Geant4 11.1.1
Toolkit for the simulation of the passage of particles through matter
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BoostY.h
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1// -*- C++ -*-
2//
3// This file is a part of the CLHEP - a Class Library for High Energy Physics.
4//
5// This is the definition of the HepBoostY class for performing specialized
6// Lorentz transformations which are pure boosts in the Y direction, on
7// objects of the HepLorentzVector class.
8//
9// HepLorentzRotation is a concrete implementation of Hep4RotationInterface.
10//
11// .SS See Also
12// RotationInterfaces.h
13// LorentzVector.h LorentzRotation.h
14// Boost.h
15//
16// .SS Author
17// Mark Fischler
18
19#ifndef HEP_BOOSTY_H
20#define HEP_BOOSTY_H
21
24
25namespace CLHEP {
26
27// Declarations of classes and global methods
28class HepBoostY;
29inline HepBoostY inverseOf ( const HepBoostY & b );
30class HepBoost;
31class HepRotation;
32
33/**
34 * @author
35 * @ingroup vector
36 */
37class HepBoostY {
38
39public:
40
41 // ---------- Constructors and Assignment:
42
43 inline HepBoostY();
44 // Default constructor. Gives a boost of 0.
45
46 inline HepBoostY(const HepBoostY & b);
47 inline HepBoostY(HepBoostY && b) = default;
48 // Copy and move constructors.
49
50 inline HepBoostY & operator = (const HepBoostY & m);
51 inline HepBoostY & operator = (HepBoostY && m) = default;
52 // Copy and move assignment operators.
53
54 HepBoostY & set (double beta);
55 inline HepBoostY (double beta);
56 // Constructor from beta
57
58 // ---------- Accessors:
59
60 inline double beta() const;
61 inline double gamma() const;
62 inline Hep3Vector boostVector() const;
63 inline Hep3Vector getDirection() const;
64
65 inline double xx() const;
66 inline double xy() const;
67 inline double xz() const;
68 inline double xt() const;
69 inline double yx() const;
70 inline double yy() const;
71 inline double yz() const;
72 inline double yt() const;
73 inline double zx() const;
74 inline double zy() const;
75 inline double zz() const;
76 inline double zt() const;
77 inline double tx() const;
78 inline double ty() const;
79 inline double tz() const;
80 inline double tt() const;
81 // Elements of the matrix.
82
83 inline HepLorentzVector col1() const;
84 inline HepLorentzVector col2() const;
85 inline HepLorentzVector col3() const;
86 inline HepLorentzVector col4() const;
87 // orthosymplectic column vectors
88
89 inline HepLorentzVector row1() const;
90 inline HepLorentzVector row2() const;
91 inline HepLorentzVector row3() const;
92 inline HepLorentzVector row4() const;
93 // orthosymplectic row vectors
94
95 HepRep4x4 rep4x4() const;
96 // 4x4 representation:
97
99 // Symmetric 4x4 representation.
100
101
102 // ---------- Decomposition:
103
104 void decompose (HepRotation & rotation, HepBoost & boost) const;
105 void decompose (HepAxisAngle & rotation, Hep3Vector & boost) const;
106 // Find R and B such that L = R*B -- trivial, since R is identity
107
108 void decompose (HepBoost & boost, HepRotation & rotation) const;
109 void decompose (Hep3Vector & boost, HepAxisAngle & rotation) const;
110 // Find R and B such that L = B*R -- trivial, since R is identity
111
112 // ---------- Comparisons:
113
114 inline int compare( const HepBoostY & b ) const;
115 // Dictionary-order comparison, in order of beta.
116 // Used in operator<, >, <=, >=
117
118 inline bool operator == (const HepBoostY & b) const;
119 inline bool operator != (const HepBoostY & b) const;
120 inline bool operator <= (const HepBoostY & b) const;
121 inline bool operator >= (const HepBoostY & b) const;
122 inline bool operator < (const HepBoostY & b) const;
123 inline bool operator > (const HepBoostY & b) const;
124 // Comparisons.
125
126 inline bool isIdentity() const;
127 // Returns true if a null boost.
128
129 inline double distance2( const HepBoostY & b ) const;
130 double distance2( const HepBoost & b ) const;
131 // Defined as the distance2 between the vectors (gamma*betaVector)
132
133 double distance2( const HepRotation & r ) const;
134 double distance2( const HepLorentzRotation & lt ) const;
135 // Decompose lt = B*R; add norm2 to distance2 to between boosts.
136
137 inline double howNear( const HepBoostY & b ) const;
138 inline double howNear( const HepBoost & b ) const;
139 inline double howNear( const HepRotation & r ) const;
140 inline double howNear( const HepLorentzRotation & lt ) const;
141
142 inline bool isNear( const HepBoostY & b,
144 inline bool isNear( const HepBoost & b,
146 bool isNear( const HepRotation & r,
148 bool isNear( const HepLorentzRotation & lt,
150
151 // ---------- Properties:
152
153 inline double norm2() const;
154 // distance2 (IDENTITY), which is beta^2 * gamma^2
155
156 void rectify();
157 // sets according to the stored beta
158
159 // ---------- Application:
160
162 // Transform a Lorentz Vector.
163
165 // Multiplication with a Lorentz Vector.
166
167 // ---------- Operations in the group of 4-Rotations
168
169 HepBoostY operator * (const HepBoostY & b) const;
170 HepLorentzRotation operator * (const HepBoost & b) const;
173 // Product of two Lorentz Rotations (this) * lt - matrix multiplication
174 // Notice that the product of two pure boosts in different directions
175 // is no longer a pure boost.
176
177 inline HepBoostY inverse() const;
178 // Return the inverse.
179
180 inline friend HepBoostY inverseOf ( const HepBoostY & b );
181 // global methods to invert.
182
183 inline HepBoostY & invert();
184 // Inverts the Boost matrix.
185
186 // ---------- I/O:
187
188 std::ostream & print( std::ostream & os ) const;
189 // Output form is BOOSTY (beta=..., gamma=...);
190
191 // ---------- Tolerance
192
193 static inline double getTolerance();
194 static inline double setTolerance(double tol);
195
196protected:
197
199 ( const HepLorentzVector & w ) const;
200 // Multiplication with a Lorentz Vector.
201
204
205 inline HepBoostY (double beta, double gamma);
206
207 double beta_;
208 double gamma_;
209
210}; // HepBoostY
211
212inline
213std::ostream & operator <<
214 ( std::ostream & os, const HepBoostY& b ) {return b.print(os);}
215
216} // namespace CLHEP
217
218#include "CLHEP/Vector/BoostY.icc"
219
220#endif /* HEP_BOOSTY_H */
G4double epsilon(G4double density, G4double temperature)
static DLL_API double tolerance
double tz() const
bool isIdentity() const
bool operator<(const HepBoostY &b) const
double beta() const
double tx() const
HepLorentzVector row4() const
bool operator<=(const HepBoostY &b) const
HepLorentzRotation matrixMultiplication(const HepRep4x4Symmetric &m) const
HepBoostY & invert()
double xy() const
bool operator>(const HepBoostY &b) const
HepLorentzVector vectorMultiplication(const HepLorentzVector &w) const
HepRep4x4 rep4x4() const
Definition: BoostY.cc:37
double gamma() const
HepLorentzVector col2() const
HepBoostY(double beta, double gamma)
Hep3Vector getDirection() const
int compare(const HepBoostY &b) const
double yy() const
HepLorentzRotation matrixMultiplication(const HepRep4x4 &m) const
double gamma_
Definition: BoostY.h:208
double ty() const
double xt() const
friend HepBoostY inverseOf(const HepBoostY &b)
double howNear(const HepRotation &r) const
HepLorentzVector row1() const
HepBoostY & operator=(const HepBoostY &m)
double zt() const
bool isNear(const HepBoostY &b, double epsilon=Hep4RotationInterface::tolerance) const
HepBoostY & set(double beta)
Definition: BoostY.cc:21
double tt() const
HepLorentzVector col3() const
void decompose(HepRotation &rotation, HepBoost &boost) const
Definition: BoostY.cc:55
HepRep4x4Symmetric rep4x4Symmetric() const
Definition: BoostY.cc:45
HepLorentzVector col4() const
double yx() const
double distance2(const HepBoostY &b) const
void rectify()
Definition: BoostY.cc:120
bool operator!=(const HepBoostY &b) const
HepBoostY(HepBoostY &&b)=default
HepLorentzVector row2() const
double beta_
Definition: BoostY.h:207
double howNear(const HepBoost &b) const
HepLorentzVector row3() const
HepLorentzVector operator()(const HepLorentzVector &w) const
HepBoostY(const HepBoostY &b)
HepBoostY inverse() const
double yz() const
HepBoostY(double beta)
bool operator>=(const HepBoostY &b) const
static double getTolerance()
double zx() const
HepLorentzVector operator*(const HepLorentzVector &w) const
double norm2() const
bool isNear(const HepBoost &b, double epsilon=Hep4RotationInterface::tolerance) const
double zy() const
double yt() const
double xx() const
bool operator==(const HepBoostY &b) const
std::ostream & print(std::ostream &os) const
Definition: BoostY.cc:155
Hep3Vector boostVector() const
double zz() const
double howNear(const HepLorentzRotation &lt) const
HepLorentzVector col1() const
static double setTolerance(double tol)
double howNear(const HepBoostY &b) const
double xz() const
Definition: DoubConv.h:17
HepBoost inverseOf(const HepBoost &lt)