# how does Unity implements Vector3.Slerp exactly?

For my research I need to know, how exactly Unity implements the Slerp function for Vector3.

The Unity3D documentation descripes, that the input vectors are treated as directions rather than points in space. But it doesn´t explain, if there are quaternions used intern.

The Unity3D-C#-Reference mentionied Vector3.Slerp here:

``````[FreeFunction("VectorScripting::Slerp", IsThreadSafe = true)] extern public static Vector3 Slerp(Vector3 a, Vector3 b, float t);
``````

However, I cannot find the definition anywhere. I think it´s a C++ Reference. Unity's C++-Code is only available with a licence (as far as I know).

Can someone help me determine this question? All I need to know is if Unity3D internally uses Quaternions for Vector3.Slerp(Vector3, Vector3, float).

• en.wikipedia.org/wiki/Slerp has a couple of different formulas so use, one might be what you are looking for Jun 10, 2021 at 10:40
• Thank you. Unfortunately I have to know, what form Unity3D is using and If `Vector3.Slerp(Vector3 a, Vector3b, t)` is internally using quaternions. I think in theory the formula should work with Vectors as well, but I have to be sure. Jun 10, 2021 at 11:11

I'm of course not sure because we don't have the source code for these internal methods but I'm pretty sure they would not use `Quaternion` which would be pretty imperformant but rather use pure and simple float based math like sinus, cosinus etc something that in `c#` would look somewhat similar to e.g. the solution mentioned here

``````Vector3 Slerp(Vector3 start, Vector3 end, float percent)
{
// Dot product - the cosine of the angle between 2 vectors.
float dot = Vector3.Dot(start, end);

// Clamp it to be in the range of Acos()
// This may be unnecessary, but floating point
// precision can be a fickle mistress.
Mathf.Clamp(dot, -1.0f, 1.0f);

// Acos(dot) returns the angle between start and end,
// And multiplying that by percent returns the angle between
// start and the final result.
float theta = Mathf.Acos(dot) * percent;
Vector3 RelativeVec = end - start * dot;
RelativeVec.Normalize();

// Orthonormal basis
// The final result.
return ((start*Mathf.Cos(theta)) + (RelativeVec * Mathf.Sin(theta)));
}
``````

Though theirs are of course in the underlying c++ environment and won't use `Mathf` and therefore should be a bit better in performance.

• thank you! I also think so, but I was confused due to the amount of found Slerp-descriptions for Quaternions. The formulas should work well with Vector3, so there is no good argument for unity to implement the function with intern quaternions. Jun 10, 2021 at 11:28