---
title: utils.pointOnBeam()
---
The `utils.pointOnBeam()` function returns `true` if the point `check` lies on
the endless line that goes through `point1` and `point2`.
## Signature
```js
bool utils.pointOnBeam(
Point point1,
Point point2,
Point check,
float precision = 1e6
)
```
The fourth parameter controls the precision. Lower numbers make the check less precise.
## Example
<Example caption="A Utils.pointOnBeam() example">
```js
({ Point, points, Path, paths, Snippet, snippets, getId, utils, part }) => {
points.from1 = new Point(10, 10)
points.to1 = new Point(90, 60)
points.from2 = new Point(10, 30)
points.to2 = new Point(90, 80)
points.b1 = new Point(170, 110)
points.b2 = new Point(170, 130)
const scatter = []
for (let i = 1; i < 36; i++) {
for (let j = 1; j < 27; j++) {
scatter.push(new Point(i * 10, j * 10))
}
}
let snippet
for (let point of scatter) {
if (utils.pointOnBeam(points.from1, points.to1, point)) snippet = "notch"
else snippet = "bnotch"
snippets[getId()] = new Snippet(snippet, point)
if (utils.pointOnBeam(points.from2, points.to2, point, 0.01)) {
snippet = "notch"
} else snippet = "bnotch"
snippets[getId()] = new Snippet(snippet, point)
}
paths.line1 = new Path()
.move(points.from1)
.line(points.to1)
.addClass("fabric stroke-lg")
paths.lne1 = new Path()
.move(points.to1)
.line(points.b1)
.addClass("fabric dashed")
paths.line2 = new Path()
.move(points.from2)
.line(points.to2)
.addClass("fabric stroke-lg")
paths.lne2 = new Path()
.move(points.to2)
.line(points.b2)
.addClass("fabric dashed")
return part
}
```
</Example>
## Notes
Typically, you don't need to worry about precision. But occasionally, you may
get unexpected results because of floating point errors, rounding errors, or
cubic Bézier juggling.
When that happens, you can lower the precision so you get what you expect.
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