_customFormats[type] = s.customFormat(type);
}
+ // Check for the sender auto coloring option
+ _senderAutoColor = s.value("Colors/SenderAutoColor", false).toBool();
+
// Now initialize the mapping between FormatCodes and FormatTypes...
_formatCodes["%O"] = None;
_formatCodes["%B"] = Bold;
_cachedFontMetrics.clear();
}
+void UiStyle::setSenderAutoColor( bool state ) {
+ _senderAutoColor = state;
+ UiStyleSettings s(_settingsKey);
+ s.setValue("Colors/SenderAutoColor", QVariant(state));
+}
+
QTextCharFormat UiStyle::format(FormatType ftype, Settings::Mode mode) const {
- // TODO: implement setting for nick autocoloring and make a check for it here
- if ( (ftype & 0x00000fff) == Sender )
- {
- // If it is not enabled just set ftype to Sender and go on
+ // Check for enabled sender auto coloring
+ if ( (ftype & 0x00000fff) == Sender && !_senderAutoColor ) {
+ // Just use the default sender style if auto coloring is disabled
+ ftype = Sender;
}
if(mode == Settings::Custom && _customFormats.contains(ftype)) return _customFormats.value(ftype);
quint16 hash;
switch(type()) {
case Message::Plain:
- // To produce random like but stable nick colorings some sort of hashing should work best.
- // In this case we just use the qt function qChecksum which produces a
- // CRC16 hash. This should be fast and 16 bits are more than enough.
- hash = qChecksum(_sender.toAscii().data(), _sender.toAscii().size());
- return (UiStyle::FormatType)((((hash % 21) + 1) << 24) + 0x200);
+ // To produce random like but stable nick colorings some sort of hashing should work best.
+ // In this case we just use the qt function qChecksum which produces a
+ // CRC16 hash. This should be fast and 16 bits are more than enough.
+ hash = qChecksum(sender().toAscii().data(), sender().toAscii().size());
+ return (UiStyle::FormatType)((((hash % 12) + 1) << 24) + 0x200); // FIXME: amount of sender colors hardwired
case Message::Notice:
return UiStyle::NoticeMsg; break;
case Message::Server: