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Geant4/visualization/Tree/src/G4ASCIITreeSceneHandler.cc

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Differences between /visualization/Tree/src/G4ASCIITreeSceneHandler.cc (Version 11.3.0) and /visualization/Tree/src/G4ASCIITreeSceneHandler.cc (Version 10.3.p3)


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                                                   >>  27 // $Id: G4ASCIITreeSceneHandler.cc 99076 2016-09-01 12:40:47Z gcosmo $
 27 //                                                 28 //
 28 //                                                 29 // 
 29 // John Allison  5th April 2001                    30 // John Allison  5th April 2001
 30 // A scene handler to dump geometry hierarchy.     31 // A scene handler to dump geometry hierarchy.
 31 // Based on a provisional G4ASCIITreeGraphicsS     32 // Based on a provisional G4ASCIITreeGraphicsScene (was in modeling).
 32                                                    33 
 33 #include "G4ASCIITreeSceneHandler.hh"              34 #include "G4ASCIITreeSceneHandler.hh"
 34                                                    35 
 35 #include "G4ASCIITree.hh"                          36 #include "G4ASCIITree.hh"
 36 #include "G4ASCIITreeMessenger.hh"                 37 #include "G4ASCIITreeMessenger.hh"
 37 #include "G4VSolid.hh"                             38 #include "G4VSolid.hh"
 38 #include "G4PhysicalVolumeModel.hh"                39 #include "G4PhysicalVolumeModel.hh"
 39 #include "G4VPhysicalVolume.hh"                    40 #include "G4VPhysicalVolume.hh"
 40 #include "G4LogicalVolume.hh"                      41 #include "G4LogicalVolume.hh"
 41 #include "G4VPVParameterisation.hh"                42 #include "G4VPVParameterisation.hh"
 42 #include "G4Polyhedron.hh"                         43 #include "G4Polyhedron.hh"
 43 #include "G4UnitsTable.hh"                         44 #include "G4UnitsTable.hh"
 44 #include "G4Material.hh"                           45 #include "G4Material.hh"
 45 #include "G4Scene.hh"                              46 #include "G4Scene.hh"
 46 #include "G4ModelingParameters.hh"                 47 #include "G4ModelingParameters.hh"
 47 #include "G4PhysicalVolumeMassScene.hh"            48 #include "G4PhysicalVolumeMassScene.hh"
 48 #include "G4VSensitiveDetector.hh"                 49 #include "G4VSensitiveDetector.hh"
 49 #include "G4VReadOutGeometry.hh"                   50 #include "G4VReadOutGeometry.hh"
 50 #include "G4TransportationManager.hh"              51 #include "G4TransportationManager.hh"
 51 #include "G4AttCheck.hh"                           52 #include "G4AttCheck.hh"
 52 #include "G4AttValue.hh"                           53 #include "G4AttValue.hh"
 53                                                    54 
 54 G4ASCIITreeSceneHandler::G4ASCIITreeSceneHandl     55 G4ASCIITreeSceneHandler::G4ASCIITreeSceneHandler
 55 (G4VGraphicsSystem& system,                        56 (G4VGraphicsSystem& system,
 56  const G4String& name):                            57  const G4String& name):
 57   G4VTreeSceneHandler(system, name),               58   G4VTreeSceneHandler(system, name),
 58   fpOutFile(0),                                    59   fpOutFile(0),
 59   fpLastPV(0),                                     60   fpLastPV(0),
 60   fLastCopyNo(-99),                                61   fLastCopyNo(-99),
 61   fLastNonSequentialCopyNo(-99)                    62   fLastNonSequentialCopyNo(-99)
 62 {}                                                 63 {}
 63                                                    64 
 64 G4ASCIITreeSceneHandler::~G4ASCIITreeSceneHand     65 G4ASCIITreeSceneHandler::~G4ASCIITreeSceneHandler () {}
 65                                                    66 
 66 void G4ASCIITreeSceneHandler::BeginModeling ()     67 void G4ASCIITreeSceneHandler::BeginModeling () {
 67                                                    68 
 68   G4VTreeSceneHandler::BeginModeling ();  // T     69   G4VTreeSceneHandler::BeginModeling ();  // To re-use "culling off" code.
 69                                                    70 
 70   const G4ASCIITree* pSystem = (G4ASCIITree*)G     71   const G4ASCIITree* pSystem = (G4ASCIITree*)GetGraphicsSystem();
 71   const G4String& outFileName = pSystem -> Get     72   const G4String& outFileName = pSystem -> GetOutFileName();
 72   if (outFileName == "G4cout") {                   73   if (outFileName == "G4cout") {
 73     fpOutFile = &G4cout;                           74     fpOutFile = &G4cout;
 74   } else {                                         75   } else {
 75     fOutFile.open (outFileName);                   76     fOutFile.open (outFileName);
 76     fpOutFile = &fOutFile;                         77     fpOutFile = &fOutFile;
 77   }                                                78   }
 78                                                    79 
 79   static G4bool firstTime = true;                  80   static G4bool firstTime = true;
 80   if (firstTime) {                                 81   if (firstTime) {
 81     firstTime = false;                             82     firstTime = false;
 82     G4cout << "G4ASCIITreeSceneHandler::BeginM     83     G4cout << "G4ASCIITreeSceneHandler::BeginModeling: writing to ";
 83     if (outFileName == "G4cout") {                 84     if (outFileName == "G4cout") {
 84       G4cout << "G4 standard output (G4cout)";     85       G4cout << "G4 standard output (G4cout)";
 85     } else {                                       86     } else {
 86       G4cout << "file \"" << outFileName << "\     87       G4cout << "file \"" << outFileName << "\"";
 87     }                                              88     }
 88     G4cout << G4endl;                              89     G4cout << G4endl;
 89                                                    90 
 90     WriteHeader (G4cout); G4cout << G4endl;        91     WriteHeader (G4cout); G4cout << G4endl;
 91   }                                                92   }
 92                                                    93   
 93   if (outFileName != "G4cout") {                   94   if (outFileName != "G4cout") {
 94     WriteHeader (fOutFile); fOutFile << std::e     95     WriteHeader (fOutFile); fOutFile << std::endl;
 95   }                                                96   }
 96 }                                                  97 }
 97                                                    98 
 98 void G4ASCIITreeSceneHandler::WriteHeader (std     99 void G4ASCIITreeSceneHandler::WriteHeader (std::ostream& os)
 99 {                                                 100 {
100   const G4ASCIITree* pSystem = (G4ASCIITree*)G    101   const G4ASCIITree* pSystem = (G4ASCIITree*)GetGraphicsSystem();
101   const G4int verbosity = pSystem->GetVerbosit    102   const G4int verbosity = pSystem->GetVerbosity();
102   const G4int detail = verbosity % 10;            103   const G4int detail = verbosity % 10;
103   os << "#  Set verbosity with \"/vis/ASCIITre    104   os << "#  Set verbosity with \"/vis/ASCIITree/verbose <verbosity>\":";
104   for (size_t i = 0;                              105   for (size_t i = 0;
105        i < G4ASCIITreeMessenger::fVerbosityGui    106        i < G4ASCIITreeMessenger::fVerbosityGuidance.size(); ++i) {
106     os << "\n#  " << G4ASCIITreeMessenger::fVe    107     os << "\n#  " << G4ASCIITreeMessenger::fVerbosityGuidance[i];
107   }                                               108   }
108   os << "\n#  Now printing with verbosity " <<    109   os << "\n#  Now printing with verbosity " << verbosity;
109   os << "\n#  Format is: PV:n";                   110   os << "\n#  Format is: PV:n";
110   if (detail >= 1) os << " / LV (SD,RO)";         111   if (detail >= 1) os << " / LV (SD,RO)";
111   if (detail >= 2) os << " / Solid(type)";        112   if (detail >= 2) os << " / Solid(type)";
112   if (detail >= 3) os << ", volume, density";     113   if (detail >= 3) os << ", volume, density";
113   if (detail >= 5) os << ", daughter-subtracte    114   if (detail >= 5) os << ", daughter-subtracted volume and mass";
114   if (detail >= 6) os << ", physical volume du    115   if (detail >= 6) os << ", physical volume dump";
115   if (detail >= 7) os << ", polyhedron dump";     116   if (detail >= 7) os << ", polyhedron dump";
116   os <<                                           117   os <<
117     "\n#  Abbreviations: PV = Physical Volume,    118     "\n#  Abbreviations: PV = Physical Volume,     LV = Logical Volume,"
118     "\n#                 SD = Sensitive Detect    119     "\n#                 SD = Sensitive Detector,  RO = Read Out Geometry.";
119 }                                                 120 }
120                                                   121 
121 void G4ASCIITreeSceneHandler::EndModeling () {    122 void G4ASCIITreeSceneHandler::EndModeling () {
122   const G4ASCIITree* pSystem = (G4ASCIITree*)     123   const G4ASCIITree* pSystem = (G4ASCIITree*) GetGraphicsSystem();
123   const G4int verbosity = pSystem->GetVerbosit    124   const G4int verbosity = pSystem->GetVerbosity();
124   const G4int detail = verbosity % 10;            125   const G4int detail = verbosity % 10;
125   const G4String& outFileName = pSystem -> Get    126   const G4String& outFileName = pSystem -> GetOutFileName();
126                                                   127 
127   // Output left over copy number, if any...      128   // Output left over copy number, if any...
128   if (fLastCopyNo != fLastNonSequentialCopyNo)    129   if (fLastCopyNo != fLastNonSequentialCopyNo) {
129     if (fLastCopyNo == fLastNonSequentialCopyN    130     if (fLastCopyNo == fLastNonSequentialCopyNo + 1) *fpOutFile << ',';
130     else *fpOutFile << '-';                       131     else *fpOutFile << '-';
131     *fpOutFile << fLastCopyNo;                    132     *fpOutFile << fLastCopyNo;
132   }                                               133   }
133   // Output outstanding rest of line, if any..    134   // Output outstanding rest of line, if any...
134   if (!fRestOfLine.str().empty()) *fpOutFile <    135   if (!fRestOfLine.str().empty()) *fpOutFile << fRestOfLine.str();
135   fRestOfLine.str("");                            136   fRestOfLine.str("");
136   fpLastPV = 0;                                   137   fpLastPV = 0;
137   fLastPVName.clear();                            138   fLastPVName.clear();
138   fLastCopyNo = -99;                              139   fLastCopyNo = -99;
139   fLastNonSequentialCopyNo = -99;                 140   fLastNonSequentialCopyNo = -99;
140                                                   141 
141   // This detail to G4cout regardless of outFi    142   // This detail to G4cout regardless of outFileName...
142   if (detail >= 4) {                              143   if (detail >= 4) {
143     G4cout << "Calculating mass(es)..." << G4e    144     G4cout << "Calculating mass(es)..." << G4endl;
144     const std::vector<G4Scene::Model>& models     145     const std::vector<G4Scene::Model>& models = fpScene->GetRunDurationModelList();
145     std::vector<G4Scene::Model>::const_iterato    146     std::vector<G4Scene::Model>::const_iterator i;
146     for (i = models.begin(); i != models.end()    147     for (i = models.begin(); i != models.end(); ++i) {
147       G4PhysicalVolumeModel* pvModel =            148       G4PhysicalVolumeModel* pvModel =
148   dynamic_cast<G4PhysicalVolumeModel*>(i->fpMo    149   dynamic_cast<G4PhysicalVolumeModel*>(i->fpModel);
149       if (pvModel) {                              150       if (pvModel) {
150         const G4ModelingParameters* tempMP =      151         const G4ModelingParameters* tempMP =
151         pvModel->GetModelingParameters();         152         pvModel->GetModelingParameters();
152         G4ModelingParameters mp;  // Default -    153         G4ModelingParameters mp;  // Default - no culling.
153         pvModel->SetModelingParameters (&mp);     154         pvModel->SetModelingParameters (&mp);
154         G4PhysicalVolumeMassScene massScene(pv    155         G4PhysicalVolumeMassScene massScene(pvModel);
155         pvModel->DescribeYourselfTo (massScene    156         pvModel->DescribeYourselfTo (massScene);
156         G4double volume = massScene.GetVolume(    157         G4double volume = massScene.GetVolume();
157         G4double mass = massScene.GetMass();      158         G4double mass = massScene.GetMass();
158                                                   159 
159         G4cout << "Overall volume of \""          160         G4cout << "Overall volume of \""
160         << pvModel->GetTopPhysicalVolume()->Ge    161         << pvModel->GetTopPhysicalVolume()->GetName()
161         << "\":"                                  162         << "\":"
162         << pvModel->GetTopPhysicalVolume()->Ge    163         << pvModel->GetTopPhysicalVolume()->GetCopyNo()
163         << ", is "                                164         << ", is "
164         << G4BestUnit (volume, "Volume")          165         << G4BestUnit (volume, "Volume")
165         << " and the daughter-included mass";     166         << " and the daughter-included mass";
166         G4int requestedDepth = pvModel->GetReq    167         G4int requestedDepth = pvModel->GetRequestedDepth();
167         if (requestedDepth == G4PhysicalVolume    168         if (requestedDepth == G4PhysicalVolumeModel::UNLIMITED) {
168           G4cout << " to unlimited depth";        169           G4cout << " to unlimited depth";
169         } else {                                  170         } else {
170           G4cout << ", ignoring daughters at d    171           G4cout << ", ignoring daughters at depth "
171           << requestedDepth                       172           << requestedDepth
172           << " and below,";                       173           << " and below,";
173         }                                         174         }
174         G4cout << " is " << G4BestUnit (mass,     175         G4cout << " is " << G4BestUnit (mass, "Mass")
175         << G4endl;                                176         << G4endl;
176                                                   177         
177         pvModel->SetModelingParameters (tempMP    178         pvModel->SetModelingParameters (tempMP);
178       }                                           179       }
179     }                                             180     }
180   }                                               181   }
181                                                   182 
182   if (outFileName != "G4cout") {                  183   if (outFileName != "G4cout") {
183     fOutFile.close();                             184     fOutFile.close();
184     G4cout << "Output file \"" << outFileName     185     G4cout << "Output file \"" << outFileName << "\" closed." << G4endl;
185   }                                               186   }
186   fLVSet.clear();                                 187   fLVSet.clear();
187   fReplicaSet.clear();                            188   fReplicaSet.clear();
188   G4cout << "G4ASCIITreeSceneHandler::EndModel    189   G4cout << "G4ASCIITreeSceneHandler::EndModeling" << G4endl;
189   G4VTreeSceneHandler::EndModeling ();  // To     190   G4VTreeSceneHandler::EndModeling ();  // To re-use "culling off" code.
190 }                                                 191 }
191                                                   192 
192 void G4ASCIITreeSceneHandler::RequestPrimitive    193 void G4ASCIITreeSceneHandler::RequestPrimitives(const G4VSolid& solid) {
193                                                   194   
194   G4PhysicalVolumeModel* pPVModel =               195   G4PhysicalVolumeModel* pPVModel =
195     dynamic_cast<G4PhysicalVolumeModel*>(fpMod    196     dynamic_cast<G4PhysicalVolumeModel*>(fpModel);
196   if (!pPVModel) return;  // Not from a G4Phys    197   if (!pPVModel) return;  // Not from a G4PhysicalVolumeModel.
197                                                   198 
198   // This call comes from a G4PhysicalVolumeMo    199   // This call comes from a G4PhysicalVolumeModel.  drawnPVPath is
199   // the path of the current drawn (non-culled    200   // the path of the current drawn (non-culled) volume in terms of
200   // drawn (non-culled) ancestors.  Each node  << 201   // drawn (non-culled) ancesters.  Each node is identified by a
201   // PVNodeID object, which is a physical volu    202   // PVNodeID object, which is a physical volume and copy number.  It
202   // is a vector of PVNodeIDs corresponding to    203   // is a vector of PVNodeIDs corresponding to the geometry hierarchy
203   // actually selected, i.e., not culled.         204   // actually selected, i.e., not culled.
204   // The following typedef's already set in he    205   // The following typedef's already set in header file...
205   //typedef G4PhysicalVolumeModel::G4PhysicalV    206   //typedef G4PhysicalVolumeModel::G4PhysicalVolumeNodeID PVNodeID;
206   //typedef std::vector<PVNodeID> PVPath;         207   //typedef std::vector<PVNodeID> PVPath;
207   const PVPath& drawnPVPath = pPVModel->GetDra    208   const PVPath& drawnPVPath = pPVModel->GetDrawnPVPath();
208   //G4int currentDepth = pPVModel->GetCurrentD    209   //G4int currentDepth = pPVModel->GetCurrentDepth();
209   G4VPhysicalVolume* pCurrentPV = pPVModel->Ge    210   G4VPhysicalVolume* pCurrentPV = pPVModel->GetCurrentPV();
210   const G4String& currentPVName = pCurrentPV-> << 
211   const G4int currentCopyNo = pCurrentPV->GetC << 
212   G4LogicalVolume* pCurrentLV = pPVModel->GetC    211   G4LogicalVolume* pCurrentLV = pPVModel->GetCurrentLV();
213   G4Material* pCurrentMaterial = pPVModel->Get    212   G4Material* pCurrentMaterial = pPVModel->GetCurrentMaterial();
214                                                   213 
215   G4ASCIITree* pSystem = (G4ASCIITree*)GetGrap    214   G4ASCIITree* pSystem = (G4ASCIITree*)GetGraphicsSystem();
216   G4int verbosity = pSystem->GetVerbosity();      215   G4int verbosity = pSystem->GetVerbosity();
217   G4int detail = verbosity % 10;                  216   G4int detail = verbosity % 10;
218                                                   217 
219   // If verbosity < 10 suppress unnecessary re << 218   if (verbosity < 10 && pCurrentPV->IsReplicated()) {
220   // Repeated simple replicas can always be su << 219     // See if this has been a replica found before with same mother LV...
221   // Paramaterisations can only be suppressed  << 
222   // size, density, etc., are in principle dif << 
223   const G4bool isParameterised = pCurrentPV->G << 
224   const G4bool isSimpleReplica = pCurrentPV->I << 
225   const G4bool isAmenableToSupression =        << 
226   (verbosity < 10 && isSimpleReplica) || (verb << 
227   if (isAmenableToSupression) {                << 
228     // See if this has been found before with  << 
229     PVPath::const_reverse_iterator thisID = dr    220     PVPath::const_reverse_iterator thisID = drawnPVPath.rbegin();
230     PVPath::const_reverse_iterator motherID =     221     PVPath::const_reverse_iterator motherID = ++drawnPVPath.rbegin();
231     G4bool ignore = false;                        222     G4bool ignore = false;
232     for (ReplicaSetIterator i = fReplicaSet.be    223     for (ReplicaSetIterator i = fReplicaSet.begin(); i != fReplicaSet.end();
233          ++i) {                                << 224    ++i) {
234       if (i->back().GetPhysicalVolume()->GetLo    225       if (i->back().GetPhysicalVolume()->GetLogicalVolume() ==
235           thisID->GetPhysicalVolume()->GetLogi << 226     thisID->GetPhysicalVolume()->GetLogicalVolume()) {
236         // For each one previously found (if m << 227   // For each one previously found (if more than one, they must
237         // have different mothers)...          << 228   // have different mothers)...
238         // To avoid compilation errors on VC++ << 229   // To avoid compilation errors on VC++ .Net 7.1...
239         // Previously:                         << 230   // Previously:
240         //   PVNodeID previousMotherID = ++(i- << 231   //   PVNodeID previousMotherID = ++(i->rbegin());
241         // (Should that have been: PVNodeID::c << 232   // (Should that have been: PVNodeID::const_iterator previousMotherID?)
242         // Replace                             << 233   // Replace
243         //   previousMotherID == i->rend()     << 234   //   previousMotherID == i->rend()
244         // by                                  << 235   // by
245         //   i->size() <= 1                    << 236   //   i->size() <= 1
246         // Replace                             << 237   // Replace
247         //   previousMotherID != i->rend()     << 238   //   previousMotherID != i->rend()
248         // by                                  << 239   // by
249         //   i->size() > 1                     << 240   //   i->size() > 1
250         // Replace                             << 241   // Replace
251         //   previousMotherID->                << 242   //   previousMotherID->
252         // by                                  << 243   // by
253         //   (*i)[i->size() - 2].              << 244   //   (*i)[i->size() - 2].
254         if (motherID == drawnPVPath.rend() &&  << 245   if (motherID == drawnPVPath.rend() &&
255             i->size() <= 1)                    << 246       i->size() <= 1)
256           ignore = true;  // Both have no moth << 247     ignore = true;  // Both have no mother.
257         if (motherID != drawnPVPath.rend() &&  << 248   if (motherID != drawnPVPath.rend() &&
258             i->size() > 1 &&                   << 249       i->size() > 1 &&
259             motherID->GetPhysicalVolume()->Get << 250       motherID->GetPhysicalVolume()->GetLogicalVolume() ==
260             (*i)[i->size() - 2].GetPhysicalVol << 251       (*i)[i->size() - 2].GetPhysicalVolume()->GetLogicalVolume())
261           ignore = true;  // Same mother LV... << 252     ignore = true;  // Same mother LV...
262       }                                           253       }
263     }                                             254     }
264     if (ignore) {                                 255     if (ignore) {
265       pPVModel->CurtailDescent();                 256       pPVModel->CurtailDescent();
266       return;                                     257       return;
267     }                                             258     }
268   }                                               259   }
269                                                   260 
270   // Now suppress printing for volumes with th << 261   const G4String& currentPVName = pCurrentPV->GetName();
271   // copy number - but not if they are paramet << 262   const G4int currentCopyNo = pCurrentPV->GetCopyNo();
272   // taken out above (those that are "amenable << 263 
273   // taken out).                               << 264   if (verbosity < 10 && 
274   if (verbosity < 10 && !isParameterised &&    << 
275       currentPVName == fLastPVName &&             265       currentPVName == fLastPVName &&
276       currentCopyNo != fLastCopyNo) {             266       currentCopyNo != fLastCopyNo) {
                                                   >> 267     // For low verbosity, trap series of G4PVPlacements with the same name but
                                                   >> 268     // different copy number (replicas should have been taken out above)...
277     // Check...                                   269     // Check...
278     if (isAmenableToSupression) {              << 270     if (pCurrentPV->IsReplicated()) {
279       G4Exception("G4ASCIITreeSceneHandler::Re    271       G4Exception("G4ASCIITreeSceneHandler::RequestPrimitives",
280       "vistree0001",                              272       "vistree0001",
281       JustWarning,                                273       JustWarning,
282       "Volume amenable to suppressed printing  << 274       "Replica unexpected");
283     }                                             275     }
284     // Check mothers are identical...             276     // Check mothers are identical...
285     else if (pCurrentLV == (fpLastPV? fpLastPV    277     else if (pCurrentLV == (fpLastPV? fpLastPV->GetLogicalVolume(): 0)) {
286       if (currentCopyNo != fLastCopyNo + 1) {     278       if (currentCopyNo != fLastCopyNo + 1) {
287   // Non-sequential copy number...                279   // Non-sequential copy number...
288   *fpOutFile << ',' << currentCopyNo;             280   *fpOutFile << ',' << currentCopyNo;
289   fLastNonSequentialCopyNo = currentCopyNo;       281   fLastNonSequentialCopyNo = currentCopyNo;
290       }                                           282       }
291       fLastCopyNo = currentCopyNo;                283       fLastCopyNo = currentCopyNo;
292       pPVModel->CurtailDescent();                 284       pPVModel->CurtailDescent();
293       return;                                     285       return;
294     }                                             286     }
295   }                                               287   }
296   fpLastPV = pCurrentPV;                          288   fpLastPV = pCurrentPV;
297                                                   289 
298   // High verbosity or a new or otherwise non- << 290   // High verbosity or a new G4VPhysicalVolume...
299   // Output copy number, if any, from previous    291   // Output copy number, if any, from previous invocation...
300   if (fLastCopyNo != fLastNonSequentialCopyNo)    292   if (fLastCopyNo != fLastNonSequentialCopyNo) {
301     if (fLastCopyNo == fLastNonSequentialCopyN    293     if (fLastCopyNo == fLastNonSequentialCopyNo + 1) *fpOutFile << ',';
302     else *fpOutFile << '-';                       294     else *fpOutFile << '-';
303     *fpOutFile << fLastCopyNo;                    295     *fpOutFile << fLastCopyNo;
304   }                                               296   }
305   // Output rest of line, if any, from previou    297   // Output rest of line, if any, from previous invocation...
306   if (!fRestOfLine.str().empty()) *fpOutFile <    298   if (!fRestOfLine.str().empty()) *fpOutFile << fRestOfLine.str();
307   fRestOfLine.str("");                            299   fRestOfLine.str("");
308   fLastPVName = currentPVName;                    300   fLastPVName = currentPVName;
309   fLastCopyNo = currentCopyNo;                    301   fLastCopyNo = currentCopyNo;
310   fLastNonSequentialCopyNo = currentCopyNo;       302   fLastNonSequentialCopyNo = currentCopyNo;
311   // Start next line...                        << 
312   // Indent according to drawn path depth...      303   // Indent according to drawn path depth...
313   for (size_t i = 0; i < drawnPVPath.size(); i    304   for (size_t i = 0; i < drawnPVPath.size(); i++ ) *fpOutFile << "  ";
                                                   >> 305   // Start next line...
314   *fpOutFile << "\"" << currentPVName             306   *fpOutFile << "\"" << currentPVName
315        << "\":" << currentCopyNo;                 307        << "\":" << currentCopyNo;
316                                                   308 
317   if (pCurrentPV->IsReplicated()) {               309   if (pCurrentPV->IsReplicated()) {
318     if (verbosity < 10) {                         310     if (verbosity < 10) {
319       // Add printing for replicas (when repli    311       // Add printing for replicas (when replicas are ignored)...
320       EAxis axis;                                 312       EAxis axis;
321       G4int nReplicas;                            313       G4int nReplicas;
322       G4double width;                             314       G4double width;
323       G4double offset;                            315       G4double offset;
324       G4bool consuming;                           316       G4bool consuming;
325       pCurrentPV->GetReplicationData(axis,nRep    317       pCurrentPV->GetReplicationData(axis,nReplicas,width,offset,consuming);
326       G4VPVParameterisation* pP = pCurrentPV->    318       G4VPVParameterisation* pP = pCurrentPV->GetParameterisation();
327       if (pP) {                                   319       if (pP) {
328   if (detail < 3) {                               320   if (detail < 3) {
329     fReplicaSet.insert(drawnPVPath);              321     fReplicaSet.insert(drawnPVPath);
330     if (nReplicas > 2) fRestOfLine << '-';        322     if (nReplicas > 2) fRestOfLine << '-';
331     else fRestOfLine << ',';                      323     else fRestOfLine << ',';
332     fRestOfLine << nReplicas - 1                  324     fRestOfLine << nReplicas - 1
333           << " (" << nReplicas << " parametris    325           << " (" << nReplicas << " parametrised volumes)";
334   }                                               326   }
335       }                                           327       }
336       else {                                      328       else {
337   fReplicaSet.insert(drawnPVPath);                329   fReplicaSet.insert(drawnPVPath);
338   if (nReplicas > 2) fRestOfLine << '-';          330   if (nReplicas > 2) fRestOfLine << '-';
339   else fRestOfLine << ',';                        331   else fRestOfLine << ',';
340   fRestOfLine << nReplicas - 1                    332   fRestOfLine << nReplicas - 1
341         << " (" << nReplicas << " replicas)";     333         << " (" << nReplicas << " replicas)";
342       }                                           334       }
343     }                                             335     }
344   } else {                                        336   } else {
345     if (fLVSet.find(pCurrentLV) != fLVSet.end(    337     if (fLVSet.find(pCurrentLV) != fLVSet.end()) {
346       if (verbosity <  10) {                      338       if (verbosity <  10) {
347   // Add printing for repeated LV (if it has d    339   // Add printing for repeated LV (if it has daughters)...
348   if (pCurrentLV->GetNoDaughters()) fRestOfLin    340   if (pCurrentLV->GetNoDaughters()) fRestOfLine << " (repeated LV)";
349   // ...and curtail descent.                      341   // ...and curtail descent.
350   pPVModel->CurtailDescent();                     342   pPVModel->CurtailDescent();
351       }                                           343       }
352     }                                             344     }
353   }                                               345   }
354                                                   346 
355   if (detail >= 1) {                              347   if (detail >= 1) {
356     fRestOfLine << " / \""                        348     fRestOfLine << " / \""
357     << pCurrentLV->GetName() << "\"";             349     << pCurrentLV->GetName() << "\"";
358     G4VSensitiveDetector* sd = pCurrentLV->Get    350     G4VSensitiveDetector* sd = pCurrentLV->GetSensitiveDetector();
359     if (sd) {                                     351     if (sd) {
360       fRestOfLine << " (SD=\"" << sd->GetName(    352       fRestOfLine << " (SD=\"" << sd->GetName() << "\"";
361       G4VReadOutGeometry* roGeom = sd->GetROge    353       G4VReadOutGeometry* roGeom = sd->GetROgeometry();
362       if (roGeom) {                               354       if (roGeom) {
363   fRestOfLine << ",RO=\"" << roGeom->GetName()    355   fRestOfLine << ",RO=\"" << roGeom->GetName() << "\"";
364       }                                           356       }
365       fRestOfLine << ")";                         357       fRestOfLine << ")";
366     }                                             358     }
367   }                                               359   }
368                                                   360 
369   if (detail >= 2) {                              361   if (detail >= 2) {
370     fRestOfLine << " / \""                        362     fRestOfLine << " / \""
371          << solid.GetName()                       363          << solid.GetName()
372          << "\"("                                 364          << "\"("
373          << solid.GetEntityType() << ")";         365          << solid.GetEntityType() << ")";
374   }                                               366   }
375                                                   367 
376   if (detail >= 3) {                              368   if (detail >= 3) {
377     fRestOfLine << ", "                           369     fRestOfLine << ", "
378     << G4BestUnit(((G4VSolid&)solid).GetCubicV    370     << G4BestUnit(((G4VSolid&)solid).GetCubicVolume(),"Volume")
379     << ", ";                                      371     << ", ";
380     if (pCurrentMaterial) {                       372     if (pCurrentMaterial) {
381       fRestOfLine                                 373       fRestOfLine
382   << G4BestUnit(pCurrentMaterial->GetDensity()    374   << G4BestUnit(pCurrentMaterial->GetDensity(), "Volumic Mass")
383   << " (" << pCurrentMaterial->GetName() << ")    375   << " (" << pCurrentMaterial->GetName() << ")";
384     } else {                                      376     } else {
385       fRestOfLine << "(No material)";             377       fRestOfLine << "(No material)";
386     }                                             378     }
387   }                                               379   }
388                                                   380 
389   if (detail >= 5) {                              381   if (detail >= 5) {
390     if (pCurrentMaterial) {                       382     if (pCurrentMaterial) {
391       G4Material* pMaterial = const_cast<G4Mat    383       G4Material* pMaterial = const_cast<G4Material*>(pCurrentMaterial);
392       // ...and find daughter-subtracted mass.    384       // ...and find daughter-subtracted mass...
393       G4double daughter_subtracted_mass = pCur    385       G4double daughter_subtracted_mass = pCurrentLV->GetMass
394   (pCurrentPV->IsParameterised(),  // Force if    386   (pCurrentPV->IsParameterised(),  // Force if parametrised.
395    false,  // Do not propagate - calculate for    387    false,  // Do not propagate - calculate for this volume minus
396    // volume of daughters.                        388    // volume of daughters.
397    pMaterial);                                    389    pMaterial);
398       G4double daughter_subtracted_volume =       390       G4double daughter_subtracted_volume =
399   daughter_subtracted_mass / pCurrentMaterial-    391   daughter_subtracted_mass / pCurrentMaterial->GetDensity();
400       fRestOfLine << ", "                         392       fRestOfLine << ", "
401       << G4BestUnit(daughter_subtracted_volume    393       << G4BestUnit(daughter_subtracted_volume,"Volume")
402       << ", "                                     394       << ", "
403       << G4BestUnit(daughter_subtracted_mass,"    395       << G4BestUnit(daughter_subtracted_mass,"Mass");
404     }                                             396     }
405   }                                               397   }
406                                                   398 
407   if (detail >= 6) {                              399   if (detail >= 6) {
408     std::vector<G4AttValue>* attValues = pPVMo    400     std::vector<G4AttValue>* attValues = pPVModel->CreateCurrentAttValues();
409     const std::map<G4String,G4AttDef>* attDefs    401     const std::map<G4String,G4AttDef>* attDefs = pPVModel->GetAttDefs();
410     fRestOfLine << '\n' << G4AttCheck(attValue    402     fRestOfLine << '\n' << G4AttCheck(attValues, attDefs);
411     delete attValues;                             403     delete attValues;
412   }                                               404   }
413                                                   405 
414   if (detail >= 7) {                              406   if (detail >= 7) {
415     G4Polyhedron* polyhedron = solid.GetPolyhe    407     G4Polyhedron* polyhedron = solid.GetPolyhedron();
416     fRestOfLine << "\nLocal polyhedron coordin    408     fRestOfLine << "\nLocal polyhedron coordinates:\n" << *polyhedron;
417     const G4Transform3D& transform = pPVModel- << 409     G4Transform3D* transform = pPVModel->GetCurrentTransform();
418     polyhedron->Transform(transform);          << 410     polyhedron->Transform(*transform);
419     fRestOfLine << "\nGlobal polyhedron coordi    411     fRestOfLine << "\nGlobal polyhedron coordinates:\n" << *polyhedron;
420   }                                               412   }
421                                                   413 
422   if (fLVSet.find(pCurrentLV) == fLVSet.end())    414   if (fLVSet.find(pCurrentLV) == fLVSet.end()) {
423     fLVSet.insert(pCurrentLV);  // Record new     415     fLVSet.insert(pCurrentLV);  // Record new logical volume.
424   }                                               416   }
425                                                   417 
426   fRestOfLine << std::endl;                       418   fRestOfLine << std::endl;
427                                                   419 
428   return;                                         420   return;
429 }                                                 421 }
430                                                   422