|
| | Euler () |
| | Default constructor generates zero filled Double vector of length 3, with (1,2,3) axes. More...
|
| |
| | Euler (const Euler &other) |
| | Copy constructor. More...
|
| |
| Euler & | operator= (const Euler &other) |
| | Copy assignment. More...
|
| |
| | Euler (Double in0, Double in1=0, Double in2=0) |
| | Constructs an Euler with specified angles and (1,2,3) axes. More...
|
| |
| | Euler (Double in0, uInt ax0, Double in1=0, uInt ax1=0, Double in2=0, uInt ax2=0) |
| | Constructs an Euler with specified angles and axes. More...
|
| |
| | Euler (const Quantity &in0) |
| |
| | Euler (const Quantity &in0, const Quantity &in1) |
| |
| | Euler (const Quantity &in0, const Quantity &in1, const Quantity &in2) |
| |
| | Euler (const Quantity &in0, uInt ax0) |
| |
| | Euler (const Quantity &in0, uInt ax0, const Quantity &in1, uInt ax1=0) |
| |
| | Euler (const Quantity &in0, uInt ax0, const Quantity &in1, uInt ax1, const Quantity &in2, uInt ax2=0) |
| |
| | Euler (const Quantum< Vector< Double > > &in) |
| | Constructs an Euler (zero filled) from elements of Quantity vector. More...
|
| |
| | Euler (const Quantum< Vector< Double > > &in, const Vector< uInt > &ax) |
| |
| | ~Euler () |
| | Destructor. More...
|
| |
| Euler | operator- () const |
| | The unary minus reverses the sign and order of the Euler angles. More...
|
| |
| Euler & | operator+= (const Euler &right) |
| | Addition and subtraction. More...
|
| |
| Euler | operator+ (const Euler &right) const |
| |
| Euler & | operator-= (const Euler &right) |
| |
| Euler | operator- (const Euler &right) const |
| |
| Double & | operator() (uInt which) |
| | Return the which' angle. More...
|
| |
| const Double & | operator() (uInt which) const |
| |
| Quantum< Vector< Double > > | getAngle () const |
| | with the optional conversion units. More...
|
| |
| Quantum< Vector< Double > > | getAngle (const Unit &unit) const |
| |
| void | set (uInt which, uInt ax) |
| | Set an axis. More...
|
| |
| void | set (uInt ax0, uInt ax1, uInt ax2) |
| | Set all axes. More...
|
| |
| Int | get (uInt which) const |
| | Get an axis. More...
|
| |
Vector of Euler rotation angles.
Intended use:
Internal
Review Status
- Reviewed By:
- tcornwel
- Date Reviewed:
- 1996/02/15
- Test programs:
- tMeasMath
Prerequisite
Etymology
Euler angles describe the rotation of a coordinate system
Synopsis
The Euler class is a vector of three angles, together with a vector of three signed integers. The angles describe the rotation around an axis of a coordinate system, the integers the actual axis around which to rotate. The integer can be 0 (do not use this angle) or 1,2,3 to indicate the axis. Given angles (a1,a2,a3) and axes (i1,i2,i3), the actual rotation matrix constructed will be:
R = Ri3(a3).Ri2(a2).Ri1(a1)
It has the following constructors:
-
Euler() creates a zero filled vector of length 3. Axes: (1,2,3)
-
Euler(Euler) creates a copy
-
Euler(Double, uInt, Double=0, uInt=0, Double=0, uInt=0) creates an Euler with specified values
-
Euler(Double, Double=0, Double=0) creates an Euler with (1,2,3)
-
Euler(Quantity, uInt, Quantity=0, uInt=0, Quantity=0, uInt=0) creates an Euler with specified values
-
Euler(Quantity, Quantity=0, Quantity=0) creates an Euler with interpretation of angle units in the Quantities
-
Euler(
Quantum<Vector<Double> >) creates a zero expanded Euler from at most the first three elements of Quantity vector; with (1,2,3)
-
Euler(
Quantum<Vector<Double> >, Vector<uInt>) creates a zero expanded Euler with given values
It has a unary minus operator, which reverses the sign and order of the three angles, and the order of the axes, to produce the Euler angles for a rotation with opposite signs, so that RotMatrix(-Euler) will generate the inverse rotation matrix as compared with RotMatrix(Euler).
getAngle() functions return the Euler angles as a Quantum vector.
Eulers have addition and subtraction (on the angles). Note that this produces the correct angles for a combined rotation only if the axes are identical.
A (which) operator returns the indicated angle. Set/get functions manipulate the axes.
Example
Quantity angle(25,"deg");
Euler eul(angle.get().getValue(),2);
RotMatrix rot(eul);
Motivation
To use generated precession and nutation results
Definition at line 116 of file Euler.h.
