plusasc = true; // at the top (not really needed)
break;
default:
- printf ("Default\n");
+ lyxerr[Debug::KEY] << "Default" << endl;
// unknow accent (or something else)
return;
}
switch (modtype) {
case ACUTE: // acute 0xB4
{
-#if 0
- pain.line(int(x2), int(y + hg),
- int(x2 + hg35), y + hg35);
-#else
pain.text(x2 - (lyxfont::rbearing(0xB4, font) - lyxfont::lbearing(0xB4, font)) / 2,
baseline - lyxfont::ascent(ic, font) - lyxfont::descent(0xB4, font) - (lyxfont::ascent(0xB4, font) + lyxfont::descent(0xB4, font)) / 2,
char(0xB4), font);
-#endif
break;
}
case GRAVE: // grave 0x60
{
-#if 0
- pain.line(int(x2), int(y + hg),
- int(x2 - hg35), y + hg35);
-#else
pain.text(x2 - (lyxfont::rbearing(0x60, font) - lyxfont::lbearing(0x60, font)) / 2,
baseline - lyxfont::ascent(ic, font) - lyxfont::descent(0x60, font) - (lyxfont::ascent(0x60, font) + lyxfont::descent(0x60, font)) / 2.0,
char(0x60), font);
-#endif
break;
}
case MACRON: // macron
{
-#if 0
- pain.line(int(x2 - wid * 0.4),
- int(y + hg),
- int(x2 + wid * 0.4),
- int(y + hg));
-#else
pain.text(x2 - (lyxfont::rbearing(0xAF, font) - lyxfont::lbearing(0xAF, font)) / 2,
baseline - lyxfont::ascent(ic, font) - lyxfont::descent(0xAF, font) - (lyxfont::ascent(0xAF, font) + lyxfont::descent(0xAF, font)),
char(0xAF), font);
-#endif
break;
}
case TILDE: // tilde
{
-#if 0
- if (hg35 > 2.0) hg35 -= 1.0;
- x2 += (hg35 / 2.0);
- int xp[4], yp[4];
-
- xp[0] = int(x2 - 2.0 * hg35);
- yp[0] = int(y + hg);
-
- xp[1] = int(x2 - hg35);
- yp[1] = int(y + hg35);
-
- xp[2] = int(x2);
- yp[2] = int(y + hg);
-
- xp[3] = int(x2 + hg35);
- yp[3] = int(y + hg35);
-
- pain.lines(xp, yp, 4);
-#else
pain.text(x2 - (lyxfont::rbearing('~', font) - lyxfont::lbearing('~', font)) / 2,
baseline - lyxfont::ascent(ic, font) - lyxfont::descent('~', font) - (lyxfont::ascent('~', font) + lyxfont::descent('~', font)) / 2,
'~', font);
-#endif
break;
}
case UNDERBAR: // underbar 0x5F
{
-#if 0
- pain.line(int(x2 - wid * 0.4),
- y + hg / 2.0,
- int(x2 + wid * 0.4),
- y + hg / 2.0);
-#else
pain.text(x2 - (lyxfont::rbearing(0x5F, font) - lyxfont::lbearing(0x5F, font)) / 2, baseline,
char(0x5F), font);
-#endif
break;
}
case CEDILLA: // cedilla
{
-#if 0
- int xp[4], yp[4];
-
- xp[0] = int(x2);
- yp[0] = y;
-
- xp[1] = int(x2);
- yp[1] = y + int(hg / 3.0);
-
- xp[2] = int(x2 + (hg / 3.0));
- yp[2] = y + int(hg / 2.0);
-
- xp[3] = int(x2 - (hg / 4.0));
- yp[3] = y + int(hg);
-
- pain.lines(xp, yp, 4);
-#else
pain.text(x2 - (lyxfont::rbearing(0xB8, font) - lyxfont::lbearing(0xB8, font)) / 2, baseline,
char(0xB8), font);
-#endif
break;
}
case UNDERDOT: // underdot
{
-#if 0
- pain.arc(int(x2), y + hg35,
- 3, 3, 0, 360 * 64);
-#else
pain.text(x2 - (lyxfont::rbearing('.', font) - lyxfont::lbearing('.', font)) / 2.0,
baseline + 3.0 / 2.0 * (lyxfont::ascent('.', font) + lyxfont::descent('.', font)),
'.', font);
-#endif
break;
}
case DOT: // dot
{
-#if 0
- pain.arc(int(x2), y + hg * 0.5,
- (hg + 3.0)/5.0,
- (hg + 3.0)/5.0,
- 0, 360 * 64);
-#else
pain.text(x2 - (lyxfont::rbearing('.', font) - lyxfont::lbearing('.', font)) / 2.0,
baseline - lyxfont::ascent(ic, font) - lyxfont::descent('.', font) - (lyxfont::ascent('.', font) + lyxfont::descent('.', font)) / 2,
'.', font);
-#endif
break;
}
case CIRCLE: // circle
{
-#if 0
- pain.arc(int(x2 - (hg / 2.0)),
- y + (hg / 2.0), hg, hg , 0,
- 360 * 64);
-#else
LyXFont tmpf(font);
tmpf.decSize().decSize();
pain.text(x2 - (lyxfont::rbearing(0xB0, tmpf) - lyxfont::lbearing(0xB0, tmpf)) / 2.0,
baseline - lyxfont::ascent(ic, font) - lyxfont::descent(0xB0, tmpf) - (lyxfont::ascent(0xB0, tmpf) + lyxfont::descent(0xB0, tmpf)) / 3.0,
char(0xB0), tmpf);
-#endif
break;
}
case TIE: // tie
}
case HUNGARIAN_UMLAUT: // hung. umlaut
{
-#if 0
- int xs1[2], xs2[2], ys1[2], ys2[2];
-
- xs1[0] = int(x2 - (hg / 2.0));
- ys1[0] = int(y + hg);
-
- xs2[0] = int(x2 + hg35 - (hg / 2.0));
- ys2[0] = int(y + hg35);
-
- xs1[1] = int(x2 + (hg / 2.0));
- ys1[1] = int(y + hg);
-
- xs2[1] = int(x2 + hg35 + (hg / 2.0));
- ys2[1] = int(y + hg35);
-
- pain.segments(xs1, ys1, xs2, ys2, 2);
-#else
pain.text(x2 - (lyxfont::rbearing('´', font) - lyxfont::lbearing('´', font)),
baseline - lyxfont::ascent(ic, font) - lyxfont::descent('´', font) - (lyxfont::ascent('´', font) + lyxfont::descent('´', font)) / 2,
'´', font);
pain.text(x2,
baseline - lyxfont::ascent(ic, font) - lyxfont::descent('´', font) - (lyxfont::ascent('´', font) + lyxfont::descent('´', font)) / 2,
'´', font);
-#endif
break;
}
case UMLAUT: // umlaut
{
-#if 0
- float rad = hg / 2.0;
- if (rad <= 1.0) {
- pain.point(int(x2 - 4.0 * hg / 7.0),
- y + hg35);
- pain.point(int(x2 + 4.0 * hg / 7.0),
- y + hg35);
- } else {
- rad += .5; // this ensures that f.ex. 1.5 will
- // not be rounded down to .5 and then
- // converted to int = 0
- pain.arc(int(x2 - 2.0 * hg / 4.0),
- y + hg35,
- rad, rad,
- 0, 360 * 64);
- pain.arc(int(x2 + 2.0 * hg / 4.0),
- y + hg35,
- rad, rad, 0, 360*64);
- }
-#else
pain.text(x2 - (lyxfont::rbearing('¨', font) - lyxfont::lbearing('¨', font)) / 2,
baseline - lyxfont::ascent(ic, font) - lyxfont::descent('¨', font) - ( lyxfont::ascent('¨', font) + lyxfont::descent('¨', font)) / 2,
'¨', font);
-#endif
break;
}
case CIRCUMFLEX: // circumflex
{
-#if 0
- int xp[3], yp[3];
-
- xp[0] = int(x2 - hg35); yp[0] = y + int(hg);
- xp[1] = int(x2); yp[1] = int(y + hg35);
- xp[2] = int(x2 + hg35); yp[2] = y + int(hg);
- pain.lines(xp, yp, 3);
-#else
LyXFont tmpf(font);
tmpf.decSize().decSize().decSize();
pain.text(x2 - (lyxfont::rbearing(0x5E, tmpf) - lyxfont::lbearing(0x5E, tmpf)) / 2,
baseline - lyxfont::ascent(ic, font) - lyxfont::descent(0x5E, tmpf) - (lyxfont::ascent(0x5E, tmpf) + lyxfont::descent(0x5E, tmpf)) / 3.0,
char(0x5E), tmpf);
-#endif
break;
}
case OGONEK: // ogonek
int InsetLatexAccent::Latex(ostream & os,
- signed char /*fragile*/, bool/*fs*/) const
+ bool /*fragile*/, bool/*fs*/) const
+{
+ os << contents;
+ return 0;
+}
+
+
+int InsetLatexAccent::Ascii(ostream & os) const
{
os << contents;
return 0;