source: trunk/CLHEP/src/LorentzRotationC.cc@ 18

Last change on this file since 18 was 4, checked in by Pavel Demin, 16 years ago

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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 that part of the HepLorentzRotation class
7// which is concerned with setting or constructing the transformation based
8// on 4 supplied columns or rows.
9
10#ifdef GNUPRAGMA
11#pragma implementation
12#endif
13
14#include "CLHEP/Vector/defs.h"
15#include "CLHEP/Vector/LorentzRotation.h"
16#include "CLHEP/Vector/LorentzVector.h"
17#include "CLHEP/Vector/ZMxpv.h"
18
19#include <cmath>
20
21namespace CLHEP {
22
23// ---------- Constructors and Assignment:
24
25HepLorentzRotation & HepLorentzRotation::set (const HepLorentzVector & col1,
26 const HepLorentzVector & col2,
27 const HepLorentzVector & col3,
28 const HepLorentzVector & col4) {
29 // First, test that the four cols do represent something close to a
30 // true LT:
31
32 ZMpvMetric_t savedMetric = HepLorentzVector::setMetric (TimePositive);
33
34 if ( col4.getT() < 0 ) {
35 ZMthrowC (ZMxpvImproperTransformation(
36 "column 4 supplied to define transformation has negative T component"));
37 *this = HepLorentzRotation();
38 return *this;
39 }
40
41 double u1u1 = col1.dot(col1);
42 double f11 = fabs(u1u1 + 1.0);
43 if ( f11 > Hep4RotationInterface::tolerance ) {
44 ZMthrowC (ZMxpvNotSymplectic(
45 "column 1 supplied for HepLorentzRotation has w*w != -1"));
46 }
47 double u2u2 = col2.dot(col2);
48 double f22 = fabs(u2u2 + 1.0);
49 if ( f22 > Hep4RotationInterface::tolerance ) {
50 ZMthrowC (ZMxpvNotSymplectic(
51 "column 2 supplied for HepLorentzRotation has w*w != -1"));
52 }
53 double u3u3 = col3.dot(col3);
54 double f33 = fabs(u3u3 + 1.0);
55 if ( f33 > Hep4RotationInterface::tolerance ) {
56 ZMthrowC (ZMxpvNotSymplectic(
57 "column 3 supplied for HepLorentzRotation has w*w != -1"));
58 }
59 double u4u4 = col4.dot(col4);
60 double f44 = fabs(u4u4 - 1.0);
61 if ( f44 > Hep4RotationInterface::tolerance ) {
62 ZMthrowC (ZMxpvNotSymplectic(
63 "column 4 supplied for HepLorentzRotation has w*w != +1"));
64 }
65
66 double u1u2 = col1.dot(col2);
67 double f12 = fabs(u1u2);
68 if ( f12 > Hep4RotationInterface::tolerance ) {
69 ZMthrowC (ZMxpvNotOrthogonal(
70 "columns 1 and 2 supplied for HepLorentzRotation have non-zero dot"));
71 }
72 double u1u3 = col1.dot(col3);
73 double f13 = fabs(u1u3);
74
75 if ( f13 > Hep4RotationInterface::tolerance ) {
76 ZMthrowC (ZMxpvNotOrthogonal(
77 "columns 1 and 3 supplied for HepLorentzRotation have non-zero dot"));
78 }
79 double u1u4 = col1.dot(col4);
80 double f14 = fabs(u1u4);
81 if ( f14 > Hep4RotationInterface::tolerance ) {
82 ZMthrowC (ZMxpvNotOrthogonal(
83 "columns 1 and 4 supplied for HepLorentzRotation have non-zero dot"));
84 }
85 double u2u3 = col2.dot(col3);
86 double f23 = fabs(u2u3);
87 if ( f23 > Hep4RotationInterface::tolerance ) {
88 ZMthrowC (ZMxpvNotOrthogonal(
89 "columns 2 and 3 supplied for HepLorentzRotation have non-zero dot"));
90 }
91 double u2u4 = col2.dot(col4);
92 double f24 = fabs(u2u4);
93 if ( f24 > Hep4RotationInterface::tolerance ) {
94 ZMthrowC (ZMxpvNotOrthogonal(
95 "columns 2 and 4 supplied for HepLorentzRotation have non-zero dot"));
96 }
97 double u3u4 = col3.dot(col4);
98 double f34 = fabs(u3u4);
99 if ( f34 > Hep4RotationInterface::tolerance ) {
100 ZMthrowC (ZMxpvNotOrthogonal(
101 "columns 3 and 4 supplied for HepLorentzRotation have non-zero dot"));
102 }
103
104 // Our strategy will be to order the cols, then do gram-schmidt on them
105 // (that is, remove the components of col d that make it non-orthogonal to
106 // col c, normalize that, then remove the components of b that make it
107 // non-orthogonal to d and to c, normalize that, etc.
108
109 // Because col4, the time col, is most likely to be computed directly, we
110 // will start from there and work left-ward.
111
112 HepLorentzVector a, b, c, d;
113 bool isLorentzTransformation = true;
114 double norm;
115
116 d = col4;
117 norm = d.dot(d);
118 if (norm <= 0.0) {
119 isLorentzTransformation = false;
120 if (norm == 0.0) {
121 d = T_HAT4; // Moot, but let's keep going...
122
123 norm = 1.0;
124 }
125 }
126 d /= norm;
127
128 c = col3 - col3.dot(d) * d;
129 norm = -c.dot(c);
130 if (norm <= 0.0) {
131 isLorentzTransformation = false;
132 if (norm == 0.0) {
133 c = Z_HAT4; // Moot
134 norm = 1.0;
135 }
136 }
137 c /= norm;
138
139 b = col2 + col2.dot(c) * c - col2.dot(d) * d;
140 norm = -b.dot(b);
141 if (norm <= 0.0) {
142 isLorentzTransformation = false;
143 if (norm == 0.0) {
144 b = Y_HAT4; // Moot
145 norm = 1.0;
146 }
147 }
148 b /= norm;
149
150 a = col1 + col1.dot(b) * b + col1.dot(c) * c - col1.dot(d) * d;
151 norm = -a.dot(a);
152 if (norm <= 0.0) {
153 isLorentzTransformation = false;
154 if (norm == 0.0) {
155 a = X_HAT4; // Moot
156 norm = 1.0;
157 }
158 }
159 a /= norm;
160
161 if ( !isLorentzTransformation ) {
162 ZMthrowC (ZMxpvImproperTransformation(
163 "cols 1-4 supplied to define transformation form either \n"
164 " a boosted reflection or a tachyonic transformation -- \n"
165 " transformation will be set to Identity "));
166
167
168 *this = HepLorentzRotation();
169 }
170
171 if ( isLorentzTransformation ) {
172 mxx = a.x(); myx = a.y(); mzx = a.z(); mtx = a.t();
173 mxy = b.x(); myy = b.y(); mzy = b.z(); mty = b.t();
174 mxz = c.x(); myz = c.y(); mzz = c.z(); mtz = c.t();
175 mxt = d.x(); myt = d.y(); mzt = d.z(); mtt = d.t();
176 }
177
178 HepLorentzVector::setMetric (savedMetric);
179 return *this;
180
181} // set ( col1, col2, col3, col4 )
182
183HepLorentzRotation & HepLorentzRotation::setRows
184 (const HepLorentzVector & row1,
185 const HepLorentzVector & row2,
186 const HepLorentzVector & row3,
187 const HepLorentzVector & row4) {
188 // Set based on using those rows as columns:
189 set (row1, row2, row3, row4);
190 // Now transpose in place:
191 register double q1, q2, q3;
192 q1 = mxy; q2 = mxz; q3 = mxt;
193 mxy = myx; mxz = mzx; mxt = mtx;
194 myx = q1; mzx = q2; mtx = q3;
195 q1 = myz; q2 = myt; q3 = mzt;
196 myz = mzy; myt = mty; mzt = mtz;
197 mzy = q1; mty = q2; mtz = q3;
198 return *this;
199} // LorentzTransformation::setRows(row1 ... row4)
200
201HepLorentzRotation::HepLorentzRotation ( const HepLorentzVector & col1,
202 const HepLorentzVector & col2,
203 const HepLorentzVector & col3,
204 const HepLorentzVector & col4 )
205{
206 set ( col1, col2, col3, col4 );
207}
208
209} // namespace CLHEP
210
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