# How to evaluate polynomial coefficients for animation channel spline?

I am reverse engineering a video games animation files and have run into a brick wall. The animation sets are structured as follows:

For each animation set:

• Animation Set Name: Attack
• Number of Bones: 22
• Duration: 1.03333

and subsequently for each bone in the set:

• Bone Name: Pelvis
• Bone ID: 0
• Key Interval: 0.0333333
• Keys: 31

and then the following data is broken up into 7 channels (`Position[x,y,z]` and `Rotation quaternion[x,y,z,w]`):

Position[x,y,z] are either Constant or Original Values and I have no trouble here.

But the Rotation quaternion[x,y,z,w] channels are interpreted as Splines with N Segments and N Coefficients and I'm having trouble figuring out exactly how I would evaluate the Splines into data I can punch into a 3D program.

I know that each channel's spline is plotted as Y and X would equal normalized time (0 to 1).

This Q+A ( Evaluating Polynomial coefficients ) seems to be what I need:

A polynomial of degree n with coefficient a0, a1, a2, a3........an is the function

p(x)= a0+a1*x+a2*x^2+a3*x^3+.....+an*x^n

and written as Python code:

``````def poly(lst, x):
n, tmp = 0, 0
for a in lst:
tmp = tmp + (a * (x**n))
n += 1

return tmp
``````

But I'm not sure I'm doing it right when i put `lst` as the coefficients for each segment and `x = Duration / Keys`.

Here is the first animation set's 'Rot.x' channel and its Segments and Coefficients:

Segments = 3

Segment 1

• Coeff1: 0.0198117
• Coeff2: 0.00826611
• Coeff3: 0.0521381
• Coeff4: -0.00210184

Segment 2

• Coeff1: -0.181324
• Coeff2: 1.09073
• Coeff3: -1.77627
• Coeff4: 0.920407

Segment 3

• Coeff1: -0.0335189
• Coeff2: 0.265863
• Coeff3: -0.359457
• Coeff4: 0.147228

The way I'm looking at this is each segment is 1/3 of the duration (1.03333) and furthermore each segments coefficients are to be evaluated over 1/3 of the number of keys (31), but the output using the above `poly(lst, x)` function for

• segment 1 = from 0.019 to 4.90 to -7.15
• segment 2 = from -0.18 to 20985.41
• segment 3 = from -0.03 to 3296.11

Obviously I'm doing something wrong since the output is way too high.

Any help would greatly be appreciated!

• Do you have any data for the other quaternion components (y, z, w)? – Rufflewind Nov 26 '14 at 1:24
• Also, I don't really see the problem you're experiencing. The plot looks fine to me. I don't think the segments are divided evenly into thirds, however. – Rufflewind Nov 26 '14 at 1:27