Geant4 11.1.1
Toolkit for the simulation of the passage of particles through matter
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BoostX.cc
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1// -*- C++ -*-
2// ---------------------------------------------------------------------------
3//
4// This file is a part of the CLHEP - a Class Library for High Energy Physics.
5//
6// This is the implementation of the HepBoostX class.
7//
8
10#include "CLHEP/Vector/Boost.h"
13
14#include <cmath>
15#include <iostream>
16
17namespace CLHEP {
18
19
20// ---------- Constructors and Assignment:
21
22HepBoostX & HepBoostX::set (double bbeta) {
23 double b2 = bbeta*bbeta;
24 if (b2 >= 1) {
25 std::cerr << "HepBoostX::set() - "
26 << "Beta supplied to set HepBoostX represents speed >= c." << std::endl;
27 beta_ = 1.0 - 1.0E-8; // NaN-proofing
28 gamma_ = 1.0 / std::sqrt(1.0 - b2);
29 return *this;
30 }
31 beta_ = bbeta;
32 gamma_ = 1.0 / std::sqrt(1.0 - b2);
33 return *this;
34}
35
36// ---------- Accessors:
37
39 double bg = beta_*gamma_;
40 return HepRep4x4( gamma_, 0, 0, bg,
41 0, 1, 0, 0,
42 0, 0, 1, 0,
43 bg, 0, 0, gamma_ );
44}
45
47 double bg = beta_*gamma_;
48 return HepRep4x4Symmetric( gamma_, 0, 0, bg,
49 1, 0, 0,
50 1, 0,
51 gamma_ );
52}
53
54// ---------- Decomposition:
55
56void HepBoostX::decompose (HepRotation & rotation, HepBoost & boost) const {
57 HepAxisAngle vdelta = HepAxisAngle();
58 rotation = HepRotation(vdelta);
59 Hep3Vector bbeta = boostVector();
60 boost = HepBoost(bbeta);
61}
62
63void HepBoostX::decompose (HepAxisAngle & rotation, Hep3Vector & boost) const {
64 rotation = HepAxisAngle();
65 boost = boostVector();
66}
67
68void HepBoostX::decompose (HepBoost & boost, HepRotation & rotation) const {
69 HepAxisAngle vdelta = HepAxisAngle();
70 rotation = HepRotation(vdelta);
71 Hep3Vector bbeta = boostVector();
72 boost = HepBoost(bbeta);
73}
74
75void HepBoostX::decompose (Hep3Vector & boost, HepAxisAngle & rotation) const {
76 rotation = HepAxisAngle();
77 boost = boostVector();
78}
79
80// ---------- Comparisons:
81
82double HepBoostX::distance2( const HepBoost & b ) const {
83 return b.distance2(*this);
84}
85
86double HepBoostX::distance2( const HepRotation & r ) const {
87 double db2 = norm2();
88 double dr2 = r.norm2();
89 return (db2 + dr2);
90}
91
92double HepBoostX::distance2( const HepLorentzRotation & lt ) const {
93 HepBoost b1;
94 HepRotation r1;
95 lt.decompose(b1,r1);
96 double db2 = distance2(b1);
97 double dr2 = r1.norm2();
98 return (db2 + dr2);
99}
100
101bool HepBoostX::isNear (const HepRotation & r, double epsilon) const {
102 double db2 = norm2();
103 if (db2 > epsilon*epsilon) return false;
104 double dr2 = r.norm2();
105 return (db2+dr2 <= epsilon*epsilon);
106}
107
109 double epsilon) const {
110 HepBoost b1;
111 HepRotation r1;
112 double db2 = distance2(b1);
113 lt.decompose(b1,r1);
114 if (db2 > epsilon*epsilon) return false;
115 double dr2 = r1.norm2();
116 return (db2 + dr2);
117}
118
119// ---------- Properties:
120
122 // Assuming the representation of this is close to a true pure boost,
123 // but may have drifted due to round-off error from many operations,
124 // this forms an "exact" pure boostX matrix for again.
125
126 double b2 = beta_*beta_;
127 if (b2 >= 1) {
128 beta_ = 1.0 - 1.0e-8; // NaN-proofing
129 b2 = beta_*beta_;
130 }
131 gamma_ = 1.0 / std::sqrt(1.0 - b2);
132}
133
134// ---------- Application:
135
136// ---------- Operations in the group of 4-Rotations
137
139 return HepBoostX ( (beta()+b.beta()) / (1+beta()*b.beta()) );
140}
142 HepLorentzRotation me (*this);
143 return me*b;
144}
146 HepLorentzRotation me (*this);
147 return me*r;
148}
150 HepLorentzRotation me (*this);
151 return me*lt;
152}
153
154// ---------- I/O:
155
156std::ostream & HepBoostX::print( std::ostream & os ) const {
157 os << "Boost in X direction (beta = " << beta_
158 << ", gamma = " << gamma_ << ") ";
159 return os;
160}
161
162} // namespace CLHEP
G4double epsilon(G4double density, G4double temperature)
double distance2(const HepBoostX &b) const
double beta() const
HepLorentzVector operator*(const HepLorentzVector &w) const
HepRep4x4 rep4x4() const
Definition: BoostX.cc:38
double norm2() const
double beta_
Definition: BoostX.h:206
HepBoostX & set(double beta)
Definition: BoostX.cc:22
bool isNear(const HepBoostX &b, double epsilon=Hep4RotationInterface::tolerance) const
Hep3Vector boostVector() const
std::ostream & print(std::ostream &os) const
Definition: BoostX.cc:156
void decompose(HepRotation &rotation, HepBoost &boost) const
Definition: BoostX.cc:56
HepRep4x4Symmetric rep4x4Symmetric() const
Definition: BoostX.cc:46
double gamma_
Definition: BoostX.h:207
void rectify()
Definition: BoostX.cc:121
double distance2(const HepBoost &b) const
void decompose(Hep3Vector &boost, HepAxisAngle &rotation) const
double norm2() const
Definition: RotationP.cc:46
Definition: DoubConv.h:17