Quaternion

class compas.geometry.Quaternion[source]

Bases: Geometry

A quaternion is defined by 4 components, X, Y, Z, and W.

Parameters:
wfloat

The scalar (real) part of a quaternion.

xfloat

X component of the vector (complex, imaginary) part of a quaternion.

yfloat

Y component of the vector (complex, imaginary) part of a quaternion.

zfloat

Z component of the vector (complex, imaginary) part of a quaternion.

namestr, optional

The name of the transformation.

Notes

The default convention to represent a quaternion \(q\) in this module is by four real values \(w\), \(x\), \(y\), \(z\). The first value \(w\) is the scalar (real) part, and \(x\), \(y\), \(z\) form the vector (complex, imaginary) part [1], so that:

\[q = w + xi + yj + zk\]

where \(i, j, k\) are basis components with following multiplication rules [2]:

\[\begin{split}\begin{align} ii &= jj = kk = ijk = -1 \\ ij &= k, \quad ji = -k \\ jk &= i, \quad kj = -i \\ ki &= j, \quad ik = -j \end{align}\end{split}\]

Quaternions are associative but not commutative.

Quaternion as rotation.

A rotation through an angle \(\theta\) around an axis defined by a euclidean unit vector \(u = u_{x}i + u_{y}j + u_{z}k\) can be represented as a quaternion:

\[q = cos(\frac{\theta}{2}) + sin(\frac{\theta}{2}) [u_{x}i + u_{y}j + u_{z}k]\]

i.e.:

\[\begin{split}\begin{align} w &= cos(\frac{\theta}{2}) \\ x &= sin(\frac{\theta}{2}) u_{x} \\ y &= sin(\frac{\theta}{2}) u_{y} \\ z &= sin(\frac{\theta}{2}) u_{z} \end{align}\end{split}\]

For a quaternion to represent a rotation or orientation, it must be unit-length. A quaternion representing a rotation \(p\) resulting from applying a rotation \(r\) to a rotation \(q\), i.e.: \(p = rq\), is also unit-length.

References

Examples

>>> Q = Quaternion(1.0, 1.0, 1.0, 1.0).unitized()
>>> R = Quaternion(0.0,-0.1, 0.2,-0.3).unitized()
>>> P = R*Q
>>> P.is_unit
True
Attributes:
wfloat

The W component of the quaternion.

xfloat

The X component of the quaternion.

yfloat

The Y component of the quaternion.

zfloat

The Z component of the quaternion.

wxyzlist[float], read-only

Quaternion as a list of float in the ‘wxyz’ convention.

xyzwlist[float], read-only

Quaternion as a list of float in the ‘xyzw’ convention.

normfloat, read-only

The length (euclidean norm) of the quaternion.

is_unitbool, read-only

True if the quaternion is unit-length. False otherwise.

Methods

canonize

Makes the quaternion canonic.

canonized

Returns a quaternion in canonic form.

conjugate

Conjugate the quaternion.

conjugated

Returns a conjugate quaternion.

from_frame

Creates a quaternion object from a frame.

from_matrix

Create a Quaternion from a transformation matrix.

from_rotation

Create a Quaternion from a Rotatation.

unitize

Scales the quaternion to make it unit-length.

unitized

Returns a quaternion with a unit-length.

Inherited Methods

ToString

Converts the instance to a string.

compute_aabb

Compute the axis-aligned bounding box of the geometry.

compute_obb

Compute the oriented bounding box of the geometry.

copy

Make an independent copy of the data object.

from_json

Construct an object of this type from a JSON file.

from_jsonstring

Construct an object of this type from a JSON string.

rotate

Rotate the geometry.

rotated

Returns a rotated copy of this geometry.

scale

Scale the geometry.

scaled

Returns a scaled copy of this geometry.

sha256

Compute a hash of the data for comparison during version control using the sha256 algorithm.

to_json

Convert an object to its native data representation and save it to a JSON file.

to_jsonstring

Convert an object to its native data representation and save it to a JSON string.

transform

Transform the geometry.

transformed

Returns a transformed copy of this geometry.

translate

Translate the geometry.

translated

Returns a translated copy of this geometry.

validate_data

Validate the data against the object's data schema.