# Ease-in and ease-out animation formula

Say, if I'm doing the Ease-Out and then Ease-In animation of an object's movement from X1 coordinate to X2 coordinate over S steps at equal time intervals. Can some suggest the formula to calculate this movement's X coordinates?

• Check out robertpenner.com/easing, in particular the action script 2.0 source. From that you should be able to convert it to C#. Nov 19, 2012 at 20:57

Personally, I'd rather use a function that gets a time in [0; 1] and output a value in [0; 1], so that we can apply the result to any type (2D vector, 3D vector, ...).

## Solution 1

For the quadratic easing in/out, the curve is separated in two distinct functions depending on the value of `t`:

• when `t` <= 0.5: `f(x) = 2 * x * x` with x in [0;0.5] (graph)
• when `t` > 0.5: `f(x) = 2 * x * (1 - x) + 0.5` with x in [0;0.5] (graph)

Here are the graphs:

Since the second function is also in [0;0.5], but `t` > 0.5 when we start to use it, we need to reduce `t` by 0.5.

This is the result, in C:

``````float InOutQuadBlend(float t)
{
if(t <= 0.5f)
return 2.0f * t * t;
t -= 0.5f;
return 2.0f * t * (1.0f - t) + 0.5f;
}
``````

## Solution 2 (Bézier)

Another interesting blend curve is the one given by Bézier, which have the advantage to be quite optimized (no if). Here is the curve from Wolfram: And here is the C code:

``````float BezierBlend(float t)
{
return t * t * (3.0f - 2.0f * t);
}
``````

## Solution 3 (parametric function)

Another method proposed by @DannyYaroslavski is the simple formula proposed here.

It is parametric and gets a nice in/out acceleration and deceleration.

With alpha = 2, you get this function: Which translates in C like this:

``````float ParametricBlend(float t)
{
float sqt = t * t;
return sqt / (2.0f * (sqt - t) + 1.0f);
}
``````
• In the last function I suppose that X is actually a T parameter of the funcrion, right ? May 17, 2017 at 18:05
• In case anyone else in looking here are all 3 functions, in JavaScript and compressed . . . . . . . . . `function InOutQuad(n){return n<=.5?2*n*n:2*(n-=.5)*(1-n)+.5}` `function Bezier(t){return t*t*(3-2*t)}` `function Parametric(t){return t*t/(2*(t*t-t)+1)}` (Give 'em a number between 0 and +1 and they'll return a number between 0 and +1.) Feb 2, 2022 at 3:33

t = current time
b = start value
c = change in value
d = duration

`````` function (float time, float startValue, float change, float duration) {
time /= duration / 2;
if (time < 1)  {
return change / 2 * time * time + startValue;
}

time--;
return -change / 2 * (time * (time - 2) - 1) + startValue;
};
``````

source: http://gizma.com/easing/

• Toad, when you say `t = time` do you mean time from start of animation or time from previous frame ?
– Sir
Oct 23, 2015 at 2:07
• t goes from 0 - 1 where 0 is the beginning of the animation, and 1 is the end. For every keyframe, you should change the values and let t again go from 0 to 1
Oct 23, 2015 at 14:17
• What is the change in value? I don't understand where that comes from. Nov 20, 2015 at 14:53
• You first use the formula to go from keyframe1 to keyframe 2. (So b is keyframe1 value and c is keyframe 2 value). Then you let the t go from 0.0 to 1.0. By the time you are at 1.0 you repeat these steps, only now you use keyframe2 and keyframe 3
Nov 25, 2015 at 13:42
• Say the startvalue = 3 and you want to ease to the value 5. Then the change in value is 2. So the change in value is the endvalue - the start value.
Nov 12, 2017 at 20:30

All the above solutions lack examples of usage.

Found good solution here:

`````` function animate({timing, draw, duration}) {

let start = performance.now();

requestAnimationFrame(function animate(time) {
// timeFraction goes from 0 to 1
let timeFraction = (time - start) / duration;
if (timeFraction > 1) timeFraction = 1;

// calculate the current animation state
let progress = timing(timeFraction)

draw(progress); // draw it

if (timeFraction < 1) {
requestAnimationFrame(animate);
}

});
}
``````

Example of usage:

``````animate({
duration: 1000,
timing(timeFraction) { // here you can put other functions
return timeFraction;
},
draw(progress) {
elem.style.width = progress * 100 + '%';
}
});
``````

Other function:

``````function quad(timeFraction) {
return Math.pow(timeFraction, 2)
}
``````

More here

I got same problem: wanted to animate my chart `(Ease in-out)`.

Brainstorm gave me two ways:

1) Trygonometric formula. Firstly, I wrote `y=(sin(x/π*10-π/2)+1)/2`,which analog is `sin^2((5*x)/π)`

``````float TrygoEase (float x) {
float y=(float)Math.pow(Math.sin(5*x/Math.PI),2);
return y;
}
``````

2) Two parabolas. It was not hard. I just used `y=2*x*x` on `[0;0.5]`, and `y=-2(x-1)^2+1` on `[0.5;1]`

``````float ParabolEase(float x) {
float y=2*x*x;
if(x>0.5f){
x-=1;
y=-2*x*x+1;
}
return y;
}
``````

Use this ways for `x=[0;1]`, what returns also `y=[0;1]`.

Now You can compare this graphs: Here is a version with the amount of curvature as an argument, following this general solution linked to by Creak.

``````/*
* applyCurve: apply an S-curve to an input value.
* The highest positive curvature will result in a step from 0 to 1,
* the most negative curvature will result in a constant of 0.5.
*
* progress: the input value between 0 and 1,
* curvature: the amount of curvature between -1 and 1.
*  Negative values curve the other way, 0 applies no curvature.
*/

double applyCurve(double progress, double curvature) {
assert(progress >= 0.0 && progress <= 1.0);
assert(curvature >= -1.0 && curvature <= 1.0);

if (curvature >= 0.0) {
if (curvature > 0.99999) return progress > 0.5 ? 1.0 : 0.0;

float exp = 1.0 / (1.0 - curvature); // find s-curve exponent
return pow(progress, exp) / (pow(progress, exp) + pow(1.0 - progress, exp)); // apply s-curve
} else {
if (curvature < -0.99999) return 0.5;

float exp = 1.0 + curvature; // find s-curve exponent
return pow(progress, exp) / (pow(progress, exp) + pow(1.0 - progress, exp)); // apply s-curve
}
}
``````

This version allows you to use any ease in and ease out functions (EaseIn and EaseOut). Both functions must take a time value parameter from between 0 and 1, and return an eased time value between 0 and 1.

``````float EaseInOut(float t)
{
if (t <= 0.5f)
{
return EaseIn(t * 2) * 0.5f;
}
else
{
t -= 0.5f;
return (EaseOut(t * 2) * 0.5f) + 0.5f;
}
}
``````