#include #include #include "draw.h" #include "keyboard.h" #include "tk.h" /* Widget Commands (+ means implemented) +bbox +cget +configure +delete +get +icursor +index scan +selection +xview +see */ #define O(t, e) ((long)(&((t*)0)->e)) #define CNTL(c) ((c)&0x1f) #define DEL 0x7f /* Layout constants */ enum { Entrypady = 0, Entrypadx = 0, Inswidth = 2, Ecursoron = 1<<0, Ecenter = 1<<1, Eright = 1<<2, Eleft = 1<<3, Ewordsel = 1<<4, Ejustify = Ecenter|Eleft|Eright }; static TkStab tkjust[] = { "left", Eleft, "right", Eright, "center", Ecenter, nil }; static TkEbind b[] = { {TkKey, "%W delete sel.first sel.last; %W insert insert {%A};%W see insert"}, {TkKey|CNTL('a'), "%W icursor 0;%W see insert;%W selection clear"}, {TkKey|Home, "%W icursor 0;%W see insert;%W selection clear"}, {TkKey|CNTL('d'), "%W delete insert; %W see insert"}, {TkKey|CNTL('e'), "%W icursor end; %W see insert;%W selection clear"}, {TkKey|End, "%W icursor end; %W see insert;%W selection clear"}, {TkKey|CNTL('h'), "%W tkEntryBS;%W see insert"}, {TkKey|CNTL('k'), "%W delete insert end;%W see insert"}, {TkKey|CNTL('u'), "%W delete 0 end;%W see insert"}, {TkKey|CNTL('w'), "%W delete sel.first sel.last; %W tkEntryBW;%W see insert"}, {TkKey|DEL, "%W tkEntryBS 1;%W see insert"}, {TkKey|CNTL('\\'), "%W selection clear"}, {TkKey|CNTL('/'), "%W selection range 0 end"}, {TkKey|Left, "%W icursor insert-1;%W selection clear;%W selection from insert;%W see insert"}, {TkKey|Right, "%W icursor insert+1;%W selection clear;%W selection from insert;%W see insert"}, {TkButton1P, "focus %W; %W tkEntryB1P %X"}, {TkButton1P|TkMotion, "%W tkEntryB1M %X"}, {TkButton1R, "%W tkEntryB1R"}, {TkButton1P|TkDouble, "%W tkEntryB1P %X;%W selection word @%x"}, {TkButton2P, "%W tkEntryB2P %x"}, {TkButton2P|TkMotion, "%W xview scroll %x scr"}, {TkFocusin, "%W tkEntryFocus in"}, {TkFocusout, "%W tkEntryFocus out"}, {TkKey|APP|'\t', ""}, {TkKey|BackTab, ""}, }; typedef struct TkEntry TkEntry; struct TkEntry { Rune* text; int textlen; char* xscroll; char* show; int flag; int oldx; int icursor; /* index of insertion cursor */ int anchor; /* selection anchor point */ int sel0; /* index of start of selection */ int sel1; /* index of end of selection */ int x0; /* x-offset of visible area */ /* derived values */ int v0; /* index of first visible character */ int v1; /* index of last visible character + 1 */ int xlen; /* length of text in pixels*/ int xv0; /* position of first visible character */ int xsel0; /* position of start of selection */ int xsel1; /* position of end of selection */ int xicursor; /* position of insertion cursor */ }; static void blinkreset(Tk*); static TkOption opts[] = { "xscrollcommand", OPTtext, O(TkEntry, xscroll), nil, "justify", OPTstab, O(TkEntry, flag), tkjust, "show", OPTtext, O(TkEntry, show), nil, nil }; static int xinset(Tk *tk) { return Entrypadx + tk->highlightwidth; } static int yinset(Tk *tk) { return Entrypady + tk->highlightwidth; } static void tksizeentry(Tk *tk) { if((tk->flag & Tksetwidth) == 0) tk->req.width = tk->env->wzero*25 + 2*xinset(tk) + Inswidth; if((tk->flag & Tksetheight) == 0) tk->req.height = tk->env->font->height+ 2*yinset(tk); } int entrytextwidth(Tk *tk, int n) { TkEntry *tke = TKobj(TkEntry, tk); Rune c; Font *f; f = tk->env->font; if (tke->show != nil) { chartorune(&c, tke->show); return n * runestringnwidth(f, &c, 1); } return runestringnwidth(f, tke->text, n); } static int x2index(Tk *tk, int x, int *xc) { TkEntry *tke = TKobj(TkEntry, tk); int t0, t1, r, q; t0 = 0; t1 = tke->textlen; while (t0 <= t1) { r = (t0 + t1) / 2; q = entrytextwidth(tk, r); if (q == x) { if (xc != nil) *xc = q; return r; } if (q < x) t0 = r + 1; else t1 = r - 1; } if (xc != nil) *xc = t1 > 0 ? entrytextwidth(tk, t1) : 0; if (t1 < 0) t1 = 0; return t1; } static int x2index0(Tk *tk, int x, int *xc) { int xx, z; z = x2index(tk, x, &xx); print("x2index(%d)-> (%d, %d)\n", x, z, xx); if (xc) *xc = xx; return z; } /* * recalculate derived values */ static void recalcentry(Tk *tk) { TkEntry *tke = TKobj(TkEntry, tk); int x, avail, locked; locked = lockdisplay(tk->env->top->display); tke->xlen = entrytextwidth(tk, tke->textlen) + Inswidth; avail = tk->act.width - 2*xinset(tk); if (tke->xlen < avail) { switch(tke->flag & Ejustify) { default: tke->x0 = 0; break; case Eright: tke->x0 = -(avail - tke->xlen); break; case Ecenter: tke->x0 = -(avail - tke->xlen) / 2; break; } } tke->v0 = x2index(tk, tke->x0, &tke->xv0); tke->v1 = x2index(tk, tk->act.width + tke->x0, &x); /* perhaps include partial last character */ if (tke->v1 < tke->textlen && x < avail + tke->x0) tke->v1++; tke->xsel0 = entrytextwidth(tk, tke->sel0); tke->xsel1 = entrytextwidth(tk, tke->sel1); tke->xicursor = entrytextwidth(tk, tke->icursor); if (locked) unlockdisplay(tk->env->top->display); } char* tkentry(TkTop *t, char *arg, char **ret) { Tk *tk; char *e; TkName *names; TkEntry *tke; TkOptab tko[3]; tk = tknewobj(t, TKentry, sizeof(Tk)+sizeof(TkEntry)); if(tk == nil) return TkNomem; tk->relief = TKsunken; tk->borderwidth = 2; tk->flag |= Tktakefocus; tk->highlightwidth = 1; tke = TKobj(TkEntry, tk); tko[0].ptr = tk; tko[0].optab = tkgeneric; tko[1].ptr = tke; tko[1].optab = opts; tko[2].ptr = nil; names = nil; e = tkparse(t, arg, tko, &names); if(e != nil) { tkfreeobj(tk); return e; } tksettransparent(tk, tkhasalpha(tk->env, TkCbackgnd)); tksizeentry(tk); e = tkbindings(t, tk, b, nelem(b)); if(e != nil) { tkfreeobj(tk); return e; } e = tkaddchild(t, tk, &names); tkfreename(names); if(e != nil) { tkfreeobj(tk); return e; } tk->name->link = nil; recalcentry(tk); return tkvalue(ret, "%s", tk->name->name); } static char* tkentrycget(Tk *tk, char *arg, char **val) { TkOptab tko[3]; TkEntry *tke = TKobj(TkEntry, tk); tko[0].ptr = tk; tko[0].optab = tkgeneric; tko[1].ptr = tke; tko[1].optab = opts; tko[2].ptr = nil; return tkgencget(tko, arg, val, tk->env->top); } void tkfreeentry(Tk *tk) { TkEntry *tke = TKobj(TkEntry, tk); free(tke->xscroll); free(tke->text); free(tke->show); } static void tkentrytext(Image *i, Rectangle s, Tk *tk, TkEnv *env) { TkEntry *tke = TKobj(TkEntry, tk); Point dp; int s0, s1, xs0, xs1, j; Rectangle r; Rune showr, *text; dp = Pt(s.min.x - (tke->x0 - tke->xv0), s.min.y); if (tke->show) { chartorune(&showr, tke->show); text = mallocz(sizeof(Rune) * (tke->textlen+1), 0); if (text == nil) return; for (j = 0; j < tke->textlen; j++) text[j] = showr; } else text = tke->text; runestringn(i, dp, tkgc(env, TkCforegnd), dp, env->font, text+tke->v0, tke->v1-tke->v0); if (tke->sel0 < tke->v1 && tke->sel1 > tke->v0) { if (tke->sel0 < tke->v0) { s0 = tke->v0; xs0 = tke->xv0 - tke->x0; } else { s0 = tke->sel0; xs0 = tke->xsel0 - tke->x0; } if (tke->sel1 > tke->v1) { s1 = tke->v1; xs1 = s.max.x; } else { s1 = tke->sel1; xs1 = tke->xsel1 - tke->x0; } r = rectaddpt(Rect(xs0, 0, xs1, env->font->height), s.min); tktextsdraw(i, r, env, 1); runestringn(i, r.min, tkgc(env, TkCselectfgnd), r.min, env->font, text+s0, s1-s0); } if((tke->flag&Ecursoron) && tke->icursor >= tke->v0 && tke->icursor <= tke->v1) { r = Rect( tke->xicursor - tke->x0, 0, tke->xicursor - tke->x0 + Inswidth, env->font->height ); draw(i, rectaddpt(r, s.min), tkgc(env, TkCforegnd), nil, ZP); } if (tke->show) free(text); } char* tkdrawentry(Tk *tk, Point orig) { Point p; TkEnv *env; Rectangle r, s; Image *i; int xp, yp; env = tk->env; r.min = ZP; r.max.x = tk->act.width + 2*tk->borderwidth; r.max.y = tk->act.height + 2*tk->borderwidth; i = tkitmp(env, r.max, TkCbackgnd); if(i == nil) return nil; xp = tk->borderwidth + xinset(tk); yp = tk->borderwidth + yinset(tk); s = r; s.min.x += xp; s.max.x -= xp; s.min.y += yp; s.max.y -= yp; tkentrytext(i, s, tk, env); tkdrawrelief(i, tk, ZP, TkCbackgnd, tk->relief); if (tkhaskeyfocus(tk)) tkbox(i, insetrect(r, tk->borderwidth), tk->highlightwidth, tkgc(tk->env, TkChighlightfgnd)); p.x = tk->act.x + orig.x; p.y = tk->act.y + orig.y; r = rectaddpt(r, p); draw(tkimageof(tk), r, i, nil, ZP); return nil; } char* tkentrysh(Tk *tk) { TkEntry *tke = TKobj(TkEntry, tk); int dx, top, bot; char *val, *cmd, *v, *e; if(tke->xscroll == nil) return nil; bot = 0; top = Tkfpscalar; if(tke->text != 0 && tke->textlen != 0) { dx = tk->act.width - 2*xinset(tk); if (tke->xlen > dx) { bot = TKI2F(tke->x0) / tke->xlen; top = TKI2F(tke->x0 + dx) / tke->xlen; } } val = mallocz(Tkminitem, 0); if(val == nil) return TkNomem; v = tkfprint(val, bot); *v++ = ' '; tkfprint(v, top); cmd = mallocz(Tkminitem, 0); if(cmd == nil) { free(val); return TkNomem; } sprint(cmd, "%s %s", tke->xscroll, val); e = tkexec(tk->env->top, cmd, nil); free(cmd); free(val); return e; } void tkentrygeom(Tk *tk) { char *e; e = tkentrysh(tk); if ((e != nil) && /* XXX - Tad: should propagate not print */ (tk->name != nil)) print("tk: xscrollcommand \"%s\": %s\n", tk->name->name, e); recalcentry(tk); } static char* tkentryconf(Tk *tk, char *arg, char **val) { char *e; TkGeom g; int bd; TkOptab tko[3]; TkEntry *tke = TKobj(TkEntry, tk); tko[0].ptr = tk; tko[0].optab = tkgeneric; tko[1].ptr = tke; tko[1].optab = opts; tko[2].ptr = nil; if(*arg == '\0') return tkconflist(tko, val); bd = tk->borderwidth; g = tk->req; e = tkparse(tk->env->top, arg, tko, nil); tksettransparent(tk, tkhasalpha(tk->env, TkCbackgnd)); tksizeentry(tk); tkgeomchg(tk, &g, bd); recalcentry(tk); tk->dirty = tkrect(tk, 1); return e; } static char* tkentryparseindex(Tk *tk, char *buf, int *index) { TkEntry *tke = TKobj(TkEntry, tk); TkEnv *env; char *mod; int i, x, locked, modstart; modstart = 0; for(mod = buf; *mod != '\0'; mod++) if(*mod == '-' || *mod == '+') { modstart = *mod; *mod = '\0'; break; } if(strcmp(buf, "end") == 0) i = tke->textlen; else if(strcmp(buf, "anchor") == 0) i = tke->anchor; else if(strcmp(buf, "insert") == 0) i = tke->icursor; else if(strcmp(buf, "sel.first") == 0) i = tke->sel0; else if(strcmp(buf, "sel.last") == 0) i = tke->sel1; else if(buf[0] >= '0' && buf[0] <= '9') i = atoi(buf); else if(buf[0] == '@') { x = atoi(buf+1) - xinset(tk); if(tke->textlen == 0) { *index = 0; return nil; } env = tk->env; locked = lockdisplay(env->top->display); i = x2index(tk, x + tke->x0, nil); /* XXX could possibly select nearest character? */ if(locked) unlockdisplay(env->top->display); } else return TkBadix; if(i < 0 || i > tke->textlen) return TkBadix; if(modstart) { *mod = modstart; i += atoi(mod); if(i < 0) i = 0; if(i > tke->textlen) i = tke->textlen; } *index = i; return nil; } /* * return bounding box of character at index, in coords relative to * the top left position of the text. */ static Rectangle tkentrybbox(Tk *tk, int index) { TkEntry *tke; TkEnv *env; Display *d; int x, cw, locked; Rectangle r; tke = TKobj(TkEntry, tk); env = tk->env; d = env->top->display; locked = lockdisplay(d); x = entrytextwidth(tk, index); if (index < tke->textlen) cw = entrytextwidth(tk, index+1) - x; else cw = Inswidth; if(locked) unlockdisplay(d); r.min.x = x; r.min.y = 0; r.max.x = x + cw; r.max.y = env->font->height; return r; } static void tkentrysee(Tk *tk, int index, int jump) { TkEntry *tke = TKobj(TkEntry, tk); int dx, margin; Rectangle r; r = tkentrybbox(tk, index); dx = tk->act.width - 2*xinset(tk); if (jump) margin = dx / 4; else margin = 0; if (r.min.x <= tke->x0 || r.max.x > tke->x0 + dx) { if (r.min.x <= tke->x0) { tke->x0 = r.min.x - margin; if (tke->x0 < 0) tke->x0 = 0; } else if (r.max.x >= tke->x0 + dx) { tke->x0 = r.max.x - dx + margin; if (tke->x0 > tke->xlen - dx) tke->x0 = tke->xlen - dx; } tk->dirty = tkrect(tk, 0); } r = rectaddpt(r, Pt(xinset(tk) - tke->x0, yinset(tk))); tksee(tk, r, r.min); } static char* tkentryseecmd(Tk *tk, char *arg, char **val) { int index; char *e, *buf; USED(val); buf = mallocz(Tkmaxitem, 0); if(buf == nil) return TkNomem; tkword(tk->env->top, arg, buf, buf+Tkmaxitem, nil); e = tkentryparseindex(tk, buf, &index); free(buf); if(e != nil) return e; tkentrysee(tk, index, 1); recalcentry(tk); return nil; } static char* tkentrybboxcmd(Tk *tk, char *arg, char **val) { TkEntry *tke = TKobj(TkEntry, tk); char *r, *buf; int index; Rectangle bbox; buf = mallocz(Tkmaxitem, 0); if(buf == nil) return TkNomem; tkword(tk->env->top, arg, buf, buf+Tkmaxitem, nil); r = tkentryparseindex(tk, buf, &index); free(buf); if(r != nil) return r; bbox = rectaddpt(tkentrybbox(tk, index), Pt(xinset(tk) - tke->x0, yinset(tk))); return tkvalue(val, "%d %d %d %d", bbox.min.x, bbox.min.y, bbox.max.x, bbox.max.y); } static char* tkentryindex(Tk *tk, char *arg, char **val) { int index; char *r, *buf; buf = mallocz(Tkmaxitem, 0); if(buf == nil) return TkNomem; tkword(tk->env->top, arg, buf, buf+Tkmaxitem, nil); r = tkentryparseindex(tk, buf, &index); free(buf); if(r != nil) return r; return tkvalue(val, "%d", index); } static char* tkentryicursor(Tk *tk, char *arg, char **val) { TkEntry *tke = TKobj(TkEntry, tk); int index, locked; char *r, *buf; USED(val); buf = mallocz(Tkmaxitem, 0); if(buf == nil) return TkNomem; tkword(tk->env->top, arg, buf, buf+Tkmaxitem, nil); r = tkentryparseindex(tk, buf, &index); free(buf); if(r != nil) return r; tke->icursor = index; locked = lockdisplay(tk->env->top->display); tke->xicursor = entrytextwidth(tk, tke->icursor); if (locked) unlockdisplay(tk->env->top->display); blinkreset(tk); tk->dirty = tkrect(tk, 1); return nil; } static int adjustforins(int i, int n, int q) { if (i <= q) q += n; return q; } static int adjustfordel(int d0, int d1, int q) { if (d1 <= q) q -= d1 - d0; else if (d0 <= q && q <= d1) q = d0; return q; } static char* tkentryget(Tk *tk, char *arg, char **val) { TkTop *top; TkEntry *tke; int first, last; char *e, *buf; tke = TKobj(TkEntry, tk); if(tke->text == nil) return nil; arg = tkskip(arg, " \t"); if(*arg == '\0') return tkvalue(val, "%.*S", tke->textlen, tke->text); top = tk->env->top; buf = mallocz(Tkmaxitem, 0); if(buf == nil) return TkNomem; arg = tkword(top, arg, buf, buf+Tkmaxitem, nil); e = tkentryparseindex(tk, buf, &first); if(e != nil) { free(buf); return e; } last = first+1; tkword(top, arg, buf, buf+Tkmaxitem, nil); if(buf[0] != '\0') { e = tkentryparseindex(tk, buf, &last); if(e != nil) { free(buf); return e; } } free(buf); if(last <= first || tke->textlen == 0 || first == tke->textlen) return tkvalue(val, "%S", L""); return tkvalue(val, "%.*S", last-first, tke->text+first); } static char* tkentryinsert(Tk *tk, char *arg, char **val) { TkTop *top; TkEntry *tke; int ins, i, n, locked; char *e, *t, *text, *buf; Rune *etext; USED(val); tke = TKobj(TkEntry, tk); top = tk->env->top; buf = mallocz(Tkmaxitem, 0); if(buf == nil) return TkNomem; arg = tkword(top, arg, buf, buf+Tkmaxitem, nil); e = tkentryparseindex(tk, buf, &ins); free(buf); if(e != nil) return e; if(*arg == '\0') return nil; n = strlen(arg) + 1; if(n < Tkmaxitem) n = Tkmaxitem; text = malloc(n); if(text == nil) return TkNomem; tkword(top, arg, text, text+n, nil); n = utflen(text); etext = realloc(tke->text, (tke->textlen+n+1)*sizeof(Rune)); if(etext == nil) { free(text); return TkNomem; } tke->text = etext; memmove(tke->text+ins+n, tke->text+ins, (tke->textlen-ins)*sizeof(Rune)); t = text; for(i=0; itext+ins+i, t); free(text); tke->textlen += n; tke->sel0 = adjustforins(ins, n, tke->sel0); tke->sel1 = adjustforins(ins, n, tke->sel1); tke->icursor = adjustforins(ins, n, tke->icursor); tke->anchor = adjustforins(ins, n, tke->anchor); locked = lockdisplay(tk->env->top->display); if (ins < tke->v0) tke->x0 += entrytextwidth(tk, tke->v0 + n) + (tke->x0 - tke->xv0); if (locked) unlockdisplay(tk->env->top->display); recalcentry(tk); e = tkentrysh(tk); blinkreset(tk); tk->dirty = tkrect(tk, 1); return e; } static char* tkentrydelete(Tk *tk, char *arg, char **val) { TkTop *top; TkEntry *tke; int d0, d1, locked; char *e, *buf; Rune *text; USED(val); tke = TKobj(TkEntry, tk); top = tk->env->top; buf = mallocz(Tkmaxitem, 0); if(buf == nil) return TkNomem; arg = tkword(top, arg, buf, buf+Tkmaxitem, nil); e = tkentryparseindex(tk, buf, &d0); if(e != nil) { free(buf); return e; } d1 = d0+1; tkword(top, arg, buf, buf+Tkmaxitem, nil); if(buf[0] != '\0') { e = tkentryparseindex(tk, buf, &d1); if(e != nil) { free(buf); return e; } } free(buf); if(d1 <= d0 || tke->textlen == 0 || d0 >= tke->textlen) return nil; memmove(tke->text+d0, tke->text+d1, (tke->textlen-d1)*sizeof(Rune)); tke->textlen -= d1 - d0; text = realloc(tke->text, (tke->textlen+1) * sizeof(Rune)); if (text != nil) tke->text = text; tke->sel0 = adjustfordel(d0, d1, tke->sel0); tke->sel1 = adjustfordel(d0, d1, tke->sel1); tke->icursor = adjustfordel(d0, d1, tke->icursor); tke->anchor = adjustfordel(d0, d1, tke->anchor); locked = lockdisplay(tk->env->top->display); if (d1 < tke->v0) tke->x0 = entrytextwidth(tk, tke->v0 - (d1 - d0)) + (tke->x0 - tke->xv0); else if (d0 < tke->v0) tke->x0 = entrytextwidth(tk, d0); if (locked) unlockdisplay(tk->env->top->display); recalcentry(tk); e = tkentrysh(tk); blinkreset(tk); tk->dirty = tkrect(tk, 1); return e; } /* Used for both backspace and DEL. If a selection exists, delete it. * Otherwise delete the character to the left(right) of the insertion * cursor, if any. */ static char* tkentrybs(Tk *tk, char *arg, char **val) { TkEntry *tke = TKobj(TkEntry, tk); char *buf, *e; int ix; USED(val); USED(arg); if(tke->textlen == 0) return nil; if(tke->sel0 < tke->sel1) return tkentrydelete(tk, "sel.first sel.last", nil); buf = mallocz(Tkmaxitem, 0); if(buf == nil) return TkNomem; tkword(tk->env->top, arg, buf, buf+Tkmaxitem, nil); ix = -1; if(buf[0] != '\0') { e = tkentryparseindex(tk, buf, &ix); if(e != nil) { free(buf); return e; } } if(ix > -1) { /* DEL */ if(tke->icursor >= tke->textlen) { free(buf); return nil; } } else { /* backspace */ if(tke->icursor == 0) { free(buf); return nil; } tke->icursor--; } snprint(buf, Tkmaxitem, "%d", tke->icursor); e = tkentrydelete(tk, buf, nil); free(buf); return e; } static char* tkentrybw(Tk *tk, char *arg, char **val) { int start; Rune *text; TkEntry *tke; char buf[32]; USED(val); USED(arg); tke = TKobj(TkEntry, tk); if(tke->textlen == 0 || tke->icursor == 0) return nil; text = tke->text; start = tke->icursor-1; while(start > 0 && !tkiswordchar(text[start])) --start; while(start > 0 && tkiswordchar(text[start-1])) --start; snprint(buf, sizeof(buf), "%d %d", start, tke->icursor); return tkentrydelete(tk, buf, nil); } char* tkentryselect(Tk *tk, char *arg, char **val) { TkTop *top; int start, from, to, locked; TkEntry *tke; char *e, *buf; buf = mallocz(Tkmaxitem, 0); if(buf == nil) return TkNomem; tke = TKobj(TkEntry, tk); top = tk->env->top; arg = tkword(top, arg, buf, buf+Tkmaxitem, nil); if(strcmp(buf, "clear") == 0) { tke->sel0 = 0; tke->sel1 = 0; } else if(strcmp(buf, "from") == 0) { tkword(top, arg, buf, buf+Tkmaxitem, nil); e = tkentryparseindex(tk, buf, &tke->anchor); tke->flag &= ~Ewordsel; free(buf); return e; } else if(strcmp(buf, "to") == 0) { tkword(top, arg, buf, buf+Tkmaxitem, nil); e = tkentryparseindex(tk, buf, &to); if(e != nil) { free(buf); return e; } if(to < tke->anchor) { if(tke->flag & Ewordsel) while(to > 0 && tkiswordchar(tke->text[to-1])) --to; tke->sel0 = to; tke->sel1 = tke->anchor; } else if(to >= tke->anchor) { if(tke->flag & Ewordsel) while(to < tke->textlen && tkiswordchar(tke->text[to])) to++; tke->sel0 = tke->anchor; tke->sel1 = to; } tkentrysee(tk, to, 0); recalcentry(tk); } else if(strcmp(buf, "word") == 0) { /* inferno invention */ tkword(top, arg, buf, buf+Tkmaxitem, nil); e = tkentryparseindex(tk, buf, &start); if(e != nil) { free(buf); return e; } from = start; while(from > 0 && tkiswordchar(tke->text[from-1])) --from; to = start; while(to < tke->textlen && tkiswordchar(tke->text[to])) to++; tke->sel0 = from; tke->sel1 = to; tke->anchor = from; tke->icursor = from; tke->flag |= Ewordsel; locked = lockdisplay(tk->env->top->display); tke->xicursor = entrytextwidth(tk, tke->icursor); if (locked) unlockdisplay(tk->env->top->display); } else if(strcmp(buf, "present") == 0) { e = tkvalue(val, "%d", tke->sel1 > tke->sel0); free(buf); return e; } else if(strcmp(buf, "range") == 0) { arg = tkword(top, arg, buf, buf+Tkmaxitem, nil); e = tkentryparseindex(tk, buf, &from); if(e != nil) { free(buf); return e; } tkword(top, arg, buf, buf+Tkmaxitem, nil); e = tkentryparseindex(tk, buf, &to); if(e != nil) { free(buf); return e; } tke->sel0 = from; tke->sel1 = to; if(to <= from) { tke->sel0 = 0; tke->sel1 = 0; } } else if(strcmp(buf, "adjust") == 0) { tkword(top, arg, buf, buf+Tkmaxitem, nil); e = tkentryparseindex(tk, buf, &to); if(e != nil) { free(buf); return e; } if(tke->sel0 == 0 && tke->sel1 == 0) { tke->sel0 = tke->anchor; tke->sel1 = to; } else { if(abs(tke->sel0-to) < abs(tke->sel1-to)) { tke->sel0 = to; tke->anchor = tke->sel1; } else { tke->sel1 = to; tke->anchor = tke->sel0; } } if(tke->sel0 > tke->sel1) { to = tke->sel0; tke->sel0 = tke->sel1; tke->sel1 = to; } } else { free(buf); return TkBadcm; } locked = lockdisplay(tk->env->top->display); tke->xsel0 = entrytextwidth(tk, tke->sel0); tke->xsel1 = entrytextwidth(tk, tke->sel1); if (locked) unlockdisplay(tk->env->top->display); tk->dirty = tkrect(tk, 1); free(buf); return nil; } static char* tkentryb2p(Tk *tk, char *arg, char **val) { TkEntry *tke; char *buf; USED(val); tke = TKobj(TkEntry, tk); buf = malloc(Tkmaxitem); if (buf == nil) return TkNomem; tkword(tk->env->top, arg, buf, buf+Tkmaxitem, nil); tke->oldx = atoi(buf); return nil; } static char* tkentryxview(Tk *tk, char *arg, char **val) { int locked; TkEnv *env; TkEntry *tke; char *buf, *v; int dx, top, bot, amount, ix, x; char *e; tke = TKobj(TkEntry, tk); env = tk->env; dx = tk->act.width - 2*xinset(tk); buf = mallocz(Tkmaxitem, 0); if(buf == nil) return TkNomem; if(*arg == '\0') { if (tke->textlen == 0 || tke->xlen < dx) { bot = TKI2F(0); top = TKI2F(1); } else { bot = TKI2F(tke->x0) / tke->xlen; top = TKI2F(tke->x0 + dx) / tke->xlen; } v = tkfprint(buf, bot); *v++ = ' '; tkfprint(v, top); e = tkvalue(val, "%s", buf); free(buf); return e; } arg = tkitem(buf, arg); if(strcmp(buf, "moveto") == 0) { e = tkfracword(env->top, &arg, &top, nil); if (e != nil) { free(buf); return e; } tke->x0 = TKF2I(top*tke->xlen); } else if(strcmp(buf, "scroll") == 0) { arg = tkitem(buf, arg); amount = atoi(buf); if(*arg == 'p') /* Pages */ amount *= (9*tke->xlen)/10; else if(*arg == 's') { /* Inferno-ism, "scr", must be used in the context of button2p */ x = amount; amount = x < tke->oldx ? env->wzero : (x > tke->oldx ? -env->wzero : 0); tke->oldx = x; } tke->x0 += amount; } else { e = tkentryparseindex(tk, buf, &ix); if(e != nil) { free(buf); return e; } locked = lockdisplay(env->top->display); tke->x0 = entrytextwidth(tk, ix); if (locked) unlockdisplay(env->top->display); } free(buf); if (tke->x0 > tke->xlen - dx) tke->x0 = tke->xlen - dx; if (tke->x0 < 0) tke->x0 = 0; recalcentry(tk); e = tkentrysh(tk); blinkreset(tk); tk->dirty = tkrect(tk, 1); return e; } static void autoselect(Tk *tk, void *v, int cancelled) { TkEntry *tke = TKobj(TkEntry, tk); Rectangle hitr; char buf[32]; Point p; USED(v); if (cancelled) return; p = tkscrn2local(tk, Pt(tke->oldx, 0)); p.y = 0; if (tkvisiblerect(tk, &hitr) && ptinrect(p, hitr)) return; snprint(buf, sizeof(buf), "to @%d", p.x); tkentryselect(tk, buf, nil); tkdirty(tk); tkupdate(tk->env->top); } static char* tkentryb1p(Tk *tk, char* arg, char **ret) { TkEntry *tke = TKobj(TkEntry, tk); Point p; int i, locked, x; char buf[32], *e; USED(ret); x = atoi(arg); p = tkscrn2local(tk, Pt(x, 0)); sprint(buf, "@%d", p.x); e = tkentryparseindex(tk, buf, &i); if (e != nil) return e; tke->sel0 = 0; tke->sel1 = 0; tke->icursor = i; tke->anchor = i; tke->flag &= ~Ewordsel; locked = lockdisplay(tk->env->top->display); tke->xsel0 = 0; tke->xsel1 = 0; tke->xicursor = entrytextwidth(tk, tke->icursor); if (locked) unlockdisplay(tk->env->top->display); tke->oldx = x; blinkreset(tk); tkrepeat(tk, autoselect, nil, TkRptpause, TkRptinterval); tk->dirty = tkrect(tk, 0); return nil; } static char* tkentryb1m(Tk *tk, char* arg, char **ret) { TkEntry *tke = TKobj(TkEntry, tk); Point p; Rectangle hitr; char buf[32]; USED(ret); p.x = atoi(arg); tke->oldx = p.x; p = tkscrn2local(tk, p); p.y = 0; if (!tkvisiblerect(tk, &hitr) || !ptinrect(p, hitr)) return nil; snprint(buf, sizeof(buf), "to @%d", p.x); tkentryselect(tk, buf, nil); return nil; } static char* tkentryb1r(Tk *tk, char* arg, char **ret) { USED(tk); USED(arg); USED(ret); tkcancelrepeat(tk); return nil; } static void blinkreset(Tk *tk) { TkEntry *e = TKobj(TkEntry, tk); if (!tkhaskeyfocus(tk) || tk->flag&Tkdisabled) return; e->flag |= Ecursoron; tkblinkreset(tk); } static void showcaret(Tk *tk, int on) { TkEntry *e = TKobj(TkEntry, tk); if (on) e->flag |= Ecursoron; else e->flag &= ~Ecursoron; tk->dirty = tkrect(tk, 0); } char* tkentryfocus(Tk *tk, char* arg, char **ret) { int on = 0; USED(ret); if (tk->flag&Tkdisabled) return nil; if(strcmp(arg, " in") == 0) { tkblink(tk, showcaret); on = 1; } else tkblink(nil, nil); showcaret(tk, on); return nil; } static TkCmdtab tkentrycmd[] = { "cget", tkentrycget, "configure", tkentryconf, "delete", tkentrydelete, "get", tkentryget, "icursor", tkentryicursor, "index", tkentryindex, "insert", tkentryinsert, "selection", tkentryselect, "xview", tkentryxview, "tkEntryBS", tkentrybs, "tkEntryBW", tkentrybw, "tkEntryB1P", tkentryb1p, "tkEntryB1M", tkentryb1m, "tkEntryB1R", tkentryb1r, "tkEntryB2P", tkentryb2p, "tkEntryFocus", tkentryfocus, "bbox", tkentrybboxcmd, "see", tkentryseecmd, nil }; TkMethod entrymethod = { "entry", tkentrycmd, tkfreeentry, tkdrawentry, tkentrygeom };