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I've written a a little function that gives me out a value based on a sine wave when I put in a float between 0 and 1. I'm using it to lerp things around in a game.

public static class Utilities 
    public static float SineMe(float prop)
        float output = (prop*180f)-90f;

        output = Mathf.Sin(output*Mathf.Deg2Rad);

        output = (output+1f)/2f;

        return output;

It works fine.. But I was wondering is there a mathematical way of altering the sine wave so I can make it 'steeper' or 'shallower' in the middle? In the diagram below the blue curve is a sine wave, I'm wondering if I can make it more like the green line.

enter image description here

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Are you saying you want something more like y = ((2 * sin(x)) ^ 2) / 4 than y = sin(x) ? – Rowland Shaw Feb 27 '14 at 13:40
You may be interested in the easing functions cheat sheet, which can help you find a curve of satisfactory steepness. Then you can look up the source for that curve here. – Kevin Feb 27 '14 at 13:52
Any tangent / tangentoid would do. – moonwave99 Feb 27 '14 at 14:19
@Kevin, Thanks a lot that page is amazing, also now I know the word "easing" – Guye Incognito Feb 27 '14 at 16:59
up vote 5 down vote accepted

What you're showing already isn't really sine - the range of sine is between -1 and +1. You're applying the linear function f(x) = (x+1)/2 to change that range. So place another function between the sine and that transform.

To change the shape, you need a non-linear function. So, here's a cubic equation you might try...

g(x) = Ax^3 + Bx^2 + Cx + D

D = 0
C = p
B = 3 - 3C
A = 1 - (B + C)

The parameter p should be given a value between 0.0 and 9.0. If it's 1.0, g(x) is the identity function (the output is the unmodified input). With values between 0.0 and 1.0, it will tend to "fatten" your sine wave (push it away from 0.0 and towards 1.0 or -1.0) which is what you seem to require.

I once "designed" this function as a way to get "fractal waveforms". Using values of p between 1.0 and 9.0 (and particularly between around 3.0 and 6.0) iterative application of this formula is chaotic. I stole the idea from the population fluctuation modelling chaotic function by R. M. May, but that's a quadratic - I wanted something symmetric, so I needed a cubic function. Not really relevant here, and a pretty aweful idea as it happens. Although you certainly get chaotic waveforms, what that really means is huge problems with aliassing - change the sample rate and you get a very different sound. Still, without the iteration, maybe this will give you what you need.

If you iterate enough times with p between 0.0 and 1.0, you end up with a square wave with slightly rounded corners.

Most likely you can just choose a value of p between 0.0 and 1.0, apply that function once, then apply your function to change the range and you'll get what you want.

By the way, there's already a comment suggesting a cheat sheet of "easing functions". "Easing" is a term from animation, and computer animation software often uses Bezier curves for that purpose - the same Bezier curves that vector graphics software often uses. Bezier curves come in quadratic and cubic variants, with cubic being the more common. So what this is doing probably isn't that different. However, cubic Bezier easing gives you more control - you can control the "ease-in" independently of the "ease-out", where my function only provides one parameter.

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