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 // Class G4VIntersectionLocator inline methods 26 // Class G4VIntersectionLocator inline methods 27 // 27 // 28 // 27.10.07 - John Apostolakis, Tatiana Nikiti 28 // 27.10.07 - John Apostolakis, Tatiana Nikitina 29 // ------------------------------------------- 29 // --------------------------------------------------------------------------- 30 30 31 inline G4double G4VIntersectionLocator::GetDel 31 inline G4double G4VIntersectionLocator::GetDeltaIntersectionFor() 32 { 32 { 33 return fiDeltaIntersection; 33 return fiDeltaIntersection; 34 } 34 } 35 35 36 inline G4double G4VIntersectionLocator::GetEps 36 inline G4double G4VIntersectionLocator::GetEpsilonStepFor() 37 { 37 { 38 return fiEpsilonStep; 38 return fiEpsilonStep; 39 } 39 } 40 40 41 inline G4Navigator* G4VIntersectionLocator::Ge 41 inline G4Navigator* G4VIntersectionLocator::GetNavigatorFor() 42 { 42 { 43 return fiNavigator; 43 return fiNavigator; 44 } 44 } 45 45 46 inline G4ChordFinder* G4VIntersectionLocator:: 46 inline G4ChordFinder* G4VIntersectionLocator::GetChordFinderFor() 47 { 47 { 48 return fiChordFinder; 48 return fiChordFinder; 49 } 49 } 50 50 51 inline G4int G4VIntersectionLocator::GetVerbos 51 inline G4int G4VIntersectionLocator::GetVerboseFor() 52 { 52 { 53 return fVerboseLevel; 53 return fVerboseLevel; 54 } 54 } 55 55 56 inline G4bool G4VIntersectionLocator::GetAdjus 56 inline G4bool G4VIntersectionLocator::GetAdjustementOfFoundIntersection() 57 { 57 { 58 return fUseNormalCorrection; 58 return fUseNormalCorrection; 59 } 59 } 60 60 61 inline void G4VIntersectionLocator:: 61 inline void G4VIntersectionLocator:: 62 AddAdjustementOfFoundIntersection(G4bool UseCo 62 AddAdjustementOfFoundIntersection(G4bool UseCorrection ) 63 { 63 { 64 fUseNormalCorrection = UseCorrection; 64 fUseNormalCorrection = UseCorrection; 65 } 65 } 66 66 67 inline void G4VIntersectionLocator::SetEpsilon 67 inline void G4VIntersectionLocator::SetEpsilonStepFor( G4double EpsilonStep ) 68 { 68 { 69 fiEpsilonStep = EpsilonStep; 69 fiEpsilonStep = EpsilonStep; 70 } 70 } 71 71 72 inline void G4VIntersectionLocator:: 72 inline void G4VIntersectionLocator:: 73 SetDeltaIntersectionFor( G4double deltaInterse 73 SetDeltaIntersectionFor( G4double deltaIntersection ) 74 { 74 { 75 fiDeltaIntersection = deltaIntersection; 75 fiDeltaIntersection = deltaIntersection; 76 } 76 } 77 77 78 inline void G4VIntersectionLocator::SetNavigat 78 inline void G4VIntersectionLocator::SetNavigatorFor( G4Navigator* fNavigator ) 79 { 79 { 80 fiNavigator = fNavigator; 80 fiNavigator = fNavigator; 81 } 81 } 82 82 83 inline void G4VIntersectionLocator::SetChordFi 83 inline void G4VIntersectionLocator::SetChordFinderFor(G4ChordFinder* fCFinder ) 84 { 84 { 85 fiChordFinder = fCFinder; 85 fiChordFinder = fCFinder; 86 } 86 } 87 87 88 inline void G4VIntersectionLocator::SetSafetyP 88 inline void G4VIntersectionLocator::SetSafetyParametersFor(G4bool UseSafety ) 89 { 89 { 90 fiUseSafety = UseSafety; 90 fiUseSafety = UseSafety; 91 } 91 } 92 92 93 inline void G4VIntersectionLocator::SetVerbose 93 inline void G4VIntersectionLocator::SetVerboseFor(G4int fVerbose) 94 { 94 { 95 fVerboseLevel = fVerbose; 95 fVerboseLevel = fVerbose; 96 } 96 } 97 97 98 inline G4bool 98 inline G4bool 99 G4VIntersectionLocator::IntersectChord( const 99 G4VIntersectionLocator::IntersectChord( const G4ThreeVector& StartPointA, 100 const 100 const G4ThreeVector& EndPointB, 101 G4doub 101 G4double& NewSafety, 102 G4doub 102 G4double& PreviousSafety, 103 G4Thre 103 G4ThreeVector& PreviousSftOrigin, 104 G4doub 104 G4double& LinearStepLength, 105 G4Thre 105 G4ThreeVector& IntersectionPoint, 106 G4bool 106 G4bool* ptrCalledNavigator ) 107 { 107 { 108 G4bool CalledNavigator = false; 108 G4bool CalledNavigator = false; 109 109 110 // Calculate the direction and length of the 110 // Calculate the direction and length of the chord AB 111 111 112 G4ThreeVector ChordAB_Vector = EndPointB - 112 G4ThreeVector ChordAB_Vector = EndPointB - StartPointA; 113 G4double ChordAB_Length = ChordAB_Vect 113 G4double ChordAB_Length = ChordAB_Vector.mag(); // Magnitude (norm) 114 G4ThreeVector ChordAB_Dir = ChordAB_Vector. 114 G4ThreeVector ChordAB_Dir = ChordAB_Vector.unit(); 115 G4bool intersects; 115 G4bool intersects; 116 G4ThreeVector OriginShift = StartPointA - Pr 116 G4ThreeVector OriginShift = StartPointA - PreviousSftOrigin ; 117 G4double MagSqShift = OriginShift.mag2() ; 117 G4double MagSqShift = OriginShift.mag2() ; 118 G4double currentSafety; 118 G4double currentSafety; 119 119 120 if( MagSqShift >= sqr(PreviousSafety) ) 120 if( MagSqShift >= sqr(PreviousSafety) ) 121 { 121 { 122 currentSafety = 0.0 ; 122 currentSafety = 0.0 ; 123 } 123 } 124 else 124 else 125 { 125 { 126 currentSafety = PreviousSafety - std::sqrt 126 currentSafety = PreviousSafety - std::sqrt(MagSqShift) ; 127 } 127 } 128 128 129 if( fiUseSafety && (ChordAB_Length <= curren 129 if( fiUseSafety && (ChordAB_Length <= currentSafety) ) 130 { 130 { 131 // The Step is guaranteed to be taken 131 // The Step is guaranteed to be taken 132 132 133 LinearStepLength = ChordAB_Length; 133 LinearStepLength = ChordAB_Length; 134 intersects = false; 134 intersects = false; 135 NewSafety = currentSafety; 135 NewSafety = currentSafety; 136 CalledNavigator = false; 136 CalledNavigator = false; 137 } 137 } 138 else 138 else 139 { 139 { 140 // Check whether any volumes are encounter 140 // Check whether any volumes are encountered by the chord AB 141 141 142 LinearStepLength = GetNavigatorFor()->Comp 142 LinearStepLength = GetNavigatorFor()->ComputeStep( StartPointA, 143 ChordAB_Dir, 143 ChordAB_Dir, ChordAB_Length, NewSafety ); 144 intersects = (LinearStepLength <= ChordAB_ 144 intersects = (LinearStepLength <= ChordAB_Length); 145 // G4Navigator contracts to return k_in 145 // G4Navigator contracts to return k_infinity if len==asked 146 // and it did not find a surface bounda 146 // and it did not find a surface boundary at that length 147 147 148 LinearStepLength = std::min( LinearStepLen 148 LinearStepLength = std::min( LinearStepLength, ChordAB_Length); 149 CalledNavigator = true; 149 CalledNavigator = true; 150 150 151 // Save the last calculated safety! 151 // Save the last calculated safety! 152 152 153 PreviousSftOrigin = StartPointA; 153 PreviousSftOrigin = StartPointA; 154 PreviousSafety = NewSafety; 154 PreviousSafety = NewSafety; 155 155 156 if( intersects ) 156 if( intersects ) 157 { 157 { 158 // Intersection Point of chord AB and e 158 // Intersection Point of chord AB and either volume A's surface 159 // or a 159 // or a daughter volume's surface .. 160 IntersectionPoint = StartPointA + Linea 160 IntersectionPoint = StartPointA + LinearStepLength * ChordAB_Dir; 161 } 161 } 162 } 162 } 163 if( ptrCalledNavigator != nullptr ) 163 if( ptrCalledNavigator != nullptr ) 164 { 164 { 165 *ptrCalledNavigator = CalledNavigator; 165 *ptrCalledNavigator = CalledNavigator; 166 } 166 } 167 167 168 return intersects; 168 return intersects; 169 } 169 } 170 170