ref: 1a7f0a55e1f55b7f7aa912bd926b11e3132339f0
dir: /procgen.c/
/* * Greek Sunset * * based on Morgan McGuire's work: * - https://casual-effects.com/research/McGuire2019ProcGen/McGuire2019ProcGen.pdf * - https://www.shadertoy.com/view/WsdXWr */ #include <u.h> #include <libc.h> #include <thread.h> #include <draw.h> #include <memdraw.h> #include <mouse.h> #include <keyboard.h> #include <geometry.h> #include "libobj/obj.h" #include "libgraphics/graphics.h" #include "fns.h" Renderer *rctl; Camera *cam; Scene *scn; Entity *ent; Model *mdl; Primitive quad[2]; static int doprof; static Color getskycolor(double x, double y) { Color c; double h; h = max(0, 1.4 - y - pow(fabs(x - 0.5), 3)); c.r = pow(h, 3); c.g = pow(h, 7); c.b = 0.2 + pow(max(0, h - 0.1), 10); c.a = 1; return c; } static double fract(double x) { double n; return modf(x, &n); } static double hash(double x) { return fract(sin(x) * 1e4); } static double noise(double x) { double i, f, u; i = floor(x); f = fract(x); u = f*f * (3 - 2*f); return 2 * flerp(hash(i), hash(i + 1), u) - 1; } static double terrain(double x) { double y, k; int oct; y = 0; for(oct = 0; oct < 10; oct++){ k = 1<<oct; y += noise(x*k)/k; } return y * 0.3 + 0.36; } static double water(double x, double dt) { return (sin(71*x - 7*dt) * 0.5 + sin(200*x - 8*dt)) * 0.002 + 0.25; } static double tree(double x, double h) { if(h < 0.5) return 0; else return 0.2 * max(0, max(max( fabs(sin(x * 109)), fabs(sin(x * 150))), fabs(sin(x * 117))) + noise(37 * x) + noise(64 * x + 100) - 1.6); } static Point3 vs(Shaderparams *sp) { return sp->v->p; } static Color fs(Shaderparams *sp) { Point2 uv; double dt, shift, h; uv = Pt2(sp->p.x,sp->p.y,1); uv.x /= Dx(sp->su->fb->r); uv.y /= Dy(sp->su->fb->r); uv.y = 1 - uv.y; /* make [0 0] the bottom-left corner */ dt = sp->su->uni_time/1e9; shift = 0.09*dt + 0.2; uv.x += shift; h = max(water(uv.x, dt), terrain(uv.x)); h += tree(uv.x, h); if(uv.y < h) return Pt3(0,0,0,1); return srgb2linear(getskycolor(uv.x, uv.y)); } Shadertab shaders = { .vshader = vs, .fshader = fs }; void usage(void) { fprint(2, "usage: %s [-s frames] [dx [dy]]\n", argv0); exits("usage"); } void threadmain(int argc, char *argv[]) { Memimage *out; Point dim; int skip; dim = Pt(800,400); skip = 0; ARGBEGIN{ case 's': skip = strtoul(EARGF(usage()), nil, 10); break; case 'p': doprof++; break; default: usage(); }ARGEND; if(argc > 0) switch(argc){ case 1: dim.x = dim.y = strtoul(argv[0], nil, 10); break; case 2: dim.x = strtoul(argv[0], nil, 10); dim.y = strtoul(argv[1], nil, 10); break; default: usage(); } if(memimageinit() != 0) sysfatal("memimageinit: %r"); if((rctl = initgraphics()) == nil) sysfatal("initgraphics: %r"); rctl->doprof = doprof; scn = newscene(nil); mdl = newmodel(); ent = newentity(nil, mdl); out = eallocmemimage(Rect(0,0,dim.x,dim.y), XRGB32); cam = Cam(out->r, rctl, ORTHOGRAPHIC, 40*DEG, 1, 10); placecamera(cam, scn, Pt3(0,0,0,1), Vec3(0,0,-1), Vec3(0,1,0)); quad[0].type = quad[1].type = PTriangle; quad[0].v[0].p = vcs2clip(cam, viewport2vcs(cam, Pt3(out->r.min.x, out->r.max.y, 1, 1))); quad[0].v[1].p = vcs2clip(cam, viewport2vcs(cam, Pt3(out->r.max.x, out->r.min.y, 1, 1))); quad[0].v[2].p = vcs2clip(cam, viewport2vcs(cam, Pt3(out->r.min.x, out->r.min.y, 1, 1))); quad[1].v[0].p = quad[0].v[0].p; quad[1].v[1].p = vcs2clip(cam, viewport2vcs(cam, Pt3(out->r.max.x, out->r.max.y, 1, 1))); quad[1].v[2].p = quad[0].v[1].p; mdl->addprim(mdl, quad[0]); mdl->addprim(mdl, quad[1]); scn->addent(scn, ent); do shootcamera(cam, &shaders); while(skip--); cam->view->memdraw(cam->view, out, nil); writememimage(1, out); threadexitsall(nil); }