void GestureEngine::updateTouchPoint(QTouchEvent::TouchPoint e)
{
    gwc::touchpoint updated_point;
    updated_point.init(e.id(), e.pos().x() / 1920, e.pos().y()/ 1080, 0, 1, 1);
    updated_point.status = gwc::TOUCHUPDATE;
    addEvent(updated_point);
}
bool QtPinchGestureRecognizer::update(const QTouchEvent::TouchPoint& point1, const QTouchEvent::TouchPoint& point2)
{
    const qreal currentFingerDistance = QLineF(point1.screenPos(), point2.screenPos()).length();
    switch (m_state) {
    case NoGesture:
        m_initialFingerDistance = currentFingerDistance;
        m_state = GestureRecognitionStarted;
        return false;
    case GestureRecognitionStarted: {
        const qreal pinchDistance = qAbs(currentFingerDistance - m_initialFingerDistance);
        if (pinchDistance < pinchInitialTriggerDistanceThreshold)
            return false;
        m_state = GestureRecognized;
        if (viewportController())
            viewportController()->pinchGestureStarted(computePinchCenter(point1, point2));

        // We reset the initial span distance to the current distance of the
        // touch points in order to avoid the jump caused by the events which
        // were skipped between the recognition start and the actual recognition.
        m_initialFingerDistance = currentFingerDistance;

        // fall through
    }
    case GestureRecognized:
        const qreal totalScaleFactor = currentFingerDistance / m_initialFingerDistance;
        const QPointF touchCenterInViewCoordinates = computePinchCenter(point1, point2);
        if (viewportController())
            viewportController()->pinchGestureRequestUpdate(touchCenterInViewCoordinates, totalScaleFactor);
        return true;
        break;
    }

    ASSERT_NOT_REACHED();
    return false;
}
bool PuzzleBoardItem::sceneEvent(QEvent *event)
{
    if (event->type() == QEvent::TouchBegin || event->type() == QEvent::TouchUpdate || event->type() == QEvent::TouchEnd)
    {
        QTouchEvent *te = static_cast<QTouchEvent*>(event);

        if (te->touchPoints().count() == 1)
        {
            QTouchEvent::TouchPoint tp = te->touchPoints().first();
            QPointF diff = tp.screenPos() - this->game()->rotationGuideCoordinates();
            if (abs(diff.x()) < 32 && abs(diff.y()) < 32)
            {
                event->ignore();
                return false;
            }
        }

        event->accept();
        _game->handleTouchEvent(te);
        if (!_autoRepainter->isActive())
            update();
        return true;
    }

    return QDeclarativeItem::sceneEvent(event);
}
void GestureEngine::removeTouchPoint(QTouchEvent::TouchPoint e)
{
    gwc::touchpoint removed_point;
    removed_point.init(e.id(), e.pos().x() / 1920, e.pos().y()/ 1080, 0, 1, 1);
    removed_point.status = gwc::TOUCHREMOVED;
    addEvent(removed_point);
}
Example #5
0
bool QtPanGestureRecognizer::update(const QTouchEvent::TouchPoint& touchPoint, qint64 eventTimestampMillis)
{
    if (!viewportHandler())
        return false;

    m_lastPosition = touchPoint.pos();
    m_lastEventTimestampMillis = eventTimestampMillis;

    switch (m_state) {
    case NoGesture:
        m_state = GestureRecognitionStarted;
        m_firstScreenPosition = touchPoint.screenPos();
        viewportHandler()->cancelScrollAnimation();
        return false;
    case GestureRecognitionStarted: {
        // To start the gesture, the delta from start in screen coordinates
        // must be bigger than the trigger threshold.
        QPointF totalOffsetFromStart(touchPoint.screenPos() - m_firstScreenPosition);
        if (qAbs(totalOffsetFromStart.x()) < panningInitialTriggerDistanceThreshold && qAbs(totalOffsetFromStart.y()) < panningInitialTriggerDistanceThreshold)
            return false;

        m_state = GestureRecognized;
        viewportHandler()->panGestureStarted(touchPoint.pos(), eventTimestampMillis);
        return true;
    }
    case GestureRecognized:
        viewportHandler()->panGestureRequestUpdate(touchPoint.pos(), eventTimestampMillis);
        return true;
    default:
        ASSERT_NOT_REACHED();
    }
    return false;
}
void GestureEngine::addTouchPoint(QTouchEvent::TouchPoint e)
{
    gwc::touchpoint new_point;
    new_point.init(e.id(), e.pos().x() / 1920, e.pos().y() / 1080, 0, 1920, 1080);
    new_point.status = gwc::TOUCHADDED;
    addEvent(new_point);

    qDebug() << "Added to Gestureworks";
}
Example #7
0
bool TreeViewTouch::event(QEvent *event) {
#if QT_VERSION >= 0x050000
    if (event->type() == QEvent::TouchBegin && ((QTouchEvent*)event)->device()->type()==QTouchDevice::TouchScreen) {
#else
    if (event->type() == QEvent::TouchBegin && ((QTouchEvent*)event)->deviceType()==QTouchEvent::TouchScreen) {
#endif
        // Register that we may be scrolling, set the scroll mode to scroll-per-pixel
        // and accept the event (return true) so that we will receive TouchUpdate and TouchEnd/TouchCancel
        _touchScrollInProgress = true;
        setVerticalScrollMode(QAbstractItemView::ScrollPerPixel);
        return true;
    }

    if (event->type() == QEvent::TouchUpdate && _touchScrollInProgress) {
        QTouchEvent::TouchPoint p = ((QTouchEvent*)event)->touchPoints().at(0);
        if (!_firstTouchUpdateHappened) {
            // After the first movement of a Touch-Point, calculate the distance in both axis
            // and if the point moved more horizontally abort scroll.
            double dx = qAbs(p.lastPos().x() - p.pos().x());
            double dy = qAbs(p.lastPos().y() - p.pos().y());
            if (dx > dy) {
                _touchScrollInProgress = false;
            }
            _firstTouchUpdateHappened = true;
        }
        // Apply touch movement to scrollbar
        verticalScrollBar()->setValue(verticalScrollBar()->value() - (p.pos().y() - p.lastPos().y()));
        return true;
    }

#if QT_VERSION >= 0x050000
    if (event->type() == QEvent::TouchEnd || event->type() == QEvent::TouchCancel) {
#else
    if (event->type() == QEvent::TouchEnd) {
#endif
        // End scroll and reset variables
        _touchScrollInProgress = false;
        _firstTouchUpdateHappened = false;
        return true;
    }

    return QTreeView::event(event);
}


void TreeViewTouch::mousePressEvent(QMouseEvent *event) {
    if (!_touchScrollInProgress)
        QTreeView::mousePressEvent(event);
}


void TreeViewTouch::mouseMoveEvent(QMouseEvent *event) {
    if (!_touchScrollInProgress)
        QTreeView::mouseMoveEvent(event);
};
Example #8
0
void MainGraphicsView::processTouchEvent(QTouchEvent *touchEvent) {
    QList<QTouchEvent::TouchPoint> touchPoints = touchEvent->touchPoints();
    //qDebug("touch event %d count %d", event->type(), touchPoints.count());
    if( touchPoints.count() > 1 ) {
        this->has_kinetic_scroll = false;
        this->single_left_mouse_down = false;
        // can't trust last mouse position if more that one touch!
        this->has_last_mouse = false;
    }
#if QT_VERSION >= 0x050000
#ifdef Q_OS_ANDROID
    // on Android with Qt 5, mouse events are never received, instead it's done purely via touch events
    if( touchPoints.count() == 1 ) {
        QTouchEvent::TouchPoint touchPoint = touchPoints.at(0);
        int m_x = touchPoint.pos().x();
        int m_y = touchPoint.pos().y();
        if( touchEvent->type() == QEvent::TouchBegin ) {
            this->mousePress(m_x, m_y);
        }
        else if( touchEvent->type() == QEvent::TouchEnd ) {
            this->mouseRelease(m_x, m_y);
        }
        else if( touchEvent->type() == QEvent::TouchUpdate ) {
            this->mouseMove(m_x, m_y);
        }
    }
#endif
#endif
    if( touchPoints.count() == 2 ) {
        // determine scale factor
        const QTouchEvent::TouchPoint &touchPoint0 = touchPoints.first();
        const QTouchEvent::TouchPoint &touchPoint1 = touchPoints.last();
        /*float scale_factor =
                QLineF(touchPoint0.pos(), touchPoint1.pos()).length()
                / QLineF(touchPoint0.startPos(), touchPoint1.startPos()).length();*/
        QPointF touch_centre = (touchPoint0.pos() + touchPoint1.pos())*0.5;
        QPointF zoom_centre = this->mapToScene(QPoint(touch_centre.x(), touch_centre.y()));
        float scale_factor =
                QLineF(touchPoint0.pos(), touchPoint1.pos()).length()
                / QLineF(touchPoint0.lastPos(), touchPoint1.lastPos()).length();
        /*if (touchEvent->touchPointStates() & Qt::TouchPointReleased) {
            // if one of the fingers is released, remember the current scale
            // factor so that adding another finger later will continue zooming
            // by adding new scale factor to the existing remembered value.
            totalScaleFactor *= currentScaleFactor;
            currentScaleFactor = 1;
        }*/
        /*setTransform(QTransform().scale(totalScaleFactor * currentScaleFactor,
                                        totalScaleFactor * currentScaleFactor));*/
        float n_scale = c_scale *scale_factor;
        //LOG("multitouch scale: %f : %f\n", scale_factor, n_scale);
        this->setScale(zoom_centre, n_scale);
    }
}
void QtWebPageEventHandler::activateTapHighlight(const QTouchEvent::TouchPoint& point)
{
#if ENABLE(TOUCH_EVENTS)
    ASSERT(!point.pos().toPoint().isNull());
    ASSERT(!m_isTapHighlightActive);
    m_isTapHighlightActive = true;
    QTransform fromItemTransform = m_webPage->transformFromItem();
    m_webPageProxy->handlePotentialActivation(IntPoint(fromItemTransform.map(point.pos()).toPoint()), IntSize(point.rect().size().toSize()));
#else
    Q_UNUSED(point);
#endif
}
WebGestureEvent WebEventFactory::createWebGestureEvent(const QTouchEvent::TouchPoint& point, const WebEvent::Type& gestureType, const QTransform& fromItemTransform)
{
    WebEvent::Type type             = gestureType;
    IntPoint position               = fromItemTransform.map(point.pos()).toPoint();
    IntPoint screenPosition         = point.screenPos().toPoint();
    WebEvent::Modifiers modifiers   = WebEvent::Modifiers(0);
    double timestamp                = 0;
    IntSize area                    = IntSize(point.rect().size().toSize());
    FloatPoint delta                = FloatPoint(0, 0);

    return WebGestureEvent(type, position, screenPosition, modifiers, timestamp, area, delta);
}
QGestureRecognizer::Result
WebosTapAndHoldGestureRecognizer::recognize(QGesture *state, QObject *object,
                                        QEvent *event)
{
    QGestureRecognizer::Result result = QGestureRecognizer::CancelGesture;
    WebosTapAndHoldGesture *q = static_cast<WebosTapAndHoldGesture *>(state);

    if (object == state && event->type() == QEvent::Timer) {
        q->stopTapTimer();
        if (q->state() != Qt::NoGesture && q->state() != Qt::GestureCanceled) {
            result = QGestureRecognizer::FinishGesture;
        }
        return result | QGestureRecognizer::ConsumeEventHint;
    }

    const QTouchEvent *ev = static_cast<const QTouchEvent *>(event);

    //Todo Here use a const value to set up the timer interval but maybe need to use the Timeout value
    //enum { TimerInterval = 700 };
    enum { TapRadius = 40 };
    switch (event->type()) {
    case QEvent::TouchBegin:
        q->setPosition(ev->touchPoints().at(0).startScreenPos());
        q->setHotSpot(q->position());
        q->stopTapTimer();
        q->startTapTimer();
        return QGestureRecognizer::TriggerGesture;
    case QEvent::TouchEnd:
        result = QGestureRecognizer::CancelGesture;
        q->stopTapTimer();
        break;
    case QEvent::TouchUpdate:
        if (q->tapTimerId() && ev->touchPoints().size() == 1) {
            QTouchEvent::TouchPoint p = ev->touchPoints().at(0);
            QPoint delta = p.pos().toPoint() - p.startPos().toPoint();
            if (delta.manhattanLength() > TapRadius) {
                result = QGestureRecognizer::CancelGesture;
                q->stopTapTimer();
            } else {
                result = QGestureRecognizer::Ignore;
            }
        } else if (ev->touchPoints().size() > 1) {
            result = QGestureRecognizer::CancelGesture;
            q->stopTapTimer();
        } else {
            result = QGestureRecognizer::Ignore;
        }
        break;
    default:
        return QGestureRecognizer::Ignore;
    }
    return result;
}
QGestureRecognizer::Result
QTapAndHoldGestureRecognizer::recognize(QGesture *state, QObject *object,
                                        QEvent *event)
{
    QTapAndHoldGesture *q = static_cast<QTapAndHoldGesture *>(state);
    QTapAndHoldGesturePrivate *d = q->d_func();

    if (object == state && event->type() == QEvent::Timer) {
        q->killTimer(d->timerId);
        d->timerId = 0;
        return QGestureRecognizer::Ignore | QGestureRecognizer::ConsumeEventHint;
    }

    const QTouchEvent *ev = static_cast<const QTouchEvent *>(event);

    QGestureRecognizer::Result result = QGestureRecognizer::CancelGesture;

    enum { TimerInterval = 2000 };
    enum { TapRadius = 40 };

    switch (event->type()) {
    case QEvent::TouchBegin:
        d->position = ev->touchPoints().at(0).pos();
        if (d->timerId)
            q->killTimer(d->timerId);
        d->timerId = q->startTimer(TimerInterval);
        result = QGestureRecognizer::TriggerGesture;
        break;
    case QEvent::TouchEnd:
        if (d->timerId)
            result = QGestureRecognizer::CancelGesture;
        else
            result = QGestureRecognizer::FinishGesture;
        break;
    case QEvent::TouchUpdate:
        if (q->state() != Qt::NoGesture && ev->touchPoints().size() == 1) {
            QTouchEvent::TouchPoint p = ev->touchPoints().at(0);
            QPoint delta = p.pos().toPoint() - p.startPos().toPoint();
            if (delta.manhattanLength() <= TapRadius)
                result = QGestureRecognizer::TriggerGesture;
        }
        break;
    case QEvent::MouseButtonPress:
    case QEvent::MouseMove:
    case QEvent::MouseButtonRelease:
        result = QGestureRecognizer::Ignore;
        break;
    default:
        result = QGestureRecognizer::Ignore;
        break;
    }
    return result;
}
Example #13
0
QDebug operator<<(QDebug dbg, const QTouchEvent::TouchPoint &s)
{
	dbg.nospace() << "\"TouchPoint\":"
			<< "{ \"id\":" << s.id()
#if (QT_VERSION < QT_VERSION_CHECK(5, 0, 0))
			<< ", \"primary\":\"" << (s.isPrimary() ? "true" : "false") << "\""
#endif
			<< ", \"state\":" << touchStateToString(s.state())
			<< ", \"pos\":\"" << s.pos() << "\""
			<< ", \"pressure\":\"" << s.pressure() << "\""
			<< " }";
	return dbg.space();
}
Example #14
0
PlatformTouchPoint::PlatformTouchPoint(const QTouchEvent::TouchPoint& point)
{
    // The QTouchEvent::TouchPoint API states that ids will be >= 0.
    m_id = static_cast<unsigned>(point.id());
    switch (point.state()) {
    case Qt::TouchPointReleased: m_state = TouchReleased; break;
    case Qt::TouchPointMoved: m_state = TouchMoved; break;
    case Qt::TouchPointPressed: m_state = TouchPressed; break;
    case Qt::TouchPointStationary: m_state = TouchStationary; break;
    }
    m_screenPos = point.screenPos().toPoint();
    m_pos = point.pos().toPoint();
}
Example #15
0
static QTouchEvent::TouchPoint touchPoint(qreal x, qreal y)
{
    QPointF localPos(x, y);

    QTouchEvent::TouchPoint point;
    point.setId(1);
    point.setLastPos(localPos);
    QRectF touchRect(0, 0, 40, 40);
    touchRect.moveCenter(localPos);
    point.setRect(touchRect);
    point.setPressure(1);

    return point;
}
Example #16
0
void QtWebPageEventHandler::handlePotentialSingleTapEvent(const QTouchEvent::TouchPoint& point)
{
#if ENABLE(TOUCH_EVENTS)
    if (point.pos() == QPointF()) {
        // An empty point deactivates the highlighting.
        m_webPageProxy->handlePotentialActivation(IntPoint(), IntSize());
    } else {
        QTransform fromItemTransform = m_webPage->transformFromItem();
        m_webPageProxy->handlePotentialActivation(IntPoint(fromItemTransform.map(point.pos()).toPoint()), IntSize(point.rect().size().toSize()));
    }
#else
    Q_UNUSED(point);
#endif
}
Example #17
0
bool RenderableWebEntityItem::buildWebSurface(EntityTreeRenderer* renderer) {
    if (_currentWebCount >= MAX_CONCURRENT_WEB_VIEWS) {
        qWarning() << "Too many concurrent web views to create new view";
        return false;
    }
    qDebug() << "Building web surface";

    ++_currentWebCount;
    // Save the original GL context, because creating a QML surface will create a new context
    QOpenGLContext * currentContext = QOpenGLContext::currentContext();
    QSurface * currentSurface = currentContext->surface();
    _webSurface = new OffscreenQmlSurface();
    _webSurface->create(currentContext);
    _webSurface->setBaseUrl(QUrl::fromLocalFile(PathUtils::resourcesPath() + "/qml/controls/"));
    _webSurface->load("WebView.qml");
    _webSurface->resume();
    _webSurface->getRootItem()->setProperty("url", _sourceUrl);
    _webSurface->getRootContext()->setContextProperty("desktop", QVariant());
    _connection = QObject::connect(_webSurface, &OffscreenQmlSurface::textureUpdated, [&](GLuint textureId) {
        _texture = textureId;
    });
    // Restore the original GL context
    currentContext->makeCurrent(currentSurface);

    auto forwardPointerEvent = [=](const EntityItemID& entityItemID, const PointerEvent& event) {
        if (entityItemID == getID()) {
            handlePointerEvent(event);
        }
    };
    _mousePressConnection = QObject::connect(renderer, &EntityTreeRenderer::mousePressOnEntity, forwardPointerEvent);
    _mouseReleaseConnection = QObject::connect(renderer, &EntityTreeRenderer::mouseReleaseOnEntity, forwardPointerEvent);
    _mouseMoveConnection = QObject::connect(renderer, &EntityTreeRenderer::mouseMoveOnEntity, forwardPointerEvent);
    _hoverLeaveConnection = QObject::connect(renderer, &EntityTreeRenderer::hoverLeaveEntity, [=](const EntityItemID& entityItemID, const PointerEvent& event) {
        if (this->_pressed && this->getID() == entityItemID) {
            // If the user mouses off the entity while the button is down, simulate a touch end.
            QTouchEvent::TouchPoint point;
            point.setId(event.getID());
            point.setState(Qt::TouchPointReleased);
            glm::vec2 windowPos = event.getPos2D() * (METERS_TO_INCHES * _dpi);
            QPointF windowPoint(windowPos.x, windowPos.y);
            point.setPos(windowPoint);
            QList<QTouchEvent::TouchPoint> touchPoints;
            touchPoints.push_back(point);
            QTouchEvent* touchEvent = new QTouchEvent(QEvent::TouchEnd, nullptr, Qt::NoModifier, Qt::TouchPointReleased, touchPoints);
            QCoreApplication::postEvent(_webSurface->getWindow(), touchEvent);
        }
    });
    return true;
}
Example #18
0
void MScenePrivate::touchPointMirrorMousePosToPointStartPos(QTouchEvent::TouchPoint &point, const QGraphicsSceneMouseEvent *event)
{
    Q_Q(MScene);

    if (q->views().size() > 0) {
        QPointF windowPos(q->views().at(0)->pos());
        QSize resolution = MDeviceProfile::instance()->resolution();
        QPointF centerPoint(resolution.width() / 2, resolution.height() / 2);

        QPointF mirrorPoint = centerPoint + (centerPoint - event->screenPos() + windowPos);

        point.setStartPos(mirrorPoint);
        point.setStartScenePos(mirrorPoint);
        point.setStartScreenPos(mirrorPoint + windowPos);
    }
}
Example #19
0
void QtWebPageEventHandler::handleSingleTapEvent(const QTouchEvent::TouchPoint& point)
{
    m_postponeTextInputStateChanged = true;

    QTransform fromItemTransform = m_webPage->transformFromItem();
    WebGestureEvent gesture(WebEvent::GestureSingleTap, fromItemTransform.map(point.pos()).toPoint(), point.screenPos().toPoint(), WebEvent::Modifiers(0), 0, IntSize(point.rect().size().toSize()), FloatPoint(0, 0));
    m_webPageProxy->handleGestureEvent(gesture);
}
void QWindowSystemInterface::handleTouchEvent(QWidget *tlw, ulong timestamp, QEvent::Type type, QTouchEvent::DeviceType devType, const QList<struct TouchPoint> &points)
{
    if (!points.size()) // Touch events must have at least one point
        return;

    QList<QTouchEvent::TouchPoint> touchPoints;
    Qt::TouchPointStates states;
    QTouchEvent::TouchPoint p;

    QList<struct TouchPoint>::const_iterator point = points.constBegin();
    QList<struct TouchPoint>::const_iterator end = points.constEnd();
    while (point != end) {
        p.setId(point->id);
        p.setPressure(point->pressure);
        states |= point->state;
        Qt::TouchPointStates state = point->state;
        if (point->isPrimary) {
            state |= Qt::TouchPointPrimary;
        }
        p.setState(state);
        p.setRect(point->area);
        p.setScreenPos(point->area.center());
        p.setNormalizedPos(point->normalPosition);

        touchPoints.append(p);
        ++point;
    }

    QWindowSystemInterfacePrivate::TouchEvent *e =
            new QWindowSystemInterfacePrivate::TouchEvent(tlw, timestamp, type, devType, touchPoints);
    QWindowSystemInterfacePrivate::queueWindowSystemEvent(e);
}
void QtWebPageEventHandler::handleDoubleTapEvent(const QTouchEvent::TouchPoint& point)
{
    if (!m_webView->isInteractive())
        return;

    deactivateTapHighlight();
    QTransform fromItemTransform = m_webPage->transformFromItem();
    m_webPageProxy->findZoomableAreaForPoint(fromItemTransform.map(point.pos()).toPoint(), IntSize(point.rect().size().toSize()));
}
Example #22
0
void QtPanGestureRecognizer::finish(const QTouchEvent::TouchPoint& touchPoint, qint64 eventTimestampMillis)
{
    if (m_state == NoGesture)
        return;

    ASSERT(viewportHandler());
    viewportHandler()->panGestureEnded(touchPoint.pos(), eventTimestampMillis);
    reset();
}
QGestureRecognizer::Result QTapGestureRecognizer::recognize(QGesture *state,
                                                            QObject *,
                                                            QEvent *event)
{
    QTapGesture *q = static_cast<QTapGesture *>(state);
    QTapGesturePrivate *d = q->d_func();

    const QTouchEvent *ev = static_cast<const QTouchEvent *>(event);

    QGestureRecognizer::Result result = QGestureRecognizer::CancelGesture;

    switch (event->type()) {
    case QEvent::TouchBegin: {
        d->position = ev->touchPoints().at(0).pos();
        q->setHotSpot(ev->touchPoints().at(0).screenPos());
        result = QGestureRecognizer::TriggerGesture;
        break;
    }
    case QEvent::TouchUpdate:
    case QEvent::TouchEnd: {
        if (q->state() != Qt::NoGesture && ev->touchPoints().size() == 1) {
            QTouchEvent::TouchPoint p = ev->touchPoints().at(0);
            QPoint delta = p.pos().toPoint() - p.startPos().toPoint();
            enum { TapRadius = 40 };
            if (delta.manhattanLength() <= TapRadius) {
                if (event->type() == QEvent::TouchEnd)
                    result = QGestureRecognizer::FinishGesture;
                else
                    result = QGestureRecognizer::TriggerGesture;
            }
        }
        break;
    }
    case QEvent::MouseButtonPress:
    case QEvent::MouseMove:
    case QEvent::MouseButtonRelease:
        result = QGestureRecognizer::Ignore;
        break;
    default:
        result = QGestureRecognizer::Ignore;
        break;
    }
    return result;
}
Example #24
0
void TouchInputDevice::processTouch(QEvent *e)
{
	m_numPoints = 0;

	QTouchEvent *touchEvent = static_cast<QTouchEvent *>(e);
	QList<QTouchEvent::TouchPoint> points = touchEvent->touchPoints();

	for (int i = 0; i < points.size(); i++) {
		QTouchEvent::TouchPoint point = points.at(i);
		if (point.state() & Qt::TouchPointReleased)
			continue;

		m_points[m_numPoints] = point.pos().toPoint();
		m_numPoints++;
		if (m_numPoints >= MaxPoints)
			break;
	}

	m_converted = false;
}
Example #25
0
QTouchEvent::TouchPoint makeTouchPointFromMouseEvent(QMouseEvent *event, Qt::TouchPointState state)
{
    QTouchEvent::TouchPoint newPoint;

#if defined ( QT_4 )
    newPoint.setPos(event->posF());
    newPoint.setScenePos(event->globalPos());
    newPoint.setScreenPos(event->globalPos());
#elif defined ( QT_5 )
    newPoint.setPos(event->localPos());
    newPoint.setScenePos(event->windowPos());
    newPoint.setScreenPos(event->screenPos());
#endif

    newPoint.setState(state);
    newPoint.setId(0);
    return newPoint;
}
/*!
    \internal
*/
QTouchEvent::TouchPoint makeTouchPointFromMouseEvent(QMouseEvent *event, Qt::TouchPointState state)
{
    // this is only partially filled. But since it is only partially used it works
    // more robust would be to store a list of QPointFs rather than TouchPoints
    QTouchEvent::TouchPoint newPoint;
    newPoint.setPos(event->localPos());
    newPoint.setScenePos(event->windowPos());
    newPoint.setScreenPos(event->screenPos());
    newPoint.setState(state);
    newPoint.setId(0);
    return newPoint;
}
Example #27
0
bool gpsp4Qt::event(QEvent *event)
{
    switch (event->type())
    {
        case QEvent::TouchBegin:
        case QEvent::TouchUpdate:
        {
            QList<QTouchEvent::TouchPoint> touchPoints = (static_cast<QTouchEvent*>(event))->touchPoints();
            m_softKeys = 0;
            for ( int i = 0; i < touchPoints.length(); i++ )
            {
                QTouchEvent::TouchPoint tp = touchPoints[i];
                if ( tp.state() == Qt::TouchPointPressed || tp.state() == Qt::TouchPointMoved || tp.state() == Qt::TouchPointStationary)
                {
                    if ( tp.screenPos().x() < DPAD_WIDTH )
                    {
                        m_softKeys |= m_dpad->getGpspKeys(tp.screenPos().x(), tp.screenPos().y());
                    }
                    else if ( tp.screenPos().x() > BUTTON_LEFT_POS )
                    {
                        m_softKeys |= m_rightButtons->getGpspKeys(tp.screenPos().x() - BUTTON_LEFT_POS, tp.screenPos().y());
                    }
                }
            }

            event->accept();
            return true;
        }
        case QEvent::TouchEnd:
        {
            m_softKeys = 0;
            break;
        }
        case QEvent::FocusOut:
        {
            showAntSnesMenu();
        }
        default:
            break;
    }
    return QWidget::event(event);
}
PlatformTouchPoint::PlatformTouchPoint(const QTouchEvent::TouchPoint& point, State state)
    // The QTouchEvent::TouchPoint API states that ids will be >= 0.
    : m_id(point.id())
    , m_state(state)
    , m_screenPos(point.screenPos().toPoint())
    , m_pos(point.pos().toPoint())
{
    // Qt reports touch point size as rectangles, but we will pretend it is an oval.
    QRect touchRect = point.rect().toAlignedRect();
    if (touchRect.isValid()) {
        m_radiusX = point.rect().width() / 2;
        m_radiusY = point.rect().height() / 2;
    } else {
        // http://www.w3.org/TR/2011/WD-touch-events-20110505: 1 if no value is known.
        m_radiusX = 1;
        m_radiusY = 1;
    }
    m_force = point.pressure();
    // FIXME: Support m_rotationAngle if QTouchEvent at some point supports it.
}
bool ModelSelectionPane::eventFilter(QObject *obj, QEvent *event)
{
    bool flipAction = false;
    static float last_x = 0.0f;
    static float touchBeginLastX = 0.0f;

    int deltaX = 0;
    float acceleration = 0.0f;

    switch(event->type()) {
#if 0
    case QEvent::TouchBegin: {
        LogManagerInst << LogManager::LogDegreeType_Normal  << "TouchBegin";
        flipAction = true;
        m_time.start();
        const QTouchEvent *touchEvent = static_cast<const QTouchEvent *>(event);
        QTouchEvent::TouchPoint touchPoint = touchEvent->touchPoints().first();
        last_x = touchPoint.pos().x();
        touchBeginLastX = touchPoint.pos().x();
    }
        break;
    case QEvent::TouchUpdate: {
        LogManagerInst << LogManager::LogDegreeType_Normal  << "TouchUpdate";
        flipAction = true;
        const QTouchEvent *touchEvent = static_cast<const QTouchEvent *>(event);
        QTouchEvent::TouchPoint touchPoint = touchEvent->touchPoints().first();
        deltaX = touchPoint.pos().x() - last_x;
        last_x = touchPoint.pos().x();
    }
        break;

    case QEvent::TouchEnd: {
        LogManagerInst << LogManager::LogDegreeType_Normal  << "TouchEnd";
        flipAction = true;
        const QTouchEvent *touchEvent = static_cast<const QTouchEvent *>(event);
        QTouchEvent::TouchPoint touchPoint = touchEvent->touchPoints().first();
        int elapseTime = m_time.elapsed();
        LogManagerInst << LogManager::LogDegreeType_Normal  << "elapseTime" << QString::number(elapseTime);
        deltaX = touchPoint.pos().x() - last_x;
        acceleration = (touchPoint.pos().x() - touchBeginLastX) / elapseTime;
    }
        break;
#else

    case QEvent::MouseButtonPress: {
 //       LogManagerInst << LogManager::LogDegreeType_Normal  << "TouchBegin";
        flipAction = true;
        m_time.start();
        const QMouseEvent *mouseEvent = static_cast<const QMouseEvent *>(event);
        last_x = mouseEvent->x();
        touchBeginLastX = mouseEvent->x();
    }
        break;

    case QEvent::MouseMove: {
 //       LogManagerInst << LogManager::LogDegreeType_Normal  << "TouchUpdate";
        flipAction = true;
        const QMouseEvent *mouseEvent = static_cast<const QMouseEvent *>(event);
        deltaX = mouseEvent->x() - last_x;
        last_x = mouseEvent->x();
    }
        break;

    case QEvent::MouseButtonRelease: {
//        LogManagerInst << LogManager::LogDegreeType_Normal  << "TouchEnd";
        flipAction = true;
        int elapseTime = m_time.elapsed();
 //       LogManagerInst << LogManager::LogDegreeType_Normal  << "elapseTime" << QString::number(elapseTime);
        const QMouseEvent *mouseEvent = static_cast<const QMouseEvent *>(event);
        deltaX = mouseEvent->x() - last_x;
        acceleration = (mouseEvent->x() - touchBeginLastX) / elapseTime;
    }
        break;
#endif
    default:
        break;
    }

    if(flipAction) {
//        const QTouchEvent *touchEvent = static_cast<const QTouchEvent *>(event);
//        QTouchEvent::TouchPoint touchPoint = touchEvent->touchPoints().first();
//        LogManagerInst << LogManager::LogDegreeType_Normal << "FlipInfo"
 //                      << "deltaX" << QString::number(deltaX)
 //                      << "acceleration" << QString::number(acceleration);
  //                     << "TouchPostion" << QString::number(touchPoint.pos().x())
  //                     << "TouchPoints" << QString::number(touchEvent->touchPoints().size());

        if(acceleration != 0) {
            if((acceleration > 1) || (deltaX > width()/2)) {
                FlipAnimationStart(deltaX > 0 ? FlipDirection_Right : FlipDirection_Left);
            }
        } else {
   //         LogManagerInst << LogManager::LogDegreeType_Normal << "Position" << QString::number(ui->itemsetpane->x());
            QPoint targetPos = ui->itemsetpane->pos()+QPoint(deltaX,0);
            if(targetPos.x() > width()/4) {
                targetPos.setX(width()/4);
            } else if(targetPos.x() < width() - m_itemSetPaneSize.width() - width()/4) {
                targetPos.setX(width() - m_itemSetPaneSize.width() - width()/4);
            } else {

            }
            qDebug() << ui->itemsetpane->pos();
            ui->itemsetpane->move(targetPos);
    //        ui->itemsetpane->update();
    //        this->move(targetPos);
        }

    }

    return obj->event(event);
}
bool ModelSelectionPane::event(QEvent *event)
{
#if 0
    if(event->type() == QEvent::Gesture) {
        LogManagerInst << LogManager::LogDegreeType_Normal << "QEvent::Gesture";
        QGestureEvent* gestureEvent = static_cast<QGestureEvent*>(event);
        QGesture *gesture = gestureEvent->gesture(Qt::PanGesture);
        if(NULL == gestureEvent) {
            LogManagerInst << LogManager::LogDegreeType_Error << "QEvent::Gesture is NULL";
        }else {
            QList<QGesture *> gestures = gestureEvent->gestures();
            QList<QGesture *> activeGestures = gestureEvent->activeGestures();

            LogManagerInst << "Gesture Value" << QString::number((int)gesture, 16);

            LogManagerInst << LogManager::LogDegreeType_Normal << "Gesture Count" << QString::number(gestures.count()) << "activeGestures Count" << QString::number(activeGestures.count());
            LogManagerInst << LogManager::LogDegreeType_Normal
                << (gestureEvent->gesture(Qt::TapGesture) != NULL?"TapGesture":"")
                << (gestureEvent->gesture(Qt::TapAndHoldGesture) != NULL?"TapAndHoldGesture":"")
                << ((NULL != gesture)?"PanGesture":"")
                << (gestureEvent->gesture(Qt::PinchGesture) != NULL?"PinchGesture":"")
                << (gestureEvent->gesture(Qt::SwipeGesture) != NULL?"SwipeGesture":"") ;
        }

        LogManagerInst << (gesture == NULL?"PanGesture == NULL":"PanGesture != NULL");
        if(gesture != NULL) {
            LogManagerInst << LogManager::LogDegreeType_Normal << "Handle Pan Gesture";
            QPanGesture* panGesture = static_cast<QPanGesture*>(gesture);
            LogManagerInst << LogManager::LogDegreeType_Normal << "Acceleration" << QString::number(panGesture->acceleration());
            LogManagerInst << LogManager::LogDegreeType_Normal << "delta" << QString::number(panGesture->delta().x());
            LogManagerInst << LogManager::LogDegreeType_Normal << "State" << QString::number(gesture->state());
            if(gesture->state() == Qt::GestureFinished) {
                if((panGesture->acceleration() > 2) || (panGesture->delta().x() > width()/2)) {
                    FlipAnimationStart(panGesture->delta().x() > 0 ? FlipDirection_Right : FlipDirection_Left);
                }
            } else {
                LogManagerInst << LogManager::LogDegreeType_Normal << "Position" << QString::number(ui->itemsetpane->x());
                QPoint targetPos = ui->itemsetpane->pos()+QPoint(panGesture->delta().x(),0);
                if(targetPos.x() > width()/4) {
                    targetPos.setX(width()/4);
                } else if(targetPos.x() < width() - m_itemSetPaneSize.width() - width()/4) {
                    targetPos.setX(width() - m_itemSetPaneSize.width() - width()/4);
                } else {

                }
                ui->itemsetpane->move(targetPos);
            }
        }
    }
#endif

#if 1
    /*****
     * 外面是阴天,我也成了阴天
     * 狗屎的Gesture
     * Document明明图示QPanGesture是一个手指
     * 源码里却他妈的是3个
     * 你他妈的逗我么
     * 我就是个秀逗
     * 明天dota只能用秀逗了
     * 悲剧啊悲剧啊
     * 我的时间
     * 如同我的身体老去
     *****/

    bool flipAction = false;
    static float last_x = 0.0f;
    static float touchBeginLastX = 0.0f;

    int deltaX = 0;
    float acceleration = 0.0f;

    switch(event->type()) {
#if 1
    case QEvent::TouchBegin: {
        LogManagerInst << LogManager::LogDegreeType_Normal  << "TouchBegin";
        flipAction = true;
        m_time.start();
        const QTouchEvent *touchEvent = static_cast<const QTouchEvent *>(event);
        QTouchEvent::TouchPoint touchPoint = touchEvent->touchPoints().first();
        last_x = touchPoint.pos().x();
        touchBeginLastX = touchPoint.pos().x();
    }
        break;
    case QEvent::TouchUpdate: {
        LogManagerInst << LogManager::LogDegreeType_Normal  << "TouchUpdate";
        flipAction = true;
        const QTouchEvent *touchEvent = static_cast<const QTouchEvent *>(event);
        QTouchEvent::TouchPoint touchPoint = touchEvent->touchPoints().first();
        deltaX = touchPoint.pos().x() - last_x;
        last_x = touchPoint.pos().x();
    }
        break;

    case QEvent::TouchEnd: {
        LogManagerInst << LogManager::LogDegreeType_Normal  << "TouchEnd";
        flipAction = true;
        const QTouchEvent *touchEvent = static_cast<const QTouchEvent *>(event);
        QTouchEvent::TouchPoint touchPoint = touchEvent->touchPoints().first();
        int elapseTime = m_time.elapsed();
        LogManagerInst << LogManager::LogDegreeType_Normal  << "elapseTime" << QString::number(elapseTime);
        deltaX = touchPoint.pos().x() - last_x;
        acceleration = (touchPoint.pos().x() - touchBeginLastX) / elapseTime;
    }
        break;
#else

    case QEvent::MouseButtonPress: {
        LogManagerInst << LogManager::LogDegreeType_Normal  << "TouchBegin";
        flipAction = true;
        m_time.start();
        const QMouseEvent *mouseEvent = static_cast<const QMouseEvent *>(event);
        last_x = mouseEvent->x();
        touchBeginLastX = mouseEvent->x();
    }
        break;

    case QEvent::MouseMove: {
        LogManagerInst << LogManager::LogDegreeType_Normal  << "TouchUpdate";
        flipAction = true;
        const QMouseEvent *mouseEvent = static_cast<const QMouseEvent *>(event);
        deltaX = mouseEvent->x() - last_x;
        last_x = mouseEvent->x();
    }
        break;

    case QEvent::MouseButtonRelease: {
        LogManagerInst << LogManager::LogDegreeType_Normal  << "TouchEnd";
        flipAction = true;
        int elapseTime = m_time.elapsed();
        LogManagerInst << LogManager::LogDegreeType_Normal  << "elapseTime" << QString::number(elapseTime);
        const QMouseEvent *mouseEvent = static_cast<const QMouseEvent *>(event);
        deltaX = mouseEvent->x() - last_x;
        acceleration = (mouseEvent->x() - touchBeginLastX) / elapseTime;
    }
        break;
#endif
    default:
        break;
    }

    if(flipAction) {
//        const QTouchEvent *touchEvent = static_cast<const QTouchEvent *>(event);
//        QTouchEvent::TouchPoint touchPoint = touchEvent->touchPoints().first();
        LogManagerInst << LogManager::LogDegreeType_Normal << "FlipInfo"
                       << "deltaX" << QString::number(deltaX)
                       << "acceleration" << QString::number(acceleration);
  //                     << "TouchPostion" << QString::number(touchPoint.pos().x())
  //                     << "TouchPoints" << QString::number(touchEvent->touchPoints().size());

        if(acceleration != 0) {
            if((acceleration > 1) || (deltaX > width()/2)) {
                FlipAnimationStart(deltaX > 0 ? FlipDirection_Right : FlipDirection_Left);
            }
        } else {
            LogManagerInst << LogManager::LogDegreeType_Normal << "Position" << QString::number(ui->itemsetpane->x());
            QPoint targetPos = ui->itemsetpane->pos()+QPoint(deltaX,0);
            if(targetPos.x() > width()/4) {
                targetPos.setX(width()/4);
            } else if(targetPos.x() < width() - m_itemSetPaneSize.width() - width()/4) {
                targetPos.setX(width() - m_itemSetPaneSize.width() - width()/4);
            } else {

            }

            ui->itemsetpane->move(targetPos);
            ui->itemsetpane->update();
        }

    }
#endif

    return PaneBase::event(event);
}