Geant4 11.2.2
Toolkit for the simulation of the passage of particles through matter
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LorentzRotation.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 basic parts of the HepLorentzRotation class.
7//
8// Some ZOOM methods involving construction from columns and decomposition
9// into boost*rotation are split off into LorentzRotationC and LorentzRotationD
10
12
13#include <cmath>
14#include <iomanip>
15#include <iostream>
16
17namespace CLHEP {
18
19// ---------- Constructors and Assignment:
20
21
23 (double bx, double by, double bz) {
24 double bp2 = bx*bx + by*by + bz*bz;
25// if (bp2 >= 1) {
26// std::cerr << "HepLorentzRotation::set() - "
27// << "Boost Vector supplied to set HepLorentzRotation represents speed >= c."
28// << std::endl;
29// }
30 double gamma = 1.0 / std::sqrt(1.0 - bp2);
31 double bgamma = gamma * gamma / (1.0 + gamma);
32 mxx = 1.0 + bgamma * bx * bx;
33 myy = 1.0 + bgamma * by * by;
34 mzz = 1.0 + bgamma * bz * bz;
35 mxy = myx = bgamma * bx * by;
36 mxz = mzx = bgamma * bx * bz;
37 myz = mzy = bgamma * by * bz;
38 mxt = mtx = gamma * bx;
39 myt = mty = gamma * by;
40 mzt = mtz = gamma * bz;
41 mtt = gamma;
42 return *this;
43}
44
46 (const HepBoost & B, const HepRotation & R) {
47 set (B.rep4x4());
48 *this = matrixMultiplication ( R.rep4x4() );
49 return *this;
50}
51
53 (const HepRotation & R, const HepBoost & B) {
54 set (R.rep4x4());
55 *this = matrixMultiplication ( B.rep4x4() );
56 return *this;
57}
58
59// ---------- Accessors:
60
61// ------------ Subscripting:
62
63double HepLorentzRotation::operator () (int i, int j) const {
64 if (i == 0) {
65 if (j == 0) { return xx(); }
66 if (j == 1) { return xy(); }
67 if (j == 2) { return xz(); }
68 if (j == 3) { return xt(); }
69 } else if (i == 1) {
70 if (j == 0) { return yx(); }
71 if (j == 1) { return yy(); }
72 if (j == 2) { return yz(); }
73 if (j == 3) { return yt(); }
74 } else if (i == 2) {
75 if (j == 0) { return zx(); }
76 if (j == 1) { return zy(); }
77 if (j == 2) { return zz(); }
78 if (j == 3) { return zt(); }
79 } else if (i == 3) {
80 if (j == 0) { return tx(); }
81 if (j == 1) { return ty(); }
82 if (j == 2) { return tz(); }
83 if (j == 3) { return tt(); }
84 }
85 std::cerr << "HepLorentzRotation subscripting: bad indices "
86 << "(" << i << "," << j << ")\n";
87 return 0.0;
88}
89
90// ---------- Application:
91
92
93// ---------- Comparison:
94
96 if (mtt<m1.mtt) return -1; else if (mtt>m1.mtt) return 1;
97 else if (mtz<m1.mtz) return -1; else if (mtz>m1.mtz) return 1;
98 else if (mty<m1.mty) return -1; else if (mty>m1.mty) return 1;
99 else if (mtx<m1.mtx) return -1; else if (mtx>m1.mtx) return 1;
100
101 else if (mzt<m1.mzt) return -1; else if (mzt>m1.mzt) return 1;
102 else if (mzz<m1.mzz) return -1; else if (mzz>m1.mzz) return 1;
103 else if (mzy<m1.mzy) return -1; else if (mzy>m1.mzy) return 1;
104 else if (mzx<m1.mzx) return -1; else if (mzx>m1.mzx) return 1;
105
106 else if (myt<m1.myt) return -1; else if (myt>m1.myt) return 1;
107 else if (myz<m1.myz) return -1; else if (myz>m1.myz) return 1;
108 else if (myy<m1.myy) return -1; else if (myy>m1.myy) return 1;
109 else if (myx<m1.myx) return -1; else if (myx>m1.myx) return 1;
110
111 else if (mxt<m1.mxt) return -1; else if (mxt>m1.mxt) return 1;
112 else if (mxz<m1.mxz) return -1; else if (mxz>m1.mxz) return 1;
113 else if (mxy<m1.mxy) return -1; else if (mxy>m1.mxy) return 1;
114 else if (mxx<m1.mxx) return -1; else if (mxx>m1.mxx) return 1;
115
116 else return 0;
117}
118
119
120// ---------- Operations in the group of 4-Rotations
121
124 return HepLorentzRotation(
125 mxx*m1.xx_ + mxy*m1.yx_ + mxz*m1.zx_ + mxt*m1.tx_,
126 mxx*m1.xy_ + mxy*m1.yy_ + mxz*m1.zy_ + mxt*m1.ty_,
127 mxx*m1.xz_ + mxy*m1.yz_ + mxz*m1.zz_ + mxt*m1.tz_,
128 mxx*m1.xt_ + mxy*m1.yt_ + mxz*m1.zt_ + mxt*m1.tt_,
129
130 myx*m1.xx_ + myy*m1.yx_ + myz*m1.zx_ + myt*m1.tx_,
131 myx*m1.xy_ + myy*m1.yy_ + myz*m1.zy_ + myt*m1.ty_,
132 myx*m1.xz_ + myy*m1.yz_ + myz*m1.zz_ + myt*m1.tz_,
133 myx*m1.xt_ + myy*m1.yt_ + myz*m1.zt_ + myt*m1.tt_,
134
135 mzx*m1.xx_ + mzy*m1.yx_ + mzz*m1.zx_ + mzt*m1.tx_,
136 mzx*m1.xy_ + mzy*m1.yy_ + mzz*m1.zy_ + mzt*m1.ty_,
137 mzx*m1.xz_ + mzy*m1.yz_ + mzz*m1.zz_ + mzt*m1.tz_,
138 mzx*m1.xt_ + mzy*m1.yt_ + mzz*m1.zt_ + mzt*m1.tt_,
139
140 mtx*m1.xx_ + mty*m1.yx_ + mtz*m1.zx_ + mtt*m1.tx_,
141 mtx*m1.xy_ + mty*m1.yy_ + mtz*m1.zy_ + mtt*m1.ty_,
142 mtx*m1.xz_ + mty*m1.yz_ + mtz*m1.zz_ + mtt*m1.tz_,
143 mtx*m1.xt_ + mty*m1.yt_ + mtz*m1.zt_ + mtt*m1.tt_ );
144}
145
147 double c1 = std::cos (delta);
148 double s1 = std::sin (delta);
149 HepLorentzVector rowy = row2();
150 HepLorentzVector rowz = row3();
151 HepLorentzVector r2 = c1 * rowy - s1 * rowz;
152 HepLorentzVector r3 = s1 * rowy + c1 * rowz;
153 myx = r2.x(); myy = r2.y(); myz = r2.z(); myt = r2.t();
154 mzx = r3.x(); mzy = r3.y(); mzz = r3.z(); mzt = r3.t();
155 return *this;
156}
157
159 double c1 = std::cos (delta);
160 double s1 = std::sin (delta);
161 HepLorentzVector rowx = row1();
162 HepLorentzVector rowz = row3();
163 HepLorentzVector r1 = c1 * rowx + s1 * rowz;
164 HepLorentzVector r3 = -s1 * rowx + c1 * rowz;
165 mxx = r1.x(); mxy = r1.y(); mxz = r1.z(); mxt = r1.t();
166 mzx = r3.x(); mzy = r3.y(); mzz = r3.z(); mzt = r3.t();
167 return *this;
168}
169
171 double c1 = std::cos (delta);
172 double s1 = std::sin (delta);
173 HepLorentzVector rowx = row1();
174 HepLorentzVector rowy = row2();
175 HepLorentzVector r1 = c1 * rowx - s1 * rowy;
176 HepLorentzVector r2 = s1 * rowx + c1 * rowy;
177 mxx = r1.x(); mxy = r1.y(); mxz = r1.z(); mxt = r1.t();
178 myx = r2.x(); myy = r2.y(); myz = r2.z(); myt = r2.t();
179 return *this;
180}
181
183 double b2 = beta*beta;
184// if (b2 >= 1) {
185// std::cerr << "HepLorentzRotation::boostX() - "
186// << "Beta supplied to HepLorentzRotation::boostX represents speed >= c."
187// << std::endl;
188// }
189 double g1 = 1.0/std::sqrt(1.0-b2);
190 double bg = beta*g1;
191 HepLorentzVector rowx = row1();
192 HepLorentzVector rowt = row4();
193 HepLorentzVector r1 = g1 * rowx + bg * rowt;
194 HepLorentzVector r4 = bg * rowx + g1 * rowt;
195 mxx = r1.x(); mxy = r1.y(); mxz = r1.z(); mxt = r1.t();
196 mtx = r4.x(); mty = r4.y(); mtz = r4.z(); mtt = r4.t();
197 return *this;
198}
199
201 double b2 = beta*beta;
202// if (b2 >= 1) {
203// std::cerr << "HepLorentzRotation::boostY() - "
204// << "Beta supplied to HepLorentzRotation::boostY represents speed >= c."
205// << std::endl;
206// }
207 double g1 = 1.0/std::sqrt(1.0-b2);
208 double bg = beta*g1;
209 HepLorentzVector rowy = row2();
210 HepLorentzVector rowt = row4();
211 HepLorentzVector r2 = g1 * rowy + bg * rowt;
212 HepLorentzVector r4 = bg * rowy + g1 * rowt;
213 myx = r2.x(); myy = r2.y(); myz = r2.z(); myt = r2.t();
214 mtx = r4.x(); mty = r4.y(); mtz = r4.z(); mtt = r4.t();
215 return *this;
216}
217
219 double b2 = beta*beta;
220// if (b2 >= 1) {
221// std::cerr << "HepLorentzRotation::boostZ() - "
222// << "Beta supplied to HepLorentzRotation::boostZ represents speed >= c."
223// << std::endl;
224// }
225 double g1 = 1.0/std::sqrt(1.0-b2);
226 double bg = beta*g1;
227 HepLorentzVector rowz = row3();
228 HepLorentzVector rowt = row4();
229 HepLorentzVector r3 = g1 * rowz + bg * rowt;
230 HepLorentzVector r4 = bg * rowz + g1 * rowt;
231 mtx = r4.x(); mty = r4.y(); mtz = r4.z(); mtt = r4.t();
232 mzx = r3.x(); mzy = r3.y(); mzz = r3.z(); mzt = r3.t();
233 return *this;
234}
235
236std::ostream & HepLorentzRotation::print( std::ostream & os ) const {
237 os << "\n [ ( " <<
238 std::setw(11) << std::setprecision(6) << xx() << " " <<
239 std::setw(11) << std::setprecision(6) << xy() << " " <<
240 std::setw(11) << std::setprecision(6) << xz() << " " <<
241 std::setw(11) << std::setprecision(6) << xt() << ")\n"
242 << " ( " <<
243 std::setw(11) << std::setprecision(6) << yx() << " " <<
244 std::setw(11) << std::setprecision(6) << yy() << " " <<
245 std::setw(11) << std::setprecision(6) << yz() << " " <<
246 std::setw(11) << std::setprecision(6) << yt() << ")\n"
247 << " ( " <<
248 std::setw(11) << std::setprecision(6) << zx() << " " <<
249 std::setw(11) << std::setprecision(6) << zy() << " " <<
250 std::setw(11) << std::setprecision(6) << zz() << " " <<
251 std::setw(11) << std::setprecision(6) << zt() << ")\n"
252 << " ( " <<
253 std::setw(11) << std::setprecision(6) << tx() << " " <<
254 std::setw(11) << std::setprecision(6) << ty() << " " <<
255 std::setw(11) << std::setprecision(6) << tz() << " " <<
256 std::setw(11) << std::setprecision(6) << tt() << ") ]\n";
257 return os;
258}
259
261 const HepLorentzRotation & lt) {
262 r.rep4x4();
263 lt.rep4x4();
265 r.xx()*lt.xx() + r.xy()*lt.yx() + r.xz()*lt.zx() + r.xt()*lt.tx(),
266 r.xx()*lt.xy() + r.xy()*lt.yy() + r.xz()*lt.zy() + r.xt()*lt.ty(),
267 r.xx()*lt.xz() + r.xy()*lt.yz() + r.xz()*lt.zz() + r.xt()*lt.tz(),
268 r.xx()*lt.xt() + r.xy()*lt.yt() + r.xz()*lt.zt() + r.xt()*lt.tt(),
269
270 r.yx()*lt.xx() + r.yy()*lt.yx() + r.yz()*lt.zx() + r.yt()*lt.tx(),
271 r.yx()*lt.xy() + r.yy()*lt.yy() + r.yz()*lt.zy() + r.yt()*lt.ty(),
272 r.yx()*lt.xz() + r.yy()*lt.yz() + r.yz()*lt.zz() + r.yt()*lt.tz(),
273 r.yx()*lt.xt() + r.yy()*lt.yt() + r.yz()*lt.zt() + r.yt()*lt.tt(),
274
275 r.zx()*lt.xx() + r.zy()*lt.yx() + r.zz()*lt.zx() + r.zt()*lt.tx(),
276 r.zx()*lt.xy() + r.zy()*lt.yy() + r.zz()*lt.zy() + r.zt()*lt.ty(),
277 r.zx()*lt.xz() + r.zy()*lt.yz() + r.zz()*lt.zz() + r.zt()*lt.tz(),
278 r.zx()*lt.xt() + r.zy()*lt.yt() + r.zz()*lt.zt() + r.zt()*lt.tt(),
279
280 r.tx()*lt.xx() + r.ty()*lt.yx() + r.tz()*lt.zx() + r.tt()*lt.tx(),
281 r.tx()*lt.xy() + r.ty()*lt.yy() + r.tz()*lt.zy() + r.tt()*lt.ty(),
282 r.tx()*lt.xz() + r.ty()*lt.yz() + r.tz()*lt.zz() + r.tt()*lt.tz(),
283 r.tx()*lt.xt() + r.ty()*lt.yt() + r.tz()*lt.zt() + r.tt()*lt.tt() ) );
284}
285
286
287const HepLorentzRotation HepLorentzRotation::IDENTITY;
288
289} // namespace CLHEP
G4double B(G4double temperature)
double operator()(int, int) const
static DLL_API const HepLorentzRotation IDENTITY
int compare(const HepLorentzRotation &m) const
HepRep4x4 rep4x4() const
HepLorentzRotation & boostZ(double beta)
HepLorentzVector row3() const
HepLorentzRotation & rotateY(double delta)
HepLorentzRotation matrixMultiplication(const HepRep4x4 &m) const
HepLorentzVector row1() const
HepLorentzRotation & boostY(double beta)
HepLorentzRotation & boostX(double beta)
HepLorentzRotation & rotateZ(double delta)
HepLorentzVector row2() const
std::ostream & print(std::ostream &os) const
HepLorentzVector row4() const
HepLorentzRotation & rotateX(double delta)
HepLorentzRotation & set(double bx, double by, double bz)
double zz() const
double yz() const
double zx() const
double tz() const
double ty() const
double tx() const
double yx() const
double zy() const
HepRep4x4 rep4x4() const
double zt() const
double xx() const
double tt() const
double yy() const
double xz() const
double yt() const
double xy() const
double xt() const
HepLorentzRotation operator*(const HepRotation &r, const HepLorentzRotation &lt)