# glm::mix returning invalid quaternion

I am trying to implement skeletal animation into my game engine and I have a problem with the interpolation.

Each frame, I want to interpolate between frames and thus I have code similar to this:

``````// This is the soon-to-be-interpolated joint
Joint &finalJoint = finalSkeleton.joints[i];

// These are our existing joints
const Joint &joint0 = skeleton0.joints[i];
const Joint &joint1 = skeleton1.joints[i];

// Interpolate
finalJoint.position = glm::lerp(joint0.position, joint1.position, interpolate);
finalJoint.orientation = glm::mix(joint0.orientation, joint1.orientation, interpolate);
``````

The final line is the problem. The orientation of `finalJoint` will sometimes be `(-1.#IND, -1.#IND, -1.#IND, -1.#IND)`.

These are some example values and what they result in (note that `interpolation` is `0.4` in all three cases):

• `joint0.orientation = (0.707107, 0.000242, 0.707107, 0.0)`
`joint1.orientation = (0.707107, 0.000242, 0.707107, 0.0)`
`finalJoint = (-1.#IND, -1.#IND, -1.#IND, -1.#IND)` (Incorrect)

• `joint0.orientation = (-0.451596, -0.61858, -0.262811, -0.586814)`
`joint1.orientation = (-0.451596, -0.61858, -0.262811, -0.586814)`
`finalJoint = (-0.451596, -0.61858, -0.262811, -0.586814)` (Correct)

• `joint0.orientation = (0.449636, 0.6195, 0.26294, 0.58729)`
`joint1.orientation = (0.449636, 0.6195, 0.26294, 0.58729)`
`finalJoint = (-1.#IND, -1.#IND, -1.#IND, -1.#IND)` (Incorrect)

(Yes, I am aware that it's interpolating between the same values.)

I have not yet grasped exactly how quaternions work, but this just seems strange to me.

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This is true (unfortunately) for many 3D geometrical operations. For example, what do you get if you do `cross(a, a)`? Badness. However, I don't see how this could be a problem for slerping between two quaternions. – Puppy Jul 20 '12 at 2:24
Have you considered that it's just a bug in GLM's quaternion slerp implementation? – Nicol Bolas Jul 20 '12 at 3:27
@NicolBolas I guess that's possible. I did consider it at first but after googling for a while I couldn't find anyone else who had problems with it. I'm going to sleep now but I'm going to try to roll my own slerp function tomorrow and see if it works. – Merigrim Jul 20 '12 at 3:41
I've written two implementations now, one using glm::quat for computing the values and one using float[4] arrays. The first one gives me errors like in my question, but for all values entered. The float one seems to work like it should though, but I am not able to confirm it before fixing other parts of my code that pertain to animation. – Merigrim Jul 20 '12 at 15:05

If you look at the typical Slerp equation, you'll see that it has a `Sin(Ω)` in the denominator of a fraction where Ω is the angle between the two quaternions: i.e., `Ω = acos(dot_product(q1,q1));` Now, `Sin(0)==0;` And when you divide by zero, there are problems. As mentioned in the Wikipedia article, this is a removable discontinuity, but that takes a bit of extra checking.

I just pulled down the code to take a look. Here's the sum of it:

``````T angle = acos(dot(x, y));
return (glm::sin((T(1)-a)*angle)*x+glm::sin(a*angle)*y)/glm::sin(angle);
``````

No special checks. This is prone to have numeric problems as the angle approaches zero. It may also take the long way around the rotation sphere for some interpolations. There are two other versions of glm:::mix commented out that do a better job dealing with these problems. It looks like the current version and its accompanying problems were committed to the repository in May of 2011.

I would recommend reverting to the version that uses linear interpolation if the angle is less than some threshold amount. Just comment out the current and uncomment the old one.

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Indeed, this was the problem. With my own implementation (which checks for this), things seemed to work somewhat okay, but it seems like a much better idea to use the other GLM version instead as you said. – Merigrim Jul 24 '12 at 17:56
FWIW, it's been corrected yesterday (using a linear interpolation in problematic cases, as proposed in the Essential Mathematics book) : github.com/g-truc/glm/commit/… – Calvin1602 Dec 20 '12 at 10:04