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25 // 25 //
26 // 26 //
27 // 27 //
28 // 28 //
29 // class G4ITMultiNavigator 29 // class G4ITMultiNavigator
30 // 30 //
31 // Class description: 31 // Class description:
32 // 32 //
33 // Utility class for polling the navigators of 33 // Utility class for polling the navigators of several geometries to
34 // identify the next boundary. 34 // identify the next boundary.
35 35
36 /// \brief { Class description: 36 /// \brief { Class description:
37 /// 37 ///
38 /// G4ITMultiNavigator is a duplicate version 38 /// G4ITMultiNavigator is a duplicate version of G4MultiNavigator
39 /// 39 ///
40 /// Utility class for polling the navigators o 40 /// Utility class for polling the navigators of several geometries to
41 /// identify the next boundary. 41 /// identify the next boundary.
42 /// 42 ///
43 /// } 43 /// }
44 44
45 // History: 45 // History:
46 // - Created. John Apostolakis, November 2006 46 // - Created. John Apostolakis, November 2006
47 // ******************************************* 47 // *********************************************************************
48 48
49 #ifndef G4ITMULTINAVIGATOR_HH 49 #ifndef G4ITMULTINAVIGATOR_HH
50 #define G4ITMULTINAVIGATOR_HH 50 #define G4ITMULTINAVIGATOR_HH
51 51
52 #include <iostream> 52 #include <iostream>
53 53
54 #include "geomdefs.hh" 54 #include "geomdefs.hh"
55 #include "G4ThreeVector.hh" 55 #include "G4ThreeVector.hh"
56 #include "G4ITNavigator.hh" 56 #include "G4ITNavigator.hh"
57 57
58 #include "G4TouchableHandle.hh" << 58 #include "G4TouchableHistoryHandle.hh"
59 59
60 #include "G4NavigationHistory.hh" 60 #include "G4NavigationHistory.hh"
61 #include "G4TrackState.hh" 61 #include "G4TrackState.hh"
62 #include "G4MultiNavigator.hh" 62 #include "G4MultiNavigator.hh"
63 63
64 namespace G4ITMN 64 namespace G4ITMN
65 { 65 {
66 enum ELimited 66 enum ELimited
67 { 67 {
68 kDoNot, 68 kDoNot,
69 kUnique, 69 kUnique,
70 kSharedTransport, 70 kSharedTransport,
71 kSharedOther, 71 kSharedOther,
72 kUndefLimited 72 kUndefLimited
73 }; 73 };
74 } 74 }
75 class G4ITTransportationManager; 75 class G4ITTransportationManager;
76 class G4VPhysicalVolume; 76 class G4VPhysicalVolume;
77 77
78 class G4ITMultiNavigator; 78 class G4ITMultiNavigator;
79 79
80 // Global state (retained during stepping for 80 // Global state (retained during stepping for one track
81 template<> 81 template<>
82 class G4TrackState<G4ITMultiNavigator> : pub 82 class G4TrackState<G4ITMultiNavigator> : public G4TrackState<G4ITNavigator>
83 { 83 {
84 public: 84 public:
85 ~G4TrackState() override << 85 ~G4TrackState()
86 = default; << 86 {
>> 87 }
87 88
88 G4TrackState() 89 G4TrackState()
89 { 90 {
90 G4ThreeVector Big3Vector(kInfinity, kInf 91 G4ThreeVector Big3Vector(kInfinity, kInfinity, kInfinity);
91 fLastLocatedPosition = Big3Vector; 92 fLastLocatedPosition = Big3Vector;
92 fSafetyLocation = Big3Vector; 93 fSafetyLocation = Big3Vector;
93 fPreStepLocation = Big3Vector; 94 fPreStepLocation = Big3Vector;
94 95
95 fMinSafety_PreStepPt = -1.0; 96 fMinSafety_PreStepPt = -1.0;
96 fMinSafety_atSafLocation = -1.0; 97 fMinSafety_atSafLocation = -1.0;
97 fMinSafety = -kInfinity; 98 fMinSafety = -kInfinity;
98 fTrueMinStep = fMinStep = -kInfinity; 99 fTrueMinStep = fMinStep = -kInfinity;
99 100
100 for (G4int num = 0; num < G4ITNavigator: 101 for (G4int num = 0; num < G4ITNavigator::fMaxNav; ++num)
101 { 102 {
102 fLimitTruth[num] = false; 103 fLimitTruth[num] = false;
103 fLimitedStep[num] = kUndefLimited; 104 fLimitedStep[num] = kUndefLimited;
104 fCurrentStepSize[num] = fNewSafety[num 105 fCurrentStepSize[num] = fNewSafety[num] = -1.0;
105 fLocatedVolume[num] = nullptr; << 106 fLocatedVolume[num] = 0;
106 } 107 }
107 108
108 fNoLimitingStep = -1; // How many geomet 109 fNoLimitingStep = -1; // How many geometries limited the step
109 fIdNavLimiting = -1; // Id of Navigator 110 fIdNavLimiting = -1; // Id of Navigator limiting step (if only one limits)
110 fWasLimitedByGeometry = false; 111 fWasLimitedByGeometry = false;
111 } 112 }
112 ; 113 ;
113 114
114 protected: 115 protected:
115 friend class G4ITMultiNavigator; 116 friend class G4ITMultiNavigator;
116 // State after a step computation 117 // State after a step computation
117 ELimited fLimitedStep[G4ITNavigator::fMaxN 118 ELimited fLimitedStep[G4ITNavigator::fMaxNav];
118 G4bool fLimitTruth[G4ITNavigator::fMaxNav] 119 G4bool fLimitTruth[G4ITNavigator::fMaxNav];
119 G4double fCurrentStepSize[G4ITNavigator::f 120 G4double fCurrentStepSize[G4ITNavigator::fMaxNav];
120 G4double fNewSafety[G4ITNavigator::fMaxNav 121 G4double fNewSafety[G4ITNavigator::fMaxNav]; // Safety for starting point
121 G4int fNoLimitingStep; // How many geometr 122 G4int fNoLimitingStep; // How many geometries limited the step
122 G4int fIdNavLimiting; // Id of Navigator l 123 G4int fIdNavLimiting; // Id of Navigator limiting step (if only one limits)
123 124
124 G4bool fWasLimitedByGeometry; 125 G4bool fWasLimitedByGeometry;
125 126
126 // Lowest values - determine step length, 127 // Lowest values - determine step length, and safety
127 G4double fMinStep; // As reported by Navig 128 G4double fMinStep; // As reported by Navigators. Can be kInfinity
128 G4double fMinSafety; 129 G4double fMinSafety;
129 G4double fTrueMinStep; // Corrected in cas 130 G4double fTrueMinStep; // Corrected in case fMinStep >= proposed
130 131
131 // State after calling 'locate' 132 // State after calling 'locate'
132 G4VPhysicalVolume* fLocatedVolume[G4ITNavi 133 G4VPhysicalVolume* fLocatedVolume[G4ITNavigator::fMaxNav];
133 G4ThreeVector fLastLocatedPosition; 134 G4ThreeVector fLastLocatedPosition;
134 135
135 // cache of safety information 136 // cache of safety information
136 G4ThreeVector fSafetyLocation; // point w 137 G4ThreeVector fSafetyLocation; // point where ComputeSafety is called
137 G4double fMinSafety_atSafLocation; // /\ c 138 G4double fMinSafety_atSafLocation; // /\ corresponding value of safety
138 G4ThreeVector fPreStepLocation; // point 139 G4ThreeVector fPreStepLocation; // point where last ComputeStep called
139 G4double fMinSafety_PreStepPt; // /\ cor 140 G4double fMinSafety_PreStepPt; // /\ corresponding value of safety
140 }; 141 };
141 142
142 class G4ITMultiNavigator : public G4ITNavigato 143 class G4ITMultiNavigator : public G4ITNavigator,
143 public G4TrackState 144 public G4TrackStateDependent<G4ITMultiNavigator>
144 { 145 {
145 public: 146 public:
146 // with description 147 // with description
147 148
148 friend std::ostream& operator <<(std::ostrea 149 friend std::ostream& operator <<(std::ostream &os, const G4ITNavigator &n);
149 150
150 G4ITMultiNavigator(); 151 G4ITMultiNavigator();
151 // Constructor - initialisers and setup. 152 // Constructor - initialisers and setup.
152 153
153 ~G4ITMultiNavigator() override; << 154 ~G4ITMultiNavigator();
154 // Destructor. No actions. 155 // Destructor. No actions.
155 156
156 G4double ComputeStep(const G4ThreeVector &pG 157 G4double ComputeStep(const G4ThreeVector &pGlobalPoint,
157 const G4ThreeVector &pD 158 const G4ThreeVector &pDirection,
158 const G4double pCurrent 159 const G4double pCurrentProposedStepLength,
159 G4double &pNewSafety) o << 160 G4double &pNewSafety);
160 // Return the distance to the next boundary 161 // Return the distance to the next boundary of any geometry
161 162
162 G4double ObtainFinalStep(G4int navigatorId, 163 G4double ObtainFinalStep(G4int navigatorId, G4double &pNewSafety, // for this geom
163 G4double &minStepLa 164 G4double &minStepLast,
164 ELimited &limitedSt 165 ELimited &limitedStep);
165 // Get values for a single geometry 166 // Get values for a single geometry
166 167
167 void PrepareNavigators(); 168 void PrepareNavigators();
168 // Find which geometries are registered for 169 // Find which geometries are registered for this particles, and keep info
169 void PrepareNewTrack(const G4ThreeVector pos 170 void PrepareNewTrack(const G4ThreeVector position,
170 const G4ThreeVector dir 171 const G4ThreeVector direction);
171 // Prepare Navigators and locate 172 // Prepare Navigators and locate
172 173
173 G4VPhysicalVolume* ResetHierarchyAndLocate(c 174 G4VPhysicalVolume* ResetHierarchyAndLocate(const G4ThreeVector &point,
174 c 175 const G4ThreeVector &direction,
175 c << 176 const G4TouchableHistory &h);
176 // Reset the geometrical hierarchy for all g 177 // Reset the geometrical hierarchy for all geometries.
177 // Use the touchable history for the first ( 178 // Use the touchable history for the first (mass) geometry.
178 // Return the volume in the first (mass) geo 179 // Return the volume in the first (mass) geometry.
179 // 180 //
180 // Important Note: In order to call this the 181 // Important Note: In order to call this the geometries MUST be closed.
181 182
182 G4VPhysicalVolume* LocateGlobalPointAndSetup 183 G4VPhysicalVolume* LocateGlobalPointAndSetup(const G4ThreeVector& point,
183 184 const G4ThreeVector* direction =
184 << 185 0,
185 186 const G4bool pRelativeSearch =
186 187 true,
187 188 const G4bool ignoreDirection =
188 << 189 true);
189 // Locate in all geometries. 190 // Locate in all geometries.
190 // Return the volume in the first (mass) geo 191 // Return the volume in the first (mass) geometry
191 // Maintain vector of other volumes, to be 192 // Maintain vector of other volumes, to be returned separately
192 // 193 //
193 // Important Note: In order to call this the 194 // Important Note: In order to call this the geometry MUST be closed.
194 195
195 void LocateGlobalPointWithinVolume(const G4T << 196 void LocateGlobalPointWithinVolume(const G4ThreeVector& position);
196 // Relocate in all geometries for point that 197 // Relocate in all geometries for point that has not changed volume
197 // (ie is within safety in all geometries o 198 // (ie is within safety in all geometries or is distance less that
198 // along the direction of a computed step. 199 // along the direction of a computed step.
199 200
200 G4double ComputeSafety(const G4ThreeVector & 201 G4double ComputeSafety(const G4ThreeVector &globalpoint,
201 const G4double pPropo 202 const G4double pProposedMaxLength = DBL_MAX,
202 const G4bool keepStat << 203 const G4bool keepState = false);
203 // Calculate the isot 204 // Calculate the isotropic distance to the nearest boundary
204 // in any geometry fr 205 // in any geometry from the specified point in the global coordinate
205 // system. The geomet 206 // system. The geometry must be closed.
206 207
207 G4TouchableHandle CreateTouchableHistoryHand << 208 G4TouchableHistoryHandle CreateTouchableHistoryHandle() const;
208 // Returns a reference counted handle to a t 209 // Returns a reference counted handle to a touchable history.
209 210
210 G4ThreeVector GetLocalExitNormal(G4bool* obt << 211 virtual G4ThreeVector GetLocalExitNormal(G4bool* obtained);// const
211 G4ThreeVector GetLocalExitNormalAndCheck(con << 212 virtual G4ThreeVector GetLocalExitNormalAndCheck(const G4ThreeVector &CurrentE_Point,
212 G4bool* obtained) override;// const << 213 G4bool* obtained);// const
213 G4ThreeVector GetGlobalExitNormal(const G4Th << 214 virtual G4ThreeVector GetGlobalExitNormal(const G4ThreeVector &CurrentE_Point,
214 G4bool* obtained) override;// const << 215 G4bool* obtained);// const
215 // Return Exit Surface Normal and validity t 216 // Return Exit Surface Normal and validity too.
216 // Can only be called if the Navigator's las 217 // Can only be called if the Navigator's last Step either
217 // - has just crossed a volume geometrical 218 // - has just crossed a volume geometrical boundary and relocated, or
218 // - has arrived at a boundary in a Compute 219 // - has arrived at a boundary in a ComputeStep
219 // It returns the Normal to the surface poin 220 // It returns the Normal to the surface pointing out of the volume that
220 // was left behind and/or into the volume 221 // was left behind and/or into the volume that was entered.
221 // Convention:x 222 // Convention:x
222 // The *local* normal is in the coordinate 223 // The *local* normal is in the coordinate system of the *final* volume.
223 // Restriction: 224 // Restriction:
224 // Normals are not available for replica v 225 // Normals are not available for replica volumes (returns obtained= false)
225 226
226 public:// without description 227 public:// without description
227 228
228 G4ITNavigator* GetNavigator(G4int n) const 229 G4ITNavigator* GetNavigator(G4int n) const
229 { 230 {
230 if( (n>fNoActiveNavigators)||(n<0)) 231 if( (n>fNoActiveNavigators)||(n<0))
231 { n=0;} 232 { n=0;}
232 return fpNavigator[n]; 233 return fpNavigator[n];
233 } 234 }
234 235
235 protected: // with description 236 protected: // with description
236 237
237 void ResetState() override; << 238 void ResetState();
238 // Utility method to reset the navigator sta 239 // Utility method to reset the navigator state machine.
239 240
240 void SetupHierarchy() override; << 241 void SetupHierarchy();
241 // Renavigate & reset hierarchy described by 242 // Renavigate & reset hierarchy described by current history
242 // o Reset volumes 243 // o Reset volumes
243 // o Recompute transforms and/or solids of r 244 // o Recompute transforms and/or solids of replicated/parameterised
244 // volumes. 245 // volumes.
245 246
246 void WhichLimited();// Flag which processes 247 void WhichLimited();// Flag which processes limited the step
247 void PrintLimited();// Auxiliary, debugging 248 void PrintLimited();// Auxiliary, debugging printing
248 void CheckMassWorld(); 249 void CheckMassWorld();
249 250
250 private: 251 private:
251 252
252 G4int fNoActiveNavigators; 253 G4int fNoActiveNavigators;
253 G4VPhysicalVolume* fLastMassWorld{nullptr}; << 254 G4VPhysicalVolume* fLastMassWorld;
254 255
255 G4ITNavigator* fpNavigator[fMaxNav];// G4ITN 256 G4ITNavigator* fpNavigator[fMaxNav];// G4ITNavigator** fpNavigator;
256 257
257 G4ITTransportationManager* pTransportManager 258 G4ITTransportationManager* pTransportManager;// Cache for frequent use
258 }; 259 };
259 260
260 #endif 261 #endif
261 262