Randomness for every type of person: Perlin, uniform, value, simplex, fractal and many other types of noise.
val sua = Double.uniform()
val sub = Double.uniform(-1.0, 1.0)
val v2ua = Vector2.uniform()
val v2ub = Vector2.uniform(-1.0, 1.0)
val v2uc = Vector2.uniform(Vector2(0.0, 0.0), Vector2(1.0, 1.0))
val v2ur = Vector2.uniformRing(0.5, 1.0)
val v3ua = Vector3.uniform()
val v3ub = Vector3.uniform(-1.0, 1.0)
val v3uc = Vector3.uniform(Vector3(0.0, 0.0, 0.0), Vector3(1.0, 1.0, 1.0))
val v3ur = Vector3.uniformRing(0.5, 1.0)
val v4ua = Vector4.uniform()
val v4ub = Vector4.uniform(-1.0, 1.0)
val v4uc = Vector4.uniform(Vector4(0.0, 0.0, 0.0, 0.0), Vector4(1.0, 1.0, 1.0, 1.0))
val v4ur = Vector4.uniformRing(0.5, 1.0)
val ringSamples = List(500) { Vector2.uniformRing() }Since ORX 0.4 the orx-noise module comes with functional composition tooling that allow one to create complex noise functions.
// create an FBM version of 1D linear perlin noise
val myNoise0 = perlinLinear1D.fbm(octaves=3)
val noiseValue0 = myNoise0(431, seconds)
// create polar version of 2D simplex noise
val myNoise1 = simplex2D.withPolarInput()
val noiseValue1 = myNoise1(5509, Polar(seconds*60.0, 0.5))
// create value linear noise with squared outputs which is then billowed
val myNoise2 = valueLinear1D.mapOutput { it * it }.billow()
val noiseValue2 = myNoise2(993, seconds * 0.1)These are a mostly straight port from FastNoise-Java but have a slightly different interface.
// -- 1d
val v0 = perlinLinear(seed, x)
val v1 = perlinQuintic(seed, x)
val v2 = perlinHermite(seed, x)
// -- 2d
val v3 = perlinLinear(seed, x, y)
val v4 = perlinQuintic(seed, x, y)
val v5 = perlinHermite(seed, x, y)
// -- 3d
val v6 = perlinLinear(seed, x, y, z)
val v7 = perlinQuintic(seed, x, y, z)
val v8 = perlinHermite(seed, x, y, z)// -- 1d
val v0 = valueLinear(seed, x)
val v1 = valueQuintic(seed, x)
val v2 = valueHermite(seed, x)
// -- 2d
val v2 = valueLinear(seed, x, y)
val v3 = valueQuintic(seed, x, y)
val v4 = valueHermite(seed, x, y)
// -- 3d
val v5 = valueLinear(seed, x, y, z)
val v6 = valueQuintic(seed, x, y, z)
val v7 = valueHermite(seed, x, y ,z)// -- 1d
val v0 = simplex(seed, x)
// -- 2d
val v1 = simplex(seed, x, y)
// -- 3d
val v2 = simplex(seed, x, y, z)
// -- 4d
val v3 = simplex(seed, x, y, z, w)// -- 1d
val v0 = cubic(seed, x, y)
val v1 = cubicQuintic(seed, x, y)
val v2 = cubicHermite(seed, x, y)
// -- 2d
val v0 = cubic(seed, x, y)
val v1 = cubicQuintic(seed, x, y)
val v2 = cubicHermite(seed, x, y)
// -- 3d
val v3 = cubic(seed, x, y, z)
val v4 = cubicQuintic(seed, x, y, z)
val v5 = cubicHermite(seed, x, y ,z)The library provides 3 functions with which fractal noise can be composed.
// 1d
val v0 = fbm(seed, x, ::perlinLinear, octaves, lacunarity, gain)
val v1 = fbm(seed, x, ::simplexLinear, octaves, lacunarity, gain)
val v2 = fbm(seed, x, ::valueLinear, octaves, lacunarity, gain)
// 2d
val v3 = fbm(seed, x, y, ::perlinLinear, octaves, lacunarity, gain)
val v4 = fbm(seed, x, y, ::simplexLinear, octaves, lacunarity, gain)
val v5 = fbm(seed, x, y, ::valueLinear, octaves, lacunarity, gain)
// 3d
val v6 = fbm(seed, x, y, z, ::perlinLinear, octaves, lacunarity, gain)
val v7 = fbm(seed, x, y, z, ::simplexLinear, octaves, lacunarity, gain)
val v8 = fbm(seed, x, y, z, ::valueLinear, octaves, lacunarity, gain)// 1d
val v0 = rigid(seed, x, ::perlinLinear, octaves, lacunarity, gain)
val v1 = rigid(seed, x, ::simplexLinear, octaves, lacunarity, gain)
val v2 = rigid(seed, x, ::valueLinear, octaves, lacunarity, gain)
// 2d
val v2 = rigid(seed, x, y, ::perlinLinear, octaves, lacunarity, gain)
val v3 = rigid(seed, x, y, ::simplexLinear, octaves, lacunarity, gain)
val v4 = rigid(seed, x, y, ::valueLinear, octaves, lacunarity, gain)
// 3d
val v3 = rigid(seed, x, y, z, ::perlinLinear, octaves, lacunarity, gain)
val v4 = rigid(seed, x, y, z, ::simplexLinear, octaves, lacunarity, gain)
val v5 = rigid(seed, x, y, z, ::valueLinear, octaves, lacunarity, gain)// 1d
val v0 = billow(seed, x, ::perlinLinear, octaves, lacunarity, gain)
val v1 = billow(seed, x, ::perlinLinear, octaves, lacunarity, gain)
val v2 = billow(seed, x, ::perlinLinear, octaves, lacunarity, gain)
// 2d
val v3 = billow(seed, x, y, ::perlinLinear, octaves, lacunarity, gain)
val v4 = billow(seed, x, y, ::perlinLinear, octaves, lacunarity, gain)
val v5 = billow(seed, x, y, ::perlinLinear, octaves, lacunarity, gain)
// 3d
val v6 = billow(seed, x, y, z, ::perlinLinear, octaves, lacunarity, gain)
val v7 = billow(seed, x, y, z, ::perlinLinear, octaves, lacunarity, gain)
val v8 = billow(seed, x, y, z, ::perlinLinear, octaves, lacunarity, gain)
