1.6 KiB
| title |
|---|
| utils.curveIntersectsY() |
The utils.curveIntersectsY() function finds the point(s) where a curve
intersects a given Y-value.
Signature
array | Point | false utils.curveIntersectsY(
Point start,
Point cp1,
Point cp2,
Point end,
float y)
This returns false if no intersections are found,
a Point object if
a single intersection is found, and an array
of Point objects if
multiple intersections are found.
Example
```js ({ Point, points, Path, paths, Snippet, snippets, utils, part }) => {points.start = new Point(10, 45) points.cp1 = new Point(50, 10) points.cp2 = new Point(0, 80) points.end = new Point(110, 70)
paths.curve = new Path() .move(points.start) .curve(points.cp1, points.cp2, points.end)
for (let y of [40, 50]) { points["from" + y] = new Point(10, y) points["to" + y] = new Point(110, y) paths["line" + y] = new Path() .move(points["from" + y]) .line(points["to" + y]) .addClass("lining dashed") }
snippets.i50 = new Snippet( "notch", utils.curveIntersectsY(points.start, points.cp1, points.cp2, points.end, 50) )
for (let p of utils.curveIntersectsY( points.start, points.cp1, points.cp2, points.end, 40 )) snippets[p.x] = new Snippet("notch", p)
return part }
</Example>
## Notes
This is a low-level (and faster) variant
of [`Path.intersectsY()`](/reference/api/path/intersectsy).
Instead of a path, you describe a single curve by passing the four
points that describes it.