ref: d990c25d5795b16c181e875bf2f55aa06c2f75f9
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;
}