Say, if I'm doing the EaseOut and then EaseIn 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?
6 Answers
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)*(1n)+.5}
function Bezier(t){return t*t*(32*t)}
function Parametric(t){return t*t/(2*(t*tt)+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
Quadratic ease out where:
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 ?– SirOct 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– ToadOct 23, 2015 at 14:17

2What is the change in value? I don't understand where that comes from. Nov 20, 2015 at 14:53

1You 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– ToadNov 25, 2015 at 13:42

1Say 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.– ToadNov 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 inout)
.
Brainstorm gave me two ways:
1) Trygonometric formula. Firstly, I wrote y=(sin(x/π*10π/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(x1)^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 Scurve 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 scurve exponent
return pow(progress, exp) / (pow(progress, exp) + pow(1.0  progress, exp)); // apply scurve
} else {
if (curvature < 0.99999) return 0.5;
float exp = 1.0 + curvature; // find scurve exponent
return pow(progress, exp) / (pow(progress, exp) + pow(1.0  progress, exp)); // apply scurve
}
}
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;
}
}