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Geant4/externals/clhep/src/SpaceVector.cc

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Differences between /externals/clhep/src/SpaceVector.cc (Version 11.3.0) and /externals/clhep/src/SpaceVector.cc (Version ReleaseNotes)


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  1 // -*- C++ -*-                                      1 
  2 // -------------------------------------------    
  3 //                                                
  4 // This file is a part of the CLHEP - a Class     
  5 //                                                
  6 // SpaceVector                                    
  7 //                                                
  8 // This is the implementation of those methods    
  9 // originated from the ZOOM SpaceVector class.    
 10 // have been separated off into the following     
 11 //                                                
 12 // SpaceVectorR.cc  All methods involving rota    
 13 // SpaceVectorD.cc  All methods involving angl    
 14 // SpaceVectorP.cc  Intrinsic properties and m    
 15 //                                                
 16                                                   
 17 #include "CLHEP/Vector/ThreeVector.h"             
 18 #include "CLHEP/Units/PhysicalConstants.h"        
 19                                                   
 20 #include <cmath>                                  
 21                                                   
 22 namespace CLHEP  {                                
 23                                                   
 24 //-*****************************                  
 25 //           - 1 -                                
 26 // set (multiple components)                      
 27 // in various coordinate systems                  
 28 //                                                
 29 //-*****************************                  
 30                                                   
 31 void Hep3Vector::setSpherical (                   
 32     double r1,                                    
 33                 double theta1,                    
 34                 double phi1) {                    
 35 //  if ( r1 < 0 ) {                               
 36 //    std::cerr << "Hep3Vector::setSpherical()    
 37 //      << "Spherical coordinates set with neg    
 38 //    // No special return needed if warning i    
 39 //  }                                             
 40 //  if ( (theta1 < 0) || (theta1 > CLHEP::pi)     
 41 //    std::cerr << "Hep3Vector::setSpherical()    
 42 //      << "Spherical coordinates set with the    
 43 //  // No special return needed if warning is     
 44 //  }                                             
 45   double rho1 ( r1*std::sin(theta1));             
 46   setZ(r1 * std::cos(theta1));                    
 47   setY(rho1 * std::sin (phi1));                   
 48   setX(rho1 * std::cos (phi1));                   
 49   return;                                         
 50 } /* setSpherical (r, theta1, phi1) */            
 51                                                   
 52 void Hep3Vector::setCylindrical (                 
 53     double rho1,                                  
 54                 double phi1,                      
 55                 double z1) {                      
 56 //  if ( rho1 < 0 ) {                             
 57 //    std::cerr << "Hep3Vector::setCylindrical    
 58 //      << "Cylindrical coordinates supplied w    
 59 //    // No special return needed if warning i    
 60 //  }                                             
 61   setZ(z1);                                       
 62   setY(rho1 * std::sin (phi1));                   
 63   setX(rho1 * std::cos (phi1));                   
 64   return;                                         
 65 } /* setCylindrical (r, phi, z) */                
 66                                                   
 67 void Hep3Vector::setRhoPhiTheta (                 
 68     double rho1,                                  
 69                 double phi1,                      
 70                 double theta1) {                  
 71   if (rho1 == 0) {                                
 72     std::cerr << "Hep3Vector::setRhoPhiTheta()    
 73       << "Attempt set vector components rho, p    
 74       << "zero vector is returned, ignoring th    
 75     set(0.0, 0.0, 0.0);                           
 76     return;                                       
 77   }                                               
 78 //  if ( (theta1 == 0) || (theta1 == CLHEP::pi    
 79 //    std::cerr << "Hep3Vector::setRhoPhiTheta    
 80 //      << "Attempt set cylindrical vector vec    
 81 //      << "theta along the Z axis:  infinite     
 82 //  }                                             
 83 //  if ( (theta1 < 0) || (theta1 > CLHEP::pi)     
 84 //    std::cerr << "Hep3Vector::setRhoPhiTheta    
 85 //      << "Rho, phi, theta set with theta not    
 86 //  // No special return needed if warning is     
 87 //  }                                             
 88   setZ(rho1 / std::tan (theta1));                 
 89   setY(rho1 * std::sin (phi1));                   
 90   setX(rho1 * std::cos (phi1));                   
 91   return;                                         
 92 } /* setCyl (rho, phi, theta) */                  
 93                                                   
 94 void Hep3Vector::setRhoPhiEta (                   
 95     double rho1,                                  
 96                 double phi1,                      
 97                 double eta1 ) {                   
 98   if (rho1 == 0) {                                
 99     std::cerr << "Hep3Vector::setRhoPhiEta() -    
100       << "Attempt set vector components rho, p    
101       << "zero vector is returned, ignoring et    
102     set(0.0, 0.0, 0.0);                           
103     return;                                       
104   }                                               
105   double theta1 (2 * std::atan ( std::exp (-et    
106   setZ(rho1 / std::tan (theta1));                 
107   setY(rho1 * std::sin (phi1));                   
108   setX(rho1 * std::cos (phi1));                   
109   return;                                         
110 } /* setCyl (rho, phi, eta) */                    
111                                                   
112 //************                                    
113 //    - 3 -                                       
114 // Comparisons                                    
115 //                                                
116 //************                                    
117                                                   
118 int Hep3Vector::compare (const Hep3Vector & v)    
119   if       ( z() > v.z() ) {                      
120     return 1;                                     
121   } else if ( z() < v.z() ) {                     
122     return -1;                                    
123   } else if ( y() > v.y() ) {                     
124     return 1;                                     
125   } else if ( y() < v.y() ) {                     
126     return -1;                                    
127   } else if ( x() > v.x() ) {                     
128     return 1;                                     
129   } else if ( x() < v.x() ) {                     
130     return -1;                                    
131   } else {                                        
132     return 0;                                     
133   }                                               
134 } /* Compare */                                   
135                                                   
136                                                   
137 bool Hep3Vector::operator > (const Hep3Vector     
138   return (compare(v)  > 0);                       
139 }                                                 
140 bool Hep3Vector::operator < (const Hep3Vector     
141   return (compare(v)  < 0);                       
142 }                                                 
143 bool Hep3Vector::operator>= (const Hep3Vector     
144   return (compare(v) >= 0);                       
145 }                                                 
146 bool Hep3Vector::operator<= (const Hep3Vector     
147   return (compare(v) <= 0);                       
148 }                                                 
149                                                   
150                                                   
151 //-********                                       
152 // Nearness                                       
153 //-********                                       
154                                                   
155 // These methods all assume you can safely tak    
156 // Absolutely safe but slower and much uglier     
157 // provided as build-time options in ZOOM Spac    
158 // Also, much smaller codes were provided tht     
159 // mag2() of each vector; but those return bad    
160 // when components exceed 10**90.                 
161 //                                                
162 // IsNear, HowNear, and DeltaR are found in Th    
163                                                   
164 double Hep3Vector::howParallel (const Hep3Vect    
165   // | V1 x V2 | / | V1 dot V2 |                  
166   double v1v2 = std::fabs(dot(v));                
167   if ( v1v2 == 0 ) {                              
168     // Zero is parallel to no other vector exc    
169     return ( (mag2() == 0) && (v.mag2() == 0)     
170   }                                               
171   Hep3Vector v1Xv2 ( cross(v) );                  
172   double abscross = v1Xv2.mag();                  
173   if ( abscross >= v1v2 ) {                       
174     return 1;                                     
175   } else {                                        
176     return abscross/v1v2;                         
177   }                                               
178 } /* howParallel() */                             
179                                                   
180 bool Hep3Vector::isParallel (const Hep3Vector     
181                               double epsilon)     
182   // | V1 x V2 | **2  <= epsilon **2 | V1 dot     
183   // V1 is *this, V2 is v                         
184                                                   
185   static const double TOOBIG = std::pow(2.0,50    
186   static const double SCALE  = std::pow(2.0,-5    
187   double v1v2 = std::fabs(dot(v));                
188   if ( v1v2 == 0 ) {                              
189     return ( (mag2() == 0) && (v.mag2() == 0)     
190   }                                               
191   if ( v1v2 >= TOOBIG ) {                         
192     Hep3Vector sv1 ( *this * SCALE );             
193     Hep3Vector sv2 ( v * SCALE );                 
194     Hep3Vector sv1Xsv2 = sv1.cross(sv2);          
195     double x2 = sv1Xsv2.mag2();                   
196     double limit = v1v2*SCALE*SCALE;              
197     limit = epsilon*epsilon*limit*limit;          
198     return ( x2 <= limit );                       
199   }                                               
200                                                   
201   // At this point we know v1v2 can be squared    
202                                                   
203   Hep3Vector v1Xv2 ( cross(v) );                  
204   if (  (std::fabs (v1Xv2.x()) > TOOBIG) ||       
205         (std::fabs (v1Xv2.y()) > TOOBIG) ||       
206         (std::fabs (v1Xv2.z()) > TOOBIG) ) {      
207     return false;                                 
208   }                                               
209                                                   
210   return ( (v1Xv2.mag2()) <= ((epsilon * v1v2)    
211                                                   
212 } /* isParallel() */                              
213                                                   
214                                                   
215 double Hep3Vector::howOrthogonal (const Hep3Ve    
216   // | V1 dot V2 | / | V1 x V2 |                  
217                                                   
218   double v1v2 = std::fabs(dot(v));                
219   //-| Safe because both v1 and v2 can be squa    
220   if ( v1v2 == 0 ) {                              
221     return 0; // Even if one or both are 0, th    
222   }                                               
223   Hep3Vector v1Xv2 ( cross(v) );                  
224   double abscross = v1Xv2.mag();                  
225   if ( v1v2 >= abscross ) {                       
226     return 1;                                     
227   } else {                                        
228     return v1v2/abscross;                         
229   }                                               
230                                                   
231 } /* howOrthogonal() */                           
232                                                   
233 bool Hep3Vector::isOrthogonal (const Hep3Vecto    
234            double epsilon) const {                
235 // | V1 x V2 | **2  <= epsilon **2 | V1 dot V2    
236 // V1 is *this, V2 is v                           
237                                                   
238   static const double TOOBIG = std::pow(2.0,50    
239   static const double SCALE = std::pow(2.0,-50    
240   double v1v2 = std::fabs(dot(v));                
241         //-| Safe because both v1 and v2 can b    
242   if ( v1v2 >= TOOBIG ) {                         
243     Hep3Vector sv1 ( *this * SCALE );             
244     Hep3Vector sv2 ( v * SCALE );                 
245     Hep3Vector sv1Xsv2 = sv1.cross(sv2);          
246     double x2 = sv1Xsv2.mag2();                   
247     double limit = epsilon*epsilon*x2;            
248     double y2 = v1v2*SCALE*SCALE;                 
249     return ( y2*y2 <= limit );                    
250   }                                               
251                                                   
252   // At this point we know v1v2 can be squared    
253                                                   
254   Hep3Vector eps_v1Xv2 ( cross(epsilon*v) );      
255   if (  (std::fabs (eps_v1Xv2.x()) > TOOBIG) |    
256         (std::fabs (eps_v1Xv2.y()) > TOOBIG) |    
257         (std::fabs (eps_v1Xv2.z()) > TOOBIG) )    
258     return true;                                  
259   }                                               
260                                                   
261   // At this point we know all the math we nee    
262                                                   
263   return ( v1v2*v1v2 <= eps_v1Xv2.mag2() );       
264                                                   
265 } /* isOrthogonal() */                            
266                                                   
267 double Hep3Vector::setTolerance (double tol) {    
268 // Set the tolerance for Hep3Vectors to be con    
269   double oldTolerance (tolerance);                
270   tolerance = tol;                                
271   return oldTolerance;                            
272 }                                                 
273                                                   
274 //-***********************                        
275 // Helper Methods:                                
276 //  negativeInfinity()                            
277 //-***********************                        
278                                                   
279 double Hep3Vector::negativeInfinity() const {     
280   // A byte-order-independent way to return -I    
281   struct Dib {                                    
282     union {                                       
283       double d;                                   
284       unsigned char i[8];                         
285     } u;                                          
286   };                                              
287   Dib negOne;                                     
288   Dib posTwo;                                     
289   negOne.u.d = -1.0;                              
290   posTwo.u.d =  2.0;                              
291   Dib value;                                      
292   int k;                                          
293   for (k=0; k<8; k++) {                           
294     value.u.i[k] = negOne.u.i[k] | posTwo.u.i[    
295   }                                               
296   return value.u.d;                               
297 }                                                 
298                                                   
299 }  // namespace CLHEP                             
300