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Geant4/geometry/magneticfield/src/G4NystromRK4.cc

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Differences between /geometry/magneticfield/src/G4NystromRK4.cc (Version 11.3.0) and /geometry/magneticfield/src/G4NystromRK4.cc (Version 9.2.p1)


  1 //                                                  1 
  2 // *******************************************    
  3 // * License and Disclaimer                       
  4 // *                                              
  5 // * The  Geant4 software  is  copyright of th    
  6 // * the Geant4 Collaboration.  It is provided    
  7 // * conditions of the Geant4 Software License    
  8 // * LICENSE and available at  http://cern.ch/    
  9 // * include a list of copyright holders.         
 10 // *                                              
 11 // * Neither the authors of this software syst    
 12 // * institutes,nor the agencies providing fin    
 13 // * work  make  any representation or  warran    
 14 // * regarding  this  software system or assum    
 15 // * use.  Please see the license in the file     
 16 // * for the full disclaimer and the limitatio    
 17 // *                                              
 18 // * This  code  implementation is the result     
 19 // * technical work of the GEANT4 collaboratio    
 20 // * By using,  copying,  modifying or  distri    
 21 // * any work based  on the software)  you  ag    
 22 // * use  in  resulting  scientific  publicati    
 23 // * acceptance of all terms of the Geant4 Sof    
 24 // *******************************************    
 25 //                                                
 26 // G4NystromRK4 implmentation                     
 27 //                                                
 28 // Created: I.Gavrilenko, 15.05.2009 (as G4Atl    
 29 // Adaptations: J.Apostolakis, November 2009      
 30 // -------------------------------------------    
 31                                                   
 32 #include <memory>                                 
 33                                                   
 34 #include "G4NystromRK4.hh"                        
 35                                                   
 36 #include "G4Exception.hh"                         
 37 #include "G4SystemOfUnits.hh"                     
 38 #include "G4FieldUtils.hh"                        
 39 #include "G4LineSection.hh"                       
 40                                                   
 41 using namespace field_utils;                      
 42                                                   
 43 namespace                                         
 44 {                                                 
 45     G4bool notEquals(G4double p1, G4double p2)    
 46     {                                             
 47       return std::fabs(p1 - p2) > perMillion *    
 48     }                                             
 49     constexpr G4int INTEGRATED_COMPONENTS = 6;    
 50 } // namespace                                    
 51                                                   
 52                                                   
 53 G4NystromRK4::G4NystromRK4(G4Mag_EqRhs* equati    
 54   : G4MagIntegratorStepper(equation, INTEGRATE    
 55 {                                                 
 56     if (distanceConstField > 0)                   
 57     {                                             
 58         SetDistanceForConstantField(distanceCo    
 59     }                                             
 60 }                                                 
 61                                                   
 62 void G4NystromRK4::Stepper(const G4double y[],    
 63                            const G4double dydx    
 64                            G4double hstep,        
 65                            G4double yOut[],       
 66                            G4double yError[])     
 67 {                                                 
 68     fInitialPoint = { y[0], y[1], y[2] };         
 69                                                   
 70     G4double field[3];                            
 71                                                   
 72     constexpr G4double one_sixth= 1./6.;          
 73     const G4double S5 = 0.5 * hstep;              
 74     const G4double S4 = .25 * hstep;              
 75     const G4double S6 = hstep * one_sixth;        
 76                                                   
 77     const G4double momentum2 = getValue2(y, Va    
 78     if (notEquals(momentum2, fMomentum2))         
 79     {                                             
 80         fMomentum = std::sqrt(momentum2);         
 81         fMomentum2 = momentum2;                   
 82         fInverseMomentum  = 1. / fMomentum;       
 83         fCoefficient = GetFCof() * fInverseMom    
 84     }                                             
 85                                                   
 86     // Point 1                                    
 87     const G4double K1[3] = {                      
 88         fInverseMomentum * dydx[3],               
 89         fInverseMomentum * dydx[4],               
 90         fInverseMomentum * dydx[5]                
 91     };                                            
 92                                                   
 93     // Point2                                     
 94     G4double p[4] = {                             
 95         y[0] + S5 * (dydx[0] + S4 * K1[0]),       
 96         y[1] + S5 * (dydx[1] + S4 * K1[1]),       
 97         y[2] + S5 * (dydx[2] + S4 * K1[2]),       
 98         y[7]                                      
 99     };                                            
100                                                   
101     GetFieldValue(p, field);                      
102                                                   
103     const G4double A2[3] = {                      
104         dydx[0] + S5 * K1[0],                     
105         dydx[1] + S5 * K1[1],                     
106         dydx[2] + S5 * K1[2]                      
107     };                                            
108                                                   
109     const G4double K2[3] = {                      
110         (A2[1] * field[2] - A2[2] * field[1])     
111         (A2[2] * field[0] - A2[0] * field[2])     
112         (A2[0] * field[1] - A2[1] * field[0])     
113     };                                            
114                                                   
115     fMidPoint = { p[0], p[1], p[2] };             
116                                                   
117     // Point 3 with the same magnetic field       
118     const G4double A3[3] = {                      
119         dydx[0] + S5 * K2[0],                     
120         dydx[1] + S5 * K2[1],                     
121         dydx[2] + S5 * K2[2]                      
122     };                                            
123                                                   
124     const G4double K3[3] = {                      
125         (A3[1] * field[2] - A3[2] * field[1])     
126         (A3[2] * field[0] - A3[0] * field[2])     
127         (A3[0] * field[1] - A3[1] * field[0])     
128     };                                            
129                                                   
130     // Point 4                                    
131     p[0] = y[0] + hstep * (dydx[0] + S5 * K3[0    
132     p[1] = y[1] + hstep * (dydx[1] + S5 * K3[1    
133     p[2] = y[2] + hstep * (dydx[2] + S5 * K3[2    
134                                                   
135     GetFieldValue(p, field);                      
136                                                   
137     const G4double A4[3] = {                      
138         dydx[0] + hstep * K3[0],                  
139         dydx[1] + hstep * K3[1],                  
140         dydx[2] + hstep * K3[2]                   
141     };                                            
142                                                   
143     const G4double K4[3] = {                      
144         (A4[1] * field[2] - A4[2] * field[1])     
145         (A4[2] * field[0] - A4[0] * field[2])     
146         (A4[0] * field[1] - A4[1] * field[0])     
147     };                                            
148                                                   
149     // New position                               
150     yOut[0] = y[0] + hstep * (dydx[0] + S6 * (    
151     yOut[1] = y[1] + hstep * (dydx[1] + S6 * (    
152     yOut[2] = y[2] + hstep * (dydx[2] + S6 * (    
153     // New direction                              
154     yOut[3] = dydx[0] + S6 * (K1[0] + K4[0] +     
155     yOut[4] = dydx[1] + S6 * (K1[1] + K4[1] +     
156     yOut[5] = dydx[2] + S6 * (K1[2] + K4[2] +     
157     // Pass Energy, time unchanged -- time is     
158     yOut[6] = y[6];                               
159     yOut[7] = y[7];                               
160                                                   
161     fEndPoint = { yOut[0], yOut[1], yOut[2] };    
162                                                   
163     // Errors                                     
164     yError[3] = hstep * std::fabs(K1[0] - K2[0    
165     yError[4] = hstep * std::fabs(K1[1] - K2[1    
166     yError[5] = hstep * std::fabs(K1[2] - K2[2    
167     yError[0] = hstep * yError[3];                
168     yError[1] = hstep * yError[4];                
169     yError[2] = hstep * yError[5];                
170     yError[3] *= fMomentum;                       
171     yError[4] *= fMomentum;                       
172     yError[5] *= fMomentum;                       
173                                                   
174     // Normalize momentum                         
175     const G4double normF = fMomentum / getValu    
176     yOut[3] *= normF;                             
177     yOut[4] *= normF;                             
178     yOut[5] *= normF;                             
179                                                   
180     // My trial code:                             
181     // G4double endMom2 = yOut[3]*yOut[3]+yOut    
182     // G4double normF = std::sqrt( startMom2 /    
183 }                                                 
184                                                   
185 G4double G4NystromRK4::DistChord() const          
186 {                                                 
187     return G4LineSection::Distline(fMidPoint,     
188 }                                                 
189                                                   
190 void G4NystromRK4::SetDistanceForConstantField    
191 {                                                 
192   if (GetField() == nullptr)                      
193   {                                               
194     G4Exception("G4NystromRK4::SetDistanceForC    
195                 "Nystrom 001", JustWarning,       
196         "Provided field is not G4CachedMagneti    
197                                                   
198     fCachedField = std::make_unique<G4CachedMa    
199            dynamic_cast<G4MagneticField*>(GetE    
200            length);                               
201                                                   
202     GetEquationOfMotion()->SetFieldObj(fCached    
203   }                                               
204   GetField()->SetConstDistance(length);           
205 }                                                 
206                                                   
207 G4double G4NystromRK4::GetDistanceForConstantF    
208 {                                                 
209   if (GetField() == nullptr)                      
210   {                                               
211     return 0.0;                                   
212   }                                               
213   return GetField()->GetConstDistance();          
214 }                                                 
215                                                   
216 G4CachedMagneticField* G4NystromRK4::GetField(    
217 {                                                 
218   return dynamic_cast<G4CachedMagneticField*>(    
219 }                                                 
220                                                   
221 const G4CachedMagneticField* G4NystromRK4::Get    
222 {                                                 
223   return const_cast<G4NystromRK4*>(this)->GetF    
224 }                                                 
225