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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 // Implementation of inline methods of G4CutTu 26 // Implementation of inline methods of G4CutTubs 27 // ------------------------------------------- 27 // -------------------------------------------------------------------- 28 28 29 inline 29 inline 30 G4double G4CutTubs::GetInnerRadius () const 30 G4double G4CutTubs::GetInnerRadius () const 31 { 31 { 32 return fRMin; 32 return fRMin; 33 } 33 } 34 34 35 inline 35 inline 36 G4double G4CutTubs::GetOuterRadius () const 36 G4double G4CutTubs::GetOuterRadius () const 37 { 37 { 38 return fRMax; 38 return fRMax; 39 } 39 } 40 40 41 inline 41 inline 42 G4double G4CutTubs::GetZHalfLength () const 42 G4double G4CutTubs::GetZHalfLength () const 43 { 43 { 44 return fDz; 44 return fDz; 45 } 45 } 46 46 47 inline 47 inline 48 G4double G4CutTubs::GetStartPhiAngle () const 48 G4double G4CutTubs::GetStartPhiAngle () const 49 { 49 { 50 return fSPhi; 50 return fSPhi; 51 } 51 } 52 52 53 inline 53 inline 54 G4double G4CutTubs::GetDeltaPhiAngle () const 54 G4double G4CutTubs::GetDeltaPhiAngle () const 55 { 55 { 56 return fDPhi; 56 return fDPhi; 57 } 57 } 58 58 59 inline 59 inline 60 G4double G4CutTubs::GetSinStartPhi () const 60 G4double G4CutTubs::GetSinStartPhi () const 61 { 61 { 62 return sinSPhi; 62 return sinSPhi; 63 } 63 } 64 64 65 inline 65 inline 66 G4double G4CutTubs::GetCosStartPhi () const 66 G4double G4CutTubs::GetCosStartPhi () const 67 { 67 { 68 return cosSPhi; 68 return cosSPhi; 69 } 69 } 70 70 71 inline 71 inline 72 G4double G4CutTubs::GetSinEndPhi () const 72 G4double G4CutTubs::GetSinEndPhi () const 73 { 73 { 74 return sinEPhi; 74 return sinEPhi; 75 } 75 } 76 76 77 inline 77 inline 78 G4double G4CutTubs::GetCosEndPhi () const 78 G4double G4CutTubs::GetCosEndPhi () const 79 { 79 { 80 return cosEPhi; 80 return cosEPhi; 81 } 81 } 82 82 83 inline 83 inline 84 G4ThreeVector G4CutTubs::GetLowNorm () const 84 G4ThreeVector G4CutTubs::GetLowNorm () const 85 { 85 { 86 return fLowNorm; 86 return fLowNorm; 87 } 87 } 88 88 89 inline 89 inline 90 G4ThreeVector G4CutTubs::GetHighNorm () const 90 G4ThreeVector G4CutTubs::GetHighNorm () const 91 { 91 { 92 return fHighNorm; 92 return fHighNorm; 93 } 93 } 94 94 95 inline 95 inline 96 void G4CutTubs::Initialize() 96 void G4CutTubs::Initialize() 97 { 97 { 98 fZMin = 0.; 98 fZMin = 0.; 99 fZMax = 0.; 99 fZMax = 0.; 100 fCubicVolume = 0.; 100 fCubicVolume = 0.; 101 fSurfaceArea = 0.; 101 fSurfaceArea = 0.; 102 fRebuildPolyhedron = true; 102 fRebuildPolyhedron = true; 103 } 103 } 104 104 105 inline 105 inline 106 void G4CutTubs::InitializeTrigonometry() 106 void G4CutTubs::InitializeTrigonometry() 107 { 107 { 108 G4double hDPhi = 0.5*fDPhi; 108 G4double hDPhi = 0.5*fDPhi; // half delta phi 109 G4double cPhi = fSPhi + hDPhi; 109 G4double cPhi = fSPhi + hDPhi; 110 G4double ePhi = fSPhi + fDPhi; 110 G4double ePhi = fSPhi + fDPhi; 111 111 112 sinCPhi = std::sin(cPhi); 112 sinCPhi = std::sin(cPhi); 113 cosCPhi = std::cos(cPhi); 113 cosCPhi = std::cos(cPhi); 114 cosHDPhi = std::cos(hDPhi); 114 cosHDPhi = std::cos(hDPhi); 115 cosHDPhiIT = std::cos(hDPhi - 0.5*kAngTolera 115 cosHDPhiIT = std::cos(hDPhi - 0.5*kAngTolerance); // inner/outer tol half dphi 116 cosHDPhiOT = std::cos(hDPhi + 0.5*kAngTolera 116 cosHDPhiOT = std::cos(hDPhi + 0.5*kAngTolerance); 117 sinSPhi = std::sin(fSPhi); 117 sinSPhi = std::sin(fSPhi); 118 cosSPhi = std::cos(fSPhi); 118 cosSPhi = std::cos(fSPhi); 119 sinEPhi = std::sin(ePhi); 119 sinEPhi = std::sin(ePhi); 120 cosEPhi = std::cos(ePhi); 120 cosEPhi = std::cos(ePhi); 121 } 121 } 122 122 123 inline void G4CutTubs::CheckSPhiAngle(G4double 123 inline void G4CutTubs::CheckSPhiAngle(G4double sPhi) 124 { 124 { 125 // Ensure fSphi in 0-2PI or -2PI-0 range if 125 // Ensure fSphi in 0-2PI or -2PI-0 range if shape crosses 0 126 126 127 if ( sPhi < 0 ) 127 if ( sPhi < 0 ) 128 { 128 { 129 fSPhi = CLHEP::twopi - std::fmod(std::fabs 129 fSPhi = CLHEP::twopi - std::fmod(std::fabs(sPhi),CLHEP::twopi); 130 } 130 } 131 else 131 else 132 { 132 { 133 fSPhi = std::fmod(sPhi,CLHEP::twopi) ; 133 fSPhi = std::fmod(sPhi,CLHEP::twopi) ; 134 } 134 } 135 if ( fSPhi+fDPhi > CLHEP::twopi ) 135 if ( fSPhi+fDPhi > CLHEP::twopi ) 136 { 136 { 137 fSPhi -= CLHEP::twopi ; 137 fSPhi -= CLHEP::twopi ; 138 } 138 } 139 } 139 } 140 140 141 inline void G4CutTubs::CheckDPhiAngle(G4double 141 inline void G4CutTubs::CheckDPhiAngle(G4double dPhi) 142 { 142 { 143 fPhiFullCutTube = true; 143 fPhiFullCutTube = true; 144 if ( dPhi >= CLHEP::twopi-kAngTolerance*0.5 144 if ( dPhi >= CLHEP::twopi-kAngTolerance*0.5 ) 145 { 145 { 146 fDPhi=CLHEP::twopi; 146 fDPhi=CLHEP::twopi; 147 fSPhi=0; 147 fSPhi=0; 148 } 148 } 149 else 149 else 150 { 150 { 151 fPhiFullCutTube = false; 151 fPhiFullCutTube = false; 152 if ( dPhi > 0 ) 152 if ( dPhi > 0 ) 153 { 153 { 154 fDPhi = dPhi; 154 fDPhi = dPhi; 155 } 155 } 156 else 156 else 157 { 157 { 158 std::ostringstream message; 158 std::ostringstream message; 159 message << "Invalid dphi." << G4endl 159 message << "Invalid dphi." << G4endl 160 << "Negative or zero delta-Phi ( 160 << "Negative or zero delta-Phi (" << dPhi << "), for solid: " 161 << GetName(); 161 << GetName(); 162 G4Exception("G4CutTubs::CheckDPhiAngle() 162 G4Exception("G4CutTubs::CheckDPhiAngle()", "GeomSolids0002", 163 FatalException, message); 163 FatalException, message); 164 } 164 } 165 } 165 } 166 } 166 } 167 167 168 inline void G4CutTubs::CheckPhiAngles(G4double 168 inline void G4CutTubs::CheckPhiAngles(G4double sPhi, G4double dPhi) 169 { 169 { 170 CheckDPhiAngle(dPhi); 170 CheckDPhiAngle(dPhi); 171 if ( (fDPhi<CLHEP::twopi) && ((sPhi) != 0.0) << 171 if ( (fDPhi<CLHEP::twopi) && (sPhi) ) { CheckSPhiAngle(sPhi); } 172 InitializeTrigonometry(); 172 InitializeTrigonometry(); 173 } 173 } 174 174 175 inline 175 inline 176 void G4CutTubs::SetInnerRadius (G4double newRM 176 void G4CutTubs::SetInnerRadius (G4double newRMin) 177 { 177 { 178 if ( newRMin < 0 ) // Check radii 178 if ( newRMin < 0 ) // Check radii 179 { 179 { 180 std::ostringstream message; 180 std::ostringstream message; 181 message << "Invalid radii." << G4endl 181 message << "Invalid radii." << G4endl 182 << "Invalid values for radii in so 182 << "Invalid values for radii in solid " << GetName() << G4endl 183 << " newRMin = " << newRMin 183 << " newRMin = " << newRMin 184 << ", fRMax = " << fRMax << G4endl 184 << ", fRMax = " << fRMax << G4endl 185 << " Negative inner radius! 185 << " Negative inner radius!"; 186 G4Exception("G4CutTubs::SetInnerRadius()", 186 G4Exception("G4CutTubs::SetInnerRadius()", "GeomSolids0002", 187 FatalException, message); 187 FatalException, message); 188 } 188 } 189 fRMin= newRMin; 189 fRMin= newRMin; 190 Initialize(); 190 Initialize(); 191 } 191 } 192 192 193 inline 193 inline 194 void G4CutTubs::SetOuterRadius (G4double newRM 194 void G4CutTubs::SetOuterRadius (G4double newRMax) 195 { 195 { 196 if ( newRMax <= 0 ) // Check radii 196 if ( newRMax <= 0 ) // Check radii 197 { 197 { 198 std::ostringstream message; 198 std::ostringstream message; 199 message << "Invalid radii." << G4endl 199 message << "Invalid radii." << G4endl 200 << "Invalid values for radii in so 200 << "Invalid values for radii in solid " << GetName() << G4endl 201 << " fRMin = " << fRMin 201 << " fRMin = " << fRMin 202 << ", newRMax = " << newRMax << G4 202 << ", newRMax = " << newRMax << G4endl 203 << " Invalid outer radius!" 203 << " Invalid outer radius!"; 204 G4Exception("G4CutTubs::SetOuterRadius()", 204 G4Exception("G4CutTubs::SetOuterRadius()", "GeomSolids0002", 205 FatalException, message); 205 FatalException, message); 206 } 206 } 207 fRMax= newRMax; 207 fRMax= newRMax; 208 Initialize(); 208 Initialize(); 209 } 209 } 210 210 211 inline 211 inline 212 void G4CutTubs::SetZHalfLength (G4double newDz 212 void G4CutTubs::SetZHalfLength (G4double newDz) 213 { 213 { 214 if (newDz<=0) // Check z-len 214 if (newDz<=0) // Check z-len 215 { 215 { 216 std::ostringstream message; 216 std::ostringstream message; 217 message << "Invalid Z half-length." << G4e 217 message << "Invalid Z half-length." << G4endl 218 << "Negative Z half-length (" << n 218 << "Negative Z half-length (" << newDz << "), for solid: " 219 << GetName(); 219 << GetName(); 220 G4Exception("G4CutTubs::SetZHalfLength()", 220 G4Exception("G4CutTubs::SetZHalfLength()", "GeomSolids0002", 221 FatalException, message); 221 FatalException, message); 222 } 222 } 223 fDz= newDz; 223 fDz= newDz; 224 Initialize(); 224 Initialize(); 225 } 225 } 226 226 227 inline 227 inline 228 void G4CutTubs::SetStartPhiAngle (G4double new 228 void G4CutTubs::SetStartPhiAngle (G4double newSPhi, G4bool compute) 229 { 229 { 230 // Flag 'compute' can be used to explicitely 230 // Flag 'compute' can be used to explicitely avoid recomputation of 231 // trigonometry in case SetDeltaPhiAngle() i 231 // trigonometry in case SetDeltaPhiAngle() is invoked afterwards 232 232 233 CheckSPhiAngle(newSPhi); 233 CheckSPhiAngle(newSPhi); 234 fPhiFullCutTube = false; 234 fPhiFullCutTube = false; 235 if (compute) { InitializeTrigonometry(); } 235 if (compute) { InitializeTrigonometry(); } 236 Initialize(); 236 Initialize(); 237 } 237 } 238 238 239 inline 239 inline 240 void G4CutTubs::SetDeltaPhiAngle (G4double new 240 void G4CutTubs::SetDeltaPhiAngle (G4double newDPhi) 241 { 241 { 242 CheckPhiAngles(fSPhi, newDPhi); 242 CheckPhiAngles(fSPhi, newDPhi); 243 Initialize(); 243 Initialize(); >> 244 } >> 245 >> 246 // Older names for access functions >> 247 >> 248 inline >> 249 G4double G4CutTubs::GetRMin () const >> 250 { >> 251 return GetInnerRadius(); >> 252 } >> 253 >> 254 inline >> 255 G4double G4CutTubs::GetRMax () const >> 256 { >> 257 return GetOuterRadius(); >> 258 } >> 259 >> 260 inline >> 261 G4double G4CutTubs::GetDz () const >> 262 { >> 263 return GetZHalfLength(); >> 264 } >> 265 >> 266 inline >> 267 G4double G4CutTubs::GetSPhi () const >> 268 { >> 269 return GetStartPhiAngle(); >> 270 } >> 271 >> 272 inline >> 273 G4double G4CutTubs::GetDPhi () const >> 274 { >> 275 return GetDeltaPhiAngle(); 244 } 276 } 245 277