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I need to implement a method for non-linear interpolation between values, ease-in, ease-out, general easing curves as well as user defined curves.

I have a basic idea of how to do this - but I am not sure if it will be the most efficient solution. My idea is basically as follows:

Use a 2D cubic, quadratic or n-th order Bezier curve to control the interpolation. Traverse through the curve linearly to get the non-linear Y component, and use that to value to feed a simple linear interpolation method:

value = v1 + (v2 - v1) * t;

Where t is the non-linear Y component of the control curve.

This allows for custom, user defined methods for interpolation, but it comes at a cost, the cost of one non-linear interpolation is equal to:

1 + 2 * (n-1)

total interpolations, where n is the order, or number of control points of the control curve.

I am NO MATHEMATICIAN, this is the best I could come up with, so my question is if there is a better solution?

EDIT: I am probably not explaining it right, I am not a native speaker, so here is something hopefully everyone will understand: control curve interpolation

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A better solution for what, specifically? Interpolation in general, or just a more-efficient Bezier algorithm? What are your constraints? –  Oliver Charlesworth Apr 10 '12 at 20:15
How will you create the cubic or quadrating cureve to "control the interpolation"? Just guessing? –  Dan W Apr 10 '12 at 20:16
@DanW - the changing slope of the curve is used as t for the interpolation, basically instead of getting linear change from v1 to v2, the "position" of the interpolated value is dictated by the control curve's Y component. –  ddriver Apr 10 '12 at 20:18
A bezier-curve is a perfect example of a non-linear interpolation. If you want an object to traverse the curve at a constant speed, see this answer. Otherwise, I don't understand what your question is. –  BlueRaja - Danny Pflughoeft Apr 10 '12 at 20:34
@BlueRaja-DannyPflughoeft - actually, your link is helpful in another are, so thanks for bringing it up, however it is not the topic of this question, see the image I added, perhaps it will get clearer. Thanks! –  ddriver Apr 10 '12 at 20:40

1 Answer 1

up vote 2 down vote accepted

From what I understand, your t is actually a family of functions fi(u), where both u, and fi(u) are between 0 and 1. If that is the case, it doesn't get any better than what you've already proposed.

It looks like you are worried about evaluating these fi(u) values during actual curve calculation. There is no avoiding the evaluation if you don't want to pre-calculate. If performance is a big issue and you don't need to be very precise, you can calculate tables of fi(uj) for as many uj values as you want (say 100 or 1000 discrete points between 0 and 1) for each of your curves, and when you need a value between your sampling points, do a simple linear interpolation of the two cached values around your desired point.

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Thanks, that is all I needed to know. The idea is basically to create a family of classes, one of them is the one you described, returning values from 0 to 1, but also others the user can set other values and type, for example you may want a random number between 0 and 3, but you want control over the odds of returning any of those numbers, for example you want 70% odds for 0, 20% odds for 1, 7% odds for 2 and only 3% for 1, also to control while loops to create custom, non linear for loops and other stuff like that... –  ddriver Apr 11 '12 at 6:58

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