I saw this at work and wanted to take a shot at it at home. After looking at this example from Wikipedia for some time I think I understood, what to do and below you will find an example, which I will explain now.

I will use a time interval between 0 and 1. Any number in between is the time fraction of the animation. What you want is to get the location of you "point of interest" at a given fraction of time. The first step is, that you have three points `A`

,`B`

,`C`

connected by two lines (`g => [AB]`

, `h => [BC]`

). For each of these lines you will have to calulate points, that are wandering between the startPoint and the weightPoint `P(g)`

respectively between the weightPoint and the endPoint `P(h)`

at a given fraction of time.

Between these two calculated points (`P(g)`

and `P(h)`

) you draw a third line (let's call it `y`

). Somewhere on that line is your "point of interest". But where? Again you have to calculate the position of a point on the line `y`

(called `P(y)`

) travelling from `P(g)`

to `P(h)`

.

The position of your `P(y)`

is what you're looking for.

```
function setup() {
createCanvas(400, 400);
fraction = 0;
drawnPoints = [];
}
function draw() {
background(100);
let start = new Point(30, 50, 5);
let end = new Point(300, 170, 5);
let weight = new Point(200, 300, 5);
let lineStartWeight = new Line(start, weight);
let lineStartWeightPoint = lineStartWeight.getPointAt(fraction);
let lineWeightEnd = new Line(weight, end);
let lineWeightEndPoint = lineWeightEnd.getPointAt(fraction);
let drawingLine = new Line(lineStartWeightPoint, lineWeightEndPoint);
start.draw('red');
end.draw('blue');
weight.draw('#0f0');
lineStartWeight.draw('#ff0');
lineWeightEnd.draw('#0ff');
lineStartWeightPoint.draw('#000');
lineWeightEndPoint.draw('#fff')
drawingLine.draw('#f66');
drawnPoints.push(drawingLine.getPointAt(fraction));
drawnPoints.forEach(p => p.draw(''));
fraction += 0.01
if (fraction > 1) {
fraction = 0;
drawnPoints = [];
}
}
class Point {
constructor(x, y, size = 1) {
this.x = x;
this.y = y;
this.size = size;
}
draw(color) {
fill(color);
noStroke();
ellipse(this.x, this.y, this.size, this.size);
}
}
class Line {
constructor(pointStart, pointEnd) {
this.pointStart = pointStart;
this.pointEnd = pointEnd;
}
draw(color) {
stroke(color);
line(this.pointStart.x, this.pointStart.y, this.pointEnd.x, this.pointEnd.y);
}
getPointAt(fraction) {
let xCoord = (this.pointEnd.x - this.pointStart.x) * fraction + this.pointStart.x;
let yCoord = (this.pointEnd.y - this.pointStart.y) * fraction + this.pointStart.y;
return new Point(xCoord, yCoord, 5);
}
}
```

```
html, body {
margin: 0;
padding: 0;
}
```

```
<html>
<head>
<script src="https://cdnjs.cloudflare.com/ajax/libs/p5.js/0.7.1/p5.min.js"></script>
<script src="https://cdnjs.cloudflare.com/ajax/libs/p5.js/0.7.1/addons/p5.dom.min.js"></script>
<script src="https://cdnjs.cloudflare.com/ajax/libs/p5.js/0.7.1/addons/p5.sound.min.js"></script>
<link rel="stylesheet" type="text/css" href="style.css">
</head>
<body>
<script src="sketch.js"></script>
</body>
</html>
```

**EDIT**

It boils down to one simple function. I will only illustrate it for the x values, but y works analogous.

start(x_{1}|y_{1}), end(x_{2}|y_{2}) , controlpoint(x_{3}|y_{3}), f = fraction of time of the animation

To get the x value at a point in time f you have:

x = (((x_{2}-x_{3})*f+x_{3})-((x_{3}-x_{1})*f+x_{1}))*f+((x_{3}-x_{1})*f+x_{1})

After a few simplifications you come out with:

x = f^{2}(x_{1}+x_{2}-2x_{3})
+2f(x_{3}-x_{1})+x_{1}