Geant4 Cross Reference |
1 // 1 // 2 // ******************************************* 2 // ******************************************************************** 3 // * License and Disclaimer 3 // * License and Disclaimer * 4 // * 4 // * * 5 // * The Geant4 software is copyright of th 5 // * The Geant4 software is copyright of the Copyright Holders of * 6 // * the Geant4 Collaboration. It is provided 6 // * the Geant4 Collaboration. It is provided under the terms and * 7 // * conditions of the Geant4 Software License 7 // * conditions of the Geant4 Software License, included in the file * 8 // * LICENSE and available at http://cern.ch/ 8 // * LICENSE and available at http://cern.ch/geant4/license . 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 // >> 27 // $Id: G4Tubs.icc,v 1.6 2006/06/29 18:45:00 gunter Exp $ >> 28 // GEANT4 tag $Name: geant4-08-01 $ >> 29 // >> 30 // -------------------------------------------------------------------- >> 31 // GEANT 4 inline definitions file >> 32 // >> 33 // G4Tubs.icc >> 34 // 26 // Implementation of inline methods of G4Tubs 35 // Implementation of inline methods of G4Tubs 27 // ------------------------------------------- 36 // -------------------------------------------------------------------- 28 37 29 inline 38 inline 30 G4double G4Tubs::GetInnerRadius () const 39 G4double G4Tubs::GetInnerRadius () const 31 { 40 { 32 return fRMin; 41 return fRMin; 33 } 42 } 34 43 35 inline 44 inline 36 G4double G4Tubs::GetOuterRadius () const 45 G4double G4Tubs::GetOuterRadius () const 37 { 46 { 38 return fRMax; 47 return fRMax; 39 } 48 } 40 49 41 inline 50 inline 42 G4double G4Tubs::GetZHalfLength () const 51 G4double G4Tubs::GetZHalfLength () const 43 { 52 { 44 return fDz; 53 return fDz; 45 } 54 } 46 55 47 inline 56 inline 48 G4double G4Tubs::GetStartPhiAngle () const 57 G4double G4Tubs::GetStartPhiAngle () const 49 { 58 { 50 return fSPhi; 59 return fSPhi; 51 } 60 } 52 61 53 inline 62 inline 54 G4double G4Tubs::GetDeltaPhiAngle () const 63 G4double G4Tubs::GetDeltaPhiAngle () const 55 { 64 { 56 return fDPhi; 65 return fDPhi; 57 } 66 } 58 67 59 inline 68 inline 60 G4double G4Tubs::GetSinStartPhi () const << 69 void G4Tubs::SetInnerRadius (G4double newRMin) 61 { << 62 return sinSPhi; << 63 } << 64 << 65 inline << 66 G4double G4Tubs::GetCosStartPhi () const << 67 { 70 { 68 return cosSPhi; << 71 fRMin= newRMin; >> 72 fCubicVolume= 0.; >> 73 fpPolyhedron = 0; 69 } 74 } 70 75 71 inline 76 inline 72 G4double G4Tubs::GetSinEndPhi () const << 77 void G4Tubs::SetOuterRadius (G4double newRMax) 73 { 78 { 74 return sinEPhi; << 79 fRMax= newRMax; >> 80 fCubicVolume= 0.; >> 81 fpPolyhedron = 0; 75 } 82 } 76 83 77 inline 84 inline 78 G4double G4Tubs::GetCosEndPhi () const << 85 void G4Tubs::SetZHalfLength (G4double newDz) 79 { 86 { 80 return cosEPhi; << 87 fDz= newDz; >> 88 fCubicVolume= 0.; >> 89 fpPolyhedron = 0; 81 } 90 } 82 91 83 inline 92 inline 84 void G4Tubs::Initialize() << 93 void G4Tubs::SetStartPhiAngle (G4double newSPhi) 85 { 94 { 86 fCubicVolume = 0.; << 95 fSPhi= newSPhi; 87 fSurfaceArea = 0.; << 96 fCubicVolume= 0.; 88 fInvRmax= 1.0 / fRMax; << 97 fpPolyhedron = 0; 89 fInvRmin= fRMin > 0. ? 1.0 / fRMin : 0.0; << 90 fRebuildPolyhedron = true; << 91 } 98 } 92 99 93 inline 100 inline 94 void G4Tubs::InitializeTrigonometry() << 101 void G4Tubs::SetDeltaPhiAngle (G4double newDPhi) 95 { << 96 G4double hDPhi = 0.5*fDPhi; << 97 G4double cPhi = fSPhi + hDPhi; << 98 G4double ePhi = fSPhi + fDPhi; << 99 << 100 sinCPhi = std::sin(cPhi); << 101 cosCPhi = std::cos(cPhi); << 102 cosHDPhi = std::cos(hDPhi); << 103 cosHDPhiIT = std::cos(hDPhi - 0.5*kAngTolera << 104 cosHDPhiOT = std::cos(hDPhi + 0.5*kAngTolera << 105 sinSPhi = std::sin(fSPhi); << 106 cosSPhi = std::cos(fSPhi); << 107 sinEPhi = std::sin(ePhi); << 108 cosEPhi = std::cos(ePhi); << 109 } << 110 << 111 inline void G4Tubs::CheckSPhiAngle(G4double sP << 112 { << 113 // Ensure fSphi in 0-2PI or -2PI-0 range if << 114 << 115 if ( sPhi < 0 ) << 116 { << 117 fSPhi = CLHEP::twopi - std::fmod(std::fabs << 118 } << 119 else << 120 { << 121 fSPhi = std::fmod(sPhi,CLHEP::twopi) ; << 122 } << 123 if ( fSPhi+fDPhi > CLHEP::twopi ) << 124 { << 125 fSPhi -= CLHEP::twopi ; << 126 } << 127 } << 128 << 129 inline void G4Tubs::CheckDPhiAngle(G4double dP << 130 { 102 { 131 fPhiFullTube = true; << 103 fDPhi= newDPhi; 132 if ( dPhi >= CLHEP::twopi-kAngTolerance*0.5 << 104 fCubicVolume= 0.; 133 { << 105 fpPolyhedron = 0; 134 fDPhi=CLHEP::twopi; << 135 fSPhi=0; << 136 } << 137 else << 138 { << 139 fPhiFullTube = false; << 140 if ( dPhi > 0 ) << 141 { << 142 fDPhi = dPhi; << 143 } << 144 else << 145 { << 146 std::ostringstream message; << 147 message << "Invalid dphi." << G4endl << 148 << "Negative or zero delta-Phi ( << 149 << GetName(); << 150 G4Exception("G4Tubs::CheckDPhiAngle()", << 151 FatalException, message); << 152 } << 153 } << 154 } 106 } 155 107 156 inline void G4Tubs::CheckPhiAngles(G4double sP << 108 // Older names for access functions 157 { << 158 CheckDPhiAngle(dPhi); << 159 if ( (fDPhi<CLHEP::twopi) && ((sPhi) != 0.0) << 160 InitializeTrigonometry(); << 161 } << 162 109 163 inline 110 inline 164 void G4Tubs::SetInnerRadius (G4double newRMin) << 111 G4double G4Tubs::GetRMin () const 165 { 112 { 166 if ( newRMin < 0 ) // Check radii << 113 return GetInnerRadius(); 167 { << 168 std::ostringstream message; << 169 message << "Invalid radii." << G4endl << 170 << "Invalid values for radii in so << 171 << " newRMin = " << newRMin << 172 << ", fRMax = " << fRMax << G4endl << 173 << " Negative inner radius! << 174 G4Exception("G4Tubs::SetInnerRadius()", "G << 175 FatalException, message); << 176 } << 177 fRMin= newRMin; << 178 Initialize(); << 179 } 114 } 180 115 181 inline 116 inline 182 void G4Tubs::SetOuterRadius (G4double newRMax) << 117 G4double G4Tubs::GetRMax () const 183 { 118 { 184 if ( newRMax <= 0 ) // Check radii << 119 return GetOuterRadius(); 185 { << 186 std::ostringstream message; << 187 message << "Invalid radii." << G4endl << 188 << "Invalid values for radii in so << 189 << " fRMin = " << fRMin << 190 << ", newRMax = " << newRMax << G4 << 191 << " Invalid outer radius!" << 192 G4Exception("G4Tubs::SetOuterRadius()", "G << 193 FatalException, message); << 194 } << 195 fRMax= newRMax; << 196 Initialize(); << 197 } 120 } 198 121 199 inline 122 inline 200 void G4Tubs::SetZHalfLength (G4double newDz) << 123 G4double G4Tubs::GetDz () const 201 { 124 { 202 if (newDz<=0) // Check z-len << 125 return GetZHalfLength() ; 203 { << 204 std::ostringstream message; << 205 message << "Invalid Z half-length." << G4e << 206 << "Negative Z half-length (" << n << 207 << GetName(); << 208 G4Exception("G4Tubs::SetZHalfLength()", "G << 209 FatalException, message); << 210 } << 211 fDz= newDz; << 212 Initialize(); << 213 } 126 } 214 127 215 inline 128 inline 216 void G4Tubs::SetStartPhiAngle (G4double newSPh << 129 G4double G4Tubs::GetSPhi () const 217 { 130 { 218 // Flag 'compute' can be used to explicitely << 131 return GetStartPhiAngle(); 219 // trigonometry in case SetDeltaPhiAngle() i << 220 << 221 CheckSPhiAngle(newSPhi); << 222 fPhiFullTube = false; << 223 if (compute) { InitializeTrigonometry(); } << 224 Initialize(); << 225 } 132 } 226 133 227 inline 134 inline 228 void G4Tubs::SetDeltaPhiAngle (G4double newDPh << 135 G4double G4Tubs::GetDPhi () const 229 { 136 { 230 CheckPhiAngles(fSPhi, newDPhi); << 137 return GetDeltaPhiAngle(); 231 Initialize(); << 232 } 138 } 233 139 234 inline 140 inline 235 G4double G4Tubs::GetCubicVolume() 141 G4double G4Tubs::GetCubicVolume() 236 { 142 { 237 if(fCubicVolume != 0.) {;} 143 if(fCubicVolume != 0.) {;} 238 else { fCubicVolume = fDPhi*fDz*(fRMax*fRM 144 else { fCubicVolume = fDPhi*fDz*(fRMax*fRMax-fRMin*fRMin); } 239 return fCubicVolume; 145 return fCubicVolume; 240 } << 241 << 242 inline << 243 G4double G4Tubs::GetSurfaceArea() << 244 { << 245 if(fSurfaceArea != 0.) {;} << 246 else << 247 { << 248 fSurfaceArea = fDPhi*(fRMin+fRMax)*(2*fDz+ << 249 if (!fPhiFullTube) << 250 { << 251 fSurfaceArea = fSurfaceArea + 4*fDz*(fRM << 252 } << 253 } << 254 return fSurfaceArea; << 255 } << 256 << 257 inline << 258 G4double G4Tubs::FastInverseRxy( const G4Three << 259 G4doubl << 260 G4doubl << 261 { << 262 G4double rho2 = sqr( pos.x() ) + sqr( pos.y( << 263 G4bool onSurface = std::fabs( rho2 * invRad << 264 G4double invRho = onSurface ? invRad : 1.0 / << 265 return invRho; << 266 } 146 } 267 147