ref: a829fc8b5a2ab396fe46ffbe8c01dcdb9d3038f6
dir: /triangles.c/
#include <u.h> #include <libc.h> #include <draw.h> #include <event.h> #include <keyboard.h> typedef struct Point2 Point2; typedef struct Triangle Triangle; typedef struct Circle Circle; typedef struct Object Object; struct Point2 { double x, y, w; }; struct Triangle { Point2 p0, p1, p2; }; struct Circle { Point2 c; double r; }; struct Object { Triangle t; Circle c; }; enum { Cbg, Ctri, Ccir, NCOLOR }; Image *pal[NCOLOR]; Object *tris; ulong ntri; Point2 pts[3]; int npt; Point2 Pt2(double x, double y, double w) { return (Point2){x,y,w}; } Point2 addpt2(Point2 p, Point2 q) { return (Point2){p.x+q.x,p.y+q.y,p.w+q.w}; } Point2 subpt2(Point2 p, Point2 q) { return (Point2){p.x-q.x,p.y-q.y,p.w-q.w}; } Point2 mulpt2(Point2 p, double s) { return (Point2){p.x*s,p.y*s,p.w*s}; } Point2 divpt2(Point2 p, double s) { return (Point2){p.x/s,p.y/s,p.w/s}; } double veclen(Point2 p) { return sqrt(p.x*p.x + p.y*p.y); }; Point2 crossvec(Point2 p, Point2 q) { return (Point2){ p.y*q.w - p.w*q.y, p.w*q.x - p.x*q.w, p.x*q.y - p.y*q.x }; } void addobj(Triangle t, Circle c) { tris = realloc(tris, ++ntri*sizeof(Object)); tris[ntri-1].t = t; tris[ntri-1].c = c; } double triperi(Triangle t) { return veclen(subpt2(t.p0, t.p1)) + veclen(subpt2(t.p1, t.p2)) + veclen(subpt2(t.p2, t.p0)); }; double triarea(Triangle t) { Point2 p; double r; p = crossvec(t.p0, t.p1); p = addpt2(p, crossvec(t.p1, t.p2)); p = addpt2(p, crossvec(t.p2, t.p0)); r = sqrt(p.x*p.x + p.y*p.y + p.w*p.w); return r/2; } Point toscreen(Point2 p) { return addpt(screen->r.min, Pt(p.x,p.y)); } Point2 fromscreen(Point p) { p = subpt(p, screen->r.min); return (Point2){p.x,p.y,0}; } void triangle(Triangle t) { Point p[4]; p[0] = toscreen(t.p0); p[1] = toscreen(t.p1); p[2] = toscreen(t.p2); p[3] = p[0]; poly(screen, p, nelem(p), Endsquare, Endsquare, 0, pal[Ctri], ZP); } void circle(Circle c) { ellipse(screen, toscreen(c.c), c.r, c.r, 0, pal[Ccir], ZP); } void initpalette(void) { pal[Cbg] = allocimage(display, Rect(0,0,1,1), screen->chan, 1, 0x000000ff); pal[Ctri] = allocimage(display, Rect(0,0,1,1), screen->chan, 1, 0x00ff00ff); pal[Ccir] = allocimage(display, Rect(0,0,1,1), screen->chan, 1, 0xff0000ff); } void redraw(void) { int i; draw(screen, screen->r, pal[Cbg], nil, ZP); for(i = 0; i < ntri; i++){ triangle(tris[i].t); circle(tris[i].c); } for(i = 0; i < npt; i++) fillellipse(screen, toscreen(pts[i]), 2, 2, pal[Ctri], ZP); flushimage(display, 1); } void usage(void) { fprint(2, "usage: %s\n", argv0); exits("usage"); } void main(int argc, char *argv[]) { Event e; Triangle t; Circle c; ARGBEGIN{ default: usage(); }ARGEND; if(argc > 0) usage(); if(initdraw(nil, nil, nil) < 0) sysfatal("initdraw: %r"); initpalette(); einit(Emouse|Ekeyboard); redraw(); for(;;) switch(event(&e)){ case Emouse: if((e.mouse.buttons&1) != 0){ pts[npt++] = fromscreen(e.mouse.xy); if(npt >= nelem(pts)){ t.p0 = pts[0]; t.p1 = pts[1]; t.p2 = pts[2]; c.c = divpt2(addpt2(addpt2(mulpt2(t.p0, veclen(subpt2(t.p1, t.p2))), mulpt2(t.p1, veclen(subpt2(t.p2, t.p0)))), mulpt2(t.p2, veclen(subpt2(t.p0, t.p1)))), triperi(t)); c.r = 2*triarea(t)/triperi(t); addobj(t, c); npt = 0; } redraw(); } break; case Ekeyboard: switch(e.kbdc){ case 'q': case Kdel: exits(0); } break; } } void eresized(int) { if(getwindow(display, Refnone) < 0) sysfatal("resize failed"); redraw(); }