function compare (a, b) {
if (a.x < b.x) return -1
if (a.x === b.x && a.y < b.y) return -1
return 1
}
function orientation (a, b, c) {
const alpha = (b.y - a.y) / (b.x - a.x)
const beta = (c.y - b.y) / (c.x - b.x)
if (alpha > beta) return 1
else if (beta > alpha) return -1
return 0
}
function convexHull (points) {
const pointsLen = points.length
if (pointsLen <= 2) {
console.log('Minimum of 3 points is required to form closed polygon!')
}
points.sort(compare)
const p1 = points[0]; const p2 = points[pointsLen - 1]
const upperPoints = []; const lowerPoints = []
upperPoints.push(p1)
lowerPoints.push(p1)
for (let i = 1; i < pointsLen; i++) {
if (i === pointsLen - 1 || orientation(p1, points[i], p2) !== -1) {
let upLen = upperPoints.length
while (upLen >= 2 && orientation(upperPoints[upLen - 2], upperPoints[upLen - 1], points[i]) === -1) {
upperPoints.pop()
upLen = upperPoints.length
}
upperPoints.push(points[i])
}
if (i === pointsLen - 1 || orientation(p1, points[i], p2) !== 1) {
let lowLen = lowerPoints.length
while (lowLen >= 2 && orientation(lowerPoints[lowLen - 2], lowerPoints[lowLen - 1], points[i]) === 1) {
lowerPoints.pop()
lowLen = lowerPoints.length
}
lowerPoints.push(points[i])
}
}
const hull = []
for (let i = 1; i < upperPoints.length - 1; i++) {
hull.push(upperPoints[i])
}
for (let i = lowerPoints.length - 1; i >= 0; i--) {
hull.push(lowerPoints[i])
}
console.log('The Convex Hull found is: \n')
console.log(hull)
}
const points = [
{ x: 0, y: 3 },
{ x: 1, y: 1 },
{ x: 2, y: 2 },
{ x: 4, y: 4 },
{ x: 0, y: 0 },
{ x: 1, y: 2 },
{ x: 3, y: 1 },
{ x: 3, y: 3 }]
convexHull(points)