Geant4 Cross Reference

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Geant4/processes/hadronic/util/src/G4ReactionProduct.cc

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Diff markup

Differences between /processes/hadronic/util/src/G4ReactionProduct.cc (Version 11.3.0) and /processes/hadronic/util/src/G4ReactionProduct.cc (Version 9.1)


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 25 //                                                 25 //
 26 // J.L. Chuma, TRIUMF, 31-Oct-1996             <<  26 //
 27 // last modified: 19-Dec-1996                  <<  27 //
 28 // Modified by J.L.Chuma, 05-May-97            <<  28  // J.L. Chuma, TRIUMF, 31-Oct-1996
 29 // M. Kelsey 29-Aug-2011 -- Use G4Allocator fo <<  29  // last modified: 19-Dec-1996
 30                                                <<  30  // Modified by J.L.Chuma, 05-May-97
                                                   >>  31  
 31 #include "G4ReactionProduct.hh"                    32 #include "G4ReactionProduct.hh"
 32                                                    33 
 33 G4Allocator<G4ReactionProduct>*& aRPAllocator( << 
 34 {                                              << 
 35     G4ThreadLocalStatic G4Allocator<G4Reaction << 
 36     return _instance;                          << 
 37 }                                              << 
 38                                                << 
 39  G4ReactionProduct::G4ReactionProduct() :          34  G4ReactionProduct::G4ReactionProduct() :
 40     theParticleDefinition(NULL),                   35     theParticleDefinition(NULL),
 41     formationTime(0.0),                            36     formationTime(0.0),
 42     hasInitialStateParton(false),                  37     hasInitialStateParton(false),
 43     mass(0.0),                                     38     mass(0.0),
 44     totalEnergy(0.0),                              39     totalEnergy(0.0),
 45     kineticEnergy(0.0),                            40     kineticEnergy(0.0),
 46     timeOfFlight(0.0),                             41     timeOfFlight(0.0),
 47     side(0),                                       42     side(0),
 48     theCreatorModel(-1),                       << 
 49     theParentResonanceDef(nullptr),            << 
 50     theParentResonanceID(0),                   << 
 51     NewlyAdded(false),                             43     NewlyAdded(false),
 52     MayBeKilled(true)                              44     MayBeKilled(true)
 53   {                                                45   {
 54     SetMomentum( 0.0, 0.0, 0.0 );                  46     SetMomentum( 0.0, 0.0, 0.0 );
 55     SetPositionInNucleus( 0.0, 0.0, 0.0 );         47     SetPositionInNucleus( 0.0, 0.0, 0.0 );
 56   }                                                48   }
 57                                                    49  
 58  G4ReactionProduct::G4ReactionProduct(             50  G4ReactionProduct::G4ReactionProduct(
 59   const G4ParticleDefinition *aParticleDefinit <<  51   G4ParticleDefinition *aParticleDefinition )
 60   {                                                52   {
 61     SetMomentum( 0.0, 0.0, 0.0 );                  53     SetMomentum( 0.0, 0.0, 0.0 );
 62     SetPositionInNucleus( 0.0, 0.0, 0.0 );         54     SetPositionInNucleus( 0.0, 0.0, 0.0 );
 63     formationTime = 0.0;                           55     formationTime = 0.0;
 64     hasInitialStateParton = false;                 56     hasInitialStateParton = false;
 65     theParticleDefinition = aParticleDefinitio     57     theParticleDefinition = aParticleDefinition;
 66     mass = aParticleDefinition->GetPDGMass();      58     mass = aParticleDefinition->GetPDGMass();
 67     totalEnergy = mass;                            59     totalEnergy = mass;
 68     kineticEnergy = 0.0;                           60     kineticEnergy = 0.0;
 69     (aParticleDefinition->GetPDGEncoding()<0)      61     (aParticleDefinition->GetPDGEncoding()<0) ? timeOfFlight=-1.0 : timeOfFlight=1.0;
 70     side = 0;                                      62     side = 0;
 71     theCreatorModel = -1;                      << 
 72     theParentResonanceDef = nullptr;           << 
 73     theParentResonanceID = 0;                  << 
 74     NewlyAdded = false;                            63     NewlyAdded = false;
 75     MayBeKilled = true;                            64     MayBeKilled = true;
 76   }                                                65   }
 77                                                    66  
 78  G4ReactionProduct::G4ReactionProduct(             67  G4ReactionProduct::G4ReactionProduct(
 79   const G4ReactionProduct &right )                 68   const G4ReactionProduct &right )
 80   {                                                69   {
 81     theParticleDefinition = right.theParticleD     70     theParticleDefinition = right.theParticleDefinition;
 82     positionInNucleus = right.positionInNucleu     71     positionInNucleus = right.positionInNucleus;
 83     formationTime = right.formationTime;           72     formationTime = right.formationTime;
 84     hasInitialStateParton = right.hasInitialSt     73     hasInitialStateParton = right.hasInitialStateParton;
 85     momentum = right.momentum;                     74     momentum = right.momentum;
 86     mass = right.mass;                             75     mass = right.mass;
 87     totalEnergy = right.totalEnergy;               76     totalEnergy = right.totalEnergy;
 88     kineticEnergy = right.kineticEnergy;           77     kineticEnergy = right.kineticEnergy;
 89     timeOfFlight = right.timeOfFlight;             78     timeOfFlight = right.timeOfFlight;
 90     side = right.side;                             79     side = right.side;
 91     theCreatorModel = right.theCreatorModel;   << 
 92     theParentResonanceDef = right.theParentRes << 
 93     theParentResonanceID = right.theParentReso << 
 94     NewlyAdded = right.NewlyAdded;                 80     NewlyAdded = right.NewlyAdded;
 95     MayBeKilled = right.MayBeKilled;               81     MayBeKilled = right.MayBeKilled;
 96   }                                                82   }
 97                                                    83  
 98  G4ReactionProduct &G4ReactionProduct::operato     84  G4ReactionProduct &G4ReactionProduct::operator=(
 99   const G4ReactionProduct &right )                 85   const G4ReactionProduct &right )
100   {                                                86   {
101     if( this != &right ) {                         87     if( this != &right ) {
102       theParticleDefinition = right.theParticl     88       theParticleDefinition = right.theParticleDefinition;
103       positionInNucleus = right.positionInNucl     89       positionInNucleus = right.positionInNucleus;
104       formationTime = right.formationTime;         90       formationTime = right.formationTime;
105       hasInitialStateParton = right.hasInitial     91       hasInitialStateParton = right.hasInitialStateParton;
106       momentum = right.momentum;                   92       momentum = right.momentum;
107       mass = right.mass;                           93       mass = right.mass;
108       totalEnergy = right.totalEnergy;             94       totalEnergy = right.totalEnergy;
109       kineticEnergy = right.kineticEnergy;         95       kineticEnergy = right.kineticEnergy;
110       timeOfFlight = right.timeOfFlight;           96       timeOfFlight = right.timeOfFlight;
111       side = right.side;                           97       side = right.side;
112       theCreatorModel = right.theCreatorModel; << 
113       theParentResonanceDef = right.theParentR << 
114       theParentResonanceID = right.theParentRe << 
115       NewlyAdded = right.NewlyAdded;               98       NewlyAdded = right.NewlyAdded;
116       MayBeKilled = right.MayBeKilled;             99       MayBeKilled = right.MayBeKilled;
117     }                                             100     }
118     return *this;                                 101     return *this;
119   }                                               102   }
120                                                   103     
121  G4ReactionProduct &G4ReactionProduct::operato    104  G4ReactionProduct &G4ReactionProduct::operator=(
122   const G4DynamicParticle &right )                105   const G4DynamicParticle &right )
123   {                                               106   {
124     theParticleDefinition = right.GetDefinitio    107     theParticleDefinition = right.GetDefinition();
125     SetPositionInNucleus( 0.0, 0.0, 0.0 );        108     SetPositionInNucleus( 0.0, 0.0, 0.0 );
126     formationTime = 0.0;                          109     formationTime = 0.0;
127     hasInitialStateParton = false;                110     hasInitialStateParton = false;
128     momentum = right.GetMomentum();               111     momentum = right.GetMomentum();
129     mass = right.GetDefinition()->GetPDGMass()    112     mass = right.GetDefinition()->GetPDGMass();
130     totalEnergy = right.GetTotalEnergy();         113     totalEnergy = right.GetTotalEnergy();
131     kineticEnergy = right.GetKineticEnergy();     114     kineticEnergy = right.GetKineticEnergy();
132     (right.GetDefinition()->GetPDGEncoding()<0    115     (right.GetDefinition()->GetPDGEncoding()<0) ? timeOfFlight=-1.0 : timeOfFlight=1.0;
133     side = 0;                                     116     side = 0;
134     theCreatorModel = -1;                      << 
135     theParentResonanceDef = nullptr;           << 
136     theParentResonanceID = 0;                  << 
137     NewlyAdded = false;                           117     NewlyAdded = false;
138     MayBeKilled = true;                           118     MayBeKilled = true;
139     return *this;                                 119     return *this;
140   }                                               120   }
141                                                   121  
142  G4ReactionProduct &G4ReactionProduct::operato    122  G4ReactionProduct &G4ReactionProduct::operator=(
143   const G4HadProjectile &right )                  123   const G4HadProjectile &right )
144   {                                               124   {
145     theParticleDefinition = right.GetDefinitio << 125     theParticleDefinition = const_cast<G4ParticleDefinition *>(right.GetDefinition());
146     SetPositionInNucleus( 0.0, 0.0, 0.0 );        126     SetPositionInNucleus( 0.0, 0.0, 0.0 );
147     formationTime = 0.0;                          127     formationTime = 0.0;
148     hasInitialStateParton = false;                128     hasInitialStateParton = false;
149     momentum = right.Get4Momentum().vect();       129     momentum = right.Get4Momentum().vect();
150     mass = right.GetDefinition()->GetPDGMass()    130     mass = right.GetDefinition()->GetPDGMass();
151     totalEnergy = right.Get4Momentum().e();       131     totalEnergy = right.Get4Momentum().e();
152     kineticEnergy = right.GetKineticEnergy();     132     kineticEnergy = right.GetKineticEnergy();
153     (right.GetDefinition()->GetPDGEncoding()<0    133     (right.GetDefinition()->GetPDGEncoding()<0) ? timeOfFlight=-1.0 : timeOfFlight=1.0;
154     side = 0;                                     134     side = 0;
155     theCreatorModel = -1;                      << 
156     theParentResonanceDef = nullptr;           << 
157     theParentResonanceID = 0;                  << 
158     NewlyAdded = false;                           135     NewlyAdded = false;
159     MayBeKilled = true;                           136     MayBeKilled = true;
160     return *this;                                 137     return *this;
161   }                                               138   }
162                                                   139  
163  void G4ReactionProduct::SetDefinitionAndUpdat    140  void G4ReactionProduct::SetDefinitionAndUpdateE(
164   const G4ParticleDefinition *aParticleDefinit << 141   G4ParticleDefinition *aParticleDefinition )
165   {    G4double aKineticEnergy = GetKineticEne << 142   {
                                                   >> 143     G4double aKineticEnergy = GetKineticEnergy();
166     G4double pp = GetMomentum().mag();            144     G4double pp = GetMomentum().mag();
167     G4ThreeVector aMomentum = GetMomentum();      145     G4ThreeVector aMomentum = GetMomentum();
168     SetDefinition( aParticleDefinition );         146     SetDefinition( aParticleDefinition );
169     SetKineticEnergy( aKineticEnergy );           147     SetKineticEnergy( aKineticEnergy );
170     if( pp > DBL_MIN )                            148     if( pp > DBL_MIN )
171       SetMomentum( aMomentum * (std::sqrt(aKin    149       SetMomentum( aMomentum * (std::sqrt(aKineticEnergy*aKineticEnergy +
172                                     2*aKinetic    150                                     2*aKineticEnergy*GetMass())/pp) );
173   }                                               151   }
174                                                   152 
175  void G4ReactionProduct::SetDefinition(           153  void G4ReactionProduct::SetDefinition(
176   const G4ParticleDefinition *aParticleDefinit << 154   G4ParticleDefinition *aParticleDefinition )
177   {                                               155   {
178     theParticleDefinition = aParticleDefinitio    156     theParticleDefinition = aParticleDefinition;
179     mass = aParticleDefinition->GetPDGMass();     157     mass = aParticleDefinition->GetPDGMass();
180     totalEnergy = mass;                           158     totalEnergy = mass;
181     kineticEnergy = 0.0;                          159     kineticEnergy = 0.0;
182     (aParticleDefinition->GetPDGEncoding()<0)     160     (aParticleDefinition->GetPDGEncoding()<0) ?
183       timeOfFlight=-1.0 : timeOfFlight=1.0;       161       timeOfFlight=-1.0 : timeOfFlight=1.0;
184   }                                               162   }
185                                                   163  
186  void G4ReactionProduct::SetMomentum(             164  void G4ReactionProduct::SetMomentum(
187   const G4double x, const G4double y, const G4    165   const G4double x, const G4double y, const G4double z )
188   {                                               166   {
189     momentum.setX( x );                           167     momentum.setX( x );
190     momentum.setY( y );                           168     momentum.setY( y );
191     momentum.setZ( z );                           169     momentum.setZ( z );
192   }                                               170   }
193                                                   171  
194  void G4ReactionProduct::SetMomentum(             172  void G4ReactionProduct::SetMomentum(
195   const G4double x, const G4double y )            173   const G4double x, const G4double y )
196   {                                               174   {
197     momentum.setX( x );                           175     momentum.setX( x );
198     momentum.setY( y );                           176     momentum.setY( y );
199   }                                               177   }
200                                                   178  
201  void G4ReactionProduct::SetMomentum( const G4    179  void G4ReactionProduct::SetMomentum( const G4double z )
202   {                                               180   {
203     momentum.setZ( z );                           181     momentum.setZ( z );
204   }                                               182   }
205                                                   183  
206  void G4ReactionProduct::SetZero()                184  void G4ReactionProduct::SetZero()
207   {                                               185   {
208     SetMomentum( 0.0, 0.0, 0.0 );                 186     SetMomentum( 0.0, 0.0, 0.0 );
209     totalEnergy = 0.0;                            187     totalEnergy = 0.0;
210     kineticEnergy = 0.0;                          188     kineticEnergy = 0.0;
211     mass = 0.0;                                   189     mass = 0.0;
212     timeOfFlight = 0.0;                           190     timeOfFlight = 0.0;
213     side = 0;                                     191     side = 0;
214     theCreatorModel = -1;                      << 
215     theParentResonanceDef = nullptr;           << 
216     theParentResonanceID = 0;                  << 
217     NewlyAdded = false;                           192     NewlyAdded = false;
218     SetPositionInNucleus( 0.0, 0.0, 0.0 );        193     SetPositionInNucleus( 0.0, 0.0, 0.0 );
219     formationTime = 0.0;                          194     formationTime = 0.0;
220     hasInitialStateParton = false;                195     hasInitialStateParton = false;
221   }                                               196   }
222                                                   197  
223  void G4ReactionProduct::Lorentz(                 198  void G4ReactionProduct::Lorentz(
224    const G4ReactionProduct &p1, const G4Reacti    199    const G4ReactionProduct &p1, const G4ReactionProduct &p2 )
225   {                                               200   {
226     G4ThreeVector p1M = p1.momentum;              201     G4ThreeVector p1M = p1.momentum;
227     G4ThreeVector p2M = p2.momentum;              202     G4ThreeVector p2M = p2.momentum;
228     G4double p1x = p1M.x(); G4double p1y = p1M    203     G4double p1x = p1M.x(); G4double p1y = p1M.y(); G4double p1z = p1M.z();
229     G4double p2x = p2M.x(); G4double p2y = p2M    204     G4double p2x = p2M.x(); G4double p2y = p2M.y(); G4double p2z = p2M.z();
230     G4double a = ( (p1x*p2x+p1y*p2y+p1z*p2z)/(    205     G4double a = ( (p1x*p2x+p1y*p2y+p1z*p2z)/(p2.totalEnergy+p2.mass) -
231                    p1.totalEnergy ) / p2.mass;    206                    p1.totalEnergy ) / p2.mass;
232     G4double x = p1x+a*p2x;                       207     G4double x = p1x+a*p2x;
233     G4double y = p1y+a*p2y;                       208     G4double y = p1y+a*p2y;
234     G4double z = p1z+a*p2z;                       209     G4double z = p1z+a*p2z;
235     G4double p = std::sqrt(x*x+y*y+z*z);          210     G4double p = std::sqrt(x*x+y*y+z*z);
236     SetMass( p1.mass );                           211     SetMass( p1.mass );
237     SetTotalEnergy( std::sqrt( (p1.mass+p)*(p1    212     SetTotalEnergy( std::sqrt( (p1.mass+p)*(p1.mass+p) - 2.*p1.mass*p ) );
238     //SetTotalEnergy( std::sqrt( p1.mass*p1.ma    213     //SetTotalEnergy( std::sqrt( p1.mass*p1.mass + x*x + y*y + z*z ) );
239     SetMomentum( x, y, z );                       214     SetMomentum( x, y, z );
240   }                                               215   }
241                                                   216  
242  G4double G4ReactionProduct::Angle(               217  G4double G4ReactionProduct::Angle(
243   const G4ReactionProduct& p ) const              218   const G4ReactionProduct& p ) const
244   {                                               219   {
245     G4ThreeVector tM = momentum;                  220     G4ThreeVector tM = momentum;
246     G4ThreeVector pM = p.momentum;                221     G4ThreeVector pM = p.momentum;
247     G4double tx = tM.x(); G4double ty = tM.y()    222     G4double tx = tM.x(); G4double ty = tM.y(); G4double tz = tM.z();
248     G4double px = pM.x(); G4double py = pM.y()    223     G4double px = pM.x(); G4double py = pM.y(); G4double pz = pM.z();
249     G4double a = std::sqrt( ( px*px + py*py +     224     G4double a = std::sqrt( ( px*px + py*py + pz*pz ) * ( tx*tx + ty*ty + tz*tz ) );
250     if( a == 0.0 ) {                              225     if( a == 0.0 ) {
251       return 0.0;                                 226       return 0.0;
252     } else {                                      227     } else {
253       a = ( tx*px + ty*py + tz*pz ) / a;          228       a = ( tx*px + ty*py + tz*pz ) / a;
254       if( std::abs(a) > 1.0 ) { a<0.0 ? a=-1.0 << 229       if( std::fabs(a) > 1.0 ) { a<0.0 ? a=-1.0 : a=1.0; }
255       return std::acos( a );                      230       return std::acos( a );
256     }                                             231     }
257   }                                               232   }
258                                                   233  
259  G4ReactionProduct operator+(                     234  G4ReactionProduct operator+(
260   const G4ReactionProduct& p1, const G4Reactio    235   const G4ReactionProduct& p1, const G4ReactionProduct& p2 )
261   {                                               236   {
262     G4double totEnergy = p1.totalEnergy + p2.t    237     G4double totEnergy = p1.totalEnergy + p2.totalEnergy;
263     G4double x = p1.momentum.x() + p2.momentum    238     G4double x = p1.momentum.x() + p2.momentum.x();
264     G4double y = p1.momentum.y() + p2.momentum    239     G4double y = p1.momentum.y() + p2.momentum.y();
265     G4double z = p1.momentum.z() + p2.momentum    240     G4double z = p1.momentum.z() + p2.momentum.z();
266     G4double newMass = totEnergy*totEnergy - (    241     G4double newMass = totEnergy*totEnergy - ( x*x + y*y + z*z );
267     if( newMass < 0.0 )                           242     if( newMass < 0.0 )
268       newMass = -1. * std::sqrt( -newMass );      243       newMass = -1. * std::sqrt( -newMass );
269     else                                          244     else
270       newMass = std::sqrt( newMass );             245       newMass = std::sqrt( newMass );
271     G4ReactionProduct result;                     246     G4ReactionProduct result;
272     result.SetMass( newMass );                    247     result.SetMass( newMass );
273     result.SetMomentum( x, y, z );                248     result.SetMomentum( x, y, z );
274     result.SetTotalEnergy( totEnergy );           249     result.SetTotalEnergy( totEnergy );
275     result.SetPositionInNucleus( 0.0, 0.0, 0.0    250     result.SetPositionInNucleus( 0.0, 0.0, 0.0 );
276     result.SetFormationTime(0.0);                 251     result.SetFormationTime(0.0);
277     result.HasInitialStateParton(false);          252     result.HasInitialStateParton(false);
278     return result;                                253     return result;
279   }                                               254   }
280                                                   255  
281  G4ReactionProduct operator-(                     256  G4ReactionProduct operator-(
282   const G4ReactionProduct& p1, const G4Reactio    257   const G4ReactionProduct& p1, const G4ReactionProduct& p2 )
283   {                                               258   {
284     G4double totEnergy = p1.totalEnergy - p2.t    259     G4double totEnergy = p1.totalEnergy - p2.totalEnergy;
285     G4double x = p1.momentum.x() - p2.momentum    260     G4double x = p1.momentum.x() - p2.momentum.x();
286     G4double y = p1.momentum.y() - p2.momentum    261     G4double y = p1.momentum.y() - p2.momentum.y();
287     G4double z = p1.momentum.z() - p2.momentum    262     G4double z = p1.momentum.z() - p2.momentum.z();
288     G4double newMass = totEnergy*totEnergy - (    263     G4double newMass = totEnergy*totEnergy - ( x*x + y*y + z*z );
289     if( newMass < 0.0 )                           264     if( newMass < 0.0 )
290       newMass = -1. * std::sqrt( -newMass );      265       newMass = -1. * std::sqrt( -newMass );
291     else                                          266     else
292       newMass = std::sqrt( newMass );             267       newMass = std::sqrt( newMass );
293     G4ReactionProduct result;                     268     G4ReactionProduct result;
294     result.SetMass( newMass );                    269     result.SetMass( newMass );
295     result.SetMomentum( x, y, z );                270     result.SetMomentum( x, y, z );
296     result.SetTotalEnergy( totEnergy );           271     result.SetTotalEnergy( totEnergy );
297     result.SetPositionInNucleus( 0.0, 0.0, 0.0    272     result.SetPositionInNucleus( 0.0, 0.0, 0.0 );
298     result.SetFormationTime(0.0);                 273     result.SetFormationTime(0.0);
299     result.HasInitialStateParton(false);          274     result.HasInitialStateParton(false);
300     return result;                                275     return result;
301   }                                               276   }
302  /* end of code */                                277  /* end of code */
303                                                   278  
304                                                   279