source: trunk/CLHEP/Vector/RotationY.h@ 20

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[4]1// -*- C++ -*-
2// CLASSDOC OFF
3// ---------------------------------------------------------------------------
4// CLASSDOC ON
5//
6// This file is a part of the CLHEP - a Class Library for High Energy Physics.
7//
8// This is the definition of the HepRotationY class for performing rotations
9// around the X axis on objects of the Hep3Vector (and HepLorentzVector) class.
10//
11// HepRotationY is a concrete implementation of Hep3RotationInterface.
12//
13// .SS See Also
14// RotationInterfaces.h
15// ThreeVector.h, LorentzVector.h, LorentzRotation.h
16//
17// .SS Author
18// Mark Fischler
19
20#ifndef HEP_ROTATIONY_H
21#define HEP_ROTATIONY_H
22
23#ifdef GNUPRAGMA
24#pragma interface
25#endif
26
27#include "CLHEP/Vector/defs.h"
28#include "CLHEP/Vector/RotationInterfaces.h"
29
30namespace CLHEP {
31
32class HepRotationY;
33class HepRotation;
34class HepBoost;
35
36inline HepRotationY inverseOf(const HepRotationY & r);
37// Returns the inverse of a RotationY.
38
39/**
40 * @author
41 * @ingroup vector
42 */
43class HepRotationY {
44
45public:
46
47 // ---------- Constructors and Assignment:
48
49 inline HepRotationY();
50 // Default constructor. Gives an identity rotation.
51
52 HepRotationY(double delta);
53 // supply angle of rotation
54
55 inline HepRotationY(const HepRotationY & orig);
56 // Copy constructor.
57
58 inline HepRotationY & operator = (const HepRotationY & r);
59 // Assignment from a Rotation, which must be RotationY
60
61 HepRotationY & set ( double delta );
62 // set angle of rotation
63
64 inline ~HepRotationY();
65 // Trivial destructor.
66
67 // ---------- Accessors:
68
69 inline Hep3Vector colX() const;
70 inline Hep3Vector colY() const;
71 inline Hep3Vector colZ() const;
72 // orthogonal unit-length column vectors
73
74 inline Hep3Vector rowX() const;
75 inline Hep3Vector rowY() const;
76 inline Hep3Vector rowZ() const;
77 // orthogonal unit-length row vectors
78
79 inline double xx() const;
80 inline double xy() const;
81 inline double xz() const;
82 inline double yx() const;
83 inline double yy() const;
84 inline double yz() const;
85 inline double zx() const;
86 inline double zy() const;
87 inline double zz() const;
88 // Elements of the rotation matrix (Geant4).
89
90 inline HepRep3x3 rep3x3() const;
91 // 3x3 representation:
92
93 // ------------ Euler angles:
94 inline double getPhi () const;
95 inline double getTheta() const;
96 inline double getPsi () const;
97 double phi () const;
98 double theta() const;
99 double psi () const;
100 HepEulerAngles eulerAngles() const;
101
102 // ------------ axis & angle of rotation:
103 inline double getDelta() const;
104 inline Hep3Vector getAxis () const;
105 inline double delta() const;
106 inline Hep3Vector axis () const;
107 inline HepAxisAngle axisAngle() const;
108 inline void getAngleAxis(double & delta, Hep3Vector & axis) const;
109 // Returns the rotation angle and rotation axis (Geant4).
110
111 // ------------- Angles of rotated axes
112 double phiX() const;
113 double phiY() const;
114 double phiZ() const;
115 double thetaX() const;
116 double thetaY() const;
117 double thetaZ() const;
118 // Return angles (RADS) made by rotated axes against original axes (Geant4).
119
120 // ---------- Other accessors treating pure rotation as a 4-rotation
121
122 inline HepLorentzVector col1() const;
123 inline HepLorentzVector col2() const;
124 inline HepLorentzVector col3() const;
125 // orthosymplectic 4-vector columns - T component will be zero
126
127 inline HepLorentzVector col4() const;
128 // Will be (0,0,0,1) for this pure Rotation.
129
130 inline HepLorentzVector row1() const;
131 inline HepLorentzVector row2() const;
132 inline HepLorentzVector row3() const;
133 // orthosymplectic 4-vector rows - T component will be zero
134
135 inline HepLorentzVector row4() const;
136 // Will be (0,0,0,1) for this pure Rotation.
137
138 inline double xt() const;
139 inline double yt() const;
140 inline double zt() const;
141 inline double tx() const;
142 inline double ty() const;
143 inline double tz() const;
144 // Will be zero for this pure Rotation
145
146 inline double tt() const;
147 // Will be one for this pure Rotation
148
149 inline HepRep4x4 rep4x4() const;
150 // 4x4 representation.
151
152 // --------- Mutators
153
154 void setDelta (double delta);
155 // change angle of rotation, leaving rotation axis unchanged.
156
157 // ---------- Decomposition:
158
159 void decompose (HepAxisAngle & rotation, Hep3Vector & boost) const;
160 void decompose (Hep3Vector & boost, HepAxisAngle & rotation) const;
161 void decompose (HepRotation & rotation, HepBoost & boost) const;
162 void decompose (HepBoost & boost, HepRotation & rotation) const;
163 // These are trivial, as the boost vector is 0.
164
165 // ---------- Comparisons:
166
167 inline bool isIdentity() const;
168 // Returns true if the identity matrix (Geant4).
169
170 inline int compare( const HepRotationY & r ) const;
171 // Dictionary-order comparison, in order of delta
172 // Used in operator<, >, <=, >=
173
174 inline bool operator== ( const HepRotationY & r ) const;
175 inline bool operator!= ( const HepRotationY & r ) const;
176 inline bool operator< ( const HepRotationY & r ) const;
177 inline bool operator> ( const HepRotationY & r ) const;
178 inline bool operator<= ( const HepRotationY & r ) const;
179 inline bool operator>= ( const HepRotationY & r ) const;
180
181 double distance2( const HepRotationY & r ) const;
182 // 3 - Tr ( this/r )
183
184 double distance2( const HepRotation & r ) const;
185 // 3 - Tr ( this/r ) -- This works with RotationY or Z also
186
187 double howNear( const HepRotationY & r ) const;
188 double howNear( const HepRotation & r ) const;
189 bool isNear( const HepRotationY & r,
190 double epsilon=Hep4RotationInterface::tolerance) const;
191 bool isNear( const HepRotation & r,
192 double epsilon=Hep4RotationInterface::tolerance) const;
193
194 double distance2( const HepBoost & lt ) const;
195 // 3 - Tr ( this ) + |b|^2 / (1-|b|^2)
196 double distance2( const HepLorentzRotation & lt ) const;
197 // 3 - Tr ( this/r ) + |b|^2 / (1-|b|^2) where b is the boost vector of lt
198
199 double howNear( const HepBoost & lt ) const;
200 double howNear( const HepLorentzRotation & lt ) const;
201 bool isNear( const HepBoost & lt,
202 double epsilon=Hep4RotationInterface::tolerance) const;
203 bool isNear( const HepLorentzRotation & lt,
204 double epsilon=Hep4RotationInterface::tolerance) const;
205
206 // ---------- Properties:
207
208 double norm2() const;
209 // distance2 (IDENTITY), which is 3 - Tr ( *this )
210
211 inline void rectify();
212 // non-const but logically moot correction for accumulated roundoff errors
213
214 // ---------- Application:
215
216 inline Hep3Vector operator() (const Hep3Vector & p) const;
217 // Rotate a Hep3Vector.
218
219 inline Hep3Vector operator * (const Hep3Vector & p) const;
220 // Multiplication with a Hep3Vector.
221
222 inline HepLorentzVector operator()( const HepLorentzVector & w ) const;
223 // Rotate (the space part of) a HepLorentzVector.
224
225 inline HepLorentzVector operator* ( const HepLorentzVector & w ) const;
226 // Multiplication with a HepLorentzVector.
227
228 // ---------- Operations in the group of Rotations
229
230 inline HepRotationY operator * (const HepRotationY & ry) const;
231 // Product of two Y rotations (this) * ry is known to be RotationY.
232
233 inline HepRotationY & operator *= (const HepRotationY & r);
234 inline HepRotationY & transform (const HepRotationY & r);
235 // Matrix multiplication.
236 // Note a *= b; <=> a = a * b; while a.transform(b); <=> a = b * a;
237 // However, in this special case, they commute: Both just add deltas.
238
239 inline HepRotationY inverse() const;
240 // Returns the inverse.
241
242 friend HepRotationY inverseOf(const HepRotationY & r);
243 // Returns the inverse of a RotationY.
244
245 inline HepRotationY & invert();
246 // Inverts the Rotation matrix (be negating delta).
247
248 // ---------- I/O:
249
250 std::ostream & print( std::ostream & os ) const;
251 // Output, identifying type of rotation and delta.
252
253 // ---------- Tolerance
254
255 static inline double getTolerance();
256 static inline double setTolerance(double tol);
257
258protected:
259
260 double d;
261 // The angle of rotation.
262
263 double s;
264 double c;
265 // Cache the trig functions, for rapid operations.
266
267 inline HepRotationY ( double dd, double ss, double cc );
268 // Unchecked load-the-data-members
269
270 static inline double proper (double delta);
271 // Put an angle into the range of (-PI, PI]. Useful helper method.
272
273}; // HepRotationY
274
275// ---------- Free-function operations in the group of Rotations
276
277inline
278std::ostream & operator <<
279 ( std::ostream & os, const HepRotationY & r ) {return r.print(os);}
280
281} // namespace CLHEP
282
283#include "CLHEP/Vector/RotationY.icc"
284
285#ifdef ENABLE_BACKWARDS_COMPATIBILITY
286// backwards compatibility will be enabled ONLY in CLHEP 1.9
287using namespace CLHEP;
288#endif
289
290#endif /* HEP_ROTATIONY_H */
291
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