if (isMathFont(f) && subst_) {
// If the char has a substitute, draw the replacement symbol
// instead, but only in math mode.
- mathedSymbolDim(mi.base, dim, subst_);
- kerning_ = mathed_char_kerning(mi.base.font, *subst_->draw.rbegin());
- return;
+ kerning_ = mathedSymbolDim(mi.base, dim, subst_);
} else if (!slanted(char_) && f == "mathnormal") {
Changer dummy = mi.base.font.changeShape(UP_SHAPE);
dim = theFontMetrics(mi.base.font).dimension(char_);
case '>': entity = ">"; break;
case '&': entity = "&"; break;
case ' ': {
- ms << from_ascii(" ");
+ if (ms.xmlMode())
+ ms << from_ascii(" ");
+ else
+ ms << from_ascii(" ");
return;
}
default: break;
}
if (!entity.empty()) {
- ms << "<mo>" << from_ascii(entity) << "</mo>";
+ ms << "<" << from_ascii(ms.namespacedTag("mo")) << ">"
+ << from_ascii(entity)
+ << "</" << from_ascii(ms.namespacedTag("mo")) << ">";
return;
}
char const * type =
(isAlphaASCII(char_) || Encodings::isMathAlpha(char_))
? "mi" : "mo";
- // we don't use MTag and ETag because we do not want the spacing
- ms << "<" << type << ">" << char_type(char_) << "</" << type << ">";
+ // we don't use MTag and ETag because we do not want the spacing before the end tag.
+ docstring tag = from_ascii(ms.namespacedTag(type));
+ ms << "<" << tag << ">" << char_type(char_) << "</" << tag << ">";
}