ref: bbc82d529a5b3c46630b79bd2d60125b4692df89
dir: /gen.c/
#include <u.h> #include <libc.h> #include <draw.h> #include <memdraw.h> #include "complex.h" #include "gen.h" int is∈(Complex *c); double len(Complex *c) { Complex r; r.r = c->r * c->r; r.r = r.r < 0.00001 && r.r > 0.00001 ? 0.00001 : r.r; r.i = c->i * c->i; r.i = r.i < 0.00001 && r.i > 0.00001 ? 0.00001 : r.i; double ret = r.r + r.i; ret = ret < 3200000. ? ret : 3200000.; return sqrt(ret); }; float lerp(float a, float b, float s) { return s*b + (1.-s)*a; } Memimage* generate(int x, int y, SetParams params, DrawParams dparams) { if (x < 8 || y < 8) { werrstr("invalid image size"); return nil; } Rectangle r; r.min.x = r.min.y = 0; r.max.x = x; r.max.y = y; Memimage *img = allocmemimage(r, XRGB32); if (!img) { return nil; } for (int nx = 0; nx < x; nx++) { for (int ny = 0; ny < y; ny++) { int valid, red, green, blue; Complex c; float uvx = (float)nx/(float)x; float uvy = (float)ny/(float)y; uvx -= .5; uvy -= .5; uvx *= dparams.scale; uvy *= dparams.scale; uvx += dparams.offsetx; uvy += dparams.offsety; c.r = uvx; c.i = uvy; valid = calc(&c, c, params); if (!valid) goto err; if (is∈(&c)) { red = 0; green = 0; blue = (int)(len(&c) * 255.); } else { float fmix = (float)valid/(float)params.iterations; red = lerp(0., 255., pow(fmix, 0.5)); green = lerp(255., 0., pow(fmix, 0.2)) * 0.5; blue = 0; } if (red > 255) red = 255; if (green > 255) green = 255; if (blue > 255) blue = 255; int arri = (ny*x + nx) * 4; img->data->bdata[arri+0] = blue; img->data->bdata[arri+1] = green; img->data->bdata[arri+2] = red; img->data->bdata[arri+3] = 255; } } return img; err: freememimage(img); return nil; } int calc(Complex *out, Complex c, SetParams params) { Complex t, f; if (params.iterations < 1) { werrstr("iterations < 1"); return 0; } if (params.julia) { /* calculate julia */ t = c; f = params.c; } else { /* calculate mandelbrot */ t = params.c; f = c; } int iter = -1; for (int i = 0; i < params.iterations; i++) { if (t.r >= 2. || t.i >= 2.) { iter = i; break; } t = cpow2(&t); t = cadd(&t, &f); } *out = t; return iter > 0 ? iter : 1; } int ∈(Complex c, SetParams params) { Complex r; int valid = calc(&r, c, params); if (!valid) return -1; return is∈(&r); } int is∈(Complex *c) { return (c->r <= 2. && c->i <= 2.); }