------------------------------- element from isotopes
103   }                                               110   }
104   else if(wl0 == ":ELEM_FROM_ISOT")            << 111   else if( wl0 == ":ELEM_FROM_ISOT" )
105   {                                               112   {
106     //:ELEM_FROM_ISOT NAME SYMBOL N_ISOT (ISOT    113     //:ELEM_FROM_ISOT NAME SYMBOL N_ISOT (ISOT_NAME ISOT_ABUNDANCE)
107     G4tgrElementFromIsotopes* elem =           << 114     G4tgrElementFromIsotopes* elem = G4tgrMaterialFactory::GetInstance()
108       G4tgrMaterialFactory::GetInstance()->Add << 115                                    ->AddElementFromIsotopes( wl );
109     volmgr->RegisterMe(elem);                  << 116     volmgr->RegisterMe( elem );
110                                                << 117     
111     //------------------------------- material << 118   //------------------------------- material
112   }                                            << 119   }
113   else if(wl0 == ":MATE")                      << 120   else if( wl0 == ":MATE" )
114   {                                               121   {
115     G4tgrMaterialSimple* mate =                << 
116       G4tgrMaterialFactory::GetInstance()->Add << 
117     volmgr->RegisterMe(mate);                  << 
118                                                   122 
                                                   >> 123     G4tgrMaterialSimple* mate = G4tgrMaterialFactory::GetInstance()
                                                   >> 124                               ->AddMaterialSimple( wl );
                                                   >> 125     volmgr->RegisterMe( mate );
                                                   >> 126     
119     //------------------------------- material    127     //------------------------------- material mixtures & by weight
120   }                                               128   }
121   else if((wl0 == ":MIXT") || (wl0 == ":MIXT_B << 129   else if( (wl0 == ":MIXT") || (wl0 == ":MIXT_BY_WEIGHT") )
122   {                                               130   {
123     G4tgrMaterialMixture* mate =               << 131     G4tgrMaterialMixture* mate = G4tgrMaterialFactory::GetInstance()
124       G4tgrMaterialFactory::GetInstance()->Add << 132                           ->AddMaterialMixture( wl, "MaterialMixtureByWeight" );
125         wl, "MaterialMixtureByWeight");        << 133     volmgr->RegisterMe( mate );
126     volmgr->RegisterMe(mate);                  << 
127                                                   134 
128     //------------------------------- material    135     //------------------------------- material mixture by number of atoms
129   }                                               136   }
130   else if(wl0 == ":MIXT_BY_NATOMS")            << 137   else if( wl0 == ":MIXT_BY_NATOMS" )
131   {                                               138   {
132     G4tgrMaterialMixture* mate =               << 139     G4tgrMaterialMixture* mate = G4tgrMaterialFactory::GetInstance()
133       G4tgrMaterialFactory::GetInstance()->Add << 140                           ->AddMaterialMixture(wl, "MaterialMixtureByNoAtoms");
134         wl, "MaterialMixtureByNoAtoms");       << 141     volmgr->RegisterMe( mate );
135     volmgr->RegisterMe(mate);                  << 
136                                                   142 
137     //------------------------------- material    143     //------------------------------- material mixture by volume
138   }                                               144   }
139   else if(wl0 == ":MIXT_BY_VOLUME")            << 145   else if( wl0 == ":MIXT_BY_VOLUME" )
140   {                                               146   {
141     G4tgrMaterialMixture* mate =               << 147     G4tgrMaterialMixture* mate = G4tgrMaterialFactory::GetInstance()
142       G4tgrMaterialFactory::GetInstance()->Add << 148                           ->AddMaterialMixture( wl, "MaterialMixtureByVolume" );
143         wl, "MaterialMixtureByVolume");        << 149     volmgr->RegisterMe( mate );
144     volmgr->RegisterMe(mate);                  << 
145                                                   150 
146     //------------------------------- material    151     //------------------------------- material Mean Excitation Energy of
147     //                                Ionisati    152     //                                Ionisation Potential
148   }                                               153   }
149   else if(wl0 == ":MATE_MEE")                  << 154   else if( wl0 == ":MATE_MEE" )
150   {                                               155   {
151     G4tgrMaterial* mate = G4tgrMaterialFactory << 156     G4tgrMaterial* mate = G4tgrMaterialFactory::GetInstance()
152       G4tgrUtils::GetString(wl[1]));           << 157                         ->FindMaterial( G4tgrUtils::GetString( wl[1] ) );
153     if(mate == 0)                              << 158     if( mate == 0 )
154     {                                             159     {
155       G4Exception("G4tgrLineProcessor::Process    160       G4Exception("G4tgrLineProcessor::ProcessLine()", "Material not found",
156                   FatalException, G4tgrUtils:: << 161                   FatalException, G4tgrUtils::GetString( wl[1] ) );
157       return false;                               162       return false;
158     }                                             163     }
159     mate->SetIonisationMeanExcitationEnergy(G4 << 164     mate->SetIonisationMeanExcitationEnergy( G4tgrUtils::GetDouble( wl[2] ) );
160                                                   165 
161     //------------------------------- material    166     //------------------------------- material
162   }                                               167   }
163   else if(wl0 == ":MATE_STATE")                << 168   else if( wl0 == ":MATE_STATE" )
164   {                                               169   {
165     G4tgrMaterial* mate = G4tgrMaterialFactory << 170     G4tgrMaterial* mate = G4tgrMaterialFactory::GetInstance()
166       G4tgrUtils::GetString(wl[1]));           << 171                         ->FindMaterial( G4tgrUtils::GetString( wl[1] ) );
167     if(mate == 0)                              << 172     if( mate == 0 )
168     {                                             173     {
169       G4Exception("G4tgrLineProcessor::Process    174       G4Exception("G4tgrLineProcessor::ProcessLine()", "Material not found",
170                   FatalException, wl[1]);      << 175                   FatalException, wl[1] );
171     }                                             176     }
172     mate->SetState(wl[2]);                     << 177     mate->SetState( wl[2] );
173                                                   178 
174     //------------------------------- material    179     //------------------------------- material
175   }                                               180   }
176   else if(wl0 == ":MATE_TEMPERATURE")          << 181   else if( wl0 == ":MATE_TEMPERATURE" )
177   {                                               182   {
178     G4tgrMaterial* mate = G4tgrMaterialFactory << 183     G4tgrMaterial* mate = G4tgrMaterialFactory::GetInstance()
179       G4tgrUtils::GetString(wl[1]));           << 184                         ->FindMaterial( G4tgrUtils::GetString( wl[1] ) );
180     if(mate == 0)                              << 185     if( mate == 0 )
181     {                                             186     {
182       G4Exception("G4tgrLineProcessor::Process    187       G4Exception("G4tgrLineProcessor::ProcessLine()", "Material not found",
183                   FatalException, wl[1]);      << 188                   FatalException, wl[1] );
184     }                                             189     }
185     mate->SetTemperature(G4tgrUtils::GetDouble << 190     mate->SetTemperature( G4tgrUtils::GetDouble( wl[2], kelvin ) );
186                                                   191 
187     //------------------------------- material    192     //------------------------------- material
188   }                                               193   }
189   else if(wl0 == ":MATE_PRESSURE")             << 194   else if( wl0 == ":MATE_PRESSURE" )
190   {                                               195   {
191     G4tgrMaterial* mate = G4tgrMaterialFactory << 196     G4tgrMaterial* mate = G4tgrMaterialFactory::GetInstance()
192       G4tgrUtils::GetString(wl[1]));           << 197                         ->FindMaterial( G4tgrUtils::GetString( wl[1] ) );
193     if(mate == 0)                              << 198     if( mate == 0 )
194     {                                             199     {
195       G4Exception("G4tgrLineProcessor::Process    200       G4Exception("G4tgrLineProcessor::ProcessLine()", "Material not found",
196                   FatalException, wl[1]);      << 201                   FatalException, wl[1] );
197     }                                             202     }
198     mate->SetPressure(G4tgrUtils::GetDouble(wl << 203     mate->SetPressure( G4tgrUtils::GetDouble( wl[2], atmosphere ) );
199                                                   204 
200     //------------------------------- solid       205     //------------------------------- solid
201   }                                               206   }
202   else if(wl0 == ":SOLID")                     << 207   else if( wl0 == ":SOLID" )
203   {  // called from here or from G4tgrVolume:: << 208   {                      // called from here or from G4tgrVolume::G4tgrVolume
204     volmgr->CreateSolid(wl, 0);                << 209     volmgr->CreateSolid( wl, 0 );
205                                                   210 
206     //------------------------------- volume      211     //------------------------------- volume
207   }                                               212   }
208   else if(wl0 == ":VOLU")                      << 213   else if( wl0 == ":VOLU" )
209   {                                               214   {
210     G4tgrVolume* vol = new G4tgrVolume(wl);    << 215     G4tgrVolume* vol = new G4tgrVolume( wl );
211     volmgr->RegisterMe(vol);                   << 216     volmgr->RegisterMe( vol );
212                                                << 217     
213     //--------------------------------- single    218     //--------------------------------- single placement
214   }                                               219   }
215   else if(wl0 == ":PLACE")                     << 220   else if( wl0 == ":PLACE" )
216   {                                               221   {
217     G4tgrVolume* vol = FindVolume(G4tgrUtils:: << 222     G4tgrVolume* vol = FindVolume( G4tgrUtils::GetString( wl[1] ) );
218     G4tgrPlace* vpl  = vol->AddPlace(wl);      << 223     G4tgrPlace* vpl = vol->AddPlace( wl );
219     volmgr->RegisterMe(vpl);                   << 224     volmgr->RegisterMe( vpl );
220                                                << 225     
221     //--------------------------------- parame    226     //--------------------------------- parameterisation
222   }                                               227   }
223   else if(wl0 == ":PLACE_PARAM")               << 228   else if( wl0 == ":PLACE_PARAM" )
224   {                                               229   {
225     G4tgrVolume* vol                = FindVolu << 230     G4tgrVolume* vol = FindVolume( G4tgrUtils::GetString( wl[1] ) );
226     G4tgrPlaceParameterisation* vpl = vol->Add << 231     G4tgrPlaceParameterisation* vpl = vol->AddPlaceParam( wl );
227     volmgr->RegisterMe(vpl);                   << 232     volmgr->RegisterMe( vpl );
228                                                   233 
229     //--------------------------------- divisi    234     //--------------------------------- division
230   }                                               235   }
231   else if((wl0 == ":DIV_NDIV") || (wl0 == ":DI << 236   else if( (wl0 == ":DIV_NDIV") || (wl0 == ":DIV_WIDTH")
232           (wl0 == ":DIV_NDIV_WIDTH"))          << 237         || (wl0 == ":DIV_NDIV_WIDTH") )
233   {                                               238   {
234     //---------- Create G4tgrVolumeDivision an    239     //---------- Create G4tgrVolumeDivision and fill the volume params
235     G4tgrVolumeDivision* vol = new G4tgrVolume << 240     G4tgrVolumeDivision* vol = new G4tgrVolumeDivision( wl );
236     volmgr->RegisterMe(vol);                   << 241     volmgr->RegisterMe( vol );
237                                                   242 
238     //--------------------------------- replic    243     //--------------------------------- replica
239   }                                               244   }
240   else if(wl0 == ":REPL")                      << 245   else if( wl0 == ":REPL" )
241   {                                               246   {
242     G4tgrVolume* vol      = FindVolume(G4tgrUt << 247     G4tgrVolume* vol = FindVolume( G4tgrUtils::GetString( wl[1] ) );
243     G4tgrPlaceDivRep* vpl = vol->AddPlaceRepli << 248     G4tgrPlaceDivRep* vpl = vol->AddPlaceReplica( wl );
244     volmgr->RegisterMe(vpl);                   << 249     volmgr->RegisterMe( vpl );
245                                                << 250     
246     //----------------------------- assembly v    251     //----------------------------- assembly volume: definition of components
247   }                                               252   }
248   else if(wl0 == ":VOLU_ASSEMBLY")             << 253   else if( wl0 == ":VOLU_ASSEMBLY" )
249   {                                               254   {
250     G4tgrVolumeAssembly* vol = new G4tgrVolume << 255     G4tgrVolumeAssembly* vol = new G4tgrVolumeAssembly( wl );
251     volmgr->RegisterMe(vol);                   << 256     volmgr->RegisterMe( vol );
252                                                << 257     
253     //----------------------------- assembly v    258     //----------------------------- assembly volume: definition of components
254   }                                               259   }
255   else if(wl0 == ":PLACE_ASSEMBLY")            << 260   else if( wl0 == ":PLACE_ASSEMBLY" )
256   {                                               261   {
257     G4tgrVolume* vol = FindVolume(G4tgrUtils:: << 262     G4tgrVolume* vol = FindVolume( G4tgrUtils::GetString( wl[1] ) );
258     G4tgrPlace* vpl  = vol->AddPlace(wl);      << 263     G4tgrPlace* vpl = vol->AddPlace( wl );
259     volmgr->RegisterMe(vpl);                   << 264     volmgr->RegisterMe( vpl );
260                                                   265 
261     //---------------------------------  rotat    266     //---------------------------------  rotation matrix
262   }                                               267   }
263   else if(wl0 == ":ROTM")                      << 268   else if( wl0 == ":ROTM" )
264   {                                               269   {
265     //---------- When second word is ':NEXT/:M    270     //---------- When second word is ':NEXT/:MNXT' it is used for defining a
266     //           rotation matrix that will be     271     //           rotation matrix that will be used for the next placement/s
267     G4tgrRotationMatrix* rm =                  << 272     G4tgrRotationMatrix* rm = G4tgrRotationMatrixFactory::GetInstance()
268       G4tgrRotationMatrixFactory::GetInstance( << 273                             ->AddRotMatrix( wl );
269     volmgr->RegisterMe(rm);                    << 274     volmgr->RegisterMe( rm );
270                                                << 275     
271     //------------------------------- visualis    276     //------------------------------- visualisation
272   }                                               277   }
273   else if(wl0 == ":VIS")                       << 278   else if( wl0 == ":VIS" )
274   {                                               279   {
275     std::vector<G4tgrVolume*> vols =              280     std::vector<G4tgrVolume*> vols =
276       volmgr->FindVolumes(G4tgrUtils::GetStrin << 281        volmgr->FindVolumes( G4tgrUtils::GetString( wl[1] ), 1 );
277     for(std::size_t ii = 0; ii < vols.size();  << 282     for( size_t ii = 0; ii < vols.size(); ii++ )
278     {                                             283     {
279       vols[ii]->AddVisibility(wl);             << 284       vols[ii]->AddVisibility( wl );
280     }                                             285     }
281                                                   286 
282     //--------------------------------- colour    287     //--------------------------------- colour
283   }                                               288   }
284   else if((wl0 == ":COLOUR") || (wl0 == ":COLO << 289   else if( (wl0 == ":COLOUR") || (wl0 == ":COLOR") )
285   {                                               290   {
286     std::vector<G4tgrVolume*> vols =              291     std::vector<G4tgrVolume*> vols =
287       volmgr->FindVolumes(G4tgrUtils::GetStrin << 292        volmgr->FindVolumes( G4tgrUtils::GetString( wl[1] ), 1 );
288     for(std::size_t ii = 0; ii < vols.size();  << 293     for( size_t ii = 0; ii < vols.size(); ii++ )
289     {                                             294     {
290       vols[ii]->AddRGBColour(wl);              << 295       vols[ii]->AddRGBColour( wl );
291     }                                             296     }
292                                                   297 
293     //--------------------------------- check     298     //--------------------------------- check overlaps
294   }                                               299   }
295   else if(wl0 == ":CHECK_OVERLAPS")            << 300   else if( wl0 == ":CHECK_OVERLAPS" )
296   {                                               301   {
297     std::vector<G4tgrVolume*> vols =              302     std::vector<G4tgrVolume*> vols =
298       volmgr->FindVolumes(G4tgrUtils::GetStrin << 303        volmgr->FindVolumes( G4tgrUtils::GetString( wl[1] ), 1 );
299     for(std::size_t ii = 0; ii < vols.size();  << 304     for( size_t ii = 0; ii < vols.size(); ii++ )
300     {                                             305     {
301       vols[ii]->AddCheckOverlaps(wl);          << 306       vols[ii]->AddCheckOverlaps( wl );
302     }                                             307     }
303     //--------------------------------- ERROR     308     //--------------------------------- ERROR
304   }                                               309   }
305   else                                            310   else
306   {                                               311   {
307     return false;                              << 312     return 0;
308   }                                            << 313   } 
309                                                   314 
310   return true;                                 << 315   return 1;
311 }                                                 316 }
312                                                   317 
313 // ------------------------------------------- << 318 
314 G4tgrVolume* G4tgrLineProcessor::FindVolume(co << 319 //---------------------------------------------------------------
                                                   >> 320 G4tgrVolume* G4tgrLineProcessor::FindVolume( const G4String& volname )
315 {                                                 321 {
316   G4tgrVolume* vol = volmgr->FindVolume(volnam << 322   G4tgrVolume* vol = volmgr->FindVolume( volname, 1);
317                                                   323 
318   if(vol->GetType() == "VOLDivision")          << 324   if( vol->GetType() == "VOLDivision" )
319   {                                               325   {
320     G4Exception("G4tgrLineProcessor::FindVolum << 326     G4Exception("G4tgrLineProcessor::FindVolume()",
321                 FatalException,                << 327                 "InvalidSetup", FatalException,
322                 "Using 'PLACE' for a volume cr    328                 "Using 'PLACE' for a volume created by a division !");
323   }                                               329   }
324                                                   330 
325   return vol;                                     331   return vol;
326 }                                                 332 }
327                                                   333