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Please see the license in the file LICENSE and URL above * 16 // * for the full disclaimer and the limitatio 16 // * for the full disclaimer and the limitation of liability. * 17 // * 17 // * * 18 // * This code implementation is the result 18 // * This code implementation is the result of the scientific and * 19 // * technical work of the GEANT4 collaboratio 19 // * technical work of the GEANT4 collaboration. * 20 // * By using, copying, modifying or distri 20 // * By using, copying, modifying or distributing the software (or * 21 // * any work based on the software) you ag 21 // * any work based on the software) you agree to acknowledge its * 22 // * use in resulting scientific publicati 22 // * use in resulting scientific publications, and indicate your * 23 // * acceptance of all terms of the Geant4 Sof 23 // * acceptance of all terms of the Geant4 Software license. * 24 // ******************************************* 24 // ******************************************************************** 25 // 25 // 26 // 26 // >> 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