#include #include #include "draw.h" #include "tk.h" #include "canvs.h" /* Widget Commands (+ means implemented) +addtag except halo and start options of closest spec +bbox +bind +canvasx +canvasy +cget +configure +coords +create +dchars +delete +dtag +find +focus +gettags +icursor +index +insert +itemcget +itemconfigure +lower +move postscript +raise +scale scan +select +type +xview +yview */ static TkStab tkbuffer[] = { "visible", TkCbufvisible, "all", TkCbufall, "none", TkCbufnone, "auto", TkCbufauto, /* backwards compatibility */ "1", TkCbufall, "yes", TkCbufall, "off", TkCbufall, "0", TkCbufauto, "no", TkCbufauto, "off", TkCbufauto, nil }; #define O(t, e) ((long)(&((t*)0)->e)) #define OA(t, e) ((long)(((t*)0)->e)) static TkOption opts[] = { "closeenough", OPTfrac, O(TkCanvas, close), nil, "confine", OPTfrac, O(TkCanvas, confine), nil, "scrollregion", OPTfrac, OA(TkCanvas, scrollr), IAUX(4), "xscrollincrement", OPTfrac, O(TkCanvas, xscrolli), nil, "yscrollincrement", OPTfrac, O(TkCanvas, yscrolli), nil, "xscrollcommand", OPTtext, O(TkCanvas, xscroll), nil, "yscrollcommand", OPTtext, O(TkCanvas, yscroll), nil, "width", OPTnnfrac, O(TkCanvas, width), nil, "height", OPTnnfrac, O(TkCanvas, height), nil, "buffer", OPTstab, O(TkCanvas, buffer), tkbuffer, "buffered", OPTstab, O(TkCanvas, buffer), tkbool, /* backwards compatibility */ "selectborderwidth", OPTnndist, O(TkCanvas, sborderwidth), nil, nil }; int cvslshape[] = { TKI2F(8), TKI2F(10), TKI2F(3) }; Rectangle bbnil = { 1000000, 1000000, -1000000, -1000000 }; Rectangle huger = { -1000000, -1000000, 1000000, 1000000 }; static void tkcvsgeom(Tk *tk); static void tkcvsf2i(Tk *tk, TkCanvas *tkc) { Rectangle r; tk->req.width = TKF2I(tkc->width); tk->req.height = TKF2I(tkc->height); r.min.x = TKF2I(tkc->scrollr[0]); r.min.y = TKF2I(tkc->scrollr[1]); r.max.x = TKF2I(tkc->scrollr[2]); r.max.y = TKF2I(tkc->scrollr[3]); /* * make sure that the region is big enough to hold * the actually displayed area */ if (Dx(r) < tk->act.width) r.max.x = r.min.x + tk->act.width; if (Dy(r) < tk->act.height) r.max.y = r.min.y + tk->act.height; tkc->region = r; /* * make sure that the view origin is at a valid * position with respect to the scroll region. */ if (tkc->view.x + tk->act.width > r.max.x) tkc->view.x = r.max.x - tk->act.width; if (tkc->view.x < r.min.x) tkc->view.x = r.min.x; if (tkc->view.y + tk->act.height > r.max.y) tkc->view.y = r.max.y - tk->act.height; if (tkc->view.y < r.min.y) tkc->view.y = r.min.y; } char* tkcanvas(TkTop *t, char *arg, char **ret) { Tk *tk; char *e; TkCanvas *tkc; TkName *names; TkOptab tko[3]; tk = tknewobj(t, TKcanvas, sizeof(Tk)+sizeof(TkCanvas)); if(tk == nil) return TkNomem; tkc = TKobj(TkCanvas, tk); tkc->close = TKI2F(1); tkc->xscrolli = TKI2F(1); tkc->yscrolli = TKI2F(1); tkc->width = TKI2F(360); tkc->height = TKI2F(270); tkc->actions = 0; tkc->actlim = Tksweep; tkc->mask = nil; tkc->sborderwidth = 1; tko[0].ptr = tkc; tko[0].optab = opts; tko[1].ptr = tk; tko[1].optab = tkgeneric; tko[2].ptr = nil; names = nil; e = tkparse(t, arg, tko, &names); if(e != nil) goto err; if(names == nil) { /* tkerr(t, arg); XXX */ e = TkBadwp; goto err; } tkc->current = tkmkname("current"); if(tkc->current == nil) { e = TkNomem; goto err; } tksettransparent(tk, tkhasalpha(tk->env, TkCbackgnd)); tkcvsf2i(tk, tkc); e = tkaddchild(t, tk, &names); tkfreename(names); if(e != nil) { tkfreename(tkc->current); tkc->current = nil; goto err; } tk->name->link = nil; e = tkvalue(ret, "%s", tk->name->name); if(e == nil) return nil; tkfreename(tkc->current); return e; err: tkfreeobj(tk); return e; } void tkcvsdirty(Tk *sub) { TkCanvas *c; Tk *tk, *parent; Rectangle r; Point rel; rel = ZP; for(tk = sub; tk; tk = tk->master) { rel.x += tk->borderwidth + tk->act.x; rel.y += tk->borderwidth + tk->act.y; if (tk->parent != nil) break; } if (tk == nil) return; parent = tk->parent; c = TKobj(TkCanvas, parent); r = rectaddpt(sub->dirty, rel); tkbbmax(&c->update, &r); tkcvssetdirty(parent); } static void tkcvsfocusorder(Tk *tk) { TkCanvas *tkc = TKobj(TkCanvas, tk); TkCwind *win; TkCitem *it; TkWinfo *inf; int i, n; n = 0; for (it = tkc->head; it != nil; it = it->next) { if (it->type == TkCVwindow) { win = TKobj(TkCwind, it); if (win->sub != nil) n++; } } if (n == 0) return; inf = malloc(sizeof(*inf) * n); if (inf == nil) return; i = 0; for (it = tkc->head; it != nil; it = it->next) { if (it->type == TkCVwindow) { win = TKobj(TkCwind, it); if (win->sub != nil) { inf[i].w = win->sub; inf[i].r = it->p.bb; i++; } } } tksortfocusorder(inf, n); for (i = 0; i < n; i++) tkappendfocusorder(inf[i].w); } static char* tkcvscget(Tk *tk, char *arg, char **val) { TkOptab tko[3]; TkCanvas *tkc = TKobj(TkCanvas, tk); tko[0].ptr = tkc; tko[0].optab = opts; tko[1].ptr = tk; tko[1].optab = tkgeneric; tko[2].ptr = nil; return tkgencget(tko, arg, val, tk->env->top); } static char* tkcvsconf(Tk *tk, char *arg, char **val) { char *e; int bd; TkGeom g; Rectangle r; TkOptab tko[3]; TkCanvas *c = TKobj(TkCanvas, tk); tko[0].ptr = c; tko[0].optab = opts; tko[1].ptr = tk; tko[1].optab = tkgeneric; tko[2].ptr = nil; if(*arg == '\0') return tkconflist(tko, val); r.min = c->view; r.max.x = r.min.x+tk->act.width; r.max.y = r.min.y+tk->act.height; tkbbmax(&c->update, &r); tkbbmax(&c->update, &c->region); bd = tk->borderwidth; g = tk->req; e = tkparse(tk->env->top, arg, tko, nil); if(e != nil) return e; tksettransparent(tk, tkhasalpha(tk->env, TkCbackgnd)); tkcvsf2i(tk, c); tkcvsgeom(tk); tkgeomchg(tk, &g, bd); tkbbmax(&c->update, &c->region); tk->dirty = tkrect(tk, 1); return nil; } void tkcvsfreeitem(TkCitem *i) { int locked; Display *d; d = i->env->top->display; locked = lockdisplay(d); tkcimethod[i->type].free(i); if(locked) unlockdisplay(d); tkfreepoint(&i->p); tkputenv(i->env); free(i); } void tkfreecanv(Tk *tk) { Display *d; int j, locked; TkCanvas *c; TkName *n, *nn; TkCtag *t, *tt; TkCitem *i, *next; c = TKobj(TkCanvas, tk); for(i = c->head; i; i = next) { next = i->next; tkcvsfreeitem(i); } if(c->xscroll != nil) free(c->xscroll); if(c->yscroll != nil) free(c->yscroll); for(j = 0; j < TkChash; j++) { for(n = c->thash[j]; n; n = nn) { nn = n->link; for(t = n->obj; t; t = tt) { tt = t->taglist; free(t); } tkfreebind(n->prop.binds); free(n); } } free(c->current); if((c->ialloc && c->image != nil) || c->mask != nil) { if (c->ialloc && c->image != nil) d = c->image->display; else d = c->mask->display; locked = lockdisplay(d); if (c->image != nil && c->ialloc) freeimage(c->image); if (c->mask != nil) freeimage(c->mask); if(locked) unlockdisplay(d); } } enum {Bufnone = 99}; char* tkdrawcanv(Tk *tk, Point orig) { Image *dst; TkCitem *i; Display *d; TkCanvas *c; Rectangle r, bufr, oclipr; int vis, alpha, buffer; Point rel, p; TkCimeth *imeth; c = TKobj(TkCanvas, tk); d = tk->env->top->display; dst = tkimageof(tk); /* * translation from local to screen coords */ rel.x = orig.x + tk->act.x + tk->borderwidth; rel.y = orig.y + tk->act.y + tk->borderwidth; buffer = c->buffer; if (buffer == TkCbufauto) buffer = TkCbufvisible; /* buffer = (dst == TKobj(TkWin, tk->env->top->root)->image) ? TkCbufvisible : TkCbufnone; */ if (buffer == TkCbufnone) { if(c->image != nil && c->ialloc) freeimage(c->image); c->image = dst; c->ialloc = 0; r = tkrect(tk, 0); bufr = r; rectclip(&bufr, tk->dirty); oclipr = dst->clipr; replclipr(dst, 0, rectaddpt(bufr, rel)); draw(dst, rectaddpt(bufr, rel), tkgc(tk->env, TkCbackgnd), nil, ZP); p = subpt(rel, c->view); p.x = TKI2F(p.x); p.y = TKI2F(p.y); bufr = rectaddpt(bufr, c->view); for(i = c->head; i; i = i->next) { if(rectXrect(i->p.bb, bufr)) { imeth = &tkcimethod[i->type]; imeth->coord(i, nil, p.x, p.y); imeth->draw(dst, i, tk->env); imeth->coord(i, nil, -p.x, -p.y); } } replclipr(dst, 0, oclipr); } else { if (c->buffer == TkCbufall) bufr = c->region; else { bufr.min = c->view; bufr.max.x = c->view.x + tk->act.width; bufr.max.y = c->view.y + tk->act.height; } alpha = (tk->env->colors[TkCbackgnd] & 0xff) != 0xff; if(c->image == nil || eqrect(bufr, c->image->r) == 0) { if(c->image != nil && c->ialloc) freeimage(c->image); c->image = allocimage(d, bufr, alpha?RGBA32:d->image->chan, 0, tk->env->colors[TkCbackgnd]); c->ialloc = 1; c->update = bufr; tkcvssetdirty(tk); /* unnecessary? */ } if(c->image == nil) return nil; r = c->update; if (rectclip(&r, c->image->r)) { if (alpha) drawop(c->image, c->update, nil, nil, ZP, Clear); draw(c->image, c->update, tkgc(tk->env, TkCbackgnd), nil, c->view); replclipr(c->image, 0, r); for(i = c->head; i; i = i->next) { if(rectXrect(i->p.bb, r)) tkcimethod[i->type].draw(c->image, i, tk->env); } replclipr(c->image, 0, c->image->r); } /* * if the visible area of the canvas image doesn't * fit completely within the dirty rectangle, * then we'll need to draw the background behind it */ r = tkrect(tk, 0); bufr = rectsubpt(bufr, c->view); vis = rectclip(&bufr, tkrect(tk, 0)); if (!vis || !rectinrect(tk->dirty, bufr)) draw(dst, rectaddpt(tk->dirty, rel), tkgc(tk->env, TkCbackgnd), nil, c->view); if (vis && rectclip(&bufr, tk->dirty)) draw(dst, rectaddpt(bufr, rel), c->image, nil, addpt(bufr.min, c->view)); } /* * if the border is dirty too, then draw that */ if (!rectinrect(tk->dirty, bufr)) { r.min = addpt(r.min, rel); r.min.x -= tk->borderwidth; r.min.y -= tk->borderwidth; tkdrawrelief(dst, tk, r.min, TkCbackgnd, tk->relief); } c->update = bbnil; return nil; } void tkcvsappend(TkCanvas *c, TkCitem *i) { if(c->head == nil) c->head = i; else c->tail->next = i; c->tail = i; } void tkcvssv(Tk *tk) { TkCanvas *c; int top, bot, height; char val[Tkminitem], cmd[Tkmaxitem], *v, *e; c = TKobj(TkCanvas, tk); if(c->yscroll == nil) return; top = 0; bot = TKI2F(1); height = Dy(c->region); if(height != 0) { top = TKI2F(c->view.y)/height; bot = TKI2F(c->view.y+tk->act.height)/height; } v = tkfprint(val, top); *v++ = ' '; tkfprint(v, bot); snprint(cmd, sizeof(cmd), "%s %s", c->yscroll, val); e = tkexec(tk->env->top, cmd, nil); if ((e != nil) && (tk->name != nil)) print("tk: yscrollcommand \"%s\": %s\n", tk->name->name, e); } void tkcvssh(Tk *tk) { int top, bot, width; TkCanvas *c = TKobj(TkCanvas, tk); char val[Tkminitem], cmd[Tkmaxitem], *v, *e; if(c->xscroll == nil) return; top = 0; bot = TKI2F(1); width = Dx(c->region); if(width != 0) { top = TKI2F(c->view.x)/width; bot = TKI2F(c->view.x+tk->act.width)/width; } v = tkfprint(val, top); *v++ = ' '; tkfprint(v, bot); snprint(cmd, sizeof(cmd), "%s %s", c->xscroll, val); e = tkexec(tk->env->top, cmd, nil); if ((e != nil) && (tk->name != nil)) print("tk: xscrollcommand \"%s\": %s\n", tk->name->name, e); } static void tkcvsgeom(Tk *tk) { TkCanvas *c; c = TKobj(TkCanvas, tk); tkcvsf2i(tk, c); tk->dirty = tkrect(tk, 1); c->update = c->region; tkcvssv(tk); tkcvssh(tk); } char* tkcvstags(Tk *tk, char *arg, char **val, int af) { TkTop *o; int x, y; TkName *f; TkCtag *t, *tt; char *fmt; TkCpoints p; TkCanvas *c; TkCitem *i, *b; int d, dist, dx, dy; char tag[Tkmaxitem], buf[Tkmaxitem]; char *e; USED(val); c = TKobj(TkCanvas, tk); o = tk->env->top; if(af == TkCadd) { arg = tkword(o, arg, tag, tag+sizeof(tag), nil); if(tag[0] == '\0' || (tag[0] >= '0' && tag[0] <= '9')) return TkBadtg; } fmt = "%d"; arg = tkword(o, arg, buf, buf+sizeof(buf), nil); if(strcmp(buf, "above") == 0) { tkword(o, arg, buf, buf+sizeof(buf), nil); f = tkctaglook(tk, nil, buf); if(f == nil) return TkBadtg; t = tkclasttag(c->head, f->obj); if(t == nil) return TkBadtg; for(i = t->item->next; i; i = i->next) { if(af == TkCadd) { i->tags = tkmkname(tag); if(i->tags == nil) return TkNomem; tkcaddtag(tk, i, 0); } else { e = tkvalue(val, fmt, i->id); if(e != nil) return e; fmt = " %d"; } } return nil; } if(strcmp(buf, "all") == 0) { for(i = c->head; i; i = i->next) { if(af == TkCadd) { i->tags = tkmkname(tag); if(i->tags == nil) return TkNomem; tkcaddtag(tk, i, 0); } else { e = tkvalue(val, fmt, i->id); if(e != nil) return e; fmt = " %d"; } } return nil; } if(strcmp(buf, "below") == 0) { tkword(o, arg, buf, buf+sizeof(buf), nil); f = tkctaglook(tk, nil, buf); if(f == nil) return TkBadtg; tt = f->obj; for(b = c->head; b; b = b->next) { for(t = tt; t; t = t->itemlist) if(t->item == b) goto found; } found: for(i = c->head; i != b; i = i->next) { if(af == TkCadd) { i->tags = tkmkname(tag); if(i->tags == nil) return TkNomem; tkcaddtag(tk, i, 0); } else { e = tkvalue(val, fmt, i->id); if(e != nil) return e; fmt = " %d"; } } return nil; } if(strcmp(buf, "closest") == 0) { e = tkfracword(o, &arg, &x, nil); if (e == nil) e = tkfracword(o, &arg, &y, nil); if (e != nil) return e; if(*arg != '\0') return "!not implemented"; x = TKF2I(x); y = TKF2I(y); i = nil; dist = 0; for(b = c->head; b != nil; b = b->next) { dx = x - (b->p.bb.min.x + Dx(b->p.bb)/2); dy = y - (b->p.bb.min.y + Dy(b->p.bb)/2); d = dx*dx + dy*dy; if(d < dist || dist == 0) { i = b; dist = d; } } if(i == nil) return nil; if(af == TkCadd) { i->tags = tkmkname(tag); if(i->tags == nil) e = TkNomem; else tkcaddtag(tk, i, 0); } else e = tkvalue(val, fmt, i->id); return e; } if(strcmp(buf, "withtag") == 0) { tkword(o, arg, buf, buf+sizeof(buf), nil); f = tkctaglook(tk, nil, buf); if(f == nil) return TkBadtg; for(t = f->obj; t; t = t->taglist) { i = t->item; if(af == TkCadd) { i->tags = tkmkname(tag); if(i->tags == nil) return TkNomem; tkcaddtag(tk, i, 0); } else { e = tkvalue(val, fmt, i->id); if(e != nil) return e; fmt = " %d"; } } return nil; } if(strcmp(buf, "enclosed") == 0) { e = tkparsepts(o, &p, &arg, 0); if(e != nil) goto done; if(p.npoint != 2) { e = TkFewpt; goto done; } for(i = c->head; i; i = i->next) { if(rectinrect(i->p.bb, p.bb)) { if(af == TkCadd) { i->tags = tkmkname(tag); if(i->tags == nil) { e = TkNomem; goto done; } tkcaddtag(tk, i, 0); } else { e = tkvalue(val, fmt, i->id); if(e != nil) goto done; fmt = " %d"; } } } goto done; } if(strcmp(buf, "overlapping") == 0) { e = tkparsepts(o, &p, &arg, 0); if(e != nil) goto done; if(p.npoint != 2) { e = TkFewpt; goto done; } for(i = c->head; i; i = i->next) { if(rectXrect(i->p.bb, p.bb)) { if(af == TkCadd) { i->tags = tkmkname(tag); if(i->tags == nil) { e = TkNomem; goto done; } tkcaddtag(tk, i, 0); } else { e = tkvalue(val, "%d ", i->id); if(e != nil) goto done; } } } goto done; } return TkBadcm; done: /* both no error and error do the same thing */ tkfreepoint(&p); return e; } static char* tkcvsaddtag(Tk *tk, char *arg, char **val) { return tkcvstags(tk, arg, val, TkCadd); } static char* tkcvsfind(Tk *tk, char *arg, char **val) { return tkcvstags(tk, arg, val, TkCfind); } static void tksweepcanv(Tk *tk) { int j, k; TkCtag *t, *tt; TkName **np, *n, *nn; TkCitem *i; TkCanvas *c; TkAction *a; c = TKobj(TkCanvas, tk); for(j = 0; j < TkChash; j++) for(n = c->thash[j]; n != nil; n = n->link) n->ref = 0; for(i = c->head; i != nil; i = i->next) for(t = i->stag; t != nil; t = t->itemlist) t->name->ref = 1; k = 0; for(j = 0; j < TkChash; j++) { np = &c->thash[j]; for(n = *np; n != nil; n = nn) { nn = n->link; if(n->ref == 0) { for(t = n->obj; t != nil; t = tt) { tt = t->taglist; free(t); } tkfreebind(n->prop.binds); free(n); *np = nn; } else { np = &n->link; for(a = n->prop.binds; a != nil; a = a->link) k++; } } } c->actions = k; k = 3 * k / 2; if (k < Tksweep) c->actlim = Tksweep; else c->actlim = k; } /* * extension to tcl/tk: * grab set tag * grab release tag * grab ifunset tag */ static char* tkcvsgrab(Tk *tk, char *arg, char **val) { TkCtag *t; TkName *f; TkCanvas *c; char buf[Tkmaxitem]; c = TKobj(TkCanvas, tk); arg = tkword(tk->env->top, arg, buf, buf+sizeof(buf), nil); if (strcmp(buf, "status") == 0) { if (c->grab != nil) return tkvalue(val, "%d", c->grab->id); } else if (strcmp(buf, "release") == 0) { c->grab = nil; } else if (strcmp(buf, "set") == 0 || strcmp(buf, "ifunset") == 0) { if (buf[0] == 'i' && c->grab != nil) return nil; tkword(tk->env->top, arg, buf, buf + sizeof(buf), nil); f = tkctaglook(tk, nil, buf); if(f == nil || f->obj == nil) return TkBadtg; c = TKobj(TkCanvas, tk); t = tkcfirsttag(c->head, f->obj); if(t == nil) return TkBadtg; c->grab = t->item; } else return TkBadvl; return nil; } static char* tkcvsbind(Tk *tk, char *arg, char **val) { Rune r; TkCtag *t; TkName *f; TkAction *a; TkCanvas *c; int event, mode; char *cmd, buf[Tkmaxitem]; char *e; c = TKobj(TkCanvas, tk); if (c->actions >= c->actlim) tksweepcanv(tk); arg = tkword(tk->env->top, arg, buf, buf+sizeof(buf), nil); f = tkctaglook(tk, nil, buf); if(f == nil) { f = tkctaglook(tk, tkmkname(buf), buf); if(f == nil) return TkNomem; } arg = tkword(tk->env->top, arg, buf, buf+sizeof(buf), nil); if(buf[0] == '<') { event = tkseqparse(buf+1); if(event == -1) return TkBadsq; } else { chartorune(&r, buf); event = TkKey | r; } if(event == 0) return TkBadsq; arg = tkskip(arg, " \t"); if(*arg == '\0') { for(t = f->obj; t; t = t->taglist) { for(a = t->name->prop.binds; a; a = a->link) if(event == a->event) return tkvalue(val, "%s", a->arg); for(a = t->name->prop.binds; a; a = a->link) if(event & a->event) return tkvalue(val, "%s", a->arg); } return nil; } mode = TkArepl; if(*arg == '+') { mode = TkAadd; arg++; } else if(*arg == '-'){ mode = TkAsub; arg++; } tkword(tk->env->top, arg, buf, buf+sizeof(buf), nil); cmd = strdup(buf); if(cmd == nil) return TkNomem; e = tkaction(&f->prop.binds, event, TkDynamic, cmd, mode); if(e == nil) c->actions++; return e; } static char* tkcvscreate(Tk *tk, char *arg, char **val) { TkCimeth *m; char buf[Tkmaxitem]; arg = tkword(tk->env->top, arg, buf, buf+sizeof(buf), nil); for(m = tkcimethod; m->name; m++) if(strcmp(buf, m->name) == 0) return m->create(tk, arg, val); return TkBadit; } static char* tkcvsbbox(Tk *tk, char *arg, char **val) { TkName *f; TkCtag *t; Rectangle bb; char buf[Tkmaxitem]; bb = bbnil; for(;;) { arg = tkword(tk->env->top, arg, buf, buf+sizeof(buf), nil); if(buf[0] == '\0') break; f = tkctaglook(tk, nil, buf); if(f == nil) return TkBadtg; for(t = f->obj; t; t = t->taglist) tkbbmax(&bb, &t->item->p.bb); } return tkvalue(val, "%d %d %d %d", bb.min.x, bb.min.y, bb.max.x, bb.max.y); } static char* tkcvscanvx(Tk *tk, char *arg, char **val) { int x, s; TkCanvas *c; Point p; char buf[Tkmaxitem]; c = TKobj(TkCanvas, tk); arg = tkword(tk->env->top, arg, buf, buf+sizeof(buf), nil); if(buf[0] == '\0') return TkBadvl; p = tkposn(tk); x = atoi(buf) + c->view.x - (p.x + tk->borderwidth); if(*arg) { tkword(tk->env->top, arg, buf, buf+sizeof(buf), nil); s = atoi(buf); if (s) { if (x>=0) x = ((x+s/2)/s)*s; else x = ((x-s/2)/s)*s; } } return tkvalue(val, "%d", x); } static char* tkcvscanvy(Tk *tk, char *arg, char **val) { int y, s; TkCanvas *c; Point p; char buf[Tkmaxitem]; c = TKobj(TkCanvas, tk); arg = tkword(tk->env->top, arg, buf, buf+sizeof(buf), nil); if(buf[0] == '\0') return TkBadvl; p = tkposn(tk); y = atoi(buf) + c->view.y - (p.y + tk->borderwidth); if(*arg) { tkitem(buf, arg); s = atoi(buf); if (s) { if (y>=0) y = ((y+s/2)/s)*s; else y = ((y-s/2)/s)*s; } } return tkvalue(val, "%d", y); } static char * tkcvsscreenx(Tk *tk, char *arg, char **val) { int x; TkCanvas *c; Point p; char buf[Tkmaxitem]; c = TKobj(TkCanvas, tk); tkword(tk->env->top, arg, buf, buf+sizeof(buf), nil); if(buf[0] == '\0') return TkBadvl; p = tkposn(tk); x = atoi(buf) - c->view.x + (p.x + tk->borderwidth); return tkvalue(val, "%d", x); } static char * tkcvsscreeny(Tk *tk, char *arg, char **val) { int y; TkCanvas *c; Point p; char buf[Tkmaxitem]; c = TKobj(TkCanvas, tk); tkword(tk->env->top, arg, buf, buf+sizeof(buf), nil); if(buf[0] == '\0') return TkBadvl; p = tkposn(tk); y = atoi(buf) - c->view.y + (p.y + tk->borderwidth); return tkvalue(val, "%d", y); } static char* tkcvscoords(Tk *tk, char *arg, char **val) { int i; Point *p; TkCtag *t; TkName *f; TkCanvas *c; TkCitem *item; char *fmt, *e, *v, buf[Tkmaxitem]; arg = tkword(tk->env->top, arg, buf, buf+sizeof(buf), nil); if(buf[0] == '\0') return TkBadvl; f = tkctaglook(tk, nil, buf); if(f == nil || f->obj == nil) return TkBadtg; c = TKobj(TkCanvas, tk); t = tkcfirsttag(c->head, f->obj); if(t == nil) return TkBadtg; item = t->item; if(*arg == '\0') { fmt = "%s"; p = item->p.parampt; for(i = 0; i < item->p.npoint; i++) { v = tkfprint(buf, p->x); *v++ = ' '; tkfprint(v, p->y); e = tkvalue(val, fmt, buf); if(e != nil) return e; fmt = " %s"; p++; } return nil; } tkbbmax(&c->update, &item->p.bb); e = tkcimethod[item->type].coord(item, arg, 0, 0); tkbbmax(&c->update, &item->p.bb); tkcvssetdirty(tk); return e; } static char* tkcvsscale(Tk *tk, char *arg, char **val) { TkName *f; TkCtag *t; TkCanvas *c; TkCpoints pts; TkCitem *item; int j; char *e, buf[Tkmaxitem]; Point *p, *d, origin, scalef; USED(val); c = TKobj(TkCanvas, tk); arg = tkword(tk->env->top, arg, buf, buf+sizeof(buf), nil); f = tkctaglook(tk, nil, buf); if(f == nil || f->obj == nil) return TkBadtg; e = tkparsepts(tk->env->top, &pts, &arg, 0); if(e != nil) return e; if(pts.npoint != 2) { tkfreepoint(&pts); return TkFewpt; } origin = pts.parampt[0]; scalef = pts.parampt[1]; tkfreepoint(&pts); for(t = f->obj; t; t = t->taglist) { item = t->item; p = item->p.parampt; d = item->p.drawpt; for(j = 0; j < item->p.npoint; j++) { p->x -= origin.x; p->y -= origin.y; p->x = TKF2I(p->x*scalef.x); p->y = TKF2I(p->y*scalef.y); p->x += origin.x; p->y += origin.y; d->x = TKF2I(p->x); d->y = TKF2I(p->y); d++; p++; } tkbbmax(&c->update, &item->p.bb); e = tkcimethod[item->type].coord(item, nil, 0, 0); tkbbmax(&c->update, &item->p.bb); if(e != nil) return e; tkcvssetdirty(tk); } return nil; } static char* tkcvsdtag(Tk *tk, char *arg, char **val) { TkName *f, *dt; char buf[Tkmaxitem]; TkCtag **l, *t, *it, *tf; USED(val); arg = tkword(tk->env->top, arg, buf, buf+sizeof(buf), nil); f = tkctaglook(tk, nil, buf); if(f == nil || f->obj == nil) return TkBadtg; /* XXX this code doesn't appear to work properly. fix it later. for the moment, it's just a somewhat more efficient substitute for the later code, so just use that instead. if(*arg == '\0') { for(t = f->obj; t; t = tf) { l = &t->item->stag; for(it = *l; it; it = it->itemlist) { if(it->item == t->item) { *l = it->itemlist; break; } l = &it->itemlist; } tf = t->taglist; free(t); } f->obj = nil; return nil; } */ if (*arg == '\0') dt = f; else { tkword(tk->env->top, arg, buf, buf+sizeof(buf), nil); dt = tkctaglook(tk, nil, buf); if(dt == nil || dt->obj == nil) return TkBadtg; } for(t = f->obj; t; t = t->taglist) { l = (TkCtag **)&dt->obj; for(it = dt->obj; it; it = it->taglist) { if(t->item == it->item) { *l = it->taglist; l = &t->item->stag; for(tf = *l; tf; tf = tf->itemlist) { if(tf == it) { *l = tf->itemlist; break; } l = &tf->itemlist; } free(it); break; } l = &it->taglist; } } return nil; } static char* tkcvsdchars(Tk *tk, char *arg, char **val) { TkCtag *t; TkName *f; char *e, buf[Tkmaxitem]; USED(val); arg = tkword(tk->env->top, arg, buf, buf+sizeof(buf), nil); f = tkctaglook(tk, nil, buf); if(f == nil || f->obj == nil) return TkBadtg; for(t = f->obj; t; t = t->taglist) { if(t->item->type == TkCVtext) { e = tkcvstextdchar(tk, t->item, arg); if(e != nil) return e; } } return nil; } static char* tkcvsindex(Tk *tk, char *arg, char **val) { TkCtag *t; TkName *f; char *e, buf[Tkmaxitem]; USED(val); arg = tkword(tk->env->top, arg, buf, buf+sizeof(buf), nil); f = tkctaglook(tk, nil, buf); if(f == nil || f->obj == nil) return TkBadtg; for(t = f->obj; t; t = t->taglist) { if(t->item->type == TkCVtext) { e = tkcvstextindex(tk, t->item, arg, val); if(e != nil) return e; return nil; } } return nil; } static char* tkcvsicursor(Tk *tk, char *arg, char **val) { TkCtag *t; TkName *f; char *e, buf[Tkmaxitem]; USED(val); arg = tkword(tk->env->top, arg, buf, buf+sizeof(buf), nil); f = tkctaglook(tk, nil, buf); if(f == nil || f->obj == nil) return TkBadtg; for(t = f->obj; t; t = t->taglist) { if(t->item->type == TkCVtext) { e = tkcvstexticursor(tk, t->item, arg); if(e != nil) return e; return nil; } } return nil; } static char* tkcvsinsert(Tk *tk, char *arg, char **val) { TkCtag *t; TkName *f; char *e, buf[Tkmaxitem]; USED(val); arg = tkword(tk->env->top, arg, buf, buf+sizeof(buf), nil); f = tkctaglook(tk, nil, buf); if(f == nil || f->obj == nil) return TkBadtg; for(t = f->obj; t; t = t->taglist) { if(t->item->type == TkCVtext) { e = tkcvstextinsert(tk, t->item, arg); if(e != nil) return e; } } return nil; } static char* tkcvsselect(Tk *tk, char *arg, char **val) { int op; TkCtag *t; TkName *f; TkCanvas *c; char buf[Tkmaxitem]; c = TKobj(TkCanvas, tk); arg = tkword(tk->env->top, arg, buf, buf+sizeof(buf), nil); if(strcmp(buf, "clear") == 0) { tkcvstextclr(tk); return nil; } if(strcmp(buf, "item") == 0) { if(c->selection) return tkvalue(val, "%d", c->selection->id); return nil; } if(strcmp(buf, "to") == 0) op = TkCselto; else if(strcmp(buf, "from") == 0) op = TkCselfrom; else if(strcmp(buf, "adjust") == 0) op = TkCseladjust; else return TkBadcm; arg = tkword(tk->env->top, arg, buf, buf+sizeof(buf), nil); f = tkctaglook(tk, nil, buf); if(f == nil) return TkBadtg; t = tkcfirsttag(c->head, f->obj); if(t == nil) return TkBadtg; return tkcvstextselect(tk, t->item, arg, op); } static char* tkcvsitemcget(Tk *tk, char *arg, char **val) { TkName *f; TkCtag *t; TkCitem *i; char buf[Tkmaxitem]; arg = tkword(tk->env->top, arg, buf, buf+sizeof(buf), nil); f = tkctaglook(tk, nil, buf); if(f == nil || f->obj == nil) return TkBadtg; for(i = TKobj(TkCanvas, tk)->head; i; i = i->next) { for(t = f->obj; t; t = t->taglist) if(i == t->item) return tkcimethod[i->type].cget(i, arg, val); } return nil; } static char* tkcvsitemconf(Tk *tk, char *arg, char **val) { char *e; TkName *f; TkCtag *t; TkCitem *i; TkCanvas *c; char buf[Tkmaxitem]; USED(val); arg = tkword(tk->env->top, arg, buf, buf+sizeof(buf), nil); f = tkctaglook(tk, nil, buf); if(f == nil || f->obj == nil) return TkBadtg; c = TKobj(TkCanvas, tk); for(t = f->obj; t; t = t->taglist) { for(i = c->head; i; i = i->next) { if(i == t->item) { tkbbmax(&c->update, &i->p.bb); e = tkcimethod[i->type].conf(tk, i, arg); tkbbmax(&c->update, &i->p.bb); tkcvssetdirty(tk); if(e != nil) return e; } } } return nil; } static void tkcvsfreename(TkCanvas *c, TkName *n) { ulong h; char *p, *s; TkName *f, **l; /* just free implicit ones for now */ if(n == nil) return; s = n->name; if(s == nil || (s[0] < '0' || s[0] > '9')) return; h = 0; for(p = s; *p; p++) h += 3*h + *p; l = &c->thash[h%TkChash]; for(f = *l; f; l = &f->link, f = *l) if(f == n){ *l = f->link; tkfreebind(f->prop.binds); free(f); return; } } static char* tkcvsdelete(Tk *tk, char *arg, char **val) { TkName *f; TkCanvas *c; char buf[Tkmaxitem]; TkCitem *item, *prev, *i; TkCtag *t, *inext, **l, *dit, *it; USED(val); c = TKobj(TkCanvas, tk); for(;;) { arg = tkword(tk->env->top, arg, buf, buf+sizeof(buf), nil); if(buf[0] == '\0') break; f = tkctaglook(tk, nil, buf); if(f == nil || f->obj == nil) return nil; while(f->obj) { t = f->obj; item = t->item; for(it = item->stag; it; it = inext) { inext = it->itemlist; l = (TkCtag **)&it->name->obj; for(dit = *l; dit; dit = dit->taglist) { if(dit->item == item) { *l = dit->taglist; if(dit != t){ tkcvsfreename(c, dit->name); free(dit); } break; } l = &dit->taglist; } } tkbbmax(&c->update, &item->p.bb); tkcvssetdirty(tk); prev = nil; for(i = c->head; i; i = i->next) { if(i == item) break; prev = i; } if(prev == nil) c->head = i->next; else prev->next = i->next; if(c->tail == item) c->tail = prev; if(c->focus == item) c->focus = nil; if(c->mouse == item) c->mouse = nil; if(c->selection == item) c->selection = nil; if(c->curtag.item == item) c->current->obj = nil; if (c->grab == item) c->grab = nil; tkcvsfreeitem(item); free(t); } } return nil; } static char* tkcvsfocus(Tk *tk, char *arg, char **val) { TkName *f; TkCtag *t; TkCanvas *c; TkCitem *i, *focus; char buf[Tkmaxitem]; c = TKobj(TkCanvas, tk); if(*arg == '\0') { if(c->focus == nil) return nil; return tkvalue(val, "%d", c->focus->id); } tkword(tk->env->top, arg, buf, buf+sizeof(buf), nil); if(buf[0] == '\0') return TkBadvl; f = tkctaglook(tk, nil, buf); if(f == nil || f->obj == nil) return nil; focus = c->focus; if(focus != nil && focus->type == TkCVtext) tkcvstextfocus(tk, focus, 0); for(i = c->head; i; i = i->next) { if(i->type == TkCVtext || i->type == TkCVwindow) { for(t = f->obj; t; t = t->taglist) if(t->item == i) focus = i; } } if(focus != nil && focus->type == TkCVtext) tkcvstextfocus(tk, focus, 1); c->focus = focus; return nil; } static char* tkcvsgettags(Tk *tk, char *arg, char **val) { TkCtag *t; TkName *f; TkCanvas *c; char *fmt, *e, buf[Tkmaxitem]; tkword(tk->env->top, arg, buf, buf+sizeof(buf), nil); if(buf[0] == '\0') return TkBadvl; f = tkctaglook(tk, nil, buf); if(f == nil) return TkBadtg; c = TKobj(TkCanvas, tk); t = tkclasttag(c->head, f->obj); if(t == nil) return TkBadtg; fmt = "%s"; t = t->item->stag; while(t) { /* XXX when might t->name be legally nil? */ if (t->name != nil) { if (strcmp(t->name->name, "all")) { e = tkvalue(val, fmt, t->name->name); if(e != nil) return e; fmt = " %s"; } } t = t->itemlist; } return nil; } static char* tkcvslower(Tk *tk, char *arg, char **val) { TkCtag *t; TkCanvas *c; TkName *f, *b; char buf[Tkmaxitem]; TkCitem *it, **l, **below, *items, **itemtail, *prev, *iprev; USED(val); c = TKobj(TkCanvas, tk); arg = tkword(tk->env->top, arg, buf, buf+sizeof(buf), nil); f = tkctaglook(tk, nil, buf); if(f == nil || f->obj == nil) return nil; below = &c->head; tkword(tk->env->top, arg, buf, buf+sizeof(buf), nil); if(buf[0] != '\0') { b = tkctaglook(tk, nil, buf); if(b == nil || f->obj == nil) return TkBadtg; for(it = c->head; it; it = it->next) { for(t = b->obj; t; t = t->taglist) if(t->item == it) goto found; below = &it->next; } found:; } l = &c->head; prev = iprev = nil; itemtail = &items;; for (it = *l; it != nil; it = *l) { for (t = f->obj; t; t = t->taglist) { if(t->item == it) { if (it == *below || below == &it->next) below = l; if (it == c->tail) c->tail = prev; *l = it->next; *itemtail = it; iprev = it; itemtail = &it->next; tkbbmax(&c->update, &it->p.bb); goto next; } } prev = it; l = &it->next; next:; } if (prev == nil) c->tail = iprev; *itemtail = *below; *below = items; tkcvssetdirty(tk); return nil; } static char* tkcvsmove(Tk *tk, char *arg, char **val) { TkCtag *t; int fx, fy; TkTop *top; TkCpoints *p; TkName *tag; Rectangle *u; TkCitem *item; char *e; char buf[Tkmaxitem]; USED(val); top = tk->env->top; arg = tkword(top, arg, buf, buf+sizeof(buf), nil); tag = tkctaglook(tk, nil, buf); if(tag == nil) return nil; e = tkfracword(top, &arg, &fx, nil); if (e != nil) return e; e = tkfracword(top, &arg, &fy, nil); if(e != nil) return e; u = &TKobj(TkCanvas, tk)->update; for(t = tag->obj; t; t = t->taglist) { item = t->item; p = &item->p; tkbbmax(u, &p->bb); tkcimethod[item->type].coord(item, nil, fx, fy); tkbbmax(u, &p->bb); } tkcvssetdirty(tk); return nil; } static char* tkcvsraise(Tk *tk, char *arg, char **val) { TkCtag *t; TkCanvas *c; TkName *f, *a; char buf[Tkmaxitem]; TkCitem *prev, *it, *above, *items, *itemtail, *next; USED(val); c = TKobj(TkCanvas, tk); arg = tkword(tk->env->top, arg, buf, buf+sizeof(buf), nil); f = tkctaglook(tk, nil, buf); if(f == nil) return nil; above = c->tail; tkword(tk->env->top, arg, buf, buf+sizeof(buf), nil); if(buf[0] != '\0') { a = tkctaglook(tk, nil, buf); if(a == nil) return TkBadtg; /* * find topmost item in the display list matching the "above" tag */ for(it = c->head; it != nil; it = it->next) { for(t = a->obj; t; t = t->taglist) if(t->item == it) above = it; } } prev = nil; items = itemtail = nil; for (it = c->head; it != nil; it = next) { next = it->next; for (t = f->obj; t; t = t->taglist) { if(t->item == it) { if (it == above) above = next; if (prev) prev->next = next; else c->head = next; if (itemtail) itemtail->next = it; else items = it; itemtail = it; tkbbmax(&c->update, &it->p.bb); goto next; } } prev = it; next:; } if (items != nil) { if (above) { itemtail->next = above->next; if (above->next == nil) c->tail = itemtail; above->next = items; } else { if (prev) prev->next = items; else c->head = items; c->tail = itemtail; itemtail->next = nil; } } tkcvssetdirty(tk); return nil; } static char* tkcvstype(Tk *tk, char *arg, char **val) { TkCtag *t; TkName *f; TkCanvas *c; char buf[Tkmaxitem]; tkword(tk->env->top, arg, buf, buf+sizeof(buf), nil); if(buf[0] == '\0') return TkBadvl; f = tkctaglook(tk, nil, buf); if(f == nil || f->obj == nil) return nil; c = TKobj(TkCanvas, tk); t = tkcfirsttag(c->head, f->obj); if(t == nil) return nil; return tkvalue(val, "%s", tkcimethod[t->item->type].name); } static char* tkcvsview(Tk *tk, char *arg, char **val, int nl, int *posn, int min, int max, int inc) { TkTop *t; int top, bot, diff, amount; char *e; char buf[Tkmaxitem], *v; diff = max-min; if(*arg == '\0') { if ( diff == 0 ) top = bot = 0; else { top = TKI2F(*posn-min)/diff; bot = TKI2F(*posn+nl-min)/diff; } v = tkfprint(buf, top); *v++ = ' '; tkfprint(v, bot); return tkvalue(val, "%s", buf); } t = tk->env->top; arg = tkword(t, arg, buf, buf+sizeof(buf), nil); if(strcmp(buf, "moveto") == 0) { e = tkfrac(&arg, &top, nil); if (e != nil) return e; *posn = min + TKF2I((top+1)*diff); } else if(strcmp(buf, "scroll") == 0) { arg = tkword(t, arg, buf, buf+sizeof(buf), nil); amount = atoi(buf); tkword(t, arg, buf, buf+sizeof(buf), nil); if(buf[0] == 'p') /* Pages */ amount = amount * nl * 9 /10; else if (inc > 0) amount *= inc; else amount = amount * nl / 10; *posn += amount; } else return TkBadcm; bot = max - nl; if(*posn > bot) *posn = bot; if(*posn < min) *posn = min; tk->dirty = tkrect(tk, 0); return nil; } static char* tkcvsyview(Tk *tk, char *arg, char **val) { int si; char *e; TkCanvas *c = TKobj(TkCanvas, tk); si = TKF2I(c->yscrolli); e = tkcvsview(tk, arg, val, tk->act.height, &c->view.y, c->region.min.y, c->region.max.y, si); tkcvssv(tk); return e; } static char* tkcvsxview(Tk *tk, char *arg, char **val) { int si; char *e; TkCanvas *c = TKobj(TkCanvas, tk); si = TKF2I(c->xscrolli); e = tkcvsview(tk, arg, val, tk->act.width, &c->view.x, c->region.min.x, c->region.max.x, si); tkcvssh(tk); return e; } /* * return in posn the new view origin such that (preferably) smin and smax * lie between cmin and cmax (cmin is the current view origin, and cmax the * other end of the visible area). * adjust posn (the view origin) so that (preferably) both smin and smax lie * inside cmin to cmax. if both smin and smax cannot fit, then * at least make sure that spref (smin<=spref<=smax) is visible. * return 0 if no adjustment is required (the interval is already visible). * * attempt to make an adjustment as small as possible that * fits these criteria. */ static int tkadjustvis(int *posn, int c0, int c1, int s0, int s1, int spref) { int d, v; d = c1 - c0; /* visible width */ /* * if requested range fits inside visible range, * no adjustment is necessary */ if (c0 <= s0 && s1 <= c1) return 0; /* * if requested range fits, make it fully visible */ if (s1 - s0 < d) { if (s0 < c0) v = s0; else v = s1 - d; } else { /* * choose upper or lower end of requested range, * depending on which end of requested area is already * visible (if any). */ if (c0 <= s1 && s1 < c1) { /* overlapping left of visible */ v = s1 - d; if (v > spref) v = spref; } else if (c0 <= s0 && s0 < c1) { /* overlapping right of visible */ v = s0; if (v + d <= spref) v = spref - d; } else if (s1 < c0) { /* left of visible */ v = spref; if (v + d > s1) v = s1 - d; } else { /* right of visible */ v = spref - d; if (v < s0) v = s0; } } *posn = v; return 1; } static void tkcvsseerect(Tk *tk, Rectangle r, Point p) { TkCanvas *c; int scrollh, scrollv; c = TKobj(TkCanvas, tk); scrollh = tkadjustvis(&c->view.x, c->view.x, c->view.x + tk->act.width, r.min.x, r.max.x, p.x); scrollv = tkadjustvis(&c->view.y, c->view.y, c->view.y + tk->act.height, r.min.y, r.max.y, p.y); if (scrollh) tkcvssh(tk); if (scrollv) tkcvssv(tk); if (scrollh || scrollv) tk->dirty = tkrect(tk, 0); } static char* tkcvssee(Tk *tk, char *arg, char **val) { Rectangle r; int n, coords[4]; char *e; USED(val); n = 0; while (n < 4) { if (*arg == '\0') break; e = tkfracword(tk->env->top, &arg, &coords[n++], nil); if (e != nil) return e; } if (n != 2 && n != 4) return TkFewpt; r.min.x = TKF2I(coords[0]); r.min.y = TKF2I(coords[1]); if (n == 4) { r.max.x = TKF2I(coords[2]); r.max.y = TKF2I(coords[3]); } else r.max = r.min; r = canonrect(r); /* * XXX should intersect r with scrollregion here, as you shouldn't * be able to display things outside the scroll region. (??) */ tkcvsseerect(tk, r, r.min); return nil; } static void tkcvsseesub(Tk *tk, Rectangle *rr, Point *pp) { Rectangle r; Point p; TkCanvas *c; c = TKobj(TkCanvas, tk); r = rectaddpt(*rr, c->view); p = addpt(*pp, c->view); tkcvsseerect(tk, r, p); *rr = rectsubpt(r, c->view); *pp = subpt(p, c->view); } static void tkcvsgetimgs(Tk* tk, Image **image, Image **mask) { TkCanvas *c; c = TKobj(TkCanvas, tk); *image = c->image; *mask = c->mask; /* XXX this is wrong - the mask image has nothing to do with the main image */ } TkCimeth tkcimethod[] = { "line", tkcvslinecreat, tkcvslinedraw, tkcvslinefree, tkcvslinecoord, tkcvslinecget, tkcvslineconf, tkcvslinehit, "text", tkcvstextcreat, tkcvstextdraw, tkcvstextfree, tkcvstextcoord, tkcvstextcget, tkcvstextconf, nil, "rectangle", tkcvsrectcreat, tkcvsrectdraw, tkcvsrectfree, tkcvsrectcoord, tkcvsrectcget, tkcvsrectconf, nil, "oval", tkcvsovalcreat, tkcvsovaldraw, tkcvsovalfree, tkcvsovalcoord, tkcvsovalcget, tkcvsovalconf, tkcvsovalhit, "bitmap", tkcvsbitcreat, tkcvsbitdraw, tkcvsbitfree, tkcvsbitcoord, tkcvsbitcget, tkcvsbitconf, nil, "polygon", tkcvspolycreat, tkcvspolydraw, tkcvspolyfree, tkcvspolycoord, tkcvspolycget, tkcvspolyconf, tkcvspolyhit, "window", tkcvswindcreat, tkcvswinddraw, tkcvswindfree, tkcvswindcoord, tkcvswindcget, tkcvswindconf, nil, "image", tkcvsimgcreat, tkcvsimgdraw, tkcvsimgfree, tkcvsimgcoord, tkcvsimgcget, tkcvsimgconf, nil, "arc", tkcvsarccreat, tkcvsarcdraw, tkcvsarcfree, tkcvsarccoord, tkcvsarccget, tkcvsarcconf, nil, nil }; static TkCmdtab tkcanvcmd[] = { "addtag", tkcvsaddtag, "bbox", tkcvsbbox, "bind", tkcvsbind, "cget", tkcvscget, "configure", tkcvsconf, "create", tkcvscreate, "canvasx", tkcvscanvx, "canvasy", tkcvscanvy, "coords", tkcvscoords, "dchars", tkcvsdchars, "delete", tkcvsdelete, "dtag", tkcvsdtag, "find", tkcvsfind, "focus", tkcvsfocus, "gettags", tkcvsgettags, "grab", tkcvsgrab, "icursor", tkcvsicursor, "insert", tkcvsinsert, "index", tkcvsindex, "itemcget", tkcvsitemcget, "itemconfigure", tkcvsitemconf, "lower", tkcvslower, "move", tkcvsmove, "raise", tkcvsraise, "screenx", tkcvsscreenx, "screeny", tkcvsscreeny, "see", tkcvssee, "select", tkcvsselect, "scale", tkcvsscale, "type", tkcvstype, "yview", tkcvsyview, "xview", tkcvsxview, nil }; TkMethod canvasmethod = { "canvas", tkcanvcmd, tkfreecanv, tkdrawcanv, tkcvsgeom, tkcvsgetimgs, tkcvsfocusorder, tkcvsdirty, tkcvsrelpos, tkcvsevent, tkcvsseesub, tkcvsinwindow };