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Please see the license in the file << 14 // * use. * 16 // * for the full disclaimer and the limitatio << 17 // * 15 // * * 18 // * This code implementation is the result << 16 // * This code implementation is the intellectual property of the * 19 // * technical work of the GEANT4 collaboratio << 17 // * GEANT4 collaboration. * 20 // * By using, copying, modifying or distri << 18 // * By copying, distributing or modifying the Program (or any work * 21 // * any work based on the software) you ag << 19 // * based on the Program) you indicate your acceptance of this * 22 // * use in resulting scientific publicati << 20 // * statement, and all its terms. * 23 // * acceptance of all terms of the Geant4 Sof << 24 // ******************************************* 21 // ******************************************************************** 25 // 22 // >> 23 // >> 24 // $Id: G4LogicalBorderSurface.cc,v 1.7 2001/07/11 10:00:32 gunter Exp $ >> 25 // GEANT4 tag $Name: geant4-04-00 $ >> 26 // >> 27 //////////////////////////////////////////////////////////////////////// 26 // G4LogicalBorderSurface Implementation 28 // G4LogicalBorderSurface Implementation >> 29 //////////////////////////////////////////////////////////////////////// 27 // 30 // 28 // A Logical Surface class for surfaces define << 31 // File: G4LogicalBorderSurface.cc 29 // of two physical volumes. << 32 // Description: A Logical Surface class for surfaces defined by the >> 33 // boundary of two physical volumes. >> 34 // Version: 1.0 >> 35 // Created: 1997-06-26 >> 36 // Author: John Apostolakis >> 37 // mail: John.Apostolakis@cern.ch >> 38 // Modified: 1997-06-26 John Apostolakis 30 // 39 // 31 // Author: John Apostolakis, CERN - 26-06-1997 << 40 // Id tag: 32 // ------------------------------------------- << 41 //////////////////////////////////////////////////////////////////////// 33 42 34 #include "G4LogicalBorderSurface.hh" 43 #include "G4LogicalBorderSurface.hh" 35 #include "G4VPhysicalVolume.hh" << 36 44 37 G4LogicalBorderSurfaceTable* << 38 G4LogicalBorderSurface::theBorderSurfaceTable << 39 45 40 // ------------------------------------------- << 46 G4LogicalBorderSurfaceTable G4LogicalBorderSurface::theBorderSurfaceTable; 41 // Constructor << 47 42 // << 48 ///////////////////////// >> 49 // Class Implementation >> 50 ///////////////////////// >> 51 >> 52 ///////////////// >> 53 // Constructors >> 54 ///////////////// >> 55 >> 56 G4LogicalBorderSurface::G4LogicalBorderSurface(const G4String& name, >> 57 G4VPhysicalVolume* vol1, >> 58 G4VPhysicalVolume* vol2, >> 59 G4OpticalSurface* opticsSurface) >> 60 : G4LogicalSurface(name, opticsSurface), >> 61 Volume1(vol1), Volume2(vol2) >> 62 { >> 63 // Store in the table of Surfaces >> 64 theBorderSurfaceTable.push_back(this); >> 65 } >> 66 43 G4LogicalBorderSurface:: 67 G4LogicalBorderSurface:: 44 G4LogicalBorderSurface(const G4String& name, << 68 G4LogicalBorderSurface(const G4LogicalBorderSurface& right) 45 G4VPhysicalVolume << 69 : G4LogicalSurface(right.GetName(), right.GetOpticalSurface()) 46 G4VPhysicalVolume << 47 G4SurfaceProperty << 48 : G4LogicalSurface(name, surfaceProperty), << 49 Volume1(vol1), Volume2(vol2), << 50 Index(theBorderSurfaceTable != nullptr ? t << 51 { 70 { 52 if (theBorderSurfaceTable == nullptr) << 71 SetTransitionRadiationSurface(right.GetTransitionRadiationSurface()); >> 72 Volume1 = right.Volume1; >> 73 Volume2 = right.Volume2; >> 74 theBorderSurfaceTable = right.theBorderSurfaceTable; >> 75 } >> 76 >> 77 G4LogicalBorderSurface::~G4LogicalBorderSurface(){} >> 78 >> 79 ////////////// >> 80 // Operators >> 81 ////////////// >> 82 >> 83 const G4LogicalBorderSurface& >> 84 G4LogicalBorderSurface::operator=(const G4LogicalBorderSurface &right) >> 85 { >> 86 if (&right == this) return *this; >> 87 if (&right) 53 { 88 { 54 theBorderSurfaceTable = new G4LogicalBorde << 89 SetOpticalSurface(right.GetOpticalSurface()); >> 90 SetName(right.GetName()); >> 91 SetTransitionRadiationSurface(right.GetTransitionRadiationSurface()); >> 92 Volume1 = right.Volume1; >> 93 Volume2 = right.Volume2; >> 94 theBorderSurfaceTable = right.theBorderSurfaceTable; 55 } 95 } 56 << 96 return *this; 57 // Store in the table of Surfaces << 58 // << 59 theBorderSurfaceTable->insert(std::make_pair << 60 } 97 } 61 98 62 // ------------------------------------------- << 99 G4int 63 // Default destructor << 64 // << 65 G4LogicalBorderSurface::~G4LogicalBorderSurfac << 66 << 67 // ------------------------------------------- << 68 G4bool << 69 G4LogicalBorderSurface::operator==(const G4Log 100 G4LogicalBorderSurface::operator==(const G4LogicalBorderSurface &right) const 70 { 101 { 71 return (this == (G4LogicalBorderSurface *) & 102 return (this == (G4LogicalBorderSurface *) &right); 72 } 103 } 73 104 74 // ------------------------------------------- << 105 G4int 75 G4bool << 76 G4LogicalBorderSurface::operator!=(const G4Log 106 G4LogicalBorderSurface::operator!=(const G4LogicalBorderSurface &right) const 77 { 107 { 78 return (this != (G4LogicalBorderSurface *) & 108 return (this != (G4LogicalBorderSurface *) &right); 79 } 109 } >> 110 //////////// >> 111 // Methods >> 112 //////////// 80 113 81 // ------------------------------------------- << 114 const G4std::vector<G4LogicalBorderSurface*> * 82 const G4LogicalBorderSurfaceTable* G4LogicalBo << 115 G4LogicalBorderSurface::GetSurfaceTable() 83 { 116 { 84 if (theBorderSurfaceTable == nullptr) << 117 return &theBorderSurfaceTable; 85 { << 86 theBorderSurfaceTable = new G4LogicalBorde << 87 } << 88 return theBorderSurfaceTable; << 89 } 118 } 90 119 91 // ------------------------------------------- << 120 size_t G4LogicalBorderSurface::GetNumberOfBorderSurfaces() 92 std::size_t G4LogicalBorderSurface::GetNumberO << 93 { 121 { 94 if (theBorderSurfaceTable != nullptr) << 122 return theBorderSurfaceTable.size(); 95 { << 96 return theBorderSurfaceTable->size(); << 97 } << 98 return 0; << 99 } 123 } 100 124 101 // ------------------------------------------- << 102 G4LogicalBorderSurface* 125 G4LogicalBorderSurface* 103 G4LogicalBorderSurface::GetSurface(const G4VPh 126 G4LogicalBorderSurface::GetSurface(const G4VPhysicalVolume* vol1, 104 const G4VPh << 127 const G4VPhysicalVolume* vol2) 105 { 128 { 106 if (theBorderSurfaceTable != nullptr) << 129 for (size_t i=0; i<theBorderSurfaceTable.size(); i++) { 107 { << 130 if(theBorderSurfaceTable[i]->GetVolume1() == vol1 && 108 auto pos = theBorderSurfaceTable->find(std << 131 theBorderSurfaceTable[i]->GetVolume2() == vol2 ) 109 if(pos != theBorderSurfaceTable->cend()) r << 132 return theBorderSurfaceTable[i]; 110 } << 133 } 111 return nullptr; << 134 return NULL; 112 } 135 } 113 136 114 // ------------------------------------------- << 137 void G4LogicalBorderSurface::DumpInfo() // Class method (it is really const) 115 // Dump info for known surfaces << 116 // << 117 void G4LogicalBorderSurface::DumpInfo() << 118 { 138 { 119 G4cout << "***** Surface Table : Nb of Surfa << 120 << GetNumberOfBorderSurfaces() << " * << 121 139 122 if (theBorderSurfaceTable != nullptr) << 140 // Dump info for known surfaces 123 { << 124 for(const auto & pos : *theBorderSurfaceTa << 125 { << 126 G4LogicalBorderSurface* pSurf = pos.seco << 127 G4cout << pSurf->GetName() << " : " << G << 128 << " Border of volumes " << 129 << pSurf->GetVolume1()->GetName() << 130 << pSurf->GetVolume2()->GetName() << 131 } << 132 } << 133 G4cout << G4endl; << 134 } << 135 141 136 // ------------------------------------------- << 142 G4cout << "***** Surface Table : Nb of Surfaces = " << 137 void G4LogicalBorderSurface::CleanSurfaceTable << 143 GetNumberOfBorderSurfaces() << " *****" << G4endl; 138 { << 144 139 if (theBorderSurfaceTable != nullptr) << 145 for (size_t i=0; i<theBorderSurfaceTable.size(); i++) { 140 { << 146 G4cout << theBorderSurfaceTable[i]->GetName() << " : " << G4endl << 141 for(const auto & pos : *theBorderSurfaceTa << 147 " Surface type = " << theBorderSurfaceTable[i]->GetName() << G4endl; 142 { << 148 #ifdef PRINT_INFO 143 delete pos.second; << 149 " Surface type = " << theBorderSurfaceTable[i]->GetOpticalSurface()->GetType() << G4endl; >> 150 " Surface finish = " << theBorderSurfaceTable[i]->GetFinish() << G4endl << >> 151 " Surface model = " << theBorderSurfaceTable[i]->GetModel() << G4endl; >> 152 #endif 144 } 153 } 145 theBorderSurfaceTable->clear(); << 154 G4cout << G4endl; 146 } << 147 return; << 148 } 155 } 149 156