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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: G4SafetyHelper.hh,v 1.7 2007/05/02 15:32:13 japost Exp $ >> 28 // GEANT4 tag $Name: geant4-09-03-patch-01 $ >> 29 // >> 30 // 26 // class G4SafetyHelper 31 // class G4SafetyHelper 27 // 32 // 28 // Class description: 33 // Class description: 29 // 34 // 30 // This class is a helper for physics processe 35 // This class is a helper for physics processes which require 31 // knowledge of the safety, and the step size 36 // knowledge of the safety, and the step size for the 'mass' geometry 32 37 33 // First version: J.Apostolakis, July 5th, 2 << 38 // First version: J. Apostolakis, July 5th, 2006 >> 39 // Modified: >> 40 // 10.04.07 V.Ivanchenko Use unique G4SafetyHelper 34 // ------------------------------------------- 41 // -------------------------------------------------------------------- >> 42 35 #ifndef G4SAFETYHELPER_HH 43 #ifndef G4SAFETYHELPER_HH 36 #define G4SAFETYHELPER_HH 1 44 #define G4SAFETYHELPER_HH 1 37 45 38 #include <vector> 46 #include <vector> 39 47 40 #include "G4Types.hh" 48 #include "G4Types.hh" 41 #include "G4ThreeVector.hh" 49 #include "G4ThreeVector.hh" 42 #include "G4Navigator.hh" 50 #include "G4Navigator.hh" 43 51 44 class G4PathFinder; 52 class G4PathFinder; 45 53 46 class G4SafetyHelper 54 class G4SafetyHelper 47 { 55 { 48 public: // with description << 56 public: // with description 49 << 50 G4SafetyHelper(); << 51 ~G4SafetyHelper(); << 52 // Constructor and destructor << 53 << 54 G4double CheckNextStep( const G4ThreeVecto << 55 const G4ThreeVecto << 56 const G4double cur << 57 G4double& ne << 58 // Return linear step for mass geometry << 59 << 60 G4double ComputeSafety( const G4ThreeVecto << 61 G4double maxRadius << 62 // Return safety for all geometries. << 63 // << 64 // The 2nd argument is the radius of you << 65 // displacement). Giving this you can re << 66 // cost. If the second argument is not g << 67 // isotropic safety << 68 << 69 void Locate(const G4ThreeVector& pGlobalPo << 70 const G4ThreeVector& direction << 71 // Locate the point for all geometries << 72 << 73 void ReLocateWithinVolume(const G4ThreeVec << 74 // Relocate the point in the volume of i << 75 << 76 inline void EnableParallelNavigation(G4boo << 77 // To have parallel worlds considered, << 78 // Alternative is to use single (mass) << 79 << 80 void InitialiseNavigator(); << 81 // Check for new navigator for tracking, << 82 << 83 inline G4int SetVerboseLevel( G4int lev ); << 84 inline G4VPhysicalVolume* GetWorldVolume() << 85 inline void SetCurrentSafety(G4double val, << 86 57 87 public: // without description << 58 G4SafetyHelper(); 88 << 59 ~G4SafetyHelper(); 89 void InitialiseHelper(); << 60 // 90 << 61 // Constructor and destructor 91 private: << 62 92 << 63 G4double CheckNextStep( const G4ThreeVector& position, 93 G4PathFinder* fpPathFinder = nullptr; << 64 const G4ThreeVector& direction, 94 G4Navigator* fpMassNavigator = nullptr; << 65 const G4double currentMaxStep, 95 << 66 G4double& newSafety ); 96 G4bool fUseParallelGeometries = false; << 67 // 97 // Flag whether to use PathFinder or sin << 68 // Return linear step for mass geometry 98 // By default, one geometry only << 69 99 G4bool fFirstCall = true; << 70 G4double ComputeSafety( const G4ThreeVector& pGlobalPoint ); 100 // Flag of first call << 71 // 101 G4int fVerbose = 0; << 72 // Return safety for all geometries 102 // Whether to print warning in case of m << 73 103 << 74 void Locate(const G4ThreeVector& pGlobalPoint, 104 // State used during tracking -- for optim << 75 const G4ThreeVector& direction); 105 << 76 // 106 G4ThreeVector fLastSafetyPosition; << 77 // Locate the point for all geometries 107 G4double fLastSafety = 0.0; << 78 108 << 79 void ReLocateWithinVolume(const G4ThreeVector& pGlobalPoint ); 109 // const G4double fRecomputeFactor = 0.0; << 80 // >> 81 // Relocate the point in the volume of interest >> 82 >> 83 inline void EnableParallelNavigation(G4bool parallel); >> 84 // >> 85 // To have parallel worlds considered, must be true. >> 86 // Alternative is to use single (mass) Navigator directly >> 87 >> 88 void InitialiseNavigator(); >> 89 // >> 90 // Check for new navigator for tracking, and reinitialise pointer >> 91 >> 92 inline G4VPhysicalVolume* GetWorldVolume(); >> 93 inline void SetCurrentSafety(G4double val, const G4ThreeVector& pos); >> 94 >> 95 public: // without description >> 96 >> 97 void InitialiseHelper(); >> 98 >> 99 private: >> 100 >> 101 G4PathFinder* fpPathFinder; >> 102 G4Navigator* fpMassNavigator; >> 103 G4int fMassNavigatorId; >> 104 >> 105 G4bool fUseParallelGeometries; >> 106 // Flag whether to use PathFinder or single (mass) Navigator directly >> 107 G4bool fFirstCall; >> 108 // Flag of first call >> 109 >> 110 // State used during tracking -- for optimisation >> 111 G4ThreeVector fLastSafetyPosition; >> 112 G4double fLastSafety; >> 113 const G4double fRecomputeFactor; 110 // parameter for further optimisation: 114 // parameter for further optimisation: 111 // if ( move < fact*safety ) do fast r 115 // if ( move < fact*safety ) do fast recomputation of safety 112 << 116 // End State (tracking) 113 // End State (tracking) << 114 }; 117 }; 115 118 116 // ------------------------------------------- << 117 // Inline definitions 119 // Inline definitions 118 // ------------------------------------------- << 119 << 120 inline G4int G4SafetyHelper::SetVerboseLevel( << 121 { << 122 G4int oldlv = fVerbose; << 123 fVerbose = lev; << 124 return oldlv; << 125 } << 126 120 127 inline 121 inline 128 void G4SafetyHelper::EnableParallelNavigation( 122 void G4SafetyHelper::EnableParallelNavigation(G4bool parallel) 129 { 123 { 130 fUseParallelGeometries = parallel; 124 fUseParallelGeometries = parallel; 131 } 125 } 132 126 133 inline 127 inline 134 G4VPhysicalVolume* G4SafetyHelper::GetWorldVol 128 G4VPhysicalVolume* G4SafetyHelper::GetWorldVolume() 135 { 129 { 136 return fpMassNavigator->GetWorldVolume(); 130 return fpMassNavigator->GetWorldVolume(); 137 } 131 } 138 132 139 inline 133 inline 140 void G4SafetyHelper::SetCurrentSafety(G4double 134 void G4SafetyHelper::SetCurrentSafety(G4double val, const G4ThreeVector& pos) 141 { 135 { 142 fLastSafety = val; 136 fLastSafety = val; 143 fLastSafetyPosition = pos; 137 fLastSafetyPosition = pos; 144 } 138 } 145 139 146 #endif 140 #endif 147 141