ref: ec35f468e0eba87c9f09cbbe5fa8af2591e6f914
dir: /libtk/coval.c/
#include "lib9.h" #include "draw.h" #include "tk.h" #include "canvs.h" #define O(t, e) ((long)(&((t*)0)->e)) typedef void (*Drawfn)(Image*, Point, int, int, Image*, int); /* Oval Options (+ means implemented) +fill +outline +stipple +tags +width */ typedef struct TkCoval TkCoval; struct TkCoval { int width; Image* stipple; Image* pen; TkCanvas* canv; }; static TkOption ovalopts[] = { "width", OPTnnfrac, O(TkCoval, width), nil, /* XXX should be nnfrac */ "stipple", OPTbmap, O(TkCoval, stipple), nil, nil }; static TkOption itemopts[] = { "tags", OPTctag, O(TkCitem, tags), nil, "fill", OPTcolr, O(TkCitem, env), IAUX(TkCfill), "outline", OPTcolr, O(TkCitem, env), IAUX(TkCforegnd), nil }; void tkcvsovalsize(TkCitem *i) { int w; TkCoval *o; o = TKobj(TkCoval, i); w = TKF2I(o->width)*2; i->p.bb = bbnil; tkpolybound(i->p.drawpt, i->p.npoint, &i->p.bb); i->p.bb = insetrect(i->p.bb, -w); } char* tkcvsovalcreat(Tk* tk, char *arg, char **val) { char *e; TkCoval *o; TkCitem *i; TkCanvas *c; TkOptab tko[3]; c = TKobj(TkCanvas, tk); i = tkcnewitem(tk, TkCVoval, sizeof(TkCitem)+sizeof(TkCoval)); if(i == nil) return TkNomem; o = TKobj(TkCoval, i); o->width = TKI2F(1); o->canv = c; e = tkparsepts(tk->env->top, &i->p, &arg, 0); if(e != nil) { tkcvsfreeitem(i); return e; } if(i->p.npoint != 2) { tkcvsfreeitem(i); return TkFewpt; } tko[0].ptr = o; tko[0].optab = ovalopts; tko[1].ptr = i; tko[1].optab = itemopts; tko[2].ptr = nil; e = tkparse(tk->env->top, arg, tko, nil); if(e != nil) { tkcvsfreeitem(i); return e; } e = tkcaddtag(tk, i, 1); if(e != nil) { tkcvsfreeitem(i); return e; } tkcvsovalsize(i); e = tkvalue(val, "%d", i->id); if(e != nil) { tkcvsfreeitem(i); return e; } tkcvsappend(c, i); tkbbmax(&c->update, &i->p.bb); tkmkpen(&o->pen, i->env, o->stipple); tkcvssetdirty(tk); return nil; } char* tkcvsovalcget(TkCitem *i, char *arg, char **val) { TkOptab tko[3]; TkCoval *o = TKobj(TkCoval, i); tko[0].ptr = o; tko[0].optab = ovalopts; tko[1].ptr = i; tko[1].optab = itemopts; tko[2].ptr = nil; return tkgencget(tko, arg, val, i->env->top); } char* tkcvsovalconf(Tk *tk, TkCitem *i, char *arg) { char *e; TkOptab tko[3]; TkCoval *o = TKobj(TkCoval, i); tko[0].ptr = o; tko[0].optab = ovalopts; tko[1].ptr = i; tko[1].optab = itemopts; tko[2].ptr = nil; e = tkparse(tk->env->top, arg, tko, nil); tkcvsovalsize(i); tkmkpen(&o->pen, i->env, o->stipple); return e; } void tkcvsovalfree(TkCitem *i) { TkCoval *o; o = TKobj(TkCoval, i); if(o->stipple) freeimage(o->stipple); if(o->pen) freeimage(o->pen); } void tkcvsovaldraw(Image *img, TkCitem *i, TkEnv *pe) { Point c; TkEnv *e; Image *pen; TkCoval *o; Rectangle d; int w, dx, dy; USED(pe); d.min = i->p.drawpt[0]; d.max = i->p.drawpt[1]; e = i->env; o = TKobj(TkCoval, i); pen = o->pen; if(pen == nil && (e->set & (1<<TkCfill))) pen = tkgc(e, TkCfill); w = TKF2I(o->width)/2; if(w < 0) return; d = canonrect(d); dx = Dx(d)/2; dy = Dy(d)/2; c.x = d.min.x + dx; c.y = d.min.y + dy; if(pen != nil) fillellipse(img, c, dx, dy, pen, c); ellipse(img, c, dx, dy, w, tkgc(e, TkCforegnd), c); } char* tkcvsovalcoord(TkCitem *i, char *arg, int x, int y) { char *e; TkCpoints p; if(arg == nil) { tkxlatepts(i->p.parampt, i->p.npoint, x, y); tkxlatepts(i->p.drawpt, i->p.npoint, TKF2I(x), TKF2I(y)); i->p.bb = rectaddpt(i->p.bb, Pt(TKF2I(x), TKF2I(y))); } else { e = tkparsepts(i->env->top, &p, &arg, 0); if(e != nil) return e; if(p.npoint != 2) { tkfreepoint(&p); return TkFewpt; } tkfreepoint(&i->p); i->p = p; tkcvsovalsize(i); } return nil; } int tkcvsovalhit(TkCitem *i, Point p) { TkCoval *o; int w, dx, dy; Rectangle d; vlong v; o = TKobj(TkCoval, i); w = TKF2I(o->width)/2; d = canonrect(Rpt(i->p.drawpt[0], i->p.drawpt[1])); d = insetrect(d, -(w/2 + 1)); dx = Dx(d)/2; dy = Dy(d)/2; p.x -= d.min.x + dx; p.y -= d.min.y + dy; dx *= dx; dy *= dy; /* XXX can we do this nicely without overflow and without vlongs? */ v = (vlong)(p.x*p.x)*dy; v += (vlong)(p.y*p.y)*dx; return v < (vlong)dx*dy; }