void QmlProfilerStatisticsModel::loadData(qint64 rangeStart, qint64 rangeEnd)
{
    clear();

    qint64 qmlTime = 0;
    qint64 lastEndTime = 0;
    QHash <int, QVector<qint64> > durations;

    const bool checkRanges = (rangeStart != -1) && (rangeEnd != -1);

    const QVector<QmlProfilerDataModel::QmlEventData> &eventList
            = d->modelManager->qmlModel()->getEvents();
    const QVector<QmlProfilerDataModel::QmlEventTypeData> &typesList
            = d->modelManager->qmlModel()->getEventTypes();

    // used by binding loop detection
    QStack<const QmlProfilerDataModel::QmlEventData*> callStack;
    callStack.push(0); // artificial root

    for (int i = 0; i < eventList.size(); ++i) {
        const QmlProfilerDataModel::QmlEventData *event = &eventList[i];
        const QmlProfilerDataModel::QmlEventTypeData *type = &typesList[event->typeIndex()];

        if (!d->acceptedTypes.contains(type->rangeType))
            continue;

        if (checkRanges) {
            if ((event->startTime() + event->duration() < rangeStart)
                    || (event->startTime() > rangeEnd))
                continue;
        }

        // update stats
        QmlEventStats *stats = &d->data[event->typeIndex()];

        stats->duration += event->duration();
        stats->durationSelf += event->duration();
        if (event->duration() < stats->minTime)
            stats->minTime = event->duration();
        if (event->duration() > stats->maxTime)
            stats->maxTime = event->duration();
        stats->calls++;

        // for median computing
        durations[event->typeIndex()].append(event->duration());

        // qml time computation
        if (event->startTime() > lastEndTime) { // assume parent event if starts before last end
            qmlTime += event->duration();
            lastEndTime = event->startTime() + event->duration();
        }

        //
        // binding loop detection
        //
        const QmlProfilerDataModel::QmlEventData *potentialParent = callStack.top();
        while (potentialParent && !(potentialParent->startTime() + potentialParent->duration() >
                    event->startTime())) {
            callStack.pop();
            potentialParent = callStack.top();
        }

        // check whether event is already in stack
        for (int ii = 1; ii < callStack.size(); ++ii) {
            if (callStack.at(ii)->typeIndex() == event->typeIndex()) {
                d->eventsInBindingLoop.insert(event->typeIndex());
                break;
            }
        }

        if (callStack.count() > 1)
            d->data[callStack.top()->typeIndex()].durationSelf -= event->duration();
        callStack.push(event);

        d->modelManager->modelProxyCountUpdated(d->modelId, i, eventList.count()*2);
    }

    // post-process: calc mean time, median time, percentoftime
    int i = d->data.size();
    int total = i * 2;

    for (QHash<int, QmlEventStats>::iterator it = d->data.begin(); it != d->data.end(); ++it) {
        QmlEventStats* stats = &it.value();
        if (stats->calls > 0)
            stats->timePerCall = stats->duration / (double)stats->calls;

        QVector<qint64> eventDurations = durations[it.key()];
        if (!eventDurations.isEmpty()) {
            Utils::sort(eventDurations);
            stats->medianTime = eventDurations.at(eventDurations.count()/2);
        }

        stats->percentOfTime = stats->duration * 100.0 / qmlTime;
        stats->percentSelf = stats->durationSelf * 100.0 / qmlTime;
        d->modelManager->modelProxyCountUpdated(d->modelId, i++, total);
    }

    // set binding loop flag
    foreach (int typeIndex, d->eventsInBindingLoop)
        d->data[typeIndex].isBindingLoop = true;

    // insert root event
    QmlEventStats rootEvent;
    rootEvent.duration = rootEvent.minTime = rootEvent.maxTime = rootEvent.timePerCall
                       = rootEvent.medianTime = qmlTime + 1;
    rootEvent.durationSelf = 1;
    rootEvent.calls = 1;
    rootEvent.percentOfTime = 100.0;
    rootEvent.percentSelf = 1.0 / rootEvent.duration;

    d->data.insert(-1, rootEvent);

    d->modelManager->modelProxyCountUpdated(d->modelId, 1, 1);
    emit dataAvailable();
}
bool GoForwardActionWidget::event(QEvent *event)
{
	if (event->type() == QEvent::MouseButtonPress || event->type() == QEvent::MouseButtonDblClick || event->type() == QEvent::Wheel)
	{
		QList<GesturesManager::GesturesContext> contexts;
		contexts << GesturesManager::ToolBarGesturesContext << GesturesManager::GenericGesturesContext;

		if (GesturesManager::startGesture(this, event, contexts))
		{
			return true;
		}
	}

	if (event->type() == QEvent::ContextMenu)
	{
		QContextMenuEvent *contextMenuEvent(static_cast<QContextMenuEvent*>(event));

		if (contextMenuEvent)
		{
			if (contextMenuEvent->reason() == QContextMenuEvent::Mouse)
			{
				contextMenuEvent->accept();

				return true;
			}

			event->accept();

			Window *window(getWindow());
			QMenu menu(this);
			menu.addAction(window ? window->getContentsWidget()->getAction(ActionsManager::ClearTabHistoryAction) : ActionsManager::getAction(ActionsManager::ClearTabHistoryAction, this));
			menu.addAction(window ? window->getContentsWidget()->getAction(ActionsManager::PurgeTabHistoryAction) : ActionsManager::getAction(ActionsManager::PurgeTabHistoryAction, this));

			ToolBarWidget *toolBar = qobject_cast<ToolBarWidget*>(parentWidget());

			if (toolBar)
			{
				menu.addSeparator();
				menu.addActions(ToolBarWidget::createCustomizationMenu(toolBar->getIdentifier(), QList<QAction*>(), &menu)->actions());
			}

			menu.exec(contextMenuEvent->globalPos());

			return true;
		}

		return false;
	}

	if (event->type() == QEvent::ToolTip)
	{
		QHelpEvent *helpEvent(dynamic_cast<QHelpEvent*>(event));

		if (helpEvent)
		{
			const QVector<QKeySequence> shortcuts(ActionsManager::getActionDefinition(ActionsManager::GoForwardAction).shortcuts);
			QString toolTip(text() + (shortcuts.isEmpty() ? QString() : QLatin1String(" (") + shortcuts.at(0).toString(QKeySequence::NativeText) + QLatin1Char(')')));

			if (getWindow())
			{
				const WindowHistoryInformation history(getWindow()->getContentsWidget()->getHistory());

				if (!history.entries.isEmpty() && history.index < (history.entries.count() - 1))
				{
					QString title(history.entries.at(history.index + 1).title);
					title = (title.isEmpty() ? tr("(Untitled)") : title.replace(QLatin1Char('&'), QLatin1String("&&")));

					toolTip = title + QLatin1String(" (") + text() + (shortcuts.isEmpty() ? QString() : QLatin1String(" - ") + shortcuts.at(0).toString(QKeySequence::NativeText)) + QLatin1Char(')');
				}
			}

			QToolTip::showText(helpEvent->globalPos(), toolTip);
		}

		return true;
	}

	return ActionWidget::event(event);
}
// genExpressionElements(QString input)
//      The parsing section of the calculator.
//
//      Generates an QVector of expression elements from a QString input
//      This QVector can then be processed to give a quantitative value.
QVector<ExpressionElement> StringCalculator::genExpressionElements(QString input)
{
    // Declare our output vector, starting with size 0.
    QVector<ExpressionElement> expressionVector = QVector<ExpressionElement>(0);

    // Index that determines where to start when searching for the next operation
    int crawlIndex = 0;

    while(crawlIndex < input.length())
    {
        //--------------------------------------------------------------------------------------------------------------------------------
        // Operation handling
        //--------------------------------------------------------------------------------------------------------------------------------

        // Check for operations
        if(input.at(crawlIndex) == QChar('['))
        {
            int operationEnd = input.indexOf("]", crawlIndex);

            // Is there a closing bracket?
            if(operationEnd < 0)
            {
                // INTERNAL ERROR
                // No closing bracket for operation
                throw 103;
            }
            else
            {
                // Add a new expression element to the vector
                expressionVector.append(ExpressionElement(input.mid(crawlIndex, operationEnd + 1 - crawlIndex)));
                crawlIndex = operationEnd + 1;
                continue;
            }
        }

        //--------------------------------------------------------------------------------------------------------------------------------
        // Subexpression handling
        //--------------------------------------------------------------------------------------------------------------------------------

        if(input.at(crawlIndex) == QChar('('))
        {

            // Turns out the below statement doesn't work.
            //int subexpressionEnd = input.indexOf(")", crawlIndex);
            int subexpressionEnd = crawlIndex+1; // A placeholder value for where the subexpression ends.
            int subexpressionCounter = 1; // Counts how many subexpressions we need to end.

            // Loop through the input, counting up all the open and close parens to find our matching one
            int parenI = subexpressionEnd;
            for(; parenI < input.size(); parenI++)
            {
                if(input.at(parenI) == QChar('('))
                {
                    subexpressionCounter++;
                }
                else if(input.at(parenI) == QChar(')'))
                {
                    subexpressionCounter--;
                    if(subexpressionCounter == 0)
                    {
                        // Stop incrementing parenI here.
                        break;
                    }
                }

                // We haven't found the close paren yet, increment parenI.
            }

            // We either found the closing paren or we didn't.
            // Assign it the value of the loop iterator.
            subexpressionEnd = parenI;

            if(subexpressionEnd < 0)
            {
                subexpressionEnd = input.size();
            }
            double subexpressionNet = calculateQStringInput(input.mid(crawlIndex + 1, subexpressionEnd - 1 - crawlIndex));

            // Support stuff like 5(10) = 50
            if(!expressionVector.isEmpty())
            {
                if(expressionVector.at(expressionVector.size()-1).isNumber_)
                {
                    expressionVector.append(ExpressionElement("[*]"));
                }
            }
            expressionVector.append(ExpressionElement(subexpressionNet));
            crawlIndex = subexpressionEnd + 1;
            continue;
        }




        //--------------------------------------------------------------------------------------------------------------------------------
        // Number handling
        //--------------------------------------------------------------------------------------------------------------------------------

        // Not an operation, so it must be a number.

        // Check to see if last element is a number so that we can multiply it to this one
        if(!expressionVector.isEmpty()) // Insure that the vector isn't empty yet.
        {
            if(expressionVector.at(expressionVector.size()-1).isNumber_)
            {
                expressionVector.append(ExpressionElement("[*]")); // Support stuff like (10)5 = 50
            }
        }

        int nextOperation = input.indexOf('[', crawlIndex);
        int nextSubexpression = input.indexOf("(", crawlIndex);

        if(nextOperation < 0)
        {
            nextOperation = input.size()+1;
        }

        if(nextSubexpression < 0)
        {
            nextSubexpression = input.size()+1;
        }

        // Get where the number should end, which is right up to next paren or bracket.
        int numberEnd = std::min(nextOperation, nextSubexpression);

        // Check to make sure we didn't somehow grab a close paren
        int closingBracketCheck = input.indexOf(')', crawlIndex);
        if(closingBracketCheck < numberEnd && closingBracketCheck >= 0)
        {
            // SYNTAX ERROR
            // Closing paren with no open paren.
            throw 104;
        }

        // Is there another operation?
        if(nextOperation < 0 && nextSubexpression < 0)
        {
            // No more operations or subexpressions. Append the last number.
            expressionVector.append(ExpressionElement(input.right(input.size() - crawlIndex)));
            break;
        }
        else
        {
            // More operations to go through!
            expressionVector.append(ExpressionElement(input.mid(crawlIndex, numberEnd - crawlIndex)));
            crawlIndex = numberEnd;
            continue;
        }

        crawlIndex++; // Just in case of infinite looping. Consider removing later.
    }

    return expressionVector; // return the expression vector output.
}
Пример #4
0
void QWebFramePrivate::renderPrivate(QPainter *painter, QWebFrame::RenderLayer layer, const QRegion &clip)
{
    if (!frame->view() || !frame->contentRenderer())
        return;

    QVector<QRect> vector = clip.rects();
    if (vector.isEmpty())
        return;

    GraphicsContext context(painter);
    if (context.paintingDisabled() && !context.updatingControlTints())
        return;

    WebCore::FrameView* view = frame->view();
    view->layoutIfNeededRecursive();

    for (int i = 0; i < vector.size(); ++i) {
        const QRect& clipRect = vector.at(i);
        QRect intersectedRect = clipRect.intersected(view->frameRect());

        painter->save();
        painter->setClipRect(clipRect, Qt::IntersectClip);

        int x = view->x();
        int y = view->y();

        if (layer & QWebFrame::ContentsLayer) {
            context.save();

            int scrollX = view->scrollX();
            int scrollY = view->scrollY();

            QRect rect = intersectedRect;
            context.translate(x, y);
            rect.translate(-x, -y);
            context.translate(-scrollX, -scrollY);
            rect.translate(scrollX, scrollY);
            context.clip(view->visibleContentRect());

            view->paintContents(&context, rect);

            context.restore();
        }

        if (layer & QWebFrame::ScrollBarLayer
            && !view->scrollbarsSuppressed()
            && (view->horizontalScrollbar() || view->verticalScrollbar())) {
            context.save();

            QRect rect = intersectedRect;
            context.translate(x, y);
            rect.translate(-x, -y);

            view->paintScrollbars(&context, rect);

            context.restore();
        }

        if (layer & QWebFrame::PanIconLayer)
            view->paintPanScrollIcon(&context);

        painter->restore();
    }
}
Пример #5
0
int UIDnDHandler::retrieveDataInternal(      Qt::DropAction    dropAction,
                                       const QString          &strMIMEType,
                                             QVector<uint8_t> &vecData)
{
    LogFlowFunc(("Retrieving data as '%s', dropAction=%d\n", qPrintable(strMIMEType), dropAction));

    int rc = VINF_SUCCESS;

    /* Indicate to the guest that we have dropped the data on the host.
     * The guest then will initiate the actual "drop" operation into our proxy on the guest. */
    Assert(!m_dndSource.isNull());
    CProgress progress = m_dndSource.Drop(strMIMEType,
                                          UIDnDHandler::toVBoxDnDAction(dropAction));
    LogFlowFunc(("Source: isOk=%RTbool\n", m_dndSource.isOk()));
    if (m_dndSource.isOk())
    {
        /* Send a mouse event with released mouse buttons into the guest that triggers
         * the "drop" event in our proxy window on the guest. */
        AssertPtr(m_pSession);
        m_pSession->mouse().PutMouseEvent(0, 0, 0, 0, 0);

        msgCenter().showModalProgressDialog(progress,
                                            tr("Retrieving data ..."), ":/progress_dnd_gh_90px.png",
                                            m_pParent);

        LogFlowFunc(("Progress: fCanceled=%RTbool, fCompleted=%RTbool, isOk=%RTbool, hrc=%Rhrc\n",
                     progress.GetCanceled(), progress.GetCompleted(), progress.isOk(), progress.GetResultCode()));

        if (!progress.GetCanceled())
        {
            rc =   (   progress.isOk()
                    && progress.GetResultCode() == 0)
                 ? VINF_SUCCESS : VERR_GENERAL_FAILURE; /** @todo Fudge; do a GetResultCode() to rc translation. */

            if (RT_SUCCESS(rc))
            {
                /* After we successfully retrieved data from the source we query it from Main. */
                vecData = m_dndSource.ReceiveData(); /** @todo QVector.size() is "int" only!? */
                if (m_dndSource.isOk())
                {
                    if (vecData.isEmpty())
                        rc = VERR_NO_DATA;
                }
                else
                {
                    msgCenter().cannotDropDataToHost(m_dndSource, m_pParent);
                    rc = VERR_GENERAL_FAILURE; /** @todo Fudge; do a GetResultCode() to rc translation. */
                }
            }
            else
                msgCenter().cannotDropDataToHost(progress, m_pParent);
        }
        else /* Don't pop up a message. */
            rc = VERR_CANCELLED;
    }
    else
    {
        msgCenter().cannotDropDataToHost(m_dndSource, m_pParent);
        rc = VERR_GENERAL_FAILURE; /** @todo Fudge; do a GetResultCode() to rc translation. */
    }

    setOpMode(DNDMODE_UNKNOWN);

    LogFlowFuncLeaveRC(rc);
    return rc;
}
Пример #6
0
PostingIterator* SearchStore::constructQuery(Transaction* tr, const Term& term)
{
    Q_ASSERT(tr);

    if (term.operation() == Term::And || term.operation() == Term::Or) {
        QList<Term> subTerms = term.subTerms();
        QVector<PostingIterator*> vec;
        vec.reserve(subTerms.size());

        for (const Term& t : term.subTerms()) {
            vec << constructQuery(tr, t);
        }

        if (vec.isEmpty()) {
            return 0;
        }

        if (term.operation() == Term::And) {
            return new AndPostingIterator(vec);
        } else {
            return new OrPostingIterator(vec);
        }
    }

    if (term.value().isNull()) {
        return 0;
    }
    Q_ASSERT(term.value().isValid());
    Q_ASSERT(term.comparator() != Term::Auto);
    Q_ASSERT(term.comparator() == Term::Contains ? term.value().type() == QVariant::String : true);

    const QVariant value = term.value();
    const QByteArray property = term.property().toLower().toUtf8();

    if (property == "type" || property == "kind") {
        EngineQuery q = constructTypeQuery(value.toString());
        return tr->postingIterator(q);
    }
    else if (property == "includefolder") {
        const QByteArray folder = QFile::encodeName(value.toString());

        Q_ASSERT(!folder.isEmpty());
        Q_ASSERT(folder.startsWith('/'));

        quint64 id = filePathToId(folder);
        if (!id) {
            qDebug() << "Folder" << value.toString() << "does not exist";
            return 0;
        }

        return tr->docUrlIter(id);
    }
    else if (property == "modified" || property == "mtime") {
        if (value.type() == QVariant::ByteArray) {
            QByteArray ba = value.toByteArray();
            Q_ASSERT(ba.size() >= 4);

            int year = ba.mid(0, 4).toInt();
            int month = ba.mid(4, 2).toInt();
            int day = ba.mid(6, 2).toInt();

            Q_ASSERT(year);

            // uses 0 to represent whole month or whole year
            month = month >= 0 && month <= 12 ? month : 0;
            day = day >= 0 && day <= 31 ? day : 0;

            QDate startDate(year, month ? month : 1, day ? day : 1);
            QDate endDate(startDate);

            if (month == 0) {
                endDate.setDate(endDate.year(), 12, 31);
            } else if (day == 0) {
                endDate.setDate(endDate.year(), endDate.month(), endDate.daysInMonth());
            }

            return tr->mTimeRangeIter(QDateTime(startDate).toTime_t(), QDateTime(endDate, QTime(23, 59, 59)).toTime_t());
        }
        else if (value.type() == QVariant::Date || value.type() == QVariant::DateTime) {
            const QDateTime dt = value.toDateTime();
            return constructMTimeQuery(tr, dt, term.comparator());
        }
        else {
            Q_ASSERT_X(0, "SearchStore::constructQuery", "modified property must contain date/datetime values");
        }
    }
    else if (property == "rating") {
        bool okay = false;
        int rating = value.toInt(&okay);
        if (!okay) {
            qDebug() << "Rating comparisons must be with an integer";
            return 0;
        }

        PostingDB::Comparator pcom;
        if (term.comparator() == Term::Greater || term.comparator() == Term::GreaterEqual) {
            pcom = PostingDB::GreaterEqual;
            if (term.comparator() == Term::Greater && rating)
                rating++;
        }
        else if (term.comparator() == Term::Less || term.comparator() == Term::LessEqual) {
            pcom = PostingDB::LessEqual;
            if (term.comparator() == Term::Less)
                rating--;
        }
        else if (term.comparator() == Term::Equal) {
            EngineQuery q = constructEqualsQuery("R", value.toString());
            return tr->postingIterator(q);
        }
        else {
            Q_ASSERT(0);
            return 0;
        }

        const QByteArray prefix = "R";
        const QByteArray val = QByteArray::number(rating);
        return tr->postingCompIterator(prefix, val, pcom);
    }

    QByteArray prefix;
    if (!property.isEmpty()) {
        prefix = fetchPrefix(property);
        if (prefix.isEmpty()) {
            return 0;
        }
    }

    auto com = term.comparator();
    if (com == Term::Contains) {
        EngineQuery q = constructContainsQuery(prefix, value.toString());
        return tr->postingIterator(q);
    }

    if (com == Term::Equal) {
        EngineQuery q = constructEqualsQuery(prefix, value.toString());
        return tr->postingIterator(q);
    }

    QVariant val = term.value();
    if (val.type() == QVariant::Int) {
        int intVal = value.toInt();

        PostingDB::Comparator pcom;
        if (term.comparator() == Term::Greater || term.comparator() == Term::GreaterEqual) {
            pcom = PostingDB::GreaterEqual;
            if (term.comparator() == Term::Greater && intVal)
                intVal++;
        }
        else if (term.comparator() == Term::Less || term.comparator() == Term::LessEqual) {
            pcom = PostingDB::LessEqual;
            if (term.comparator() == Term::Less)
                intVal--;
        }
        else {
            Q_ASSERT(0);
            return 0;
        }

        return tr->postingCompIterator(prefix, QByteArray::number(intVal), pcom);
    }

    return 0;
}
Пример #7
0
void QSymbianVGFontGlyphCache::cacheGlyphs(QVGPaintEnginePrivate *d,
                                           QFontEngine *fontEngine,
                                           const glyph_t *g, int count)
{
#ifdef QT_SYMBIAN_HARDWARE_GLYPH_CACHE
    QFontEngineS60 *s60fontEngine = static_cast<QFontEngineS60*>(fontEngine);
    if (s60fontEngine->m_activeFont->TypeUid() != KCFbsFontUid)
            return QVGFontGlyphCache::cacheGlyphs(d, fontEngine, g, count);

    QVector<glyph_t> uncachedGlyphs;
    while (count-- > 0) {
        // Skip this glyph if we have already cached it before.
        glyph_t glyph = *g++;
        if (((glyph < 256) && ((cachedGlyphsMask[glyph / 32] & (1 << (glyph % 32))) != 0))
            || cachedGlyphs.contains(glyph))
            continue;
        if (!uncachedGlyphs.contains(glyph))
            uncachedGlyphs.append(glyph);
    }

    if (!uncachedGlyphs.isEmpty()) {
        CFbsFont *cfbsFont = static_cast<CFbsFont *>(s60fontEngine->m_activeFont);
        RFbsGlyphDataIterator iter;

        int err = iter.Open(*cfbsFont, (const unsigned int*)uncachedGlyphs.constData(), uncachedGlyphs.count());

        if (err == KErrNotSupported || err == KErrInUse) { // Fallback in possibly supported error cases
            iter.Close();
            qWarning("Falling back to default QVGFontGlyphCache");
            return QVGFontGlyphCache::cacheGlyphs(d, fontEngine, g, count);
        }

        for (; err == KErrNone; err = iter.Next()) {
            const unsigned int glyph = iter.GlyphCode();

            const RSgImage& image = iter.Image();
            const TOpenFontCharMetrics& metrics = iter.Metrics();

            TRect glyphBounds;
            metrics.GetHorizBounds(glyphBounds);
            VGImage vgImage = sgImageToVGImage(0, image);
            VGfloat origin[2];
            VGfloat escapement[2];
            origin[0] = -glyphBounds.iTl.iX;
            origin[1] = glyphBounds.iBr.iY;
            escapement[0] = 0;
            escapement[1] = 0;
            vgSetGlyphToImage(font, glyph, vgImage, origin, escapement);
            vgDestroyImage(vgImage);

            // Add to cache
            if (glyph < 256)
                cachedGlyphsMask[glyph / 32] |= (1 << (glyph % 32));
            else
                cachedGlyphs.insert(glyph);
        }
        iter.Close();

        if (err == KErrNoMemory || err == KErrNoGraphicsMemory)
            qWarning("Not enough memory to cache glyph");
        else if (err != KErrNotFound)
            qWarning("Received error %d from glyph cache", err);
    }
#else
    QVGFontGlyphCache::cacheGlyphs(d, fontEngine, g, count);
#endif
}
Пример #8
0
//------------------------------------------------------------------------------
// Name: do_find
// Desc:
//------------------------------------------------------------------------------
void DialogReferences::do_find() {
	bool ok = false;
	edb::address_t address;
	const edb::address_t page_size = edb::v1::debugger_core->page_size();
	
	const QString text = ui->txtAddress->text();
	if(!text.isEmpty()) {
		ok = edb::v1::eval_expression(text, &address);
	}	
	

	if(ok) {
		edb::v1::memory_regions().sync();
		const QList<IRegion::pointer> regions = edb::v1::memory_regions().regions();

		int i = 0;
		for(const IRegion::pointer &region: regions) {
			// a short circut for speading things up
			if(region->accessible() || !ui->chkSkipNoAccess->isChecked()) {

				const edb::address_t page_count = region->size() / page_size;
				const QVector<quint8> pages = edb::v1::read_pages(region->start(), page_count);

				if(!pages.isEmpty()) {
					const quint8 *p = &pages[0];
					const quint8 *const pages_end = &pages[0] + region->size();

					while(p != pages_end) {

						if(pages_end - p < edb::v1::pointer_size()) {
							break;
						}

						const edb::address_t addr = p - &pages[0] + region->start();

						edb::address_t test_address(0);
						memcpy(&test_address, p, edb::v1::pointer_size());

						if(test_address == address) {
							auto item = new QListWidgetItem(edb::v1::format_pointer(addr));
							item->setData(TypeRole, 'D');
							item->setData(AddressRole, addr);
							ui->listWidget->addItem(item);
						}

						edb::Instruction inst(p, pages_end, addr);

						if(inst) {
							switch(inst.operation()) {
							case edb::Instruction::Operation::X86_INS_MOV:
								// instructions of the form: mov [ADDR], 0xNNNNNNNN
								Q_ASSERT(inst.operand_count() == 2);

								if(inst.operands()[0].general_type() == edb::Operand::TYPE_EXPRESSION) {
									if(inst.operands()[1].general_type() == edb::Operand::TYPE_IMMEDIATE && static_cast<edb::address_t>(inst.operands()[1].immediate()) == address) {
										auto item = new QListWidgetItem(edb::v1::format_pointer(addr));
										item->setData(TypeRole, 'C');
										item->setData(AddressRole, addr);
										ui->listWidget->addItem(item);
									}
								}

								break;
							case edb::Instruction::Operation::X86_INS_PUSH:
								// instructions of the form: push 0xNNNNNNNN
								Q_ASSERT(inst.operand_count() == 1);

								if(inst.operands()[0].general_type() == edb::Operand::TYPE_IMMEDIATE && static_cast<edb::address_t>(inst.operands()[0].immediate()) == address) {
									auto item = new QListWidgetItem(edb::v1::format_pointer(addr));
									item->setData(TypeRole, 'C');
									item->setData(AddressRole, addr);
									ui->listWidget->addItem(item);
								}
								break;
							default:
								if(is_jump(inst) || is_call(inst)) {
									if(inst.operands()[0].general_type() == edb::Operand::TYPE_REL) {
										if(inst.operands()[0].relative_target() == address) {
											auto item = new QListWidgetItem(edb::v1::format_pointer(addr));
											item->setData(TypeRole, 'C');
											item->setData(AddressRole, addr);
											ui->listWidget->addItem(item);
										}
									}								
								}
								break;
							}
						}

						Q_EMIT updateProgress(util::percentage(i, regions.size(), p - &pages[0], region->size()));
						++p;
					}
				}

			} else {
				Q_EMIT updateProgress(util::percentage(i, regions.size()));
			}
			++i;
		}
	}
}
Пример #9
0
void DownloadManager::timerEvent(QTimerEvent* e)
{
    QVector<QTime> remTimes;
    QVector<int> progresses;
    QVector<double> speeds;

    if (e->timerId() == m_timer.timerId()) {
        if (!ui->list->count()) {
            ui->speedLabel->clear();
            setWindowTitle(tr("Download Manager"));
#ifdef Q_OS_WIN
            if (m_taskbarButton) {
                m_taskbarButton->progress()->hide();
            }
#endif
            return;
        }
        for (int i = 0; i < ui->list->count(); i++) {
            DownloadItem* downItem = qobject_cast<DownloadItem*>(ui->list->itemWidget(ui->list->item(i)));
            if (!downItem || downItem->isCancelled() || !downItem->isDownloading()) {
                continue;
            }
            progresses.append(downItem->progress());
            remTimes.append(downItem->remainingTime());
            speeds.append(downItem->currentSpeed());
        }
        if (remTimes.isEmpty()) {
            return;
        }

        QTime remaining;
        foreach (const QTime &time, remTimes) {
            if (time > remaining) {
                remaining = time;
            }
        }

        int progress = 0;
        foreach (int prog, progresses) {
            progress += prog;
        }
        progress = progress / progresses.count();

        double speed = 0.00;
        foreach (double spee, speeds) {
            speed += spee;
        }

#ifndef Q_OS_WIN
        ui->speedLabel->setText(tr("%1% of %2 files (%3) %4 remaining").arg(QString::number(progress), QString::number(progresses.count()),
                                DownloadItem::currentSpeedToString(speed),
                                DownloadItem::remaingTimeToString(remaining)));
#endif
        setWindowTitle(tr("%1% - Download Manager").arg(progress));
#ifdef Q_OS_WIN
        if (m_taskbarButton) {
            m_taskbarButton->progress()->show();
            m_taskbarButton->progress()->setValue(progress);
        }
#endif
    }

    QWidget::timerEvent(e);
}
Пример #10
0
void JCurveGroupWidget::updateCurve(JCurveWidget *curveView)
{
    if (!curveView) {
        return;
    }

    // 清空旧数据
    curveView->clearCurve();

    // 获取横、纵坐标信号量
    const QString suffix = curveView->property("suffix").toString().replace('-', '_');
    const QString nameX = curveView->property("nameX").toString();
    const QString nameY = curveView->property("nameY").toString();
    QString sectionX = nameX.section(" (", 0, 0);
    QString sectionY = nameY.section(" (", 0, 0);

    //
    QString legendTitle = nameY % " (" % suffix % ")";
    JCurveWidget::AxisXYType axisXYType = curveView->axisXYType();

    // 获取M-H信号名称
    QString machSection, heightSection;
    if (!JFlyRecord::instance()->readSignalMHSection(
                JSqlDataMgr::instance()->signalTableNamePrefix().append(suffix),
                machSection, heightSection)) {
        return;
    }

    // 生成数据表名称
    const QString recordTableName =
            JSqlDataMgr::instance()->recordTableNamePrefix().append(suffix);

    //
    if (axisXYType == JCurveWidget::AxisXY_Value_Value) {
        // 获取记录数据
        QVector<QPointF> data;
        QListIterator<QRectF> citerSiftAreas(q_siftAreas);
        while (citerSiftAreas.hasNext()) {
            const QRectF &range = citerSiftAreas.next();
            //
            QVector<QPointF> tempData;
            if (JSqlDataMgr::instance()->readRecordDataV(recordTableName, sectionX, sectionY,
                                                         machSection,
                                                         heightSection,
                                                         range, tempData)) {
                data << tempData;
            }
        }

        // 检测是否有数据需要处理
        if (data.isEmpty()) {
            return;   // 无数据需要绘制
        }
        //
        curveView->updateData(curveView->addCurve(legendTitle), data);
    } else {
        // 获取记录数据
        if (axisXYType == JCurveWidget::AxisXY_Value_Time) {
            qSwap(sectionX, sectionY);
        }

        //
        QList<QPair<QTime, qreal> > data;
        QListIterator<QRectF> citerSiftAreas(q_siftAreas);
        while (citerSiftAreas.hasNext()) {
            const QRectF &range = citerSiftAreas.next();
            //
            QList<QPair<QTime, qreal> > tempData;
            if (JSqlDataMgr::instance()->readRecordDataV(recordTableName, sectionX, sectionY,
                                                         machSection,
                                                         heightSection,
                                                         range, tempData)) {
                data.append(tempData);
            }
        }

        // 检测是否有数据需要处理
        if (data.isEmpty()) {
            return;   // 无数据需要绘制
        }
        //
        curveView->updateData(curveView->addCurve(legendTitle), data);
    }
}
Пример #11
0
void QtWebEnginePage::handlePageLoaded(const QString &result)
{
	if (m_widget)
	{
		const QVector<int> profiles(ContentBlockingManager::getProfileList(m_widget->getOption(QLatin1String("Content/BlockingProfiles"), url()).toStringList()));

		if (!profiles.isEmpty())
		{
			const QStringList domainList(ContentBlockingManager::createSubdomainList(url().host()));
			QStringList styleSheetBlackList(ContentBlockingManager::getStyleSheet(profiles));
			QStringList styleSheetWhiteList;

			for (int i = 0; i < domainList.count(); ++i)
			{
				styleSheetBlackList += ContentBlockingManager::getStyleSheetBlackList(domainList.at(i), profiles);
				styleSheetWhiteList += ContentBlockingManager::getStyleSheetWhiteList(domainList.at(i), profiles);
			}

			QFile file(QLatin1String(":/modules/backends/web/qtwebengine/resources/hideElements.js"));

			if (file.open(QIODevice::ReadOnly))
			{
				runJavaScript(QString(file.readAll()).arg(createJavaScriptList(styleSheetWhiteList)).arg(createJavaScriptList(styleSheetBlackList)));

				file.close();
			}
		}

		const QStringList blockedRequests(qobject_cast<QtWebEngineWebBackend*>(m_widget->getBackend())->getBlockedElements(url().host()));

		if (!blockedRequests.isEmpty())
		{
			QFile file(QLatin1String(":/modules/backends/web/qtwebengine/resources/hideBlockedRequests.js"));

			if (file.open(QIODevice::ReadOnly))
			{
				runJavaScript(QString(file.readAll()).arg(createJavaScriptList(blockedRequests)));

				file.close();
			}
		}
	}

	QString string(url().toString());
	string.truncate(1000);

	const QRegularExpressionMatch match(QRegularExpression(QStringLiteral(">(<img style=\"-webkit-user-select: none;(?: cursor: zoom-in;)?\"|<video controls=\"\" autoplay=\"\" name=\"media\"><source) src=\"%1").arg(QRegularExpression::escape(string))).match(result));
	const bool isViewingMedia(match.hasMatch());

	if (isViewingMedia && match.captured().startsWith(QLatin1String("><img")))
	{
		settings()->setAttribute(QWebEngineSettings::AutoLoadImages, true);
		settings()->setAttribute(QWebEngineSettings::JavascriptEnabled, true);

		QFile file(QLatin1String(":/modules/backends/web/qtwebengine/resources/imageViewer.js"));
		file.open(QIODevice::ReadOnly);

		runJavaScript(file.readAll());

		file.close();
	}

	if (isViewingMedia != m_isViewingMedia)
	{
		m_isViewingMedia = isViewingMedia;

		emit viewingMediaChanged(m_isViewingMedia);
	}
}
Пример #12
0
const StackedTile* StackedTileLoader::loadTile( TileId const & stackedTileId )
{
    // check if the tile is in the hash
    d->m_cacheLock.lockForRead();
    StackedTile * stackedTile = d->m_tilesOnDisplay.value( stackedTileId, 0 );
    d->m_cacheLock.unlock();
    if ( stackedTile ) {
        stackedTile->setUsed( true );
        return stackedTile;
    }
    // here ends the performance critical section of this method

    d->m_cacheLock.lockForWrite();

    // has another thread loaded our tile due to a race condition?
    stackedTile = d->m_tilesOnDisplay.value( stackedTileId, 0 );
    if ( stackedTile ) {
        stackedTile->setUsed( true );
        d->m_cacheLock.unlock();
        return stackedTile;
    }

    mDebug() << "StackedTileLoader::loadTile" << stackedTileId.toString();

    // the tile was not in the hash so check if it is in the cache
    stackedTile = d->m_tileCache.take( stackedTileId );
    if ( stackedTile ) {
        stackedTile->setUsed( true );
        d->m_tilesOnDisplay[ stackedTileId ] = stackedTile;
        d->m_cacheLock.unlock();
        return stackedTile;
    }

    // tile (valid) has not been found in hash or cache, so load it from disk
    // and place it in the hash from where it will get transferred to the cache

    // mDebug() << "load Tile from Disk: " << stackedTileId.toString();

    QVector<QSharedPointer<TextureTile> > tiles;
    QVector<GeoSceneTexture const *> const textureLayers = d->findRelevantTextureLayers( stackedTileId );
    QVector<GeoSceneTexture const *>::const_iterator pos = textureLayers.constBegin();
    QVector<GeoSceneTexture const *>::const_iterator const end = textureLayers.constEnd();
    for (; pos != end; ++pos ) {
        GeoSceneTexture const * const textureLayer = *pos;
        TileId const tileId( textureLayer->sourceDir(), stackedTileId.zoomLevel(),
                             stackedTileId.x(), stackedTileId.y() );
        mDebug() << "StackedTileLoader::loadTile: tile" << textureLayer->sourceDir()
                 << tileId.toString() << textureLayer->tileSize();
        const QImage tileImage = d->m_tileLoader->loadTile( tileId, DownloadBrowse );
        const Blending *blending = d->m_blendingFactory.findBlending( textureLayer->blending() );
        if ( blending == 0 && !textureLayer->blending().isEmpty() ) {
            mDebug() << Q_FUNC_INFO << "could not find blending" << textureLayer->blending();
        }
        QSharedPointer<TextureTile> tile( new TextureTile( tileId, tileImage, blending ) );
        tiles.append( tile );
    }
    Q_ASSERT( !tiles.isEmpty() );

    const QImage resultImage = d->m_layerDecorator.merge( stackedTileId, tiles );
    stackedTile = new StackedTile( stackedTileId, resultImage, tiles );
    stackedTile->setUsed( true );

    d->m_tilesOnDisplay[ stackedTileId ] = stackedTile;
    d->m_cacheLock.unlock();
    return stackedTile;
}
Пример #13
0
QVector<QgsDataItem *> QgsWMSConnectionItem::createChildren()
{
  QVector<QgsDataItem *> children;

  QgsDataSourceUri uri;
  uri.setEncodedUri( mUri );

  QgsDebugMsg( "mUri = " + mUri );

  QgsWmsSettings wmsSettings;
  if ( !wmsSettings.parseUri( mUri ) )
  {
    children.append( new QgsErrorItem( this, tr( "Failed to parse WMS URI" ), mPath + "/error" ) );
    return children;
  }

  bool res = mCapabilitiesDownload->downloadCapabilities( wmsSettings.baseUrl(), wmsSettings.authorization() );

  if ( !res )
  {
    children.append( new QgsErrorItem( this, tr( "Failed to download capabilities" ), mPath + "/error" ) );
    return children;
  }

  QgsWmsCapabilities caps;
  if ( !caps.parseResponse( mCapabilitiesDownload->response(), wmsSettings.parserSettings() ) )
  {
    children.append( new QgsErrorItem( this, tr( "Failed to parse capabilities" ), mPath + "/error" ) );
    return children;
  }

  // Attention: supportedLayers() gives tree leafs, not top level
  QVector<QgsWmsLayerProperty> layerProperties = caps.supportedLayers();
  if ( !layerProperties.isEmpty() )
  {
    QgsWmsCapabilitiesProperty capabilitiesProperty = caps.capabilitiesProperty();
    const QgsWmsCapabilityProperty &capabilityProperty = capabilitiesProperty.capability;

    for ( const QgsWmsLayerProperty &layerProperty : qgis::as_const( capabilityProperty.layers ) )
    {
      // Attention, the name may be empty
      QgsDebugMsg( QString::number( layerProperty.orderId ) + ' ' + layerProperty.name + ' ' + layerProperty.title );
      QString pathName = layerProperty.name.isEmpty() ? QString::number( layerProperty.orderId ) : layerProperty.name;

      QgsWMSLayerItem *layer = new QgsWMSLayerItem( this, layerProperty.title, mPath + '/' + pathName, capabilitiesProperty, uri, layerProperty );

      children << layer;
    }
  }

  QList<QgsWmtsTileLayer> tileLayers = caps.supportedTileLayers();
  if ( !tileLayers.isEmpty() )
  {
    QHash<QString, QgsWmtsTileMatrixSet> tileMatrixSets = caps.supportedTileMatrixSets();

    const auto constTileLayers = tileLayers;
    for ( const QgsWmtsTileLayer &l : constTileLayers )
    {
      QString title = l.title.isEmpty() ? l.identifier : l.title;
      QgsDataItem *layerItem = l.styles.size() == 1 ? this : new QgsDataCollectionItem( this, title, mPath + '/' + l.identifier );
      if ( layerItem != this )
      {
        layerItem->setCapabilities( layerItem->capabilities2() & ~QgsDataItem::Fertile );
        layerItem->setState( QgsDataItem::Populated );
        layerItem->setToolTip( title );
        children << layerItem;
      }

      for ( const QgsWmtsStyle &style : qgis::as_const( l.styles ) )
      {
        QString styleName = style.title.isEmpty() ? style.identifier : style.title;
        if ( layerItem == this )
          styleName = title;  // just one style so no need to display it

        QgsDataItem *styleItem = l.setLinks.size() == 1 ? layerItem : new QgsDataCollectionItem( layerItem, styleName, layerItem->path() + '/' + style.identifier );
        if ( styleItem != layerItem )
        {
          styleItem->setCapabilities( styleItem->capabilities2() & ~QgsDataItem::Fertile );
          styleItem->setState( QgsDataItem::Populated );
          styleItem->setToolTip( styleName );
          if ( layerItem == this )
            children << styleItem;
          else
            layerItem->addChildItem( styleItem );
        }

        for ( const QgsWmtsTileMatrixSetLink &setLink : qgis::as_const( l.setLinks ) )
        {
          QString linkName = setLink.tileMatrixSet;
          if ( styleItem == layerItem )
            linkName = styleName;  // just one link so no need to display it

          QgsDataItem *linkItem = l.formats.size() == 1 ? styleItem : new QgsDataCollectionItem( styleItem, linkName, styleItem->path() + '/' + setLink.tileMatrixSet );
          if ( linkItem != styleItem )
          {
            linkItem->setCapabilities( linkItem->capabilities2() & ~QgsDataItem::Fertile );
            linkItem->setState( QgsDataItem::Populated );
            linkItem->setToolTip( linkName );
            if ( styleItem == this )
              children << linkItem;
            else
              styleItem->addChildItem( linkItem );
          }

          for ( const QString &format : qgis::as_const( l.formats ) )
          {
            QString name = format;
            if ( linkItem == styleItem )
              name = linkName;  // just one format so no need to display it

            QgsDataItem *tileLayerItem = new QgsWMTSLayerItem( linkItem, name, linkItem->path() + '/' + name, uri,
                l.identifier, format, style.identifier, setLink.tileMatrixSet, tileMatrixSets[ setLink.tileMatrixSet ].crs, title );
            tileLayerItem->setToolTip( name );
            if ( linkItem == this )
              children << tileLayerItem;
            else
              linkItem->addChildItem( tileLayerItem );
          }
        }
      }
    }
  }

  return children;
}
Пример #14
0
void SyncEngine::startSync()
{
    if (_journal->exists()) {
        QVector< SyncJournalDb::PollInfo > pollInfos = _journal->getPollInfos();
        if (!pollInfos.isEmpty()) {
            qDebug() << "Finish Poll jobs before starting a sync";
            CleanupPollsJob *job = new CleanupPollsJob(pollInfos, _account,
                                                       _journal, _localPath, this);
            connect(job, SIGNAL(finished()), this, SLOT(startSync()));
            connect(job, SIGNAL(aborted(QString)), this, SLOT(slotCleanPollsJobAborted(QString)));
            job->start();
            return;
        }
    }

    Q_ASSERT(!_syncRunning);
    _syncRunning = true;

    Q_ASSERT(_csync_ctx);

    if (!QDir(_localPath).exists()) {
        // No _tr, it should only occur in non-mirall
        emit csyncError("Unable to find local sync directory.");
        finalize();
        return;
    }

    _syncedItems.clear();
    _syncItemMap.clear();
    _needsUpdate = false;

    csync_resume(_csync_ctx);

    int fileRecordCount = -1;
    if (!_journal->exists()) {
        qDebug() << "=====sync looks new (no DB exists)";
    } else {
        qDebug() << "=====sync with existing DB";
    }

    qDebug() <<  "=====Using Qt" << qVersion();
#if QT_VERSION >= QT_VERSION_CHECK(5,0,0)
    qDebug() <<  "=====Using SSL library version"
             <<  QSslSocket::sslLibraryVersionString().toUtf8().data();
#endif

    fileRecordCount = _journal->getFileRecordCount(); // this creates the DB if it does not exist yet

    if( fileRecordCount == -1 ) {
        qDebug() << "No way to create a sync journal!";
        emit csyncError(tr("Unable to initialize a sync journal."));
        finalize();
        return;
        // database creation error!
    }

    _csync_ctx->read_remote_from_db = true;

    // This tells csync to never read from the DB if it is empty
    // thereby speeding up the initial discovery significantly.
    _csync_ctx->db_is_empty = (fileRecordCount == 0);

    auto selectiveSyncBlackList = _journal->getSelectiveSyncList(SyncJournalDb::SelectiveSyncBlackList);
    bool usingSelectiveSync = (!selectiveSyncBlackList.isEmpty());
    qDebug() << (usingSelectiveSync ? "====Using Selective Sync" : "====NOT Using Selective Sync");
    if (fileRecordCount >= 0 && fileRecordCount < 50 && !usingSelectiveSync) {
        qDebug() << "===== Activating recursive PROPFIND (currently" << fileRecordCount << "file records)";
        bool no_recursive_propfind = false;
        csync_set_module_property(_csync_ctx, "no_recursive_propfind", &no_recursive_propfind);
    } else {
        bool no_recursive_propfind = true;
        csync_set_module_property(_csync_ctx, "no_recursive_propfind", &no_recursive_propfind);
    }

    csync_set_userdata(_csync_ctx, this);
    _account->credentials()->syncContextPreStart(_csync_ctx);

    // csync_set_auth_callback( _csync_ctx, getauth );
    //csync_set_log_level( 11 ); don't set the loglevel here, it shall be done by folder.cpp or owncloudcmd.cpp
    int timeout = OwncloudPropagator::httpTimeout();
    csync_set_module_property(_csync_ctx, "timeout", &timeout);

    _stopWatch.start();

    qDebug() << "#### Discovery start #################################################### >>";

    _discoveryMainThread = new DiscoveryMainThread(account());
    _discoveryMainThread->setParent(this);
    connect(this, SIGNAL(finished()), _discoveryMainThread, SLOT(deleteLater()));
    connect(_discoveryMainThread, SIGNAL(etagConcatenation(QString)), this, SLOT(slotRootEtagReceived(QString)));


    DiscoveryJob *discoveryJob = new DiscoveryJob(_csync_ctx);
    discoveryJob->_selectiveSyncBlackList = selectiveSyncBlackList;
    discoveryJob->_selectiveSyncWhiteList =
        _journal->getSelectiveSyncList(SyncJournalDb::SelectiveSyncWhiteList);
    discoveryJob->_newSharedFolderSizeLimit = _newSharedFolderSizeLimit;
    discoveryJob->moveToThread(&_thread);
    connect(discoveryJob, SIGNAL(finished(int)), this, SLOT(slotDiscoveryJobFinished(int)));
    connect(discoveryJob, SIGNAL(folderDiscovered(bool,QString)),
            this, SIGNAL(folderDiscovered(bool,QString)));

    connect(discoveryJob, SIGNAL(newSharedFolder(QString)),
            this, SIGNAL(newSharedFolder(QString)));


    // This is used for the DiscoveryJob to be able to request the main thread/
    // to read in directory contents.
    qDebug() << Q_FUNC_INFO << _remotePath << _remoteUrl;
    _discoveryMainThread->setupHooks( discoveryJob, _remotePath);

    // Starts the update in a seperate thread
    QMetaObject::invokeMethod(discoveryJob, "start", Qt::QueuedConnection);
}
void QtWebEngineUrlRequestInterceptor::interceptRequest(QWebEngineUrlRequestInfo &request)
{
	if (!m_contentBlockingProfiles.contains(request.firstPartyUrl().host()))
	{
		m_contentBlockingProfiles[request.firstPartyUrl().host()] = ContentBlockingManager::getProfileList(SettingsManager::getValue(QLatin1String("Content/BlockingProfiles"), request.firstPartyUrl()).toStringList());
	}

	const QVector<int> contentBlockingProfiles(m_contentBlockingProfiles.value(request.firstPartyUrl().host()));

	if (contentBlockingProfiles.isEmpty())
	{
		const NetworkManagerFactory::DoNotTrackPolicy doNotTrackPolicy(NetworkManagerFactory::getDoNotTrackPolicy());

		if (doNotTrackPolicy != NetworkManagerFactory::SkipTrackPolicy)
		{
			request.setHttpHeader(QStringLiteral("DNT").toLatin1(), ((doNotTrackPolicy == NetworkManagerFactory::DoNotAllowToTrackPolicy) ? QStringLiteral("1") : QStringLiteral("0")).toLatin1());
		}

		return;
	}

	ContentBlockingManager::ResourceType resourceType(ContentBlockingManager::OtherType);

	switch (request.resourceType())
	{
		case QWebEngineUrlRequestInfo::ResourceTypeMainFrame:
			resourceType = ContentBlockingManager::MainFrameType;

			break;
		case QWebEngineUrlRequestInfo::ResourceTypeSubFrame:
			resourceType = ContentBlockingManager::SubFrameType;

			break;
		case QWebEngineUrlRequestInfo::ResourceTypeStylesheet:
			resourceType = ContentBlockingManager::StyleSheetType;

			break;
		case QWebEngineUrlRequestInfo::ResourceTypeScript:
			resourceType = ContentBlockingManager::ScriptType;

			break;
		case QWebEngineUrlRequestInfo::ResourceTypeImage:
			resourceType = ContentBlockingManager::ImageType;

			break;
		case QWebEngineUrlRequestInfo::ResourceTypeObject:
		case QWebEngineUrlRequestInfo::ResourceTypeMedia:
			resourceType = ContentBlockingManager::ObjectType;

			break;
		case QWebEngineUrlRequestInfo::ResourceTypeXhr:
			resourceType = ContentBlockingManager::XmlHttpRequestType;

			break;
		default:
			break;
	}

	const ContentBlockingManager::CheckResult result(ContentBlockingManager::checkUrl(contentBlockingProfiles, request.firstPartyUrl(), request.requestUrl(), resourceType));

	if (result.isBlocked)
	{
		Console::addMessage(QCoreApplication::translate("main", "Blocked request"), Otter::NetworkMessageCategory, LogMessageLevel, request.requestUrl().toString(), -1);

		request.block(true);
	}
}
Пример #16
0
VertexSpec*
CmodLoader::loadVertexSpec()
{
    if (readCmodToken() != CmodVertexDesc)
    {
        setError("Missing vertex description in submesh");
        return NULL;
    }

    QVector<VertexAttribute> attributes;
    bool done = false;

    while (!done && !error())
    {
        quint16 token = 0;
        *m_inputStream >> token;
        if (token == CmodEndVertexDesc)
        {
            done = true;
        }
        else
        {
            VertexAttribute::Semantic semantic = VertexAttribute::InvalidAttributeSemantic;
            switch (token)
            {
            case 0:
                semantic = VertexAttribute::Position;
                break;
            case 1:
                semantic = VertexAttribute::Color;
                break;
            case 2:
                setError("color1 is not a supported vertex attribute");
                break;
            case 3:
                semantic = VertexAttribute::Normal;
                break;
            case 4:
                semantic = VertexAttribute::Tangent;
                break;
            case 5:
                semantic = VertexAttribute::TextureCoord;
                break;
            case 6:
                setError("texture1 is not a supported vertex attribute");
                break;
            case 7:
                setError("texture2 is not a supported vertex attribute");
                break;
            case 8:
                setError("texture3 is not a supported vertex attribute");
                break;
            case 9:
                semantic = VertexAttribute::PointSize;
                break;
            default:
                setError("Unrecognized vertex attribute semantic");
                break;
            }

            VertexAttribute::Format format = VertexAttribute::InvalidAttributeFormat;
            quint16 formatIndex = 0;
            *m_inputStream >> formatIndex;
            switch (formatIndex)
            {
            case 0:
                format = VertexAttribute::Float1;
                break;
            case 1:
                format = VertexAttribute::Float2;
                break;
            case 2:
                format = VertexAttribute::Float3;
                break;
            case 3:
                format = VertexAttribute::Float4;
                break;
            case 4:
                format = VertexAttribute::UByte4;
                break;
            default:
                setError("Unrecognized vertex attribute format");
                break;
            }

            if (format != VertexAttribute::InvalidAttributeFormat &&
                semantic != VertexAttribute::InvalidAttributeSemantic)
            {
                attributes << VertexAttribute(semantic, format);
            }
        }
    }

    if (attributes.isEmpty())
    {
        setError("Submesh has an empty vertex description");
        return NULL;
    }

    return new VertexSpec(attributes.size(), attributes.data());
}
Пример #17
0
void PainterThread::drawAttrib(QPainter *p, Attributes *attrib)
{
    if (attrib->getType() == TObsAgent)
        return;

    //---- Desenha o atributo
    p->begin(attrib->getImage());

    p->setPen(Qt::NoPen); //defaultPen);

	//@RAIAN: Desenhando a vizinhanca
	if (attrib->getType() == TObsNeighborhood)
	{
		QColor color(Qt::white);
                QVector<QMap<QString, QList<double> > > *neighborhoods = attrib->getNeighValues();
		QVector<ObsLegend> *vecLegend = attrib->getLegend();

		QPen pen = p->pen();
		pen.setStyle(Qt::SolidLine);
		pen.setWidth(attrib->getWidth());

        // int random = qrand() % 256;
		double xCell = -1.0, yCell = -1.0;

		for (int pos = 0; pos < neighborhoods->size(); pos++)
		{
            QMap<QString, QList<double> > neigh = neighborhoods->at(pos);

			xCell = attrib->getXsValue()->at(pos);
			yCell = attrib->getYsValue()->at(pos);

			if ((xCell >= 0) && (yCell >=0))
			{
                QMap<QString, QList<double> >::Iterator itNeigh = neigh.begin();

				while (itNeigh != neigh.end())
				{
					QString neighID = itNeigh.key();
					QList<double> neighbor = itNeigh.value();

					double xNeigh = neighbor.at(0);
					double yNeigh = neighbor.at(1);
					double weight = neighbor.at(2);

					if (vecLegend->isEmpty())
					{
						weight = weight - attrib->getMinValue();
						double c = weight * attrib->getVal2Color();
						if (c >= 0 && c <= 255)
						{
							color.setRgb(c, c, c);
						}
						else
						{
							color.setRgb(255, 255, 255);
						}

						pen.setColor(color);
					}
					else
					{
						for (int j = 0; j < vecLegend->size(); j++)
						{
							ObsLegend leg = vecLegend->at(j);
							if (attrib->getGroupMode() == 3)
							{
								if (weight == leg.getTo().toDouble())
								{
									pen.setColor(leg.getColor());
									break;
								}
							}
							else
							{
								if ((leg.getFrom().toDouble() <= weight) && (weight < leg.getTo().toDouble()))
								{
									pen.setColor(leg.getColor());
									break;
								}
							}
						}
					}
					p->setPen(pen);

					if ((xNeigh >= 0) && (yNeigh >= 0))
					{
						drawNeighborhood(p, xCell, yCell, xNeigh, yNeigh);
					}

					itNeigh++;
				}
			}
		}
	}
	//@RAIAN: FIM
	else
	{
		if (attrib->getDataType() == TObsNumber)
		{
			QColor color(Qt::white);
			QVector<double> *values = attrib->getNumericValues();
			QVector<ObsLegend> *vecLegend = attrib->getLegend();

			double x = -1.0, y = -1.0, v = 0.0;

			int vSize = values->size();
			int xSize = attrib->getXsValue()->size();
			int ySize = attrib->getYsValue()->size();

			for (int pos = 0; (pos < vSize && pos < xSize && pos < ySize); pos++)
			{
				v = values->at(pos);

				// Corrige o bug gerando quando um agente morre
				if (attrib->getXsValue()->isEmpty() || attrib->getXsValue()->size() == pos)
					break;

				x = attrib->getXsValue()->at(pos);
				y = attrib->getYsValue()->at(pos);

				if (vecLegend->isEmpty())
				{
					v = v - attrib->getMinValue();

					double c = v * attrib->getVal2Color();
					if ((c >= 0) && (c <= 255))
					{
						color.setRgb(c, c, c);
					}
					else
					{
						color.setRgb(255, 255, 255);
					}
					p->setBrush(color);
				}
				else
				{
					for (int j = 0; j < vecLegend->size(); j++)
					{
						p->setBrush(Qt::white);

						const ObsLegend &leg = vecLegend->at(j);
						if (attrib->getGroupMode() == TObsUniqueValue) // valor ?nico 3
						{
							if (v == leg.getToNumber())
							{
								p->setBrush(leg.getColor());
								break;
							}
						}
						else
						{
							if ((leg.getFromNumber() <= v) && (v < leg.getToNumber()))
							{
								p->setBrush(leg.getColor());
								break;
							}
						}
					}
				}
				if ((x >= 0) && (y >= 0))
					draw(p, attrib->getType(), x, y);
			}
		}
		else if (attrib->getDataType() == TObsText)
		{
			QVector<QString> *values = attrib->getTextValues();
			QVector<ObsLegend> *vecLegend = attrib->getLegend();

            int random = qrand() % 256;
			double x = -1.0, y = -1.0;

			int vSize = values->size();
			int xSize = attrib->getXsValue()->size();
			int ySize = attrib->getYsValue()->size();

			for (int pos = 0; (pos < vSize && pos < xSize && pos < ySize); pos++)
			{
				const QString & v = values->at(pos);

				// Corrige o bug gerando quando um agente morre
				if (attrib->getXsValue()->isEmpty() || attrib->getXsValue()->size() == pos)
					break;

				x = attrib->getXsValue()->at(pos);
				y = attrib->getYsValue()->at(pos);

				if (vecLegend->isEmpty())
				{
					p->setBrush(QColor(random, random, random));
				}
				else
				{
					p->setBrush(Qt::white);
					for (int j = 0; j < vecLegend->size(); j++)
					{
						const ObsLegend &leg = vecLegend->at(j);
						if (v == leg.getFrom())
						{
							p->setBrush(leg.getColor());
							break;
						}
					}
				}

				if ((x >= 0) && (y >= 0))
					draw(p, attrib->getType(), x, y);
			}
		}
	}
    p->end();
}
Пример #18
0
void Qt5InformationNodeInstanceServer::collectItemChangesAndSendChangeCommands()
{
    static bool inFunction = false;
    if (!inFunction) {
        inFunction = true;

        QSet<ServerNodeInstance> informationChangedInstanceSet;
        QVector<InstancePropertyPair> propertyChangedList;
        bool adjustSceneRect = false;

        if (sgView()) {
            foreach (QSGItem *item, allItems()) {
                if (item && hasInstanceForObject(item)) {
                    ServerNodeInstance instance = instanceForObject(item);

                    DesignerSupport::DirtyType informationsDirty = DesignerSupport::DirtyType(DesignerSupport::TransformUpdateMask
                                                                                              | DesignerSupport::Visible
                                                                                              | DesignerSupport::ZValue
                                                                                              | DesignerSupport::OpacityValue);
                    if (DesignerSupport::dirty(item, informationsDirty))
                        informationChangedInstanceSet.insert(instance);


                    if (DesignerSupport::dirty(item, DesignerSupport::ParentChanged)) {
                        m_parentChangedSet.insert(instance);
                        informationChangedInstanceSet.insert(instance);
                    }
//                    if (d->geometryChanged) {
//                        if (instance.isRootNodeInstance())
//                            declarativeView()->scene()->setSceneRect(item->boundingRect());
//                    }

                }
            }

            foreach (const InstancePropertyPair& property, changedPropertyList()) {
                const ServerNodeInstance instance = property.first;
                const QString propertyName = property.second;

                if (instance.isValid()) {
                    if (instance.isRootNodeInstance() && (propertyName == "width" || propertyName == "height"))
                        adjustSceneRect = true;

                    if (propertyName.contains("anchors"))
                        informationChangedInstanceSet.insert(instance);

                    propertyChangedList.append(property);
                }
            }

            resetAllItems();
            clearChangedPropertyList();

            sendTokenBack();

            if (!informationChangedInstanceSet.isEmpty())
                nodeInstanceClient()->informationChanged(createAllInformationChangedCommand(informationChangedInstanceSet.toList()));

            if (!propertyChangedList.isEmpty())
                nodeInstanceClient()->valuesChanged(createValuesChangedCommand(propertyChangedList));

            if (!m_parentChangedSet.isEmpty()) {
                sendChildrenChangedCommand(m_parentChangedSet.toList());
                m_parentChangedSet.clear();
            }

//            if (adjustSceneRect) {
//                QRectF boundingRect = rootNodeInstance().boundingRect();
//                if (boundingRect.isValid()) {
//                    declarativeView()->setSceneRect(boundingRect);
//                }
//            }

            if (!m_completedComponentList.isEmpty()) {
                nodeInstanceClient()->componentCompleted(createComponentCompletedCommand(m_completedComponentList));
                m_completedComponentList.clear();
            }

            slowDownRenderTimer();
            nodeInstanceClient()->flush();
            nodeInstanceClient()->synchronizeWithClientProcess();
        }

        inFunction = false;
    }
Пример #19
0
void PropertySyncer::handleMessage(const GammaRay::Message& msg)
{
    Q_ASSERT(msg.address() == m_address);
    switch (msg.type()) {
    case Protocol::PropertySyncRequest:
    {
        Protocol::ObjectAddress addr;
        msg.payload() >> addr;
        Q_ASSERT(addr != Protocol::InvalidObjectAddress);

        const auto it = std::find_if(m_objects.constBegin(), m_objects.constEnd(), [addr](const ObjectInfo &info) {
            return info.addr == addr;
        });
        if (it == m_objects.constEnd())
            break;

        QVector<QPair<QString, QVariant> > values;
        const auto propCount = (*it).obj->metaObject()->propertyCount();
        values.reserve(propCount);
        for (int i = qobjectPropertyOffset(); i < propCount; ++i) {
            const auto prop = (*it).obj->metaObject()->property(i);
            values.push_back(qMakePair(QString(prop.name()), prop.read((*it).obj)));
        }
        Q_ASSERT(!values.isEmpty());

        Message msg(m_address, Protocol::PropertyValuesChanged);
        msg.payload() << addr << (quint32)values.size();
        foreach (const auto &value, values)
            msg.payload() << value.first << value.second;
        emit message(msg);
        break;
    }
    case Protocol::PropertyValuesChanged:
    {
        Protocol::ObjectAddress addr;
        quint32 changeSize;
        msg.payload() >> addr >> changeSize;
        Q_ASSERT(addr != Protocol::InvalidObjectAddress);
        Q_ASSERT(changeSize > 0);

        auto it = std::find_if(m_objects.begin(), m_objects.end(), [addr](const ObjectInfo &info) {
            return info.addr == addr;
        });
        if (it == m_objects.end())
            break;

        for (quint32 i = 0; i < changeSize; ++i) {
            QString propName;
            QVariant propValue;
            msg.payload() >> propName >> propValue;
            (*it).recursionLock = true;
            (*it).obj->setProperty(propName.toUtf8(), propValue);

            // it can be invalid if as a result of the above call new objects have been registered for example
            it = std::find_if(m_objects.begin(), m_objects.end(), [addr](const ObjectInfo &info) {
                return info.addr == addr;
            });
            Q_ASSERT(it != m_objects.end());
            (*it).recursionLock = false;
        }
        break;
    }
    default:
        Q_ASSERT(!"We should not get here!");
    }
}
Пример #20
0
void QgsOverlayUtils::difference( const QgsFeatureSource &sourceA, const QgsFeatureSource &sourceB, QgsFeatureSink &sink, QgsProcessingContext &context, QgsProcessingFeedback *feedback, int &count, int totalCount, QgsOverlayUtils::DifferenceOutput outputAttrs )
{
  QgsFeatureRequest requestB;
  requestB.setSubsetOfAttributes( QgsAttributeList() );
  if ( outputAttrs != OutputBA )
    requestB.setDestinationCrs( sourceA.sourceCrs(), context.transformContext() );
  QgsSpatialIndex indexB( sourceB.getFeatures( requestB ), feedback );

  int fieldsCountA = sourceA.fields().count();
  int fieldsCountB = sourceB.fields().count();
  QgsAttributes attrs;
  attrs.resize( outputAttrs == OutputA ? fieldsCountA : ( fieldsCountA + fieldsCountB ) );

  if ( totalCount == 0 )
    totalCount = 1;  // avoid division by zero

  QgsFeature featA;
  QgsFeatureRequest requestA;
  if ( outputAttrs == OutputBA )
    requestA.setDestinationCrs( sourceB.sourceCrs(), context.transformContext() );
  QgsFeatureIterator fitA = sourceA.getFeatures( requestA );
  while ( fitA.nextFeature( featA ) )
  {
    if ( feedback->isCanceled() )
      break;

    if ( featA.hasGeometry() )
    {
      QgsGeometry geom( featA.geometry() );
      QgsFeatureIds intersects = indexB.intersects( geom.boundingBox() ).toSet();

      QgsFeatureRequest request;
      request.setFilterFids( intersects );
      request.setSubsetOfAttributes( QgsAttributeList() );
      if ( outputAttrs != OutputBA )
        request.setDestinationCrs( sourceA.sourceCrs(), context.transformContext() );

      std::unique_ptr< QgsGeometryEngine > engine;
      if ( !intersects.isEmpty() )
      {
        // use prepared geometries for faster intersection tests
        engine.reset( QgsGeometry::createGeometryEngine( geom.constGet() ) );
        engine->prepareGeometry();
      }

      QVector<QgsGeometry> geometriesB;
      QgsFeature featB;
      QgsFeatureIterator fitB = sourceB.getFeatures( request );
      while ( fitB.nextFeature( featB ) )
      {
        if ( feedback->isCanceled() )
          break;

        if ( engine->intersects( featB.geometry().constGet() ) )
          geometriesB << featB.geometry();
      }

      if ( !geometriesB.isEmpty() )
      {
        QgsGeometry geomB = QgsGeometry::unaryUnion( geometriesB );
        geom = geom.difference( geomB );
      }

      if ( !sanitizeDifferenceResult( geom ) )
        continue;

      const QgsAttributes attrsA( featA.attributes() );
      switch ( outputAttrs )
      {
        case OutputA:
          attrs = attrsA;
          break;
        case OutputAB:
          for ( int i = 0; i < fieldsCountA; ++i )
            attrs[i] = attrsA[i];
          break;
        case OutputBA:
          for ( int i = 0; i < fieldsCountA; ++i )
            attrs[i + fieldsCountB] = attrsA[i];
          break;
      }

      QgsFeature outFeat;
      outFeat.setGeometry( geom );
      outFeat.setAttributes( attrs );
      sink.addFeature( outFeat, QgsFeatureSink::FastInsert );
    }
    else
    {
      // TODO: should we write out features that do not have geometry?
      sink.addFeature( featA, QgsFeatureSink::FastInsert );
    }

    ++count;
    feedback->setProgress( count / ( double ) totalCount * 100. );
  }
}
Пример #21
0
/******************************************************************************\
* Device handling                                                              *
\******************************************************************************/
QString CSoundBase::SetDev ( const int iNewDev )
{
    // init return parameter with "no error"
    QString strReturn = "";

    // first check if valid input parameter
    if ( iNewDev >= lNumDevs )
    {
        // we should actually never get here...
        return tr ( "Invalid device selection." );
    }

    // check if an ASIO driver was already initialized
    if ( lCurDev != INVALID_SNC_CARD_DEVICE )
    {
        // a device was already been initialized and is used, first clean up
        // driver
        UnloadCurrentDriver();

        const QString strErrorMessage = LoadAndInitializeDriver ( iNewDev );

        if ( !strErrorMessage.isEmpty() )
        {
            if ( iNewDev != lCurDev )
            {
                // loading and initializing the new driver failed, go back to
                // original driver and display error message
                LoadAndInitializeDriver ( lCurDev );
            }
            else
            {
                // the same driver is used but the driver properties seems to
                // have changed so that they are not compatible to our
                // software anymore
                QMessageBox::critical (
                    0, APP_NAME, QString ( tr ( "The audio driver properties "
                    "have changed to a state which is incompatible to this "
                    "software. The selected audio device could not be used "
                    "because of the following error: <b>" ) ) +
                    strErrorMessage +
                    QString ( tr ( "</b><br><br>Please restart the software." ) ),
                    "Close", 0 );

                _exit ( 0 );
            }

            // store error return message
            strReturn = strErrorMessage;
        }
    }
    else
    {
        // init flag for "load any driver"
        bool bTryLoadAnyDriver = false;

        if ( iNewDev != INVALID_SNC_CARD_DEVICE )
        {
            // This is the first time a driver is to be initialized, we first
            // try to load the selected driver, if this fails, we try to load
            // the first available driver in the system. If this fails, too, we
            // throw an error that no driver is available -> it does not make
            // sense to start the llcon software if no audio hardware is
            // available.
            if ( !LoadAndInitializeDriver ( iNewDev ).isEmpty() )
            {
                // loading and initializing the new driver failed, try to find
                // at least one usable driver
                bTryLoadAnyDriver = true;
            }
        }
        else
        {
            // try to find one usable driver (select the first valid driver)
            bTryLoadAnyDriver = true;
        }

        if ( bTryLoadAnyDriver )
        {
            // try to load and initialize any valid driver
            QVector<QString> vsErrorList =
                LoadAndInitializeFirstValidDriver();

            if ( !vsErrorList.isEmpty() )
            {
                // create error message with all details
                QString sErrorMessage = tr ( "<b>No usable " ) +
                    strSystemDriverTechniqueName + tr ( " audio device "
                    "(driver) found.</b><br><br>"
                    "In the following there is a list of all available drivers "
                    "with the associated error message:<ul>" );

                for ( int i = 0; i < lNumDevs; i++ )
                {
                    sErrorMessage += "<li><b>" + GetDeviceName ( i ) + "</b>: " +
                        vsErrorList[i] + "</li>";
                }
                sErrorMessage += "</ul>";

                throw CGenErr ( sErrorMessage );
            }
        }
    }

    return strReturn;
}
Пример #22
0
void QgsGeomColumnTypeThread::run()
{
  QgsDataSourceUri uri = QgsPostgresConn::connUri( mName );
  mConn = QgsPostgresConnPool::instance()->acquireConnection( uri.connectionInfo( false ) );
  if ( !mConn )
  {
    QgsDebugMsg( "Connection failed - " + uri.connectionInfo( false ) );
    return;
  }

  mStopped = false;

  bool dontResolveType = QgsPostgresConn::dontResolveType( mName );

  emit progressMessage( tr( "Retrieving tables of %1..." ).arg( mName ) );
  QVector<QgsPostgresLayerProperty> layerProperties;
  if ( !mConn->supportedLayers( layerProperties,
                                QgsPostgresConn::geometryColumnsOnly( mName ),
                                QgsPostgresConn::publicSchemaOnly( mName ),
                                mAllowGeometrylessTables ) ||
       layerProperties.isEmpty() )
  {
    QgsPostgresConnPool::instance()->releaseConnection( mConn );
    mConn = nullptr;
    return;
  }

  int i = 0, n = layerProperties.size();
  for ( QVector<QgsPostgresLayerProperty>::iterator it = layerProperties.begin(),
        end = layerProperties.end();
        it != end; ++it )
  {
    QgsPostgresLayerProperty &layerProperty = *it;
    if ( !mStopped )
    {
      emit progress( i++, n );
      emit progressMessage( tr( "Scanning column %1.%2.%3..." )
                            .arg( layerProperty.schemaName,
                                  layerProperty.tableName,
                                  layerProperty.geometryColName ) );

      if ( !layerProperty.geometryColName.isNull() &&
           ( layerProperty.types.value( 0, QgsWkbTypes::Unknown ) == QgsWkbTypes::Unknown ||
             layerProperty.srids.value( 0, INT_MIN ) == INT_MIN ) )
      {
        if ( dontResolveType )
        {
          QgsDebugMsg( QString( "skipping column %1.%2 without type constraint" ).arg( layerProperty.schemaName, layerProperty.tableName ) );
          continue;
        }

        mConn->retrieveLayerTypes( layerProperty, mUseEstimatedMetadata );
      }
    }

    if ( mStopped )
    {
      layerProperty.types.clear();
      layerProperty.srids.clear();
      break;
    }

    // Now tell the layer list dialog box...
    emit setLayerType( layerProperty );
  }

  emit progress( 0, 0 );
  emit progressMessage( mStopped ? tr( "Table retrieval stopped." ) : tr( "Table retrieval finished." ) );

  QgsPostgresConnPool::instance()->releaseConnection( mConn );
  mConn = nullptr;
}
Пример #23
0
void SyncEngine::startSync()
{
    if (_journal->exists()) {
        QVector< SyncJournalDb::PollInfo > pollInfos = _journal->getPollInfos();
        if (!pollInfos.isEmpty()) {
            qDebug() << "Finish Poll jobs before starting a sync";
            CleanupPollsJob *job = new CleanupPollsJob(pollInfos, _account,
                                                       _journal, _localPath, this);
            connect(job, SIGNAL(finished()), this, SLOT(startSync()));
            connect(job, SIGNAL(aborted(QString)), this, SLOT(slotCleanPollsJobAborted(QString)));
            job->start();
            return;
        }
    }

    Q_ASSERT(!_syncRunning);
    _syncRunning = true;

    Q_ASSERT(_csync_ctx);

    if (!QDir(_localPath).exists()) {
        // No _tr, it should only occur in non-mirall
        emit csyncError("Unable to find local sync folder.");
        finalize(false);
        return;
    }

    // Check free size on disk first.
    const qint64 minFree = criticalFreeSpaceLimit();
    const qint64 freeBytes = Utility::freeDiskSpace(_localPath);
    if (freeBytes >= 0) {
        qDebug() << "There are" << freeBytes << "bytes available at" << _localPath
                 << "and at least" << minFree << "are required";
        if (freeBytes < minFree) {
            emit csyncError(tr("Only %1 are available, need at least %2 to start",
                               "Placeholders are postfixed with file sizes using Utility::octetsToString()").arg(
                                Utility::octetsToString(freeBytes),
                                Utility::octetsToString(minFree)));
            finalize(false);
            return;
        }
    } else {
        qDebug() << "Could not determine free space available at" << _localPath;
    }

    _syncedItems.clear();
    _syncItemMap.clear();
    _needsUpdate = false;

    csync_resume(_csync_ctx);

    int fileRecordCount = -1;
    if (!_journal->exists()) {
        qDebug() << "=====sync looks new (no DB exists)";
    } else {
        qDebug() << "=====sync with existing DB";
    }

    qDebug() <<  "=====Using Qt" << qVersion();
#if QT_VERSION >= QT_VERSION_CHECK(5,0,0)
    qDebug() <<  "=====Using SSL library version"
             <<  QSslSocket::sslLibraryVersionString().toUtf8().data();
#endif

    fileRecordCount = _journal->getFileRecordCount(); // this creates the DB if it does not exist yet

    if( fileRecordCount == -1 ) {
        qDebug() << "No way to create a sync journal!";
        emit csyncError(tr("Unable to initialize a sync journal."));
        finalize(false);
        return;
        // database creation error!
    }

    _csync_ctx->read_remote_from_db = true;

    // This tells csync to never read from the DB if it is empty
    // thereby speeding up the initial discovery significantly.
    _csync_ctx->db_is_empty = (fileRecordCount == 0);

    auto selectiveSyncBlackList = _journal->getSelectiveSyncList(SyncJournalDb::SelectiveSyncBlackList);
    bool usingSelectiveSync = (!selectiveSyncBlackList.isEmpty());
    qDebug() << (usingSelectiveSync ? "====Using Selective Sync" : "====NOT Using Selective Sync");

    csync_set_userdata(_csync_ctx, this);

    // Set up checksumming hook
    _csync_ctx->callbacks.checksum_hook = &CSyncChecksumHook::hook;
    _csync_ctx->callbacks.checksum_userdata = &_checksum_hook;

    _stopWatch.start();

    qDebug() << "#### Discovery start #################################################### >>";

    _discoveryMainThread = new DiscoveryMainThread(account());
    _discoveryMainThread->setParent(this);
    connect(this, SIGNAL(finished(bool)), _discoveryMainThread, SLOT(deleteLater()));
    qDebug() << "=====Server" << account()->serverVersion()
             <<  QString("rootEtagChangesNotOnlySubFolderEtags=%1").arg(account()->rootEtagChangesNotOnlySubFolderEtags());
    if (account()->rootEtagChangesNotOnlySubFolderEtags()) {
        connect(_discoveryMainThread, SIGNAL(etag(QString)), this, SLOT(slotRootEtagReceived(QString)));
    } else {
        connect(_discoveryMainThread, SIGNAL(etagConcatenation(QString)), this, SLOT(slotRootEtagReceived(QString)));
    }

    DiscoveryJob *discoveryJob = new DiscoveryJob(_csync_ctx);
    discoveryJob->_selectiveSyncBlackList = selectiveSyncBlackList;
    discoveryJob->_selectiveSyncWhiteList =
        _journal->getSelectiveSyncList(SyncJournalDb::SelectiveSyncWhiteList);
    discoveryJob->_newBigFolderSizeLimit = _newBigFolderSizeLimit;
    discoveryJob->moveToThread(&_thread);
    connect(discoveryJob, SIGNAL(finished(int)), this, SLOT(slotDiscoveryJobFinished(int)));
    connect(discoveryJob, SIGNAL(folderDiscovered(bool,QString)),
            this, SIGNAL(folderDiscovered(bool,QString)));

    connect(discoveryJob, SIGNAL(newBigFolder(QString)),
            this, SIGNAL(newBigFolder(QString)));


    // This is used for the DiscoveryJob to be able to request the main thread/
    // to read in directory contents.
    qDebug() << Q_FUNC_INFO << _remotePath << _remoteUrl;
    _discoveryMainThread->setupHooks( discoveryJob, _remotePath);

    // Starts the update in a seperate thread
    QMetaObject::invokeMethod(discoveryJob, "start", Qt::QueuedConnection);
}
Пример #24
0
void BaseSqlTableModel::select() {
    if (!m_bInitialized) {
        return;
    }
    // We should be able to detect when a select() would be a no-op. The DAO's
    // do not currently broadcast signals for when common things happen. In the
    // future, we can turn this check on and avoid a lot of needless
    // select()'s. rryan 9/2011
    // if (!m_bDirty) {
    //     if (sDebug) {
    //         qDebug() << this << "Skipping non-dirty select()";
    //     }
    //     return;
    // }

    if (sDebug) {
        qDebug() << this << "select()";
    }

    PerformanceTimer time;
    time.start();

    // Prepare query for id and all columns not in m_trackSource
    QString queryString = QString("SELECT %1 FROM %2 %3")
            .arg(m_tableColumnsJoined, m_tableName, m_tableOrderBy);

    if (sDebug) {
        qDebug() << this << "select() executing:" << queryString;
    }

    QSqlQuery query(m_database);
    // This causes a memory savings since QSqlCachedResult (what QtSQLite uses)
    // won't allocate a giant in-memory table that we won't use at all.
    query.setForwardOnly(true);
    query.prepare(queryString);

    if (!query.exec()) {
        LOG_FAILED_QUERY(query);
        return;
    }

    // Remove all the rows from the table. We wait to do this until after the
    // table query has succeeded. See Bug #1090888.
    // TODO(rryan) we could edit the table in place instead of clearing it?
    if (!m_rowInfo.isEmpty()) {
        beginRemoveRows(QModelIndex(), 0, m_rowInfo.size() - 1);
        m_rowInfo.clear();
        m_trackIdToRows.clear();
        endRemoveRows();
    }
    // sqlite does not set size and m_rowInfo was just cleared
    //if (sDebug) {
    //    qDebug() << "Rows returned" << rows << m_rowInfo.size();
    //}

    QVector<RowInfo> rowInfo;
    QSet<TrackId> trackIds;
    while (query.next()) {
        TrackId trackId(query.value(kIdColumn));
        trackIds.insert(trackId);

        RowInfo thisRowInfo;
        thisRowInfo.trackId = trackId;
        // save rows where this currently track id is located
        thisRowInfo.order = rowInfo.size();
        // Get all the table columns and store them in the hash for this
        // row-info section.

        thisRowInfo.metadata.reserve(m_tableColumns.size());
        for (int i = 0;  i < m_tableColumns.size(); ++i) {
            thisRowInfo.metadata << query.value(i);
        }
        rowInfo.push_back(thisRowInfo);
    }

    if (sDebug) {
        qDebug() << "Rows actually received:" << rowInfo.size();
    }

    if (m_trackSource) {
        m_trackSource->filterAndSort(trackIds, m_currentSearch,
                                     m_currentSearchFilter,
                                     m_trackSourceOrderBy,
                                     m_trackSourceSortColumn,
                                     m_trackSourceSortOrder,
                                     &m_trackSortOrder);

        // Re-sort the track IDs since filterAndSort can change their order or mark
        // them for removal (by setting their row to -1).
        for (QVector<RowInfo>::iterator it = rowInfo.begin();
                it != rowInfo.end(); ++it) {
            // If the sort is not a track column then we will sort only to
            // separate removed tracks (order == -1) from present tracks (order ==
            // 0). Otherwise we sort by the order that filterAndSort returned to us.
            if (m_trackSourceOrderBy.isEmpty()) {
                it->order = m_trackSortOrder.contains(it->trackId) ? 0 : -1;
            } else {
                it->order = m_trackSortOrder.value(it->trackId, -1);
            }
        }
    }

    // RowInfo::operator< sorts by the order field, except -1 is placed at the
    // end so we can easily slice off rows that are no longer present. Stable
    // sort is necessary because the tracks may be in pre-sorted order so we
    // should not disturb that if we are only removing tracks.
    qStableSort(rowInfo.begin(), rowInfo.end());

    m_trackIdToRows.clear();
    for (int i = 0; i < rowInfo.size(); ++i) {
        const RowInfo& row = rowInfo[i];

        if (row.order == -1) {
            // We've reached the end of valid rows. Resize rowInfo to cut off
            // this and all further elements.
            rowInfo.resize(i);
            break;
        }
        QLinkedList<int>& rows = m_trackIdToRows[row.trackId];
        rows.push_back(i);
    }

    // We're done! Issue the update signals and replace the master maps.
    if (!rowInfo.isEmpty()) {
        beginInsertRows(QModelIndex(), 0, rowInfo.size() - 1);
        m_rowInfo = rowInfo;
        endInsertRows();
    }

    qDebug() << this << "select() took" << time.elapsed().formatMillisWithUnit()
             << rowInfo.size();
}
Пример #25
0
// ==== DELETE ====
// Delete type
void MainWindow::deleteType(){
    QVector<int> ids = utilities::getSelectedTableViewIds(ui->typesTable);

    // No rows
    if (ids.isEmpty()) {
        return;
    }

    int numRows = ids.size();
    QString deleteConfirmMessage = "";
    QString statusBarMessage = "";

    // Get all the machines that are about to be deleted
    QVector<TypeSystem> typesToBeDeleted;
    for(int i = 0; i < numRows;i++){
        // An empty machine
        TypeSystem ts;
        // Set machine ID to the ID of the row
        ts.setId(ids[i]);

        // Get the machine info by ID
        if(!servicesLayer.getTypeSystem(ts, 1, error)){
            checkError();
            return;
        }

        // Add to vector
        typesToBeDeleted.push_back(ts);
    }

    // Single row
    if(numRows == 1){
        deleteConfirmMessage = "Are you sure you want to delete " + typesToBeDeleted[0].getName() + "?";
        statusBarMessage = typesToBeDeleted[0].getName() + " deleted";
    }
    // Rows less than 11
    else if(numRows > 1 && numRows < 11){

        deleteConfirmMessage = "Are you sure you want to delete:\n";

        // Loop over names
        for(int i = 0; i < numRows;i++){
            deleteConfirmMessage += typesToBeDeleted[i].getName() + "\n";
        }

        statusBarMessage = QString::number(numRows) + " entries deleted";
    }
    // More than 10
    else{
        deleteConfirmMessage = "Are you sure you want to delete these " + QString::number(numRows) + " entries?";
        statusBarMessage = QString::number(numRows) + " entries deleted";
    }

    // Confirmation window
    int ans = QMessageBox::question(this, "Confirmation", deleteConfirmMessage, QMessageBox::Yes|QMessageBox::No, QMessageBox::No);
    // Check answer
    if (ans == QMessageBox::Yes) {
        // Delete
        if(!servicesLayer.deleteTypeSystem(typesToBeDeleted, 1, error)){
            checkError();
            return;
        }

        // Disable Person edit and delete buttons
        disableEditDeleteTypeButtons();

        // Status bar update
        ui->statusBar->showMessage(statusBarMessage, constants::STATUSBAR_MESSAGE_TIME);

        // Re-display
        checkTypeSearch();
        displayMachinesTable();
        displayConnectionsTable();
    }
}
Пример #26
0
void PainterThread::drawAttrib(QPainter *p, Attributes *attrib)
{
    if (attrib->getType() == TObsAgent)
        return;

    //---- Desenha o atributo
    p->begin(attrib->getImage());

    p->setPen(Qt::NoPen); //defaultPen);

	//@RAIAN: Desenhando a vizinhanca
	if(attrib->getType() == TObsNeighborhood)
	{
		QColor color(Qt::white);
                QVector<QMap<QString, QList<double> > > *neighborhoods = attrib->getNeighValues();
		QVector<ObsLegend> *vecLegend = attrib->getLegend();

		QPen pen = p->pen();
		pen.setStyle(Qt::SolidLine);
		pen.setWidth(attrib->getWidth());

		// int random = rand() % 256;
		double xCell = -1.0, yCell = -1.0;

		for(int pos = 0; pos < neighborhoods->size(); pos++)
		{
            QMap<QString, QList<double> > neigh = neighborhoods->at(pos);
			
			xCell = attrib->getXsValue()->at(pos);
			yCell = attrib->getYsValue()->at(pos);

			if((xCell >= 0) && (yCell >=0))
			{
                QMap<QString, QList<double> >::Iterator itNeigh = neigh.begin();

				while(itNeigh != neigh.end())
				{
					QString neighID = itNeigh.key();
					QList<double> neighbor = itNeigh.value();

					double xNeigh = neighbor.at(0);
					double yNeigh = neighbor.at(1);
					double weight = neighbor.at(2);

					if(vecLegend->isEmpty())
					{
						weight = weight - attrib->getMinValue();
						double c = weight * attrib->getVal2Color();
						if(c >= 0 && c <= 255)
						{
							color.setRgb(c, c, c);
						}
						else
						{
							if( !reconfigMaxMin )
							{
								printf("C++ - Min value: %f\n", attrib->getMinValue());
								printf("C++ - Max value: %f\n", attrib->getMaxValue());
								printf("C++ - c value: %f\n", c);

								qWarning("Warning: Invalid color. You need to reconfigure the maximum "
									"and the minimum values of the \"%s\".", 
									qPrintable(attrib->getName()) );

								reconfigMaxMin = true;
							}
							color.setRgb(255, 255, 255);
						}

						pen.setColor(color);
					}
					else
					{
						for(int j = 0; j < vecLegend->size(); j++)
						{
							ObsLegend leg = vecLegend->at(j);
							if(attrib->getGroupMode() == 3)
							{
								if(weight == leg.getTo().toDouble())
								{
									pen.setColor(leg.getColor());
									break;
								}
							}
							else
							{
								if((leg.getFrom().toDouble() <= weight) && (weight < leg.getTo().toDouble()))
								{
									pen.setColor(leg.getColor());
									break;
								}
							}
						}
					}
					p->setPen(pen);

					if((xNeigh >= 0) && (yNeigh >= 0))
					{
						drawNeighborhood(p, xCell, yCell, xNeigh, yNeigh);
					}

					itNeigh++;
				}
			}
		}
	}
	//@RAIAN: FIM
	else
	{
		if (attrib->getDataType() == TObsNumber)
		{
			QColor color(Qt::white);
			QVector<double> *values = attrib->getNumericValues();
			QVector<ObsLegend> *vecLegend = attrib->getLegend();

			double x = -1.0, y = -1.0, v = 0.0;

#ifdef DEBUG_OBSERVER		
			// if (attrib->getType() != TObsCell)
			{
				qDebug() << "\n----TObsNumber\nattrib->getXsValue()->size(): " << attrib->getXsValue()->size();
				qDebug() << "values->size(): " << values->size() << "\n----\n";
			}
#endif

			int vSize = values->size();
			int xSize = attrib->getXsValue()->size();
			int ySize = attrib->getYsValue()->size();

			for(int pos = 0; (pos < vSize && pos < xSize && pos < ySize); pos++)
			{
				v = values->at(pos);

				// Corrige o bug gerando quando um agente morre
				if (attrib->getXsValue()->isEmpty() || attrib->getXsValue()->size() == pos)
					break;

				x = attrib->getXsValue()->at(pos);
				y = attrib->getYsValue()->at(pos);

				if (vecLegend->isEmpty())
				{
					v = v - attrib->getMinValue();

					double c = v * attrib->getVal2Color();
					if ((c >= 0) && (c <= 255))
					{
						color.setRgb(c, c, c);
					}
					else
					{
						if (! reconfigMaxMin)
						{
							if (! QUIET_MODE )
								qWarning("Warning: Invalid color. You need to reconfigure the "
										 "maximum and the minimum values of the attribute \"%s\".",
										 qPrintable(attrib->getName()) );

							reconfigMaxMin = true;
						}
						color.setRgb(255, 255, 255);
					}
					p->setBrush(color);
				}
				else
				{
					for(int j = 0; j < vecLegend->size(); j++)
					{
						p->setBrush(Qt::white);

						const ObsLegend &leg = vecLegend->at(j);
						if (attrib->getGroupMode() == TObsUniqueValue) // valor único 3
						{
							if (v == leg.getToNumber())
							{
								p->setBrush(leg.getColor());
								break;
							}
						}
						else
						{
							if ((leg.getFromNumber() <= v) && (v < leg.getToNumber()))
							{
								p->setBrush(leg.getColor());
								break;
							}
						}
					}
				}
				if ((x >= 0) && ( y >= 0))
					draw(p, attrib->getType(), x, y);
			}
		}
		else if (attrib->getDataType() == TObsText)
		{
			QVector<QString> *values = attrib->getTextValues();
			QVector<ObsLegend> *vecLegend = attrib->getLegend();

#ifdef DEBUG_OBSERVER		
			if (attrib->getType() != TObsCell)
			{
				qDebug() << "\n----TObsNumber\nattrib->getXsValue()->size(): " << attrib->getXsValue()->size();
				qDebug() << "values->size(): " << values->size() << "\n----\n";
			}
#endif

			int random = rand() % 256;
			double x = -1.0, y = -1.0;

			int vSize = values->size();
			int xSize = attrib->getXsValue()->size();
			int ySize = attrib->getYsValue()->size();

			for (int pos = 0; (pos < vSize && pos < xSize && pos < ySize); pos++)
			{
				const QString & v = values->at(pos);

				// Corrige o bug gerando quando um agente morre
				if (attrib->getXsValue()->isEmpty() || attrib->getXsValue()->size() == pos)
					break;

				x = attrib->getXsValue()->at(pos);
				y = attrib->getYsValue()->at(pos);

				if (vecLegend->isEmpty())
				{
					p->setBrush(QColor(random, random, random));
				}
				else
				{
					p->setBrush(Qt::white);
					for(int j = 0; j < vecLegend->size(); j++)
					{
						const ObsLegend &leg = vecLegend->at(j);
						if (v == leg.getFrom())
						{
							p->setBrush(leg.getColor());
							break;
						}
					}
				}

				if ((x >= 0) && ( y >= 0))
					draw(p, attrib->getType(), x, y);
			}
		}
	}
    p->end();
}
void QtWebEngineUrlRequestInterceptor::interceptRequest(QWebEngineUrlRequestInfo &request)
{
	if (!m_areImagesEnabled && request.resourceType() == QWebEngineUrlRequestInfo::ResourceTypeImage)
	{
		request.block(true);

		return;
	}

	if (!m_contentBlockingProfiles.contains(request.firstPartyUrl().host()))
	{
		if (SettingsManager::getOption(SettingsManager::ContentBlocking_EnableContentBlockingOption, request.firstPartyUrl()).toBool())
		{
			m_contentBlockingProfiles[request.firstPartyUrl().host()] = ContentBlockingManager::getProfileList(SettingsManager::getOption(SettingsManager::ContentBlocking_ProfilesOption, request.firstPartyUrl()).toStringList());
		}
		else
		{
			m_contentBlockingProfiles[request.firstPartyUrl().host()] = QVector<int>();
		}
	}

	const QVector<int> contentBlockingProfiles(m_contentBlockingProfiles.value(request.firstPartyUrl().host()));

	if (contentBlockingProfiles.isEmpty())
	{
		const NetworkManagerFactory::DoNotTrackPolicy doNotTrackPolicy(NetworkManagerFactory::getDoNotTrackPolicy());

		if (doNotTrackPolicy != NetworkManagerFactory::SkipTrackPolicy)
		{
			request.setHttpHeader(QStringLiteral("DNT").toLatin1(), ((doNotTrackPolicy == NetworkManagerFactory::DoNotAllowToTrackPolicy) ? QStringLiteral("1") : QStringLiteral("0")).toLatin1());
		}

		return;
	}

	NetworkManager::ResourceType resourceType(NetworkManager::OtherType);
	bool storeBlockedUrl(true);

	switch (request.resourceType())
	{
		case QWebEngineUrlRequestInfo::ResourceTypeMainFrame:
			resourceType = NetworkManager::MainFrameType;

			break;
		case QWebEngineUrlRequestInfo::ResourceTypeSubFrame:
			resourceType = NetworkManager::SubFrameType;

			break;
		case QWebEngineUrlRequestInfo::ResourceTypeStylesheet:
			resourceType = NetworkManager::StyleSheetType;
			storeBlockedUrl = false;

			break;
		case QWebEngineUrlRequestInfo::ResourceTypeScript:
			resourceType = NetworkManager::ScriptType;
			storeBlockedUrl = false;

			break;
		case QWebEngineUrlRequestInfo::ResourceTypeImage:
			resourceType = NetworkManager::ImageType;

			break;
		case QWebEngineUrlRequestInfo::ResourceTypeObject:
		case QWebEngineUrlRequestInfo::ResourceTypeMedia:
			resourceType = NetworkManager::ObjectType;

			break;
#if QT_VERSION >= 0x050700
		case QWebEngineUrlRequestInfo::ResourceTypePluginResource:
			resourceType = NetworkManager::ObjectSubrequestType;
			storeBlockedUrl = false;

			break;
#endif
		case QWebEngineUrlRequestInfo::ResourceTypeXhr:
			resourceType = NetworkManager::XmlHttpRequestType;

			break;
		default:
			break;
	}

	const ContentBlockingManager::CheckResult result(ContentBlockingManager::checkUrl(contentBlockingProfiles, request.firstPartyUrl(), request.requestUrl(), resourceType));

	if (result.isBlocked)
	{
		if (storeBlockedUrl && !m_blockedElements.value(request.firstPartyUrl().host()).contains(request.requestUrl().url()))
		{
			m_blockedElements[request.firstPartyUrl().host()].append(request.requestUrl().url());
		}

		Console::addMessage(QCoreApplication::translate("main", "Request blocked with rule: %1").arg(result.rule), Console::NetworkCategory, Console::LogLevel, request.requestUrl().toString(), -1);

		request.block(true);
	}
}
Пример #28
0
void SongTest::testSearch1()
{
    Echonest::Song::SearchParams params;
    params.append( Echonest::Song::SearchParamData( Echonest::Song::Artist, QLatin1String("Modest Mouse") ) );
    params.append( Echonest::Song::SearchParamData( Echonest::Song::Title, QLatin1String("Float On") ) );
    params.append( Echonest::Song::SearchParamData( Echonest::Song::Results, 2 ) );

    QNetworkReply* reply = Echonest::Song::search( params, Echonest::SongInformation( Echonest::SongInformation::ArtistHotttnesss  | Echonest::SongInformation::ArtistLocation | Echonest::SongInformation::ArtistFamiliarity ) );
    qDebug() << "Test search:" << reply->url().toString();
    QEventLoop loop;
    loop.connect( reply, SIGNAL(finished()), SLOT(quit()) );
    loop.exec();

    QVector< Echonest::Song > songs = Echonest::Song::parseSearch( reply );
    qDebug() << songs << songs.size();
    QVERIFY( !songs.isEmpty() );
    for(int i = 0; i < songs.size(); i++) {
        Echonest::Song song = songs.value(i);
        QLatin1String title = QLatin1String( "float on" );
        QCOMPARE( song.title().toLower(), title );
        QCOMPARE( song.artistName().toLower(), QLatin1String( "modest mouse" ) );
        QVERIFY( !song.artistLocation().location.isEmpty() );
        QCOMPARE( song.hotttnesss(), -1. );
        qDebug() << song.hotttnesss() << song.artistHotttnesss() << song.artistFamiliarity() << song.artistLocation();

        // now fetch some more info and make sure everything is still sane
        QNetworkReply* moreInfo = song.fetchInformation( Echonest::SongInformation( Echonest::SongInformation::Hotttnesss ) );
        QEventLoop loop;
        loop.connect( moreInfo, SIGNAL(finished()), SLOT(quit()) );
        loop.exec();
        song.parseInformation( moreInfo );

        QCOMPARE( song.title().toLower(), title );
        QCOMPARE( song.artistName().toLower(), QLatin1String( "modest mouse" ) );
        QVERIFY( !song.artistLocation().location.isEmpty() );
        // make sure we got the new info
        QVERIFY( song.hotttnesss() != -1 );

    }

    params.clear();
    params.append( Echonest::Song::SearchParamData( Echonest::Song::Artist, QLatin1String("The Tallest Man On Earth") ) );
    params.append( Echonest::Song::SearchParamData( Echonest::Song::Title, QLatin1String("The King of Spain") ) );
    params.append( Echonest::Song::SearchParamData( Echonest::Song::Results, 3 ) );

    Echonest::SongInformation info( Echonest::SongInformation( Echonest::SongInformation::AudioSummaryInformation | Echonest::SongInformation::Tracks | Echonest::SongInformation::Hotttnesss ) );
    info.setIdSpaces( QStringList() << QLatin1String( "musicbrainz" ) << QLatin1String( "playme" ) );
    reply = Echonest::Song::search( params, info);
    qDebug() << "QUERY:" << reply->url().toString();
    loop.connect( reply, SIGNAL(finished()), SLOT(quit()) );
    loop.exec();

    songs = Echonest::Song::parseSearch( reply );
    qDebug() << songs << songs.size();
    foreach( const Echonest::Song& song, songs ) {
//         qDebug() << "SONG  TRACKS:" << song.tracks();
        foreach( const Echonest::Track& track, song.tracks() ) {
//             qDebug() << track.catalog() << track.foreignId();
            QVERIFY( !track.catalog().isEmpty() );
            QVERIFY( !track.foreignId().isEmpty() );
        }
    }
void QmlProfilerEventsModelProxy::loadData(qint64 rangeStart, qint64 rangeEnd)
{
    clear();

    qint64 qmlTime = 0;
    qint64 lastEndTime = 0;
    QHash <QString, QVector<qint64> > durations;

    const bool checkRanges = (rangeStart != -1) && (rangeEnd != -1);

    const QVector<QmlProfilerDataModel::QmlEventData> eventList
            = d->modelManager->qmlModel()->getEvents();

    // used by binding loop detection
    typedef QPair<QString, const QmlProfilerDataModel::QmlEventData*> CallStackEntry;
    QStack<CallStackEntry> callStack;
    callStack.push(CallStackEntry(QString(), 0)); // artificial root

    for (int i = 0; i < eventList.size(); ++i) {
        const QmlProfilerDataModel::QmlEventData *event = &eventList[i];

        if (!d->acceptedTypes.contains((QmlDebug::QmlEventType)event->eventType))
            continue;

        if (checkRanges) {
            if ((event->startTime + event->duration < rangeStart)
                    || (event->startTime > rangeEnd))
                continue;
        }

        // put event in hash
        QString hash = QmlProfilerDataModel::getHashString(*event);
        if (!d->data.contains(hash)) {
            QmlEventStats stats = {
                event->displayName,
                hash,
                event->data.join(QLatin1String(" ")),
                event->location,
                event->eventType,
                event->bindingType,
                event->duration,
                1, //calls
                event->duration, //minTime
                event->duration, // maxTime
                0, //timePerCall
                0, //percentOfTime
                0, //medianTime
                false //isBindingLoop
            };

            d->data.insert(hash, stats);

            // for median computing
            durations.insert(hash, QVector<qint64>());
            durations[hash].append(event->duration);
        } else {
            // update stats
            QmlEventStats *stats = &d->data[hash];

            stats->duration += event->duration;
            if (event->duration < stats->minTime)
                stats->minTime = event->duration;
            if (event->duration > stats->maxTime)
                stats->maxTime = event->duration;
            stats->calls++;

            // for median computing
            durations[hash].append(event->duration);
        }

        // qml time computation
        if (event->startTime > lastEndTime) { // assume parent event if starts before last end
            qmlTime += event->duration;
            lastEndTime = event->startTime + event->duration;
        }


        //
        // binding loop detection
        //
        const QmlProfilerDataModel::QmlEventData *potentialParent = callStack.top().second;
        while (potentialParent
               && !(potentialParent->startTime + potentialParent->duration > event->startTime)) {
            callStack.pop();
            potentialParent = callStack.top().second;
        }

        // check whether event is already in stack
        bool inLoop = false;
        for (int ii = 1; ii < callStack.size(); ++ii) {
            if (callStack.at(ii).first == hash)
                inLoop = true;
            if (inLoop)
                d->eventsInBindingLoop.insert(hash);
        }


        CallStackEntry newEntry(hash, event);
        callStack.push(newEntry);

        d->modelManager->modelProxyCountUpdated(d->modelId, i, eventList.count()*2);
    }

    // post-process: calc mean time, median time, percentoftime
    int i = d->data.size();
    int total = i * 2;
    foreach (const QString &hash, d->data.keys()) {
        QmlEventStats* stats = &d->data[hash];
        if (stats->calls > 0)
            stats->timePerCall = stats->duration / (double)stats->calls;

        QVector<qint64> eventDurations = durations.value(hash);
        if (!eventDurations.isEmpty()) {
            qSort(eventDurations);
            stats->medianTime = eventDurations.at(eventDurations.count()/2);
        }

        stats->percentOfTime = stats->duration * 100.0 / qmlTime;
        d->modelManager->modelProxyCountUpdated(d->modelId, i++, total);
    }

    // set binding loop flag
    foreach (const QString &eventHash, d->eventsInBindingLoop)
        d->data[eventHash].isBindingLoop = true;

    QString rootEventName = tr("<program>");
    QmlDebug::QmlEventLocation rootEventLocation(rootEventName, 1, 1);

    // insert root event
    QmlEventStats rootEvent = {
        rootEventName, //event.displayName,
        rootEventName, // hash
        tr("Main Program"), //event.details,
        rootEventLocation, // location
        (int)QmlDebug::Binding, // event type
        0, // binding type
        qmlTime + 1,
        1, //calls
        qmlTime + 1, //minTime
        qmlTime + 1, // maxTime
        qmlTime + 1, //timePerCall
        100.0, //percentOfTime
        qmlTime + 1, //medianTime;
        false
    };

    d->data.insert(rootEventName, rootEvent);

    d->modelManager->modelProxyCountUpdated(d->modelId, 1, 1);
    emit dataAvailable();
}
Пример #30
0
/*!
    \fn void QTextTable::insertColumns(int index, int columns)

    Inserts a number of \a columns before the column with the specified \a index.

    \sa insertRows(), resize(), removeRows(), removeColumns(), appendRows(), appendColumns()
*/
void QTextTable::insertColumns(int pos, int num)
{
    Q_D(QTextTable);
    if (num <= 0)
        return;

    if (d->dirty)
        d->update();

    if (pos > d->nCols || pos < 0)
        pos = d->nCols;

//     qDebug() << "-------- insertCols" << pos << num;
    QTextDocumentPrivate *p = d->pieceTable;
    QTextFormatCollection *c = p->formatCollection();
    p->beginEditBlock();

    QList<int> extendedSpans;
    for (int i = 0; i < d->nRows; ++i) {
        int cell;
        if (i == d->nRows - 1 && pos == d->nCols) {
            cell = d->fragment_end;
        } else {
            int logicalGridIndexBeforePosition = pos > 0
                                                 ? d->findCellIndex(d->grid[i*d->nCols + pos - 1])
                                                 : -1;

            // Search for the logical insertion point by skipping past cells which are not the first
            // cell in a rowspan. This means any cell for which the logical grid index is
            // less than the logical cell index of the cell before the insertion.
            int logicalGridIndex;
            int gridArrayOffset = i*d->nCols + pos;
            do {
                cell = d->grid[gridArrayOffset];
                logicalGridIndex = d->findCellIndex(cell);
                gridArrayOffset++;
            } while (logicalGridIndex < logicalGridIndexBeforePosition
                     && gridArrayOffset < d->nRows*d->nCols);

            if (logicalGridIndex < logicalGridIndexBeforePosition
                && gridArrayOffset == d->nRows*d->nCols)
                cell = d->fragment_end;
        }

        if (pos > 0 && pos < d->nCols && cell == d->grid[i*d->nCols + pos - 1]) {
            // cell spans the insertion place, extend it
            if (!extendedSpans.contains(cell)) {
                QTextDocumentPrivate::FragmentIterator it(&p->fragmentMap(), cell);
                QTextCharFormat fmt = c->charFormat(it->format);
                fmt.setTableCellColumnSpan(fmt.tableCellColumnSpan() + num);
                p->setCharFormat(it.position(), 1, fmt);
                d->dirty = true;
                extendedSpans << cell;
            }
        } else {
            /* If the next cell is spanned from the row above, we need to find the right position
            to insert to */
            if (i > 0 && pos < d->nCols && cell == d->grid[(i-1) * d->nCols + pos]) {
                int gridIndex = i*d->nCols + pos;
                const int gridEnd = d->nRows * d->nCols - 1;
                while (gridIndex < gridEnd && cell == d->grid[gridIndex]) {
                    ++gridIndex;
                }
                if (gridIndex == gridEnd)
                    cell = d->fragment_end;
                else
                    cell = d->grid[gridIndex];
            }
            QTextDocumentPrivate::FragmentIterator it(&p->fragmentMap(), cell);
            QTextCharFormat fmt = c->charFormat(it->format);
            fmt.setTableCellRowSpan(1);
            fmt.setTableCellColumnSpan(1);
            Q_ASSERT(fmt.objectIndex() == objectIndex());
            int position = it.position();
            int cfmt = p->formatCollection()->indexForFormat(fmt);
            int bfmt = p->formatCollection()->indexForFormat(QTextBlockFormat());
            for (int i = 0; i < num; ++i)
                p->insertBlock(QTextBeginningOfFrame, position, bfmt, cfmt, QTextUndoCommand::MoveCursor);
        }
    }

    QTextTableFormat tfmt = format();
    tfmt.setColumns(tfmt.columns()+num);
    QVector<QTextLength> columnWidths = tfmt.columnWidthConstraints();
    if (! columnWidths.isEmpty()) {
        for (int i = num; i > 0; --i)
            columnWidths.insert(pos, columnWidths[qMax(0, pos-1)]);
    }
    tfmt.setColumnWidthConstraints (columnWidths);
    QTextObject::setFormat(tfmt);

//     qDebug() << "-------- end insertCols" << pos << num;
    p->endEditBlock();
}