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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 // G4GDMLWriteSolids << 26 // >> 27 // $Id: G4GDMLWriteSolids.hh 81843 2014-06-06 09:11:11Z gcosmo $ >> 28 // >> 29 // >> 30 // class G4GDMLWriteSolids 27 // 31 // 28 // Class description: 32 // Class description: 29 // 33 // 30 // GDML class for writing solids. 34 // GDML class for writing solids. 31 35 32 // Author: Zoltan Torzsok, November 2007 << 36 // History: 33 // ------------------------------------------- << 37 // - Created. Zoltan Torzsok, November 2007 34 #ifndef G4GDMLWRITESOLIDS_HH << 38 // ------------------------------------------------------------------------- 35 #define G4GDMLWRITESOLIDS_HH 1 << 39 >> 40 #ifndef _G4GDMLWRITESOLIDS_INCLUDED_ >> 41 #define _G4GDMLWRITESOLIDS_INCLUDED_ 36 42 37 #include "G4Types.hh" 43 #include "G4Types.hh" 38 44 39 #include "G4GDMLWriteMaterials.hh" 45 #include "G4GDMLWriteMaterials.hh" 40 #include "G4MultiUnion.hh" << 41 46 42 class G4BooleanSolid; 47 class G4BooleanSolid; 43 class G4ScaledSolid; << 44 class G4Box; 48 class G4Box; 45 class G4Cons; 49 class G4Cons; 46 class G4EllipticalCone; 50 class G4EllipticalCone; 47 class G4Ellipsoid; 51 class G4Ellipsoid; 48 class G4EllipticalTube; 52 class G4EllipticalTube; 49 class G4ExtrudedSolid; 53 class G4ExtrudedSolid; 50 class G4Hype; 54 class G4Hype; 51 class G4Orb; 55 class G4Orb; 52 class G4Para; 56 class G4Para; 53 class G4Paraboloid; 57 class G4Paraboloid; 54 class G4Polycone; 58 class G4Polycone; 55 class G4GenericPolycone; 59 class G4GenericPolycone; 56 class G4Polyhedra; 60 class G4Polyhedra; 57 class G4Sphere; 61 class G4Sphere; 58 class G4TessellatedSolid; 62 class G4TessellatedSolid; 59 class G4Tet; 63 class G4Tet; 60 class G4Torus; 64 class G4Torus; 61 class G4GenericTrap; 65 class G4GenericTrap; 62 class G4Trap; 66 class G4Trap; 63 class G4Trd; 67 class G4Trd; 64 class G4Tubs; 68 class G4Tubs; 65 class G4CutTubs; 69 class G4CutTubs; 66 class G4TwistedBox; 70 class G4TwistedBox; 67 class G4TwistedTrap; 71 class G4TwistedTrap; 68 class G4TwistedTrd; 72 class G4TwistedTrd; 69 class G4TwistedTubs; 73 class G4TwistedTubs; 70 class G4VSolid; 74 class G4VSolid; 71 class G4OpticalSurface; 75 class G4OpticalSurface; 72 76 73 class G4GDMLWriteSolids : public G4GDMLWriteMa 77 class G4GDMLWriteSolids : public G4GDMLWriteMaterials 74 { 78 { 75 class G4ThreeVectorCompare 79 class G4ThreeVectorCompare 76 { 80 { 77 public: 81 public: 78 82 79 G4bool operator()(const G4ThreeVector& t << 83 G4bool operator()(const G4ThreeVector& t1, const G4ThreeVector& t2 ) const 80 { << 84 { 81 if(t1.x() < t2.x()) { return true; } << 85 if(t1.x() < t2.x()) 82 if(t1.x() > t2.x()) { return false; } << 86 return true; 83 87 84 if(t1.y() < t2.y()) { return true; } << 88 if(t1.y() < t2.y()) 85 if(t1.y() > t2.y()) { return false; } << 89 return true; 86 90 87 if(t1.z() < t2.z()) { return true; } << 91 if(t1.z() < t2.z()) >> 92 return true; 88 93 89 return false; << 94 return false; 90 } << 95 } 91 }; 96 }; 92 97 93 public: 98 public: 94 99 95 virtual void AddSolid(const G4VSolid* cons << 100 virtual void AddSolid(const G4VSolid* const); 96 virtual void SolidsWrite(xercesc::DOMEleme << 101 virtual void SolidsWrite(xercesc::DOMElement*); 97 102 98 protected: 103 protected: 99 104 100 G4GDMLWriteSolids(); << 105 G4GDMLWriteSolids(); 101 virtual ~G4GDMLWriteSolids(); << 106 virtual ~G4GDMLWriteSolids(); 102 107 103 void MultiUnionWrite(xercesc::DOMElement* << 108 void BooleanWrite(xercesc::DOMElement*, const G4BooleanSolid* const); 104 const G4MultiUnion* c << 109 void BoxWrite(xercesc::DOMElement*, const G4Box* const); 105 void BooleanWrite(xercesc::DOMElement*, co << 110 void ConeWrite(xercesc::DOMElement*, const G4Cons* const); 106 void ScaledWrite(xercesc::DOMElement*, con << 111 void ElconeWrite(xercesc::DOMElement*, const G4EllipticalCone* const); 107 void BoxWrite(xercesc::DOMElement*, const << 112 void EllipsoidWrite(xercesc::DOMElement*, const G4Ellipsoid* const); 108 void ConeWrite(xercesc::DOMElement*, const << 113 void EltubeWrite(xercesc::DOMElement*, const G4EllipticalTube* const); 109 void ElconeWrite(xercesc::DOMElement*, con << 114 void XtruWrite(xercesc::DOMElement*, const G4ExtrudedSolid* const); 110 void EllipsoidWrite(xercesc::DOMElement*, << 115 void HypeWrite(xercesc::DOMElement*, const G4Hype* const); 111 void EltubeWrite(xercesc::DOMElement*, con << 116 void OrbWrite(xercesc::DOMElement*, const G4Orb* const); 112 void XtruWrite(xercesc::DOMElement*, const << 117 void ParaWrite(xercesc::DOMElement*, const G4Para* const); 113 void HypeWrite(xercesc::DOMElement*, const << 118 void ParaboloidWrite(xercesc::DOMElement*, const G4Paraboloid* const); 114 void OrbWrite(xercesc::DOMElement*, const << 119 void PolyconeWrite(xercesc::DOMElement*, const G4Polycone* const); 115 void ParaWrite(xercesc::DOMElement*, const << 120 void GenericPolyconeWrite(xercesc::DOMElement*, const G4GenericPolycone* const); 116 void ParaboloidWrite(xercesc::DOMElement*, << 121 void PolyhedraWrite(xercesc::DOMElement*, const G4Polyhedra* const); 117 void PolyconeWrite(xercesc::DOMElement*, c << 122 void SphereWrite(xercesc::DOMElement*, const G4Sphere* const); 118 void GenericPolyconeWrite(xercesc::DOMElem << 123 void TessellatedWrite(xercesc::DOMElement*, const G4TessellatedSolid* const); 119 const G4GenericP << 124 void TetWrite(xercesc::DOMElement*, const G4Tet* const); 120 void PolyhedraWrite(xercesc::DOMElement*, << 125 void TorusWrite(xercesc::DOMElement*, const G4Torus* const); 121 void SphereWrite(xercesc::DOMElement*, con << 126 void GenTrapWrite(xercesc::DOMElement*, const G4GenericTrap* const); 122 void TessellatedWrite(xercesc::DOMElement* << 127 void TrapWrite(xercesc::DOMElement*, const G4Trap* const); 123 const G4TessellatedS << 128 void TrdWrite(xercesc::DOMElement*, const G4Trd* const); 124 void TetWrite(xercesc::DOMElement*, const << 129 void TubeWrite(xercesc::DOMElement*, const G4Tubs* const); 125 void TorusWrite(xercesc::DOMElement*, cons << 130 void CutTubeWrite(xercesc::DOMElement*, const G4CutTubs* const); 126 void GenTrapWrite(xercesc::DOMElement*, co << 131 void TwistedboxWrite(xercesc::DOMElement*, const G4TwistedBox* const); 127 void TrapWrite(xercesc::DOMElement*, const << 132 void TwistedtrapWrite(xercesc::DOMElement*, const G4TwistedTrap* const); 128 void TrdWrite(xercesc::DOMElement*, const << 133 void TwistedtrdWrite(xercesc::DOMElement*, const G4TwistedTrd* const); 129 void TubeWrite(xercesc::DOMElement*, const << 134 void TwistedtubsWrite(xercesc::DOMElement*, const G4TwistedTubs* const); 130 void CutTubeWrite(xercesc::DOMElement*, co << 135 void ZplaneWrite(xercesc::DOMElement*, const G4double&, 131 void TwistedboxWrite(xercesc::DOMElement*, << 136 const G4double&, const G4double&); 132 void TwistedtrapWrite(xercesc::DOMElement* << 137 void RZPointWrite(xercesc::DOMElement*, const G4double&,const G4double&); 133 void TwistedtrdWrite(xercesc::DOMElement*, << 138 void OpticalSurfaceWrite(xercesc::DOMElement*, 134 void TwistedtubsWrite(xercesc::DOMElement* << 139 const G4OpticalSurface* const); 135 void ZplaneWrite(xercesc::DOMElement*, con << 136 const G4double&); << 137 void RZPointWrite(xercesc::DOMElement*, co << 138 void OpticalSurfaceWrite(xercesc::DOMEleme << 139 const G4OpticalSu << 140 void PropertyWrite(xercesc::DOMElement*, c << 141 140 142 protected: 141 protected: 143 142 144 std::vector<const G4VSolid*> solidList; << 143 std::vector<const G4VSolid*> solidList; 145 xercesc::DOMElement* solidsElement = nullp << 144 xercesc::DOMElement* solidsElement; 146 static const G4int maxTransforms = 8; // << 145 static const G4int maxTransforms = 8; // Constant for limiting the number 147 // << 146 // of displacements/reflections 148 // << 147 // applied to a single solid 149 }; 148 }; 150 149 151 #endif 150 #endif 152 151