# Constrain pitch, yaw, & roll

I've a rotation represented as a quaternion and am trying to constrain the pitch, yaw, & roll axes. I tried doing so thusly:

``````public struct Orientation
{
public Vector3 up, forward;

public Orientation(Vector3 up, Vector3 forward)
{
this.up = up;
this.forward = forward;
}
}

public static Orientation[] orientations = new Orientation
{
new Orientation(Vector3.right, Vector3.up),
new Orientation(Vector3.up, Vector3.forward),
new Orientation(Vector3.forward, Vector3.right)
};

public enum Axis
{
Pitch,
Yaw,
Roll
};

private Vector3 ConstrainAxis(Vector3 vector, Axis axis, float from, float to)
{
Orientation orientation = orientations[(int)axis];

float theta = (to - from) * 0.5F;

Vector3 cons = Quaternion.AngleAxis(from + theta, orientation.up) * orientation.forward;
Vector3 proj = Vector3.ProjectOnPlane(vector, orientation.up);

return ConstrainVector(cons.normalized, proj.normalized, theta);
}

private Vector3 ConstrainVector(Vector3 from, Vector3 to, float angle)
{
float theta = Mathf.Abs(angle / Vector3.Angle(from, to));

if(theta < 1.0F)
{
return Vector3.Slerp(from, to, theta);
}

}
``````

Which turned out to be nothing more than an over-complicated way of constraining the individual components of an euler angle representation, of which both are subject to a strange jittering issue (gimbal lock related?).

What is the best approach to constraining these axes?

• Constraining Euler Angels sounds like incorrect task. It is not fit to psysical motion , and probably is used to constrain only 2 axes. Is it possible that your task represent constraints of swing twist constraint of joint? – minorlogic Sep 28 '15 at 9:44
• Indeed it does. I have an IK system where I need to constrain the joints. – Tannz0rz Sep 28 '15 at 14:28
• Than you can decompose rotation into twist swing ? and apply constraints like in this tip alinenormoyle.com/weblog/?p=726 – minorlogic Sep 28 '15 at 14:55
• That's very nice, but I can't say I understand how I would go about applying a constraint to a quaternion in this fashion. Is it as simple as constraining the real part w? – Tannz0rz Sep 28 '15 at 16:05
• you can constraint quat with angle axis or directly constrain the magnitude of quat "vector" part. (don't forget , it is sin(0.5 * angle), and recalculate W with sqrt(1- vector_part.magnitude())) – minorlogic Sep 29 '15 at 8:01

For joint constraints it is common practice to use "swing twist" parametrization. To represent current rotation as "swing twist" for quaternions, theare are good decomposition http://www.alinenormoyle.com/weblog/?p=726

And constraint for "swing" and "twist" can be done with quaternions.

if we want to constrain swing to +-30 degrees , pseudocode looks like

``````Quaternion swing;
const double maxMagnitude = sin( 0.5 * toRad(30) );
const double maxMagnitudeW = sqrt(1.0 - maxMagnitude*maxMagnitude );
if(swing.vec().normSqr() > maxMagnitude*maxMagnitude)
{
swing.vec() = swing.vec().normalized() * maxMagnitude;
swing.w() = maxMagnitudeW;
}
``````

Adding to minorlogic's answer: it is important to save the the sign of targetQuat's W component. Here is a three.js implementation of twist constraint. Also seems there are some singularities I have not checked for: http://www.allenchou.net/2018/05/game-math-swing-twist-interpolation-sterp/

``````const HEAD_YAW_MAX = 40
const MAX_MAGNITUDE_W = Math.sqrt(1.0 - MAX_MAGNITUDE * MAX_MAGNITUDE);
const MAX_MAG_POW_2 = MAX_MAGNITUDE * MAX_MAGNITUDE;

in update function

v1.set(qT.x, qT.y, qT.z); //todo check singularity: rotation by 180
v1.projectOnVector(this.headBone.up); //up is direction around twist
// v1.set(0, qT.y, 0); //project on y axis
q1.set(v1.x, v1.y, v1.z, qT.w); //twist
q1.normalize();
q3.copy(q1).conjugate();
q2.multiplyQuaternions(qT, q3); //swing
q2.normalize();
v1.set(q1.x, q1.y, q1.z);
if (v1.lengthSq() > MAX_MAG_POW_2) {
v1.setLength(MAX_MAGNITUDE);
const sign = qT.w < 0 ? -1 : 1;
q1.set(v1.x, v1.y, v1.z, sign * MAX_MAGNITUDE_W);