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Reference Guide
RotationZYX.cxx
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1 // @(#)root/mathcore:$Id$
2 // Authors: W. Brown, M. Fischler, L. Moneta 2005
3 
4  /**********************************************************************
5  * *
6  * Copyright (c) 2005 , LCG ROOT FNAL MathLib Team *
7  * *
8  * *
9  **********************************************************************/
10 
11 // Implementation file for rotation in 3 dimensions, represented by RotationZYX
12 //
13 // Created by: Lorenzo Moneta, May 23 2007
14 //
15 // Last update: $Id$
16 //
18 
19 #include <cmath>
20 
29 
31 
32 namespace ROOT {
33 
34 namespace Math {
35 
36 // ========== Constructors and Assignment =====================
37 
38 
39 
40 // ========== Operations =====================
41 
42 // DisplacementVector3D< Cartesian3D<double> >
43 // RotationZYX::
44 // operator() (const DisplacementVector3D< Cartesian3D<double> > & v) const
45 // {
46 // return Rotation3D(*this)(v);
47 // }
48 
49 
51  // combine with a Rotation3D
52  return RotationZYX ( Rotation3D(*this) * r );
53 }
54 
56  // combine with a AxisAngle
57  return RotationZYX ( Quaternion(*this) * Quaternion(a) );
58 }
59 
61  // combine with EulerAngles
62  return RotationZYX ( Quaternion(*this) * Quaternion(e) );
63 }
64 
66  // combine with a RotationZYX
67  //return RotationZYX ( Quaternion(*this) * Quaternion(e) );
68  return RotationZYX ( Rotation3D(*this) * Rotation3D(e) );
69 }
71  // combination with a Quaternion
72  return RotationZYX ( Quaternion(*this) * q );
73 }
74 
76  // combine with a RotationX
77  return RotationZYX ( Quaternion(*this) * r );
78 }
79 
81  // combine with a RotationY
82  return RotationZYX ( Quaternion(*this) * r );
83 }
84 
86  // combine with a RotationZ
87  // TODO -- this can be made much faster because it merely adds
88  // the r.Angle() to phi.
89  Scalar newPhi = fPhi + r.Angle();
90  if ( newPhi <= -Pi()|| newPhi > Pi() ) {
91  newPhi = newPhi - std::floor( newPhi/(2*Pi()) +.5 ) * 2*Pi();
92  }
93  return RotationZYX ( newPhi, fTheta, fPsi );
94 }
95 
97  return RotationZYX(r) * e; // TODO: improve performance
98 }
99 
101  return RotationZYX(r) * e; // TODO: improve performance
102 }
103 
105 operator * ( RotationZ const & r, RotationZYX const & e ) {
106  return RotationZYX(r) * e; // TODO: improve performance
107 }
108 
110 {
111  // rectify . The angle theta must be defined between [-PI/2,PI.2]
112  // same as Euler- Angles, just here Theta is shifted by PI/2 with respect to
113  // the theta of the EulerAngles class
114 
115  Scalar theta2 = fTheta + M_PI_2;
116  if ( theta2 < 0 || theta2 > Pi() ) {
117  Scalar t = theta2 - std::floor( theta2/(2*Pi() ) ) * 2*Pi();
118  if ( t <= Pi() ) {
119  theta2 = t;
120  } else {
121  theta2 = 2*Pi() - t;
122  fPhi = fPhi + Pi();
123  fPsi = fPsi + Pi();
124  }
125  // ftheta is shifted of PI/2 w.r.t theta2
126  fTheta = theta2 - M_PI_2;
127  }
128 
129  if ( fPhi <= -Pi()|| fPhi > Pi() ) {
130  fPhi = fPhi - std::floor( fPhi/(2*Pi()) +.5 ) * 2*Pi();
131  }
132 
133  if ( fPsi <= -Pi()|| fPsi > Pi() ) {
134  fPsi = fPsi - std::floor( fPsi/(2*Pi()) +.5 ) * 2*Pi();
135  }
136 
137 } // Rectify()
138 
140 {
141  // invert this rotation.
142  // use Rotation3D. TO Do :have algorithm to invert it directly
143  Rotation3D r(*this);
144  //Quaternion r(*this);
145  r.Invert();
146  *this = r;
147 }
148 
149 // ========== I/O =====================
150 
151 std::ostream & operator<< (std::ostream & os, const RotationZYX & e) {
152  // TODO - this will need changing for machine-readable issues
153  // and even the human readable form may need formatiing improvements
154  os << "\n{phi(Z angle): " << e.Phi() << " theta(Y angle): " << e.Theta()
155  << " psi(X angle): " << e.Psi() << "}\n";
156  return os;
157 }
158 
159 
160 } //namespace Math
161 } //namespace ROOT
Scalar Psi() const
Return Psi angle (X&#39;&#39; rotation angle)
Definition: RotationZYX.h:203
Namespace for new ROOT classes and functions.
Definition: StringConv.hxx:21
AVector operator*(const AVector &v) const
Overload operator * for rotation on a vector.
Definition: RotationZYX.h:258
Rotation class representing a 3D rotation about the Z axis by the angle of rotation.
Definition: RotationZ.h:43
void Rectify()
Re-adjust components place angles in canonical ranges.
Rotation class with the (3D) rotation represented by angles describing first a rotation of an angle p...
Definition: RotationZYX.h:59
static double Pi()
Definition: RotationZYX.h:323
Rotation class with the (3D) rotation represented by a unit quaternion (u, i, j, k).
Definition: Quaternion.h:47
std::ostream & operator<<(std::ostream &os, const AxisAngle &a)
Stream Output and Input.
Definition: AxisAngle.cxx:91
AxisAngle class describing rotation represented with direction axis (3D Vector) and an angle of rotat...
Definition: AxisAngle.h:41
Rotation class representing a 3D rotation about the Y axis by the angle of rotation.
Definition: RotationY.h:43
#define M_PI_2
Definition: Math.h:42
ROOT::R::TRInterface & r
Definition: Object.C:4
auto * a
Definition: textangle.C:12
RotationZYX()
Default constructor.
Definition: RotationZYX.h:71
Rotation class representing a 3D rotation about the X axis by the angle of rotation.
Definition: RotationX.h:43
Rotation class with the (3D) rotation represented by a 3x3 orthogonal matrix.
Definition: Rotation3D.h:65
double floor(double)
void Invert()
Invert a rotation in place.
EulerAngles class describing rotation as three angles (Euler Angles).
Definition: EulerAngles.h:43
you should not use this method at all Int_t Int_t Double_t Double_t Double_t e
Definition: TRolke.cxx:630
Scalar Theta() const
Return Theta angle (Y&#39; rotation angle)
Definition: RotationZYX.h:193
Namespace for new Math classes and functions.
void Invert()
Invert a rotation in place.
Definition: Rotation3D.cxx:109
Scalar Phi() const
Return Phi angle (Z rotation angle)
Definition: RotationZYX.h:183
Scalar Angle() const
Angle of rotation.
Definition: RotationZ.h:103
float * q
Definition: THbookFile.cxx:87