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1) I have a bunch of spline control points ranging from P0 to PN.
2) I have a spline basis matrix.

How do I, given 2 control point indices and a t value, apply the basis matrix to get an interpolated position?

Now I keep seeing the following form:

                [b00, b01, b02, b03] [p0]
                [b04, b05, b06, b07] [p1]
[t^3, t^2, t, 1][b08, b09, b10, b11].[p2]
                [b12, b13, b14, b15] [p3]

So I'm assuming p0 etc are my control points. I also assume that this is per component (ie x,y,z). However I'm totally unsure of what exactly I'm doing with the t values.

Can anyone explain this for me? I'm most probably just being an idiot :)

I'm using C++, and have many maths classes, so I'd rather not have the maths expanded out. It would be much more useful to just understand what is going on.

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1 Answer 1

up vote 1 down vote accepted

Yes, it's per component, so each p is a single number. They are the x-coordinates (say) of four consecutive control points.

Your matrix thing is simply the product of three matrices: ordinary matrix multiplication. So it's a sum: t^3.(b00.p0+b01.p1+...) + t^2.(b04.p0+b05.p1+...) + etc. And that's your coordinate value at the given value of t. (t^3 means t*t*t rather than t XOR 3 like in C, of course.)

The range of values of t will typically be from 0 to 1 on each segment of the spline. The b-values will then be such that the value at t=1 for one segment equals the value at t=0 for the next (and hence doesn't depend on the first control point of the first segment, or the last control point of the next).

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So effectively I am doing a veector matrix multiply and getting a resultant vector. I then multiply that with the 4 position's component (eg x) to get my final scalar value that is x? – Goz Feb 26 '11 at 18:53
Yup, that's right. – Gareth McCaughan Mar 2 '11 at 23:38

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