int Plot::closestCurve(int xpos, int ypos, int &dist, int &point)
{
QwtScaleMap map[QwtPlot::axisCnt];
for ( int axis = 0; axis < QwtPlot::axisCnt; axis++ )
	map[axis] = canvasMap(axis);

double dmin = 1.0e10;
int key = -1;
for (QMapIterator<int, QwtPlotCurve *> it = d_curves.begin(); it != d_curves.end(); ++it ) 
	{
	QwtPlotCurve *c = (QwtPlotCurve *)it.data();
	if (!c)
		continue;

	for (int i=0; i<c->dataSize(); i++)
		{
		double cx = map[c->xAxis()].xTransform(c->x(i)) - double(xpos);
		double cy = map[c->yAxis()].xTransform(c->y(i)) - double(ypos);
		double f = qwtSqr(cx) + qwtSqr(cy);
		if (f < dmin)
			{
			dmin = f;
			key = it.key();
			point = i;
			}
		 }
	}
dist = int(sqrt(dmin));
return key;
}
void Emotions::storeClass(QString klassName, NaiveBayesClassifier *classifier){
    double acc=0;
    if(klassName.contains("calm") || klassName.contains("exited")){
        acc=EMOTION_AROUSAL_ACCURACY;
    }else if(klassName.contains("positive") || klassName.contains("negative")){
        acc=EMOTION_VALENCE_ACCURACY;
    }else{
        return;
    }

    if(classifier->getTrainedClasses().contains(klassName)){
        QFile file(_dataPath+"."+klassName);
        if (!file.open(QIODevice::WriteOnly)) {
            qDebug() << "Emotions : cannot open file "+file.fileName()+" : "
                     << qPrintable(file.errorString()) << file.fileName()<< endl;
            return;
        }

        QMapIterator<double, double>* clasIt = new QMapIterator<double,double>(*classifier->getTrainedClasses().value(klassName));
        while(clasIt->hasNext()){
            clasIt->next();
            for(int j=0;j<clasIt->value();++j){
                QString* strVal=new QString("");
                strVal->setNum(clasIt->key(),'f', acc);
                file.write(strVal->toAscii());
                file.putChar('\n');
            }
        }
    }
}
Exemple #3
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void * KFileItem::extraData( const void *key )
{
    QMapIterator<const void*,void*> it = m_extra.find( key );
    if ( it != m_extra.end() )
        return it.data();
    return 0L;
}
Exemple #4
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void LocationTable::splitByAnchors(const PreprocessedContents& text, const Anchor& textStartPosition, QList<PreprocessedContents>& strings, QList<Anchor>& anchors) const {

  Anchor currentAnchor = Anchor(textStartPosition);
  size_t currentOffset = 0;

  QMapIterator<std::size_t, Anchor> it = m_offsetTable;

  while (currentOffset < (size_t)text.size())
  {
    Anchor nextAnchor(KDevelop::CursorInRevision::invalid());
    size_t nextOffset;

    if(it.hasNext()) {
      it.next();
      nextOffset = it.key();
      nextAnchor = it.value();
    }else{
      nextOffset = text.size();
      nextAnchor = Anchor(KDevelop::CursorInRevision::invalid());
    }

    if( nextOffset-currentOffset > 0 ) {
      strings.append(text.mid(currentOffset, nextOffset-currentOffset));
      anchors.append(currentAnchor);
    }

    currentOffset = nextOffset;
    currentAnchor = nextAnchor;
  }
}
QwtDoubleRect Plot::boundingRect ()
{
QMapIterator<int, QwtPlotCurve *> it = d_curves.begin();
QwtPlotCurve *c = (QwtPlotCurve *)it.data();

double minX = c->minXValue();
double minY = c->minYValue();
double maxX = c->maxXValue();
double maxY = c->maxYValue();

it++;

for (it; it != d_curves.end(); ++it) 
	{
	QwtPlotCurve *c = (QwtPlotCurve *)it.data();
	if (!c)
		continue;

	minX = (c->minXValue() < minX) ? c->minXValue() : minX;
	maxX = (c->maxXValue() > maxX) ? c->maxXValue() : maxX;
	minY = (c->minYValue() < minY) ? c->minYValue() : minY;
	maxY = (c->maxYValue() > maxY) ? c->maxYValue() : maxY;
	}

QwtDoubleRect r;
r.setLeft(minX);
r.setRight(maxX);
r.setTop(minY);
r.setBottom(maxY);
return r;
}
Exemple #6
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void ReportWindow::colorList() {

    //
    // ADD CODE HERE TO CHECK FOR CHANGES TO DOCUMENT
    //
    QMap<QString, QColor> cm = _colorMap;
    ColorList cl(this);
    cl.init(&_colorMap);
    cl.exec();
    if(cm.count() == _colorMap.count()) {
        // the two lists have the same number of items so
        // we will have to check each item for equality
        // to see if a change was made
        QMapIterator<QString, QColor> cit;
        for(cit = cm.begin(); cit != cm.end(); ++cit) {
            if(!_colorMap.contains(cit.key()) || _colorMap[cit.key()] != cm[cit.key()]) {
                setModified(TRUE);
                break;
            }
        }
    } else {
        // they don't have the same number of items
        // so we can just assume the list was changed
        setModified(TRUE);
    }
}
//---------------------------------------------------------------------------
//  getWordItems
//
//! Construct a list of word items to be inserted into a word list, based on
//! the results of a list of searches.
//
//! @param searchSpecs the list of search specifications
//! @return a list of word items
//---------------------------------------------------------------------------
QList<WordTableModel::WordItem>
WordVariationDialog::getWordItems(const QList<SearchSpec>& searchSpecs) const
{
    QList<WordTableModel::WordItem> wordItems;
    QMap<QString, QString> wordMap;
    QListIterator<SearchSpec> lit (searchSpecs);
    while (lit.hasNext()) {
        QStringList wordList = wordEngine->search(lexicon, lit.next(), false);
        QStringListIterator wit (wordList);
        while (wit.hasNext()) {
            QString str = wit.next();
            wordMap.insert(str.toUpper(), str);
        }
    }

    QMapIterator<QString, QString> mit (wordMap);
    while (mit.hasNext()) {
        mit.next();
        QString value = mit.value();
        QList<QChar> wildcardChars;
        for (int i = 0; i < value.length(); ++i) {
            QChar c = value[i];
            if (c.isLower())
                wildcardChars.append(c);
        }
        QString wildcard;
        if (!wildcardChars.isEmpty()) {
            qSort(wildcardChars.begin(), wildcardChars.end(),
                  Auxil::localeAwareLessThanQChar);
            foreach (const QChar& c, wildcardChars)
                wildcard.append(c.toUpper());
        }
        wordItems.append(WordTableModel::WordItem(
            mit.key(), WordTableModel::WordNormal, wildcard));
    }
Exemple #8
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qReal::IdList Repository::elementsByPropertyContent(const QString &propertyValue, bool sensitivity
		, bool regExpression) const
{
	const Qt::CaseSensitivity caseSensitivity = sensitivity ? Qt::CaseSensitive : Qt::CaseInsensitive;

	const QRegExp regExp(propertyValue, caseSensitivity);
	IdList result;

	for (Object * const element : mObjects.values()) {
		QMapIterator<QString, QVariant> iterator = element->propertiesIterator();
		if (regExpression) {
			while (iterator.hasNext()) {
				if (iterator.next().value().toString().contains(regExp)) {
					result.append(mObjects.key(element));
					break;
				}
			}
		} else {
			while (iterator.hasNext()) {
				if (iterator.next().value().toString().contains(propertyValue, caseSensitivity)) {
					result.append(mObjects.key(element));
					break;
				}
			}
		}
	}

	return result;
}
Exemple #9
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void LocationTable::splitByAnchors(const QByteArray& text, const KDevelop::SimpleCursor& textStartPosition, QList<QByteArray>& strings, QList<KDevelop::SimpleCursor>& anchors) const {

  KDevelop::SimpleCursor currentCursor = textStartPosition;
  size_t currentOffset = 0;
  
  QMapIterator<std::size_t, KDevelop::SimpleCursor> it = m_offsetTable;

  while (currentOffset < (size_t)text.length())
  {
    KDevelop::SimpleCursor nextCursor;
    size_t nextOffset;
    
    if(it.hasNext()) {
      it.next();
      nextOffset = it.key();
      nextCursor = it.value();
    }else{
      nextOffset = text.length();
      nextCursor = KDevelop::SimpleCursor::invalid();
    }

    if( nextOffset-currentOffset > 0 ) {
      strings.append(text.mid(currentOffset, nextOffset-currentOffset));
      anchors.append(currentCursor);
    }
    
    currentOffset = nextOffset;
    currentCursor = nextCursor;
  }
}
Exemple #10
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void KisBaseNode::mergeNodeProperties(const KoProperties & properties)
{
    QMapIterator<QString, QVariant> iter = properties.propertyIterator();
    while (iter.hasNext()) {
        iter.next();
        m_d->properties.setProperty(iter.key(), iter.value());
    }
}
Exemple #11
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void LocationTable::dump() const
{
  QMapIterator<std::size_t, KDevelop::SimpleCursor> it = m_offsetTable;
  kDebug(9007) << "Location Table:";
  while (it.hasNext()) {
    it.next();
    kDebug(9007) << it.key() << " => " << it.value().textCursor();
  }
}
Exemple #12
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void LocationTable::dump() const
{
  QMapIterator<std::size_t, Anchor> it = m_offsetTable;
  qCDebug(RPP) << "Location Table:";
  while (it.hasNext()) {
    it.next();
    qCDebug(RPP) << it.key() << " => " << it.value().castToSimpleCursor();
  }
}
Exemple #13
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bool tGraph::drawPoints() {
    //return _drawPoints;

    QMapIterator<int, ORStyleData> mit = _setStyle.begin();
    for( ; mit != _setStyle.end(); ++mit) {
        if(mit.data().point) return TRUE;
    }
    return FALSE;
}
void DraggerManagerPrivate::clear()
{
    QMapIterator<WidgetProperties *, QDeclarativeItem *> iterator =
            QMapIterator<WidgetProperties *, QDeclarativeItem *>(draggers);
    while (iterator.hasNext()) {
        iterator.next();
        iterator.value()->deleteLater();
    }
    draggers.clear();
}
void DraggerManager::disableDraggers()
{
    Q_D(DraggerManager);
    QMapIterator<WidgetProperties *, QDeclarativeItem *> iterator =
            QMapIterator<WidgetProperties *, QDeclarativeItem *>(d->draggers);
    while (iterator.hasNext()) {
        iterator.next();
        iterator.value()->setVisible(false);
    }
}
Exemple #16
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/**
\param val
**/
void BlSearchWidget::setFieldValue ( QString campo, QString val )
{
    BL_FUNC_DEBUG
    BlDebug::blDebug ( "BlSearchWidget::setcifprofesor", 0, val );

    QString SQLQuery("");
    SQLQuery = "SELECT * FROM " + m_tabla + " WHERE " + campo + " = $1";
    BlDbRecordSet *cur = mainCompany() ->load ( SQLQuery, val );

    if ( !cur->eof() ) {
        /// Inicializamos los valores de vuelta a ""
        QMapIterator<QString, QString> i ( m_valores );
        while ( i.hasNext() ) {
            i.next();
            m_valores.insert ( i.key(), cur->value( i.key() ) );
        } // end while
    } else {
        /// Inicializamos los valores de vuelta a ""
        QMapIterator<QString, QString> i ( m_valores );
        while ( i.hasNext() ) {
            i.next();
            m_valores.insert ( i.key(), "" );
        } // end while
    } // end if
    delete cur;
    pinta();
    
}
Exemple #17
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void KNotify::reconfigure()
{
    kapp->config()->reparseConfiguration();
    loadConfig();

    // clear loaded config files
    d->globalConfig->reparseConfiguration();
    for(QMapIterator< QString, KConfig * > it = d->configs.begin(); it != d->configs.end(); ++it)
        delete it.data();
    d->configs.clear();
}
Exemple #18
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KisBaseNode::KisBaseNode(const KisBaseNode & rhs)
        : QObject()
        , KisShared(rhs)
        ,  m_d(new Private())
{
    QMapIterator<QString, QVariant> iter = rhs.m_d->properties.propertyIterator();
    while (iter.hasNext()) {
        iter.next();
        m_d->properties.setProperty(iter.key(), iter.value());
    }
    m_d->linkedTo = rhs.m_d->linkedTo;
}
Exemple #19
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bool MSqlQuery::exec()
{
    // Database connection down.  Try to restart it, give up if it's still
    // down
    if (!m_db)
    {
        // Database structure's been deleted
        return false;
    }

    if (!m_db->isOpen() && !m_db->Reconnect())
    {
        LOG(VB_GENERAL, LOG_INFO, "MySQL server disconnected");
        return false;
    }

    bool result = QSqlQuery::exec();

    // if the query failed with "MySQL server has gone away"
    // Close and reopen the database connection and retry the query if it
    // connects again
    if (!result && QSqlQuery::lastError().number() == 2006 && m_db->Reconnect())
        result = QSqlQuery::exec();

    if (VERBOSE_LEVEL_CHECK(VB_DATABASE) && logLevel <= LOG_DEBUG)
    {
        QString str = lastQuery();

        // Database logging will cause an infinite loop here if not filtered
        // out
        if (!str.startsWith("INSERT INTO logging "))
        {
       	    // Sadly, neither executedQuery() nor lastQuery() display
            // the values in bound queries against a MySQL5 database.
            // So, replace the named placeholders with their values.

            QMapIterator<QString, QVariant> b = boundValues();
            while (b.hasNext())
            {
                b.next();
                str.replace(b.key(), '\'' + b.value().toString() + '\'');
            }

            LOG(VB_DATABASE, LOG_DEBUG,
                QString("MSqlQuery::exec(%1) %2%3")
                        .arg(m_db->MSqlDatabase::GetConnectionName()).arg(str)
                        .arg(isSelect() ? QString(" <<<< Returns %1 row(s)")
                                              .arg(size()) : QString()));
        }
    }

    return result;
}
Exemple #20
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/*!
  Lists values used during initialization
*/
QStringList TEIniFile::usedValues()
{
  QStringList sl;
  QMapIterator<QString, type_ValueList> it;
  for(it=SectionListDef.begin();it!=SectionListDef.end();++it)
  {
    type_ValueListIterator it1;
    for(it1=(*it).begin();it1!=(*it).end();++it1)
      sl << it.key()+"->"+it1.key();
  }
  return sl;
}
Exemple #21
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void
QueueManager::addQueuedItem( PlaylistItem *item )
{
    Playlist *pl = Playlist::instance();
    if( !pl ) return; //should never happen

    const int index = pl->m_nextTracks.findRef( item );

    QListViewItem *after;
    if( !index ) after = 0;
    else
    {
        int find = m_listview->childCount();
        if( index - 1 <= find )
            find = index - 1;
        after = m_listview->itemAtIndex( find );
    }

    QValueList<PlaylistItem*>         current = m_map.values();
    QValueListIterator<PlaylistItem*> newItem = current.find( item );

    QString title = i18n("%1 - %2").arg( item->artist(), item->title() );

    if( newItem == current.end() ) //avoid duplication
    {
        after = new QueueItem( m_listview, after, title );
        m_map[ after ] = item;
    }
    else //track is in the queue, remove it.
    {
        QListViewItem *removableItem = m_listview->findItem( title, 0 );

        if( removableItem )
        {
            //Remove the key from the map, so we can re-queue the item
            QMapIterator<QListViewItem*, PlaylistItem*> end(  m_map.end() );
            for( QMapIterator<QListViewItem*, PlaylistItem*> it = m_map.begin(); it != end; ++it )
            {
                if( it.data() == item )
                {
                    m_map.remove( it );

                    //Remove the item from the queuelist
                    m_listview->takeItem( removableItem );
                    delete removableItem;
                    return;
                }
            }
        }
    }

}
Exemple #22
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void ClientPrivate::tuiLaunched () {
    qDebug () << "ClientPrivate::tuiLaunched";
    QMapIterator<QString, Transfer *> iter (transfers);

    if (transfers.count() == 0) {
        // There are no transfers
        return;
    }

    while (iter.hasNext()) {
        iter.next();
        Transfer *transfer = iter.value ();

        if (iter.key() != transfer->transferId ()) {
            qCritical () <<
                "Client::tuiLaunched -> Key does not match transfer id";
        }

        QDBusReply<bool> exists =
            interface->transferExists (transfer->transferId ());
        if (exists.isValid ()) {
            if (exists.value () == true) {
                qDebug() << transfer->transferId () << "exists in TUI"
                    << "- not registering this. Moving to next";

                // Transfer exists in TUI - go to next transfer
                continue;
            }
        } else {
            qCritical() << "Got invalid reply when checking if transfer "
                << transfer->transferId () << " exists in TUI";
            continue;
        }

        QDBusReply<QString> reply =
            interface->registerTransientTransfer (transfer->transferId ());

        if (reply.isValid()) {
            if (reply.value () == transfer->transferId ()) {
                transfer->tuiLaunched ();
            } else {
                qCritical() << "Got " << reply.value () <<
                    " as reply from registerPersistentTransfer instead of "
                    << "expected value of " << transfer->transferId ();
            }
        } else {
            qWarning() << "Transfer with tracker uri" << transfer->transferId ()
                << "not found.";
        }
    }
}
void Container::documentTitleChanged(Sublime::Document* doc)
{
    QMapIterator<QWidget*, View*> it = d->viewForWidget;
    while (it.hasNext()) {
        if (it.next().value()->document() == doc) {
            d->fileNameCorner->setText( doc->title() );
            int tabIndex = d->stack->indexOf(it.key());
            if (tabIndex != -1) {
                d->tabBar->setTabText(tabIndex, doc->title());
            }
            break;
        }
    }
}
void Container::statusIconChanged(Document* doc)
{
    QMapIterator<QWidget*, View*> it = d->viewForWidget;
    while (it.hasNext()) {
        if (it.next().value()->document() == doc) {
            d->fileStatus->setPixmap( doc->statusIcon().pixmap( QSize( 16,16 ) ) );
            int tabIndex = d->stack->indexOf(it.key());
            if (tabIndex != -1) {
                d->tabBar->setTabIcon(tabIndex, doc->statusIcon());
            }
            break;
        }
    }
}
ResponseCode Server_ProtocolHandler::cmdListUsers(Command_ListUsers * /*cmd*/, CommandContainer *cont)
{
	if (authState == PasswordWrong)
		return RespLoginNeeded;
	
	QList<ServerInfo_User *> resultList;
	QMapIterator<QString, Server_ProtocolHandler *> userIterator = server->getUsers();
	while (userIterator.hasNext())
		resultList.append(new ServerInfo_User(userIterator.next().value()->getUserInfo(), false));
	
	acceptsUserListChanges = true;
	
	cont->setResponse(new Response_ListUsers(cont->getCmdId(), RespOk, resultList));
	return RespNothing;
}
Exemple #26
0
/**
 * @brief reads the commands that are available form the stored settings
 * @param commandMap the map that is to store
 * @return
 *	void
 */
void DLDConfigureOB::writeCommandMap (QMap<QString, QString> commandMap)
{
	QMapIterator<QString, QString> iter (commandMap);
	int i;
	QString nameBase = "%1-commandName";
	QString descBase = "%1-commandDescription";
	for (i = 0; iter.hasNext (); i++)
	{
		iter.next();
		settings->setValue(nameBase.arg(i), iter.key());
		settings->setValue(descBase.arg(i), iter.value());
	}
	settings->setValue("numberOfCommands", i);
	emit commandListChanged ();
}
Exemple #27
0
void KPropertiesTest::testProperties()
{
    KProperties props;
    QVERIFY(props.isEmpty());

    QString visible = "visible";
    QVERIFY(!props.value(visible).isValid());

    props.setProperty("visible", "bla");
    QVERIFY(props.value("visible") == "bla");
    QVERIFY(props.stringProperty("visible", "blabla") == "bla");

    props.setProperty("bool",  true);
    QVERIFY(props.boolProperty("bool", false) == true);
    props.setProperty("bool",  false);
    QVERIFY(props.boolProperty("bool", true) == false);

    props.setProperty("qreal",  1.0);
    QVERIFY(props.doubleProperty("qreal", 2.0) == 1.0);
    props.setProperty("qreal",  2.0);
    QVERIFY(props.doubleProperty("qreal", 1.0) == 2.0);

    props.setProperty("int",  1);
    QVERIFY(props.intProperty("int", 2) == 1);
    props.setProperty("int",  2);
    QVERIFY(props.intProperty("int", 1) == 2);

    QVariant v;
    QVERIFY(props.property("sdsadsakldjsajd", v) == false);
    QVERIFY(!v.isValid());
    QVERIFY(props.property("visible", v) == true);
    QVERIFY(v.isValid());
    QVERIFY(v == "bla");

    QVERIFY(!props.isEmpty());
    QVERIFY(props.contains("visible"));
    QVERIFY(!props.contains("adsajkdsakj dsaieqwewqoie"));
    QVERIFY(props.contains(visible));

    int count = 0;
    QMapIterator<QString, QVariant> iter = props.propertyIterator();
    while (iter.hasNext()) {
        iter.next();
        count++;
    }
    QVERIFY(count == 4);

}
void QtPropertyDataIntrospection::ChildNeedUpdate()
{
	QMapIterator<QtPropertyDataDavaVariant*, const DAVA::IntrospectionMember *> i = QMapIterator<QtPropertyDataDavaVariant*, const DAVA::IntrospectionMember *>(childVariantMembers);

	while(i.hasNext())
	{
		i.next();

		QtPropertyDataDavaVariant *childData = i.key();
		DAVA::VariantType childCurValue = i.value()->Value(object);

		if(childCurValue != childData->GetVariantValue())
		{
			childData->SetVariantValue(childCurValue);
		}

	}
}
void
QDialogButtons::handleClicked()
{
    const QObject *s = sender();
    if(!s)
	return;

    for(QMapIterator<QDialogButtons::Button, QWidget *> it = d->buttons.begin(); it != d->buttons.end(); ++it) {
	if(it.data() == s) {
	    emit clicked((QDialogButtons::Button)it.key());
	    switch(it.key()) {
	    case Retry:
		emit retryClicked();
		break;
	    case Ignore:
		emit ignoreClicked();
		break;
	    case Abort:
		emit abortClicked();
		break;
	    case All:
		emit allClicked();
		break;
	    case Accept:
		emit acceptClicked();
		break;
	    case Reject:
		emit rejectClicked();
		break;
	    case Apply:
		emit applyClicked();
		break;
	    case Help:
		emit helpClicked();
		break;
	    default:
		break;
	    }
	    return;
	}
    }
}
void SingleXmlSerializer::exportProperties(const Id&id, QDomDocument &doc, QDomElement &root
		, QHash<Id, Object *> const &objects)
{
	QDomElement props = doc.createElement("properties");

	const GraphicalObject * const graphicalObject = dynamic_cast<const GraphicalObject *>(objects[id]);
	const LogicalObject * const logicalObject
			= dynamic_cast<const LogicalObject *>(objects[graphicalObject->logicalId()]);

	QMap<QString, QVariant> properties;

	QMapIterator<QString, QVariant> i = logicalObject->propertiesIterator();
	while (i.hasNext()) {
		i.next();
		properties[i.key()] = i.value();

	}

	i = graphicalObject->propertiesIterator();
	while (i.hasNext()) {
		i.next();
		properties[i.key()] = i.value();
	}

	foreach (const QString &key, properties.keys()) {
		QDomElement prop = doc.createElement("property");

		QString typeName = properties[key].typeName();
		QVariant value = properties[key];
		if (typeName == "qReal::IdList" && (value.value<IdList>().size() != 0)) {
			QDomElement list = ValuesSerializer::serializeIdList("list", value.value<IdList>(), doc);
			prop.appendChild(list);
		} else if (typeName == "qReal::Id"){
			prop.setAttribute("value", value.value<Id>().toString());
		} else if (value.toString().isEmpty()) {
			continue;
		} else {
			prop.setAttribute("value", properties[key].toString());
		}

		prop.setAttribute("name", key);

		props.appendChild(prop);
	}

	root.appendChild(props);
}