package tins2020 import "opslag.de/schobers/geom/noise" type NoiseMap interface { Value(x, y int32) float64 } func NewNoiseMap(seed int64) NoiseMap { return &noiseMap{ noise: noise.NewPerlin(seed), alpha: 2, beta: 4, harmonics: 2, } } func NewRandomNoiseMap(seed int64) NoiseMap { return &randomNoiseMap{noise.NewPerlin(seed)} } type noiseMap struct { noise *noise.Perlin alpha, beta float64 harmonics int } func clipNormalized(x float64) float64 { if x < 0 { return 0 } if x > 1 { return 1 } return x } // Value generates the noise value for an x/y pair. The range of the output is approximately [-1.325825214,1.325825214] (for 4 harmonics). func (m *noiseMap) Value(x, y int32) float64 { value := m.noise.Noise2D(float64(x)*.01, float64(y)*.01, m.alpha, m.beta, m.harmonics)*.565 + .5 return clipNormalized(value) } type randomNoiseMap struct { *noise.Perlin } // Value generates the noise value for an x/y pair. The range of the output is approximately [-1.325825214,1.325825214] (for 4 harmonics). func (m randomNoiseMap) Value(x, y int32) float64 { value := m.Noise2D(float64(x)*.53, float64(y)*.53, 1.01, 2, 2)*.5 + .5 return clipNormalized(value) }