Geant4 Cross Reference |
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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 // >> 27 // $Id: G4Trap.icc 66356 2012-12-18 09:02:32Z gcosmo $ >> 28 // >> 29 // -------------------------------------------------------------------- >> 30 // GEANT 4 inline definitions file >> 31 // >> 32 // G4Trap.icc >> 33 // 26 // Implementation of inline methods of G4Trap 34 // Implementation of inline methods of G4Trap 27 // ------------------------------------------- 35 // -------------------------------------------------------------------- 28 36 29 inline 37 inline 30 G4double G4Trap::GetZHalfLength() const 38 G4double G4Trap::GetZHalfLength() const 31 { 39 { 32 return fDz ; 40 return fDz ; 33 } 41 } 34 42 35 inline 43 inline 36 G4ThreeVector G4Trap::GetSymAxis() const 44 G4ThreeVector G4Trap::GetSymAxis() const 37 { 45 { 38 G4double cosTheta = 1.0/std::sqrt(1+fTthetaC 46 G4double cosTheta = 1.0/std::sqrt(1+fTthetaCphi*fTthetaCphi + 39 fTthetaSphi*fTt 47 fTthetaSphi*fTthetaSphi) ; 40 48 41 return { fTthetaCphi*cosTheta, fTthetaSphi*c << 49 return G4ThreeVector(fTthetaCphi*cosTheta, >> 50 fTthetaSphi*cosTheta, >> 51 cosTheta) ; 42 } 52 } 43 53 44 inline 54 inline 45 G4double G4Trap::GetYHalfLength1() const 55 G4double G4Trap::GetYHalfLength1() const 46 { 56 { 47 return fDy1 ; 57 return fDy1 ; 48 } 58 } 49 59 50 inline 60 inline 51 G4double G4Trap::GetXHalfLength1() const 61 G4double G4Trap::GetXHalfLength1() const 52 { 62 { 53 return fDx1 ; 63 return fDx1 ; 54 } 64 } 55 65 56 inline 66 inline 57 G4double G4Trap::GetXHalfLength2() const 67 G4double G4Trap::GetXHalfLength2() const 58 { 68 { 59 return fDx2 ; 69 return fDx2 ; 60 } 70 } 61 71 62 inline 72 inline 63 G4double G4Trap::GetTanAlpha1() const 73 G4double G4Trap::GetTanAlpha1() const 64 { 74 { 65 return fTalpha1 ; 75 return fTalpha1 ; 66 } 76 } 67 77 68 inline 78 inline 69 G4double G4Trap::GetYHalfLength2() const 79 G4double G4Trap::GetYHalfLength2() const 70 { 80 { 71 return fDy2 ; 81 return fDy2 ; 72 } 82 } 73 83 74 inline 84 inline 75 G4double G4Trap::GetXHalfLength3() const 85 G4double G4Trap::GetXHalfLength3() const 76 { 86 { 77 return fDx3 ; 87 return fDx3 ; 78 } 88 } 79 89 80 inline 90 inline 81 G4double G4Trap::GetXHalfLength4() const 91 G4double G4Trap::GetXHalfLength4() const 82 { 92 { 83 return fDx4 ; 93 return fDx4 ; 84 } 94 } 85 95 86 inline 96 inline 87 G4double G4Trap::GetTanAlpha2() const 97 G4double G4Trap::GetTanAlpha2() const 88 { 98 { 89 return fTalpha2 ; 99 return fTalpha2 ; 90 } 100 } 91 101 92 inline 102 inline 93 TrapSidePlane G4Trap::GetSidePlane( G4int n ) 103 TrapSidePlane G4Trap::GetSidePlane( G4int n ) const 94 { 104 { 95 return fPlanes[n] ; 105 return fPlanes[n] ; 96 } 106 } 97 107 98 inline G4double G4Trap::GetPhi() const << 108 inline 99 { << 109 G4double G4Trap::GetFaceArea(const G4ThreeVector& p0, const G4ThreeVector& p1, 100 return std::atan2(fTthetaSphi,fTthetaCphi); << 110 const G4ThreeVector& p2, const G4ThreeVector& p3) 101 } << 102 << 103 inline G4double G4Trap::GetTheta() const << 104 { 111 { 105 return std::atan(std::sqrt(fTthetaCphi*fTth << 112 G4double area = 0.5*((p1-p0).cross(p2-p1).mag()+(p3-p2).cross(p0-p3).mag()); 106 +fTthetaSphi*fTt << 113 return area; 107 } 114 } 108 115 109 inline G4double G4Trap::GetAlpha1() const << 116 inline 110 { << 117 G4double G4Trap::GetCubicVolume() 111 return std::atan(fTalpha1); << 118 { >> 119 if(fCubicVolume != 0.) {;} >> 120 else { fCubicVolume = fDz*( (fDx1+fDx2+fDx3+fDx4)*(fDy1+fDy2) >> 121 + (fDx4+fDx3-fDx2-fDx1)*(fDy2-fDy1)/3 ); } >> 122 return fCubicVolume; 112 } 123 } 113 124 114 inline G4double G4Trap::GetAlpha2() const << 125 inline 115 { << 126 G4double G4Trap::GetSurfaceArea() 116 return std::atan(fTalpha2); << 127 { >> 128 if(fSurfaceArea != 0.) {;} >> 129 else >> 130 { >> 131 G4ThreeVector ba(fDx1-fDx2+fTalpha1*2*fDy1,2*fDy1,0); >> 132 G4ThreeVector bc(2*fDz*fTthetaCphi-(fDx4-fDx2)+fTalpha2*fDy2-fTalpha1*fDy1, >> 133 2*fDz*fTthetaSphi+fDy2-fDy1, 2*fDz); >> 134 G4ThreeVector dc(-fDx4+fDx3+2*fTalpha2*fDy2, 2*fDy2,0); >> 135 G4ThreeVector da(-2*fDz*fTthetaCphi-(fDx1-fDx3)-fTalpha1*fDy1+fTalpha2*fDy2, >> 136 -2*fDz*fTthetaSphi-fDy1+fDy2,-2*fDz); >> 137 >> 138 G4ThreeVector ef(fDx2-fDx1+2*fTalpha1*fDy1, 2*fDy1,0); >> 139 G4ThreeVector eh(2*fDz*fTthetaCphi+fDx3-fDx1+fTalpha1*fDy1-fTalpha2*fDy2, >> 140 2*fDz*fTthetaSphi-fDy2+fDy1,2*fDz); >> 141 G4ThreeVector gh(fDx3-fDx4-2*fTalpha2*fDy2, -2*fDy2,0); >> 142 G4ThreeVector gf(-2*fDz*fTthetaCphi+fDx2-fDx4+fTalpha1*fDy1-fTalpha2*fDy2, >> 143 -2*fDz*fTthetaSphi+fDy1-fDy2,-2*fDz); >> 144 >> 145 G4ThreeVector cr; >> 146 cr = ba.cross(bc); >> 147 G4double babc=cr.mag(); >> 148 cr = dc.cross(da); >> 149 G4double dcda=cr.mag(); >> 150 cr = ef.cross(eh); >> 151 G4double efeh=cr.mag(); >> 152 cr = gh.cross(gf); >> 153 G4double ghgf=cr.mag(); >> 154 >> 155 fSurfaceArea = 2*fDy1*(fDx1+fDx2)+2*fDy2*(fDx3+fDx4) >> 156 + (fDx1+fDx3) >> 157 * std::sqrt(4*fDz*fDz+std::pow(fDy2-fDy1-2*fDz*fTthetaSphi,2)) >> 158 + (fDx2+fDx4) >> 159 * std::sqrt(4*fDz*fDz+std::pow(fDy2-fDy1+2*fDz*fTthetaSphi,2)) >> 160 + 0.5*(babc+dcda+efeh+ghgf); >> 161 } >> 162 return fSurfaceArea; 117 } 163 } 118 164