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These * 9 // * include a list of copyright holders. 9 // * include a list of copyright holders. * 10 // * 10 // * * 11 // * Neither the authors of this software syst 11 // * Neither the authors of this software system, nor their employing * 12 // * institutes,nor the agencies providing fin 12 // * institutes,nor the agencies providing financial support for this * 13 // * work make any representation or warran 13 // * work make any representation or warranty, express or implied, * 14 // * regarding this software system or assum 14 // * regarding this software system or assume any liability for its * 15 // * use. Please see the license in the file 15 // * use. Please see the license in the file LICENSE and URL above * 16 // * for the full disclaimer and the limitatio 16 // * for the full disclaimer and the limitation of liability. * 17 // * 17 // * * 18 // * This code implementation is the result 18 // * This code implementation is the result of the scientific and * 19 // * technical work of the GEANT4 collaboratio 19 // * technical work of the GEANT4 collaboration. * 20 // * By using, copying, modifying or distri 20 // * By using, copying, modifying or distributing the software (or * 21 // * any work based on the software) you ag 21 // * any work based on the software) you agree to acknowledge its * 22 // * use in resulting scientific publicati 22 // * use in resulting scientific publications, and indicate your * 23 // * acceptance of all terms of the Geant4 Sof 23 // * acceptance of all terms of the Geant4 Software license. * 24 // ******************************************* 24 // ******************************************************************** 25 // 25 // 26 // << 26 // Authors: S. Guatelli , M. G. Pia, INFN Genova and F. Ambroglini INFN Perugia, Italy 27 // Previous authors: G. Guerrieri, S. Guatelli << 28 // Authors (since 2007): S. Guatelli, Universi << 29 // 27 // >> 28 // Based on code developed by the undergraduate student G. Guerrieri >> 29 // Note: this is a preliminary beta-version of the code; an improved >> 30 // version will be distributed in the next Geant4 public release, compliant >> 31 // with the design in a forthcoming publication, and subject to a >> 32 // design and code review. 30 // 33 // 31 #include "G4MIRDRibCage.hh" 34 #include "G4MIRDRibCage.hh" 32 35 33 #include "globals.hh" 36 #include "globals.hh" 34 #include "G4SystemOfUnits.hh" 37 #include "G4SystemOfUnits.hh" 35 #include "G4SDManager.hh" 38 #include "G4SDManager.hh" 36 #include "G4VisAttributes.hh" 39 #include "G4VisAttributes.hh" 37 #include "G4HumanPhantomMaterial.hh" 40 #include "G4HumanPhantomMaterial.hh" 38 #include "G4SubtractionSolid.hh" 41 #include "G4SubtractionSolid.hh" 39 #include "G4EllipticalTube.hh" 42 #include "G4EllipticalTube.hh" 40 #include "G4PVReplica.hh" 43 #include "G4PVReplica.hh" 41 #include "G4Box.hh" 44 #include "G4Box.hh" 42 #include "G4PVPlacement.hh" 45 #include "G4PVPlacement.hh" 43 #include "G4HumanPhantomColour.hh" 46 #include "G4HumanPhantomColour.hh" 44 G4MIRDRibCage::G4MIRDRibCage():fPhysRib1(nullp << 47 45 fPhysRib4(nullptr), fPhysRib5(nu << 48 G4MIRDRibCage::G4MIRDRibCage() 46 fPhysRib7(nullptr), fPhysRib8(nu << 49 { 47 fPhysRib10(nullptr), fPhysRib11( << 50 } 48 {;} << 51 >> 52 G4MIRDRibCage::~G4MIRDRibCage() >> 53 { >> 54 } >> 55 49 56 50 G4VPhysicalVolume* G4MIRDRibCage::Construct(co 57 G4VPhysicalVolume* G4MIRDRibCage::Construct(const G4String& volumeName, G4VPhysicalVolume* mother, 51 const G4String& colourName, G4bo 58 const G4String& colourName, G4bool wireFrame, G4bool) 52 << 53 { 59 { 54 auto* material = new G4HumanPhantomMaterial( << 60 G4HumanPhantomMaterial* material = new G4HumanPhantomMaterial(); 55 61 56 G4cout<<"Construct "<<volumeName<<" with mot 62 G4cout<<"Construct "<<volumeName<<" with mother volume "<<mother->GetName()<<G4endl; 57 63 58 auto* skeleton = material -> GetMaterial("sk << 64 G4Material* skeleton = material -> GetMaterial("skeleton"); 59 auto* soft = material -> GetMaterial("soft_t << 65 G4Material* soft = material -> GetMaterial("soft_tissue"); 60 66 61 delete material; 67 delete material; 62 68 63 G4double dx= 17. *cm; // a2 69 G4double dx= 17. *cm; // a2 64 G4double dy= 9.8 * cm; //b2 70 G4double dy= 9.8 * cm; //b2 65 G4double thickness= 32.4 * cm; // z2/2 of ca 71 G4double thickness= 32.4 * cm; // z2/2 of cage 66 72 67 auto* outCage = new G4EllipticalTube("outCag << 73 G4EllipticalTube* outCage = new G4EllipticalTube("outCage",dx, dy, thickness/2.); 68 74 69 dx = 16.4 * cm; // a1 75 dx = 16.4 * cm; // a1 70 dy = 9.2 * cm; // b1 76 dy = 9.2 * cm; // b1 71 G4double dz = 34. *cm; // z2/2 77 G4double dz = 34. *cm; // z2/2 72 78 73 auto* inCage = new G4EllipticalTube("inCage" << 79 G4EllipticalTube* inCage = new G4EllipticalTube("inCage",dx, dy, dz/2.); 74 80 75 auto* cage = new G4SubtractionSolid("Cage", << 81 G4SubtractionSolid* cage = new G4SubtractionSolid("Cage", 76 outCage, 82 outCage, 77 inCage, nullptr, G4ThreeVector << 83 inCage, 0, G4ThreeVector(0.*cm, 0.*cm, 0. * cm)); 78 84 79 85 80 auto* logicRibCage = new G4LogicalVolume(cag << 86 G4LogicalVolume* logicRibCage = new G4LogicalVolume(cage, soft, "logicalCage", 0, 0, 0); 81 87 82 G4VPhysicalVolume* physRibCage = new G4PVPla << 88 G4VPhysicalVolume* physRibCage = new G4PVPlacement(0,G4ThreeVector(0.0, 0.0, thickness/2. + 0.1 * cm), 83 // with respect to the trunk 89 // with respect to the trunk 84 "physicalRibCage", 90 "physicalRibCage", 85 logicRibCage, 91 logicRibCage, 86 mother, 92 mother, 87 false, 93 false, 88 0, true); 94 0, true); 89 95 >> 96 90 G4double xx = 17.*cm; 97 G4double xx = 17.*cm; 91 G4double yy = 9.8*cm; 98 G4double yy = 9.8*cm; 92 G4double ribThickness = 1.4*cm; 99 G4double ribThickness = 1.4*cm; 93 auto* rib_out = new G4EllipticalTube("rib_ou << 100 G4EllipticalTube* rib_out = new G4EllipticalTube("rib_out",xx, yy, ribThickness/2.); 94 101 95 xx = 16.5 *cm; 102 xx = 16.5 *cm; 96 yy = 9.3 * cm; 103 yy = 9.3 * cm; 97 G4double zz = 1.5 * cm; 104 G4double zz = 1.5 * cm; 98 auto* rib_in = new G4EllipticalTube("rib_in" << 105 G4EllipticalTube* rib_in = new G4EllipticalTube("rib_in",xx, yy, zz/2.); 99 auto* rib = new G4SubtractionSolid("rib",rib << 106 G4SubtractionSolid* rib = new G4SubtractionSolid("rib",rib_out, rib_in); 100 107 101 auto* logicRib= new G4LogicalVolume(rib, ske << 108 G4LogicalVolume* logicRib= new G4LogicalVolume(rib, skeleton, "logical" + volumeName, 0, 0, 0); 102 109 103 fPhysRib1 = new G4PVPlacement(nullptr,G4Thre << 110 physRib1 = new G4PVPlacement(0,G4ThreeVector(0.0, 0.0, (- 32.2*cm/2. + 0.8 *cm)), 104 // with respect to the trunk 111 // with respect to the trunk 105 "physicalRib", 112 "physicalRib", 106 logicRib, 113 logicRib, 107 physRibCage, 114 physRibCage, 108 false, 115 false, 109 0, true); 116 0, true); 110 117 111 fPhysRib2 = new G4PVPlacement(nullptr,G4Thre << 118 physRib2 = new G4PVPlacement(0,G4ThreeVector(0.0, 0.0, ( - 32.2*cm/2. + 0.8 *cm + 2.8 *cm)), 112 // with respect to the trunk 119 // with respect to the trunk 113 "physicalRib", 120 "physicalRib", 114 logicRib, 121 logicRib, 115 physRibCage, 122 physRibCage, 116 false, 123 false, 117 0, true); 124 0, true); 118 125 119 fPhysRib3 = new G4PVPlacement(nullptr,G4Thre << 126 physRib3 = new G4PVPlacement(0,G4ThreeVector(0.0, 0.0, (-thickness/2. + 0.8 * cm + 5.6 *cm)), 120 // with respect to the trunk 127 // with respect to the trunk 121 "physicalRib", 128 "physicalRib", 122 logicRib, 129 logicRib, 123 physRibCage, 130 physRibCage, 124 false, 131 false, 125 0, true); 132 0, true); 126 133 127 fPhysRib4 = new G4PVPlacement(nullptr,G4Thre << 134 physRib4 = new G4PVPlacement(0,G4ThreeVector(0.0, 0.0, (-thickness/2. + 0.8 * cm + 8.4 *cm)), 128 // with respect to the trunk 135 // with respect to the trunk 129 "physicalRib", 136 "physicalRib", 130 logicRib, 137 logicRib, 131 physRibCage, 138 physRibCage, 132 false, 139 false, 133 0, true); 140 0, true); 134 141 135 fPhysRib5 = new G4PVPlacement(nullptr,G4Thre << 142 physRib5 = new G4PVPlacement(0,G4ThreeVector(0.0, 0.0, (-thickness/2. + 0.8 * cm + 11.2 *cm)), 136 // with respect to the trunk 143 // with respect to the trunk 137 "physicalRib", 144 "physicalRib", 138 logicRib, 145 logicRib, 139 physRibCage, 146 physRibCage, 140 false, 147 false, 141 0, true); 148 0, true); 142 149 143 fPhysRib6 = new G4PVPlacement(nullptr,G4Thre << 150 physRib6 = new G4PVPlacement(0,G4ThreeVector(0.0, 0.0, (-thickness/2. + 0.8 * cm + 14. *cm)), 144 // with respect to the trunk 151 // with respect to the trunk 145 "physicalRib", 152 "physicalRib", 146 logicRib, 153 logicRib, 147 physRibCage, 154 physRibCage, 148 false, 155 false, 149 0, true); 156 0, true); 150 157 151 fPhysRib7 = new G4PVPlacement(nullptr,G4Thre << 158 physRib7 = new G4PVPlacement(0,G4ThreeVector(0.0, 0.0, (-thickness/2. + 0.8 *cm + 16.8 *cm)), 152 // with respect to the trunk 159 // with respect to the trunk 153 "physicalRib", 160 "physicalRib", 154 logicRib, 161 logicRib, 155 physRibCage, 162 physRibCage, 156 false, 163 false, 157 0, true); 164 0, true); 158 165 159 fPhysRib8 = new G4PVPlacement(nullptr,G4Thre << 166 physRib8 = new G4PVPlacement(0,G4ThreeVector(0.0, 0.0, (-thickness/2. + 0.8 *cm + 19.6 *cm)), 160 // with respect to the trunk 167 // with respect to the trunk 161 "physicalRib", 168 "physicalRib", 162 logicRib, 169 logicRib, 163 physRibCage, 170 physRibCage, 164 false, 171 false, 165 0, true); 172 0, true); 166 173 167 fPhysRib9 = new G4PVPlacement(nullptr,G4Thre << 174 physRib9 = new G4PVPlacement(0,G4ThreeVector(0.0, 0.0, (-thickness/2. + 0.8*cm + 22.4 *cm)), 168 // with respect to the trunk 175 // with respect to the trunk 169 "physicalRib", 176 "physicalRib", 170 logicRib, 177 logicRib, 171 physRibCage, 178 physRibCage, 172 false, 179 false, 173 0, true); 180 0, true); 174 181 175 fPhysRib10 = new G4PVPlacement(nullptr, G4Th << 182 physRib10 = new G4PVPlacement(0,G4ThreeVector(0.0, 0.0, (-thickness/2. + 0.8*cm + 25.2 *cm)), 176 // with respect to the trunk 183 // with respect to the trunk 177 "physicalRib", 184 "physicalRib", 178 logicRib, 185 logicRib, 179 physRibCage, 186 physRibCage, 180 false, 187 false, 181 0, true); 188 0, true); 182 189 183 fPhysRib11 = new G4PVPlacement(nullptr,G4Thr << 190 physRib11 = new G4PVPlacement(0,G4ThreeVector(0.0, 0.0, (-thickness/2. + 0.8*cm + 28. *cm)), 184 // with respect to the trunk 191 // with respect to the trunk 185 "physicalRib", 192 "physicalRib", 186 logicRib, 193 logicRib, 187 physRibCage, 194 physRibCage, 188 false, 195 false, 189 0, true); 196 0, true); 190 197 191 fPhysRib12 = new G4PVPlacement(nullptr,G4Thr << 198 physRib12 = new G4PVPlacement(0,G4ThreeVector(0.0, 0.0, (-thickness/2. + 0.8*cm + 30.8 *cm)), 192 // with respect to the trunk 199 // with respect to the trunk 193 "physicalRib", 200 "physicalRib", 194 logicRib, 201 logicRib, 195 physRibCage, 202 physRibCage, 196 false, 203 false, 197 0, true); 204 0, true); 198 205 199 // Visualization Attributes 206 // Visualization Attributes 200 logicRibCage -> SetVisAttributes(G4VisAttrib << 207 logicRibCage -> SetVisAttributes(G4VisAttributes::Invisible); 201 208 202 //G4VisAttributes* RibCageVisAtt = new G4Vis 209 //G4VisAttributes* RibCageVisAtt = new G4VisAttributes(G4Colour(0.46,0.53,0.6)); 203 210 204 auto* colourPointer = new G4HumanPhantomColo << 211 G4HumanPhantomColour* colourPointer = new G4HumanPhantomColour(); 205 G4Colour colour = colourPointer -> GetColour 212 G4Colour colour = colourPointer -> GetColour(colourName); 206 auto* RibCageVisAtt = new G4VisAttributes(co << 213 G4VisAttributes* RibCageVisAtt = new G4VisAttributes(colour); 207 RibCageVisAtt->SetForceSolid(wireFrame); 214 RibCageVisAtt->SetForceSolid(wireFrame); 208 logicRib->SetVisAttributes(RibCageVisAtt); 215 logicRib->SetVisAttributes(RibCageVisAtt); 209 216 210 G4cout << "RibCage created !!!!!!" << G4endl 217 G4cout << "RibCage created !!!!!!" << G4endl; 211 // Testing Pelvis Volume 218 // Testing Pelvis Volume 212 G4double RibCageVol = logicRib->GetSolid()-> 219 G4double RibCageVol = logicRib->GetSolid()->GetCubicVolume(); 213 G4cout << "Volume of RibCage = " << ((RibCag 220 G4cout << "Volume of RibCage = " << ((RibCageVol)*12.)/cm3 << " cm^3" << G4endl; 214 221 215 // Testing RibCage Material 222 // Testing RibCage Material 216 G4String RibCageMat = logicRib->GetMaterial( 223 G4String RibCageMat = logicRib->GetMaterial()->GetName(); 217 G4cout << "Material of RibCage = " << RibCag 224 G4cout << "Material of RibCage = " << RibCageMat << G4endl; 218 225 219 // Testing Density 226 // Testing Density 220 G4double RibCageDensity = logicRib->GetMater 227 G4double RibCageDensity = logicRib->GetMaterial()->GetDensity(); 221 G4cout << "Density of Material = " << RibCag 228 G4cout << "Density of Material = " << RibCageDensity*cm3/g << " g/cm^3" << G4endl; 222 229 223 // Testing Mass 230 // Testing Mass 224 G4double RibCageMass = (RibCageVol)* RibCage 231 G4double RibCageMass = (RibCageVol)* RibCageDensity * 12;// 12 is the total number of ribs; 225 G4cout << "Mass of RibCage = " << (RibCageMa 232 G4cout << "Mass of RibCage = " << (RibCageMass)/gram << " g" << G4endl; 226 233 227 return physRibCage; 234 return physRibCage; 228 } 235 } 229 236