#include "perlin.hpp" #include "lerp.hpp" #include "debug.hpp" #include "maths.hpp" #include #include // Just a random generator [-1.0, 1.0] static float generate (intmax_t x, intmax_t y) { uint32_t n = x + 257 * y; n = (n << 13U) ^ n; return (1.0 - ((n * (n * n * 15731 + 789221) + 1376312589) & 0x7fffffff) / 1073741824.0f); } double smooth2d (intmax_t x, intmax_t y) { double corners = (generate(x-1, y-1)+generate(x+1, y-1)+generate(x-1, y+1)+generate(x+1, y+1) ) / 16.0; double sides = (generate(x-1, y) +generate(x+1, y) +generate(x, y-1) +generate(x, y+1) ) / 8.0; double center = generate(x, y) / 4.0; return corners + sides + center; } double curve (double t) { return t * t * (3.0 - 2.0 * t); } double sample2d (double x, double y) { intmax_t x_int = intmax_t (x); double x_fac = x - x_int; intmax_t y_int = intmax_t (y); double y_fac = y - y_int; double p0 = smooth2d (x_int, y_int); double p1 = smooth2d (x_int + 1, y_int); double p2 = smooth2d (x_int, y_int + 1); double p3 = smooth2d (x_int + 1, y_int + 1); double i0 = lerp::cosine (p0, p1, curve (x_fac)); double i1 = lerp::cosine (p2, p3, curve (x_fac)); double value = lerp::cosine (i0, i1, curve (y_fac)); return value; } double sigmoid (double x) { return -1.0 + 2.0 / (1.0 + exp (-2.0 * x)); } double perlin2d (double x, double y) { size_t levels = 16; double persistence = 0.7; double total = 0.0; for (size_t i = 0; i < levels; ++i) { double frequency = powf (2.0, i); double amplitude = powf (persistence, i); total += sample2d (x * frequency, y * frequency) * amplitude; } return sigmoid (1.0 + total); } void perlin2d (uint8_t *restrict pixels, size_t width, size_t height) { for (size_t y = 0; y < height; ++y) for (size_t x = 0; x < width; ++x) { double p = perlin2d (x / 10.0, y / 10.0); pixels[x + y * width] = p * std::numeric_limits::max (); } }