tclass.defaultLayoutName();
}
- par.layout(bp.getTextClass()[layoutname]);
+ par.setLayout(bp.getTextClass()[layoutname]);
// Test whether the layout is obsolete.
LayoutPtr const & layout = par.layout();
if (!layout->obsoleted_by().empty())
- par.layout(bp.getTextClass()[layout->obsoleted_by()]);
+ par.setLayout(bp.getTextClass()[layout->obsoleted_by()]);
par.params().read(lex);
}
-double Text::spacing(Buffer const & buffer,
- Paragraph const & par) const
+double Text::spacing(Buffer const & buffer, Paragraph const & par) const
{
if (par.params().spacing().isDefault())
return buffer.params().spacing().getValue();
void Text::charInserted(Cursor & cur)
{
+ Paragraph & par = cur.paragraph();
+
// Here we call finishUndo for every 20 characters inserted.
// This is from my experience how emacs does it. (Lgb)
static unsigned int counter;
cur.finishUndo();
counter = 0;
}
+
+ // register word if a non-letter was entered
+ if (cur.pos() > 1
+ && par.isLetter(cur.pos() - 2)
+ && !par.isLetter(cur.pos() - 1)) {
+ // get the word in front of cursor
+ BOOST_ASSERT(this == cur.text());
+ CursorSlice focus = cur.top();
+ focus.backwardPos();
+ CursorSlice from = focus;
+ CursorSlice to = focus;
+ getWord(from, to, PREVIOUS_WORD);
+ if (focus == from || to == from)
+ return;
+ docstring word
+ = par.asString(cur.buffer(), from.pos(), to.pos(), false);
+
+ // register words longer than 5 characters
+ if (word.length() > 5)
+ cur.buffer().registerWord(word);
+ }
}
// otherwise reset to default
if (par.useEmptyLayout())
- cur.paragraph().layout(bufparams.getTextClass().emptyLayout());
+ cur.paragraph().setLayout(bufparams.getTextClass().emptyLayout());
else
- cur.paragraph().layout(bufparams.getTextClass().defaultLayout());
+ cur.paragraph().setLayout(bufparams.getTextClass().defaultLayout());
return true;
}