Algorithm is pretty straightforward:

You start with list of 1 segment from `A`

to `B`

, then on each generation you split each segment on 2 segments by shifting middle point on random offset on his norm

```
struct Segment {
let start: CGPoint
let end: CGPoint
}
/// Calculate norm of 2d vector
func norm(_ v: CGPoint) -> CGPoint {
let d = max(sqrt(v.x * v.x + v.y * v.y), 0.0001)
return CGPoint(x: v.x / d, y: v.y / -d)
}
/// Splitting segment on 2 segments with middle point be shifted by `offset` on norm
func split(_ segment: Segment, by offset: CGFloat) -> [Segment] {
var midPoint = (segment.start + segment.end) / 2
midPoint = norm(segment.end - segment.start) * offset + midPoint
return [
Segment(start: segment.start, end: midPoint),
Segment(start: midPoint, end: segment.end)
]
}
/// Generate bolt-like line from `start` to `end` with maximal started frequence of `maxOffset`
/// and `generation` of split loops
func generate(from start: CGPoint, to end: CGPoint, withOffset maxOffset: CGFloat, generations: Int = 6) -> UIBezierPath {
var segments = [Segment(start: start, end: end)]
var offset = maxOffset
for _ in 0 ..< generations {
segments = segments.flatMap { split($0, by: CGFloat.random(in: -offset...offset)) }
offset /= 2
}
let path = UIBezierPath()
path.move(to: start)
segments.forEach { path.addLine(to: $0.end) }
return path
}
// MARK: - Example
let start = CGPoint(x: 10, y: 10)
let end = CGPoint(x: 90, y: 90)
let path = generate(from: start, to: end, withOffset: 30, generations: 5)
// MARK: - Helpers
func + (lhs: CGPoint, rhs: CGPoint) -> CGPoint {
return CGPoint(x: lhs.x + rhs.x, y: lhs.y + rhs.y)
}
func - (lhs: CGPoint, rhs: CGPoint) -> CGPoint {
return CGPoint(x: lhs.x - rhs.x, y: lhs.y - rhs.y)
}
func / (lhs: CGPoint, rhs: CGFloat) -> CGPoint {
return CGPoint(x: lhs.x / rhs, y: lhs.y / rhs)
}
func * (lhs: CGPoint, rhs: CGFloat) -> CGPoint {
return CGPoint(x: lhs.x * rhs, y: lhs.y * rhs)
}
```