Implementation of a quaternion. This is used for rotating things without incurring in the dreaded gimbal lock issue, amongst other advantages.

Example

Constructor

[name]( [page:Float x], [page:Float y], [page:Float z], [page:Float w] )

x - x coordinate
y - y coordinate
z - z coordinate
w - w coordinate

Properties

.[page:Float x]

.[page:Float y]

.[page:Float z]

.[page:Float w]

Methods

.set( [page:Float x], [page:Float y], [page:Float z], [page:Float w] ) [page:Quaternion]

.copy( [page:Quaternion q] ) [page:Quaternion]

.setFromEuler( [page:Vector3 vector] ) [page:Quaternion]

Sets this quaternion from rotation specified by Euler angles.

.setFromAxisAngle( [page:Vector3 axis], [page:Float angle] ) [page:Quaternion]

Sets this quaternion from rotation specified by axis and angle.
Adapted from [link:http://www.euclideanspace.com/maths/geometry/rotations/conversions/angleToQuaternion/index.htm].
*Axis* have to be normalized, *angle* is in radians.

.setFromRotationMatrix( [page:Matrix4 m] ) [page:Quaternion]

Sets this quaternion from rotation component of *m*. Adapted from [link:http://www.euclideanspace.com/maths/geometry/rotations/conversions/matrixToQuaternion/index.htm].

.calculateW() [page:Quaternion]

.inverse() [page:Quaternion]

.length() [page:Float]

.normalize() [page:Quaternion]

.multiply( [page:Quaternion a], [page:Quaternion b] ) [page:Quaternion]

Sets this quaternion to *a x b*
Adapted from [link:http://www.euclideanspace.com/maths/algebra/realNormedAlgebra/quaternions/code/index.htm].

.multiplySelf( [page:Quaternion b] ) [page:Quaternion]

.multiplyVector3( [page:Vector3 vector], [page:Vector3 dest] ) [page:Quaternion]

Rotates *vector* by this quaternion into *dest*.
If *dest* is not specified, result goes to *vec*.

.clone() [page:Quaternion]

Static methods

.slerp( [page:Quaternion qa], [page:Quaternion qb], [page:Quaternion qm], [page:Float t] ) [page:Quaternion]

Adapted from [link:http://www.euclideanspace.com/maths/algebra/realNormedAlgebra/quaternions/slerp/].

[name]