2024-08-23 16:55:59 +10:00
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import Foundation
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2024-09-01 18:19:42 +10:00
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public struct ImprovedPerlin<T: BinaryFloatingPoint & SIMDScalar>: CoherentNoise2D, CoherentNoise3D {
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2024-08-29 03:56:54 +10:00
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private let p: [Int16]
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public init(permutation: [Int16]) {
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assert(permutation.count == 0x100)
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self.p = permutation
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}
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2024-08-23 16:55:59 +10:00
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public init(random: inout any RandomProvider) {
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2024-08-29 03:56:54 +10:00
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self.p = (0..<0x100).map { Int16($0) }.shuffled(using: &random)
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2024-08-23 16:55:59 +10:00
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}
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2024-09-01 18:19:42 +10:00
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public func get(_ point: SIMD2<T>) -> T {
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// Find unit square
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let idx = SIMD2(Int(floor(point.x)), Int(floor(point.y))) & 0xFF
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// Find relative point in square
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let inner = point - SIMD2(floor(point.x), floor(point.y))
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// Compute fade curves for each axis
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let u = inner.x.smootherStep()
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let v = inner.y.smootherStep()
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// Compute hash of the coordinates of the 4 square corners
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let a = idx.y + perm(idx.x), b = idx.y + perm(idx.x + 1)
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let aa = perm(a), ab = perm(a + 1)
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let ba = perm(b), bb = perm(b + 1)
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// Add blended results
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return v.mlerp(
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u.mlerp(
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grad(perm(aa), inner),
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grad(perm(ba), .init(inner.x - 1, inner.y))),
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u.mlerp(
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grad(perm(ab), .init(inner.x, inner.y - 1)),
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grad(perm(bb), inner - .init(repeating: 1))))
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}
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2024-08-23 16:55:59 +10:00
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public func get(_ point: SIMD3<T>) -> T {
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// Find unit cube containg point
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let idx = SIMD3(Int(floor(point.x)), Int(floor(point.y)), Int(floor(point.z))) & 0xFF
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// Find relative point in cube
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let inner = point - SIMD3(floor(point.x), floor(point.y), floor(point.z))
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// Compute fade curves for each axis
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let u = inner.x.smootherStep()
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let v = inner.y.smootherStep()
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let w = inner.z.smootherStep()
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// Compute hash of the coordinates of the 8 cube corners
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let a = idx.y + perm(idx.x)
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let aa = idx.z + perm(a)
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let ab = idx.z + perm(a + 1)
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let b = idx.y + perm(idx.x + 1)
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let ba = idx.z + perm(b)
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let bb = idx.z + perm(b + 1)
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// Add blended results
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return w.mlerp(v.mlerp(
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u.mlerp(
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grad(perm(aa), inner),
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grad(perm(ba), .init(inner.x - 1, inner.y, inner.z))),
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u.mlerp(
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grad(perm(ab), .init(inner.x, inner.y - 1, inner.z)),
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grad(perm(bb), .init(inner.x - 1, inner.y - 1, inner.z)))),
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v.mlerp(u.mlerp(
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grad(perm(aa + 1), .init(inner.x, inner.y, inner.z - 1)),
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grad(perm(ba + 1), .init(inner.x - 1, inner.y, inner.z - 1))),
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u.mlerp(
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grad(perm(ab + 1), .init(inner.x, inner.y - 1, inner.z - 1)),
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grad(perm(bb + 1), inner - .init(repeating: 1)))))
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2024-09-01 18:19:42 +10:00
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}
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@inline(__always) fileprivate func perm(_ x: Int) -> Int { Int(self.p[x & 0xFF]) }
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@inline(__always) fileprivate func grad(_ hash: Int, _ point: SIMD2<T>) -> T { grad(hash, SIMD3(point, 0)) }
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2024-08-23 16:55:59 +10:00
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2024-09-01 18:19:42 +10:00
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fileprivate func grad(_ hash: Int, _ point: SIMD3<T>) -> T {
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// Convert low 4 bits of hash code into 12 gradient directions
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let low4 = hash & 0xF
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var u = low4 < 8 ? point.x : point.y
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var v = low4 < 4 ? point.y : (low4 == 0b1100 || low4 == 0b1110 ? point.x : point.z)
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u = (low4 & 0x1) == 0 ? u : -u
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v = (low4 & 0x2) == 0 ? v : -v
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return u + v
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2024-08-23 16:55:59 +10:00
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}
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}
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