GLuint QOpenGL2GradientCache::getBuffer(const QGradient &gradient, qreal opacity)
{
    quint64 hash_val = 0;

    QGradientStops stops = gradient.stops();
    for (int i = 0; i < stops.size() && i <= 2; i++)
        hash_val += stops[i].second.rgba();

    const QMutexLocker lock(&m_mutex);
    QOpenGLGradientColorTableHash::const_iterator it = cache.constFind(hash_val);

    if (it == cache.constEnd())
        return addCacheElement(hash_val, gradient, opacity);
    else {
        do {
            const CacheInfo &cache_info = it.value();
            if (cache_info.stops == stops && cache_info.opacity == opacity
                && cache_info.interpolationMode == gradient.interpolationMode())
            {
                return cache_info.texId;
            }
            ++it;
        } while (it != cache.constEnd() && it.key() == hash_val);
        // an exact match for these stops and opacity was not found, create new cache
        return addCacheElement(hash_val, gradient, opacity);
    }
}
Exemplo n.º 2
0
void TransferFunctionEditor::setColorMapStops( const QGradientStops& stops )
{
    QPolygonF redPoints, greenPoints, bluePoints, alphaPoints;

    const double redCMHt = _redWidget->height();
    const double greenCMHt = _greenWidget->height();
    const double blueCMHt = _blueWidget->height();
    const double alphaCMHt = _alphaWidget->height();

    for( int32_t i = 0; i < stops.size(); ++i )
    {
        double position = stops.at( i ).first;
        QRgb color = stops.at( i ).second.rgba();

        redPoints << QPointF( position * _redWidget->width(),
                             redCMHt - qRed(color) * redCMHt / 255 );
        greenPoints << QPointF( position * _greenWidget->width(),
                               greenCMHt - qGreen(color) * greenCMHt / 255 );
        bluePoints << QPointF( position * _blueWidget->width(),
                              blueCMHt - qBlue(color) * blueCMHt / 255 );
        alphaPoints << QPointF( position * _alphaWidget->width(),
                               alphaCMHt - qAlpha(color) * alphaCMHt / 255 );
    }

    _redWidget->setPoints( redPoints );
    _greenWidget->setPoints( greenPoints );
    _blueWidget->setPoints( bluePoints );
    _alphaWidget->setPoints( alphaPoints );
}
WSOverlayScreenShotAnimation::WSOverlayScreenShotAnimation()
{
	setVisible(false);

	const HostInfo& info = HostBase::instance()->getInfo();
	int width = info.displayWidth;
	int height = info.displayHeight;

	setPos(width/2, height/2);

	int r = qMin(width, height);
	r = r/2;

	m_boundingRect = QRectF(-width/2, -height/2, width, height);
    m_gradient = QRadialGradient(0, 0, r, 0, 0);

	QGradientStops stops;
	stops.append(QGradientStop(0, QColor(0xFF,0xFF,0xFF,0xFF)));
	stops.append(QGradientStop(0.15, QColor(0xFF, 0xFF, 0xFF, 0xC0)));
	stops.append(QGradientStop(0.5, QColor(0xFF, 0xFF ,0xD0, 0xF0)));
	stops.append(QGradientStop(0.75, QColor(0xFF, 0xFF, 0xD0, 0x0F)));
	stops.append(QGradientStop(1.0,  QColor(0xFF, 0xFF, 0xD0, 0x00)));
	m_gradient.setStops(stops);

	connect(WindowServer::instance(), SIGNAL(signalAboutToTakeScreenShot()),
			SLOT(stop()));
	connect(WindowServer::instance(), SIGNAL(signalTookScreenShot()),
			SLOT(start()));
}
Exemplo n.º 4
0
MythImage* MythPainter::GetImageFromRect(const QRect &area, int radius,
                                         int ellipse,
                                         const QBrush &fillBrush,
                                         const QPen &linePen)
{
    if (area.width() <= 0 || area.height() <= 0)
        return NULL;

    uint64_t hash1 = ((0xfff & (uint64_t)area.width())) +
                     ((0xfff & (uint64_t)area.height())     << 12) +
                     ((0xff  & (uint64_t)fillBrush.style()) << 24) +
                     ((0xff  & (uint64_t)linePen.width())   << 32) +
                     ((0xff  & (uint64_t)radius)            << 40) +
                     ((0xff  & (uint64_t)linePen.style())   << 48) +
                     ((0xff  & (uint64_t)ellipse)           << 56);
    uint64_t hash2 = ((0xffffffff & (uint64_t)linePen.color().rgba())) +
                     ((0xffffffff & (uint64_t)fillBrush.color().rgba()) << 32);

    QString incoming("R");
    if (fillBrush.style() == Qt::LinearGradientPattern && fillBrush.gradient())
    {
        const QLinearGradient *gradient = static_cast<const QLinearGradient*>(fillBrush.gradient());
        if (gradient)
        {
            incoming = QString::number(
                             ((0xfff & (uint64_t)gradient->start().x())) +
                             ((0xfff & (uint64_t)gradient->start().y()) << 12) +
                             ((0xfff & (uint64_t)gradient->finalStop().x()) << 24) +
                             ((0xfff & (uint64_t)gradient->finalStop().y()) << 36));
            QGradientStops stops = gradient->stops();
            for (int i = 0; i < stops.size(); i++)
            {
                incoming += QString::number(
                             ((0xfff * (uint64_t)(stops[i].first * 100))) +
                             ((uint64_t)stops[i].second.rgba() << 12));
            }
        }
    }

    incoming += QString::number(hash1) + QString::number(hash2);

    if (m_StringToImageMap.contains(incoming))
    {
        m_StringExpireList.remove(incoming);
        m_StringExpireList.push_back(incoming);
        return m_StringToImageMap[incoming];
    }

    MythImage *im = GetFormatImage();
    if (im)
    {
        DrawRectPriv(im, area, radius, ellipse, fillBrush, linePen);
        m_SoftwareCacheSize += (im->bytesPerLine() * im->height());
        m_StringToImageMap[incoming] = im;
        m_StringExpireList.push_back(incoming);
        ExpireImages(m_MaxSoftwareCacheSize);
    }
    return im;
}
Exemplo n.º 5
0
 void updateGradient()
 {
     static const double n_colors = 6;
     QGradientStops colors;
     colors.reserve(n_colors+1);
     for ( int i = 0; i <= n_colors; ++i )
         colors.append(QGradientStop(i/n_colors, QColor::fromHsvF(i/n_colors, saturation, value)));
     w->setColors(colors);
 }
Exemplo n.º 6
0
QGradientStops QQuickGradient::gradientStops() const
{
    QGradientStops stops;
    for (int i = 0; i < m_stops.size(); ++i){
        int j = 0;
        while (j < stops.size() && stops.at(j).first < m_stops[i]->position())
            j++;
        stops.insert(j, QGradientStop(m_stops.at(i)->position(), m_stops.at(i)->color()));
    }
    return stops;
}
Exemplo n.º 7
0
QRadialGradient ControlSlider::backgroundGradient()
{
	QRadialGradient gradient(0.5,0.5,1.0,0.5,0.5);
	gradient.setCoordinateMode(QGradient::ObjectBoundingMode);
	QGradientStops stops;
	stops.append(QPair<qreal,QColor>(0.0, Qt::white));
	stops.append(QPair<qreal,QColor>(0.8, backgroundColor()));
	stops.append(QPair<qreal,QColor>(1.0, Qt::white));
	gradient.setStops(stops);
	return gradient;
}
Exemplo n.º 8
0
QGradientStops QQuickPathGradient::sortedGradientStops() const
{
    QGradientStops result;
    for (int i = 0; i < m_stops.count(); ++i) {
        QQuickPathGradientStop *s = static_cast<QQuickPathGradientStop *>(m_stops[i]);
        int j = 0;
        while (j < result.count() && result[j].first < s->position())
            ++j;
        result.insert(j, QGradientStop(s->position(), s->color()));
    }
    return result;
}
Exemplo n.º 9
0
void ColorMapWidget::setGradientStops( const QGradientStops& stops )
{
    if( _channel != lexis::render::ColorMap::Channel::alpha )
        return;

    _gradient = QLinearGradient( 0.0f, 0.0f, width(), 0.0f );

    for( int i = 0; i < stops.size(); ++i )
        _gradient.setColorAt( stops.at( i ).first, stops.at( i ).second );

    _background = QImage();
    _generateBackground();
}
void ContextPaneWidgetRectangle::onGradientClicked()
{
    if (ui->colorGradient->isChecked()) {
        m_hasGradient = true;
        QLinearGradient gradient;
        QGradientStops stops;
        stops.append(QGradientStop(0, ui->colorColorButton->convertedColor()));
        stops.append(QGradientStop(1, Qt::white));
        gradient.setStops(stops);
        ui->gradientLine->setEnabled(true);
        ui->gradientLine->setGradient(gradient);
    }
}
Exemplo n.º 11
0
void GradientLine::updateGradient()
{
    if (m_useGradient) {
        QGradientStops stops;
        for (int i = 0; i < m_stops.size(); i++) {
            stops.append(QPair<qreal, QColor>(m_stops.at(i), m_colorList.at(i)));
        }
        m_gradient.setStops(stops);
    } else {
        if (!active())
            return;
    }
}
Exemplo n.º 12
0
void SvgStyleParser::parseColorStops(QGradient *gradient, const KoXmlElement &e)
{
    QGradientStops stops;
    QColor c;

    for (KoXmlNode n = e.firstChild(); !n.isNull(); n = n.nextSibling()) {
        KoXmlElement stop = n.toElement();
        if (stop.tagName() == "stop") {
            float offset;
            QString temp = stop.attribute("offset");
            if (temp.contains('%')) {
                temp = temp.left(temp.length() - 1);
                offset = temp.toFloat() / 100.0;
            } else
                offset = temp.toFloat();

            QString stopColorStr = stop.attribute("stop-color");
            if (!stopColorStr.isEmpty()) {
                if (stopColorStr == "inherit") {
                    stopColorStr = inheritedAttribute("stop-color", stop);
                }
                parseColor(c, stopColorStr);
            }
            else {
                // try style attr
                QString style = stop.attribute("style").simplified();
                QStringList substyles = style.split(';', QString::SkipEmptyParts);
                for (QStringList::Iterator it = substyles.begin(); it != substyles.end(); ++it) {
                    QStringList substyle = it->split(':');
                    QString command = substyle[0].trimmed();
                    QString params  = substyle[1].trimmed();
                    if (command == "stop-color")
                        parseColor(c, params);
                    if (command == "stop-opacity")
                        c.setAlphaF(params.toDouble());
                }

            }
            QString opacityStr = stop.attribute("stop-opacity");
            if (!opacityStr.isEmpty()) {
                if (opacityStr == "inherit") {
                    opacityStr = inheritedAttribute("stop-opacity", stop);
                }
                c.setAlphaF(opacityStr.toDouble());
            }
            stops.append(QPair<qreal, QColor>(offset, c));
        }
    }
    if (stops.count())
        gradient->setStops(stops);
}
Exemplo n.º 13
0
void ColorTemplatePlot::handleColorChange(const QVector<QPointF> &points)
{
    double minValue = parentWidget()->mXInterval.minValue();
    double maxValue = parentWidget()->mXInterval.maxValue();
    QGradientStops stops;
    foreach (const QPointF &p, points)
    {
        double x = (p.x() - minValue)/(maxValue - minValue);
        if (x < 0.0)
            x = 0.0;
        if (x > 1.0)
            x = 1.0;
        stops.push_back(QPair<qreal, QColor>(x, parentWidget()->mColorData.color(minValue, maxValue, p.x())));
    }
Exemplo n.º 14
0
Ui::ShadowedWidget<__Base>::ShadowedWidget(QWidget* _parent, int _tailLen, double _alphaFrom, double _alphaTo)
    : __Base(_parent)
    , tailLenPx_(_tailLen)
{

    QGradientStops stops;
    QColor voipShadowColor("#000000");
    voipShadowColor.setAlphaF(_alphaFrom);
    stops.append(qMakePair(0.0f, voipShadowColor));
    voipShadowColor.setAlphaF(_alphaTo);
    stops.append(qMakePair(1.0f, voipShadowColor));

    linearGradient_.setStops(stops);
}
Exemplo n.º 15
0
void ShadeWidget::setGradientStops(const QGradientStops &stops)
{
    if (m_shade_type == ARGBShade) {
        m_alpha_gradient = QLinearGradient(0, 0, width(), 0);

        for (int i=0; i<stops.size(); ++i) {
            QColor c = stops.at(i).second;
            m_alpha_gradient.setColorAt(stops.at(i).first, QColor(c.red(), c.green(), c.blue()));
        }

        m_shade = QImage();
        generateShade();
        update();
    }
}
Exemplo n.º 16
0
//-----------------------------------------------------------------------------
void
HeaderItem::paint(QPainter* painter, 
                 const QStyleOptionGraphicsItem* option,
                 QWidget* widget)
{
    Q_UNUSED(option);
    Q_UNUSED(widget);

    painter->setRenderHint(QPainter::Antialiasing);

    QFont font = painter->font();
    font.setBold(true);
    font.setPointSize(static_cast<int>(font.pointSize() * 1.4));
    painter->setFont(font);

    QRectF frame(QPoint(0, 0), geometry().size());

    // paint the background
    QGradientStops stops;
    stops.append(QGradientStop(0.0, QColor(40, 57, 74)));
    stops.append(QGradientStop(0.5, QColor(0, 0, 0)));
    stops.append(QGradientStop(1.0, QColor(10, 16, 23)));

    QLinearGradient gradient(frame.topLeft(), frame.bottomLeft());
    gradient.setStops(stops);
   
    painter->setPen(QColor(56, 73, 93));
    painter->setBrush(QBrush(gradient));

    QPainterPath path;
    path.moveTo(0, 20);
    path.arcTo(0, 0, 40, 40, 180, -90);
    path.lineTo(frame.right() - 20, 0);
    path.arcTo(frame.right() - 40, 0, 40, 40, 90, -90);
    path.lineTo(frame.right(), frame.bottom());
    path.lineTo(0, frame.bottom());
    path.lineTo(0, 20);
    path.closeSubpath();

    painter->drawPath(path);

    painter->setPen(Qt::white);
    painter->drawText(frame, Qt::AlignCenter, title);
}
Exemplo n.º 17
0
QSGNode *QQuickRectangle::updatePaintNode(QSGNode *oldNode, UpdatePaintNodeData *data)
{
    Q_UNUSED(data);
    Q_D(QQuickRectangle);

    if (width() <= 0 || height() <= 0
            || (d->color.alpha() == 0 && (!d->pen || d->pen->width() == 0 || d->pen->color().alpha() == 0))) {
        delete oldNode;
        return 0;
    }

    QSGRectangleNode *rectangle = static_cast<QSGRectangleNode *>(oldNode);
    if (!rectangle) rectangle = d->sceneGraphContext()->createRectangleNode();

    rectangle->setRect(QRectF(0, 0, width(), height()));
    rectangle->setColor(d->color);

    if (d->pen && d->pen->isValid()) {
        rectangle->setPenColor(d->pen->color());
        rectangle->setPenWidth(d->pen->width());
        rectangle->setAligned(d->pen->pixelAligned());
    } else {
        rectangle->setPenWidth(0);
    }

    rectangle->setRadius(d->radius);
    rectangle->setAntialiasing(d->antialiasing);

    QGradientStops stops;
    if (d->gradient) {
        QList<QQuickGradientStop *> qxstops = d->gradient->m_stops;
        for (int i = 0; i < qxstops.size(); ++i){
            int j = 0;
            while (j < stops.size() && stops.at(j).first < qxstops[i]->position())
                j++;
            stops.insert(j, QGradientStop(qxstops.at(i)->position(), qxstops.at(i)->color()));
        }
    }
    rectangle->setGradientStops(stops);

    rectangle->update();

    return rectangle;
}
Exemplo n.º 18
0
void MythYUVAPainter::DrawRect(const QRect &area, const QBrush &fillBrush,
                               const QPen &linePen, int alpha)
{
    QBrush brush(fillBrush);

    switch (fillBrush.style())
    {
    case Qt::LinearGradientPattern:
    case Qt::RadialGradientPattern:
    case Qt::ConicalGradientPattern:
        {
        QGradient gradient = *fillBrush.gradient();
        QGradientStops stops = gradient.stops();
        for (QGradientStops::iterator it = stops.begin(); it != stops.end(); ++it)
        {
            it->second = rgb_to_yuv(it->second);
            it->second.setAlpha(alpha);
        }
        gradient.setStops(stops);
        brush = gradient;
        }
        break;
    default:
        brush.setColor(rgb_to_yuv(brush.color()));
        break;
    }

    QPen pen(linePen);
    pen.setColor(rgb_to_yuv(pen.color()));

    // We pull an image here, in the hopes that when DrawRect
    // pulls an image this will still be in the cache and have
    // the right properties.
    MythImage *im = GetImageFromRect(area, 0, 0, brush, pen);
    if (im)
    {
        im->SetToYUV();
        im->DecrRef();
        im = NULL;
    }

    MythQImagePainter::DrawRect(area, brush, pen, alpha);
}
Exemplo n.º 19
0
void TupGradientSelector::setStops(const QGradientStops &stops)
{
    m_gradient.setStops(stops);
    m_arrows.clear();

    for (int i = 0; i < stops.count(); i++)
         addArrow(calcArrowPos((int) (100 - (stops[i].first * 100)) ), stops[i].second);

    update();
}
Exemplo n.º 20
0
bool GradientStopEditor::setStops( const QGradientStops &s )
{
	int countStops = s.size();

	if( countStops < 2 )
		return false;

	values.clear();
	positions.clear();

	switch( stopChannel )
	{
		case redChannel:
			for( int i = 0; i < countStops; i++ )
			{
				positions << s[ i ].first;
				values << s[ i ].second.red();
			}
			break;

		case greenChannel:
			for( int i = 0; i < countStops; i++ )
			{
				positions << s[ i ].first;
				values << s[ i ].second.green();
			}
			break;

		case blueChannel:
			for( int i = 0; i < countStops; i++ )
			{
				positions << s[ i ].first;
				values << s[ i ].second.blue();
			}
			break;

		case composite:
			for( int i = 0; i < countStops; i++ )
			{
				positions << s[ i ].first;
				values << s[ i ].second.alpha();
			}
			break;
	}

	if( positions[ 0 ] != 0.0 )
		positions[ 0 ] = 0.0;

	if( positions[ countStops - 1 ] != 1.0 )
		positions[ countStops - 1 ] = 1.0;

	generateBackground( true );
	update();
	return true;
}
Exemplo n.º 21
0
//TODO: Let GL generate the texture using an FBO
void QOpenGL2GradientCache::generateGradientColorTable(const QGradient& gradient, uint *colorTable, int size, qreal opacity) const
{
    int pos = 0;
    QGradientStops s = gradient.stops();
    QVector<uint> colors(s.size());

    for (int i = 0; i < s.size(); ++i)
        colors[i] = s[i].second.rgba(); // Qt LIES! It returns ARGB (on little-endian AND on big-endian)

    bool colorInterpolation = (gradient.interpolationMode() == QGradient::ColorInterpolation);

    uint alpha = qRound(opacity * 256);
    uint current_color = ARGB_COMBINE_ALPHA(colors[0], alpha);
    qreal incr = 1.0 / qreal(size);
    qreal fpos = 1.5 * incr;
    colorTable[pos++] = ARGB2RGBA(qPremultiply(current_color));

    while (fpos <= s.first().first) {
        colorTable[pos] = colorTable[pos - 1];
        pos++;
        fpos += incr;
    }

    if (colorInterpolation)
        current_color = qPremultiply(current_color);

    for (int i = 0; i < s.size() - 1; ++i) {
        qreal delta = 1/(s[i+1].first - s[i].first);
        uint next_color = ARGB_COMBINE_ALPHA(colors[i+1], alpha);
        if (colorInterpolation)
            next_color = qPremultiply(next_color);

        while (fpos < s[i+1].first && pos < size) {
            int dist = int(256 * ((fpos - s[i].first) * delta));
            int idist = 256 - dist;
            if (colorInterpolation)
                colorTable[pos] = ARGB2RGBA(INTERPOLATE_PIXEL_256(current_color, idist, next_color, dist));
            else
                colorTable[pos] = ARGB2RGBA(qPremultiply(INTERPOLATE_PIXEL_256(current_color, idist, next_color, dist)));
            ++pos;
            fpos += incr;
        }
        current_color = next_color;
    }

    Q_ASSERT(s.size() > 0);

    uint last_color = ARGB2RGBA(qPremultiply(ARGB_COMBINE_ALPHA(colors[s.size() - 1], alpha)));
    for (;pos < size; ++pos)
        colorTable[pos] = last_color;

    // Make sure the last color stop is represented at the end of the table
    colorTable[size-1] = last_color;
}
Exemplo n.º 22
0
//! [1]
void LayoutItem::paint(QPainter *painter,
    const QStyleOptionGraphicsItem *option, QWidget *widget /*= 0*/)
{
    Q_UNUSED(widget);
    Q_UNUSED(option);

    QRectF frame(QPointF(0,0), geometry().size());
    qreal w = m_pix->width();
    qreal h = m_pix->height();
    QGradientStops stops;
//! [1]

//! [2]
    // paint a background rect (with gradient)
    QLinearGradient gradient(frame.topLeft(), frame.topLeft() + QPointF(200,200));
    stops << QGradientStop(0.0, QColor(60, 60,  60));
    stops << QGradientStop(frame.height()/2/frame.height(), QColor(102, 176, 54));

    //stops << QGradientStop(((frame.height() + h)/2 )/frame.height(), QColor(157, 195,  55));
    stops << QGradientStop(1.0, QColor(215, 215, 215));
    gradient.setStops(stops);
    painter->setBrush(QBrush(gradient));
    painter->drawRoundedRect(frame, 10.0, 10.0);

    // paint a rect around the pixmap (with gradient)
    QPointF pixpos = frame.center() - (QPointF(w, h)/2);
    QRectF innerFrame(pixpos, QSizeF(w, h));
    innerFrame.adjust(-4, -4, +4, +4);
    gradient.setStart(innerFrame.topLeft());
    gradient.setFinalStop(innerFrame.bottomRight());
    stops.clear();
    stops << QGradientStop(0.0, QColor(215, 255, 200));
    stops << QGradientStop(0.5, QColor(102, 176, 54));
    stops << QGradientStop(1.0, QColor(0, 0,  0));
    gradient.setStops(stops);
    painter->setBrush(QBrush(gradient));
    painter->drawRoundedRect(innerFrame, 10.0, 10.0);
    painter->drawPixmap(pixpos, *m_pix);
}
void GradientSliderWidget::SetGradientStops(QGradientStops newStops)
{	
	QList<uint> keys = sliders.keys();
	for (int i=0; i<keys.size(); ++i)
	{
		RemoveSlider(keys[i]);
	}

	if (newStops.size() >= 2)
	{
		for (int i=0; i<newStops.size(); ++i)
		{
			unsigned int newSlider = AddSlider();
			SetSliderValue(newSlider, minValue + (1.0-newStops[i].first) * (maxValue-minValue));
			SetSliderColor(newSlider, newStops[i].second);
		}
	} else {
		CreateDefaultSliders();
	}

	UpdateGradientStops();
}
QColor KarbonGradientHelper::colorAt(qreal position, const QGradientStops &stops)
{
    if (! stops.count())
        return QColor();

    if (stops.count() == 1)
        return stops.first().second;

    QGradientStop prevStop(-1.0, QColor());
    QGradientStop nextStop(2.0, QColor());
    // find framing gradient stops
    foreach(const QGradientStop & stop, stops) {
        if (stop.first > prevStop.first && stop.first < position)
            prevStop = stop;
        if (stop.first < nextStop.first && stop.first > position)
            nextStop = stop;
    }

    QColor theColor;

    if (prevStop.first < 0.0) {
        // new stop is before the first stop
        theColor = nextStop.second;
    } else if (nextStop.first > 1.0) {
        // new stop is after the last stop
        theColor = prevStop.second;
    } else {
        // linear interpolate colors between framing stops
        QColor prevColor = prevStop.second, nextColor = nextStop.second;
        qreal colorScale = (position - prevStop.first) / (nextStop.first - prevStop.first);
        theColor.setRedF(prevColor.redF() + colorScale *(nextColor.redF() - prevColor.redF()));
        theColor.setGreenF(prevColor.greenF() + colorScale *(nextColor.greenF() - prevColor.greenF()));
        theColor.setBlueF(prevColor.blueF() + colorScale *(nextColor.blueF() - prevColor.blueF()));
        theColor.setAlphaF(prevColor.alphaF() + colorScale *(nextColor.alphaF() - prevColor.alphaF()));
    }
    return theColor;
}
Exemplo n.º 25
0
QGradientStops
MeshGenerator::resampleGradientStops(QGradientStops stops)
{
  QColor colorMap[256];

  int startj, endj;
  for(int i=0; i<stops.size(); i++)
    {
      float pos = stops[i].first;
      QColor color = stops[i].second;
      endj = pos*255;
      colorMap[endj] = color;
      if (i > 0)
	{
	  QColor colStart, colEnd;
	  colStart = colorMap[startj];
	  colEnd = colorMap[endj];
	  float rb,gb,bb,ab, re,ge,be,ae;
	  rb = colStart.red();
	  gb = colStart.green();
	  bb = colStart.blue();
	  ab = colStart.alpha();
	  re = colEnd.red();
	  ge = colEnd.green();
	  be = colEnd.blue();
	  ae = colEnd.alpha();
	  for (int j=startj+1; j<endj; j++)
	    {
	      float frc = (float)(j-startj)/(float)(endj-startj);
	      float r,g,b,a;
	      r = rb + frc*(re-rb);
	      g = gb + frc*(ge-gb);
	      b = bb + frc*(be-bb);
	      a = ab + frc*(ae-ab);
	      colorMap[j] = QColor(r, g, b, a);
	    }
	}
      startj = endj;
    }

  QGradientStops newStops;
  for (int i=0; i<256; i++)
    {
      float pos = (float)i/255.0f;
      newStops << QGradientStop(pos, colorMap[i]);
    }

  return newStops;
}
Exemplo n.º 26
0
void GradientEditor::setGradientStops(const QGradientStops &stops)
{
    QPolygonF pts_red, pts_green, pts_blue, pts_alpha;

    qreal h_red = m_red_shade->height();
    qreal h_green = m_green_shade->height();
    qreal h_blue = m_blue_shade->height();
    qreal h_alpha = m_alpha_shade->height();

    for (int i=0; i<stops.size(); ++i) {
        qreal pos = stops.at(i).first;
        QRgb color = stops.at(i).second.rgba();
        pts_red << QPointF(pos * m_red_shade->width(), h_red - qRed(color) * h_red / 255);
        pts_green << QPointF(pos * m_green_shade->width(), h_green - qGreen(color) * h_green / 255);
        pts_blue << QPointF(pos * m_blue_shade->width(), h_blue - qBlue(color) * h_blue / 255);
        pts_alpha << QPointF(pos * m_alpha_shade->width(), h_alpha - qAlpha(color) * h_alpha / 255);
    }

    set_shade_points(pts_red, m_red_shade);
    set_shade_points(pts_green, m_green_shade);
    set_shade_points(pts_blue, m_blue_shade);
    set_shade_points(pts_alpha, m_alpha_shade);

}
Exemplo n.º 27
0
bool GradientStopsEditor::setStops( const QGradientStops &s )
{
	int countStops = s.size();
	if( countStops < 2 ) return false;
	bool oldValueOfHandleSignals = handleSignals;
	handleSignals = false;
	r.setStops( s );
	g.setStops( s );
	b.setStops( s );
	c.setStops( s );
	c.setCompositeGradientStops( s );
	handleSignals = oldValueOfHandleSignals;
	emit stopsChanged( s );
	return true;
}
Exemplo n.º 28
0
void GradientStopEditor::setCompositeGradientStops( const QGradientStops &s )
{
	if( stopChannel == composite )
	{
		compositeGradient = QLinearGradient( 0, 0, width(), 0 );

		QGradientStops newStops;
		int countStops = s.size();
		for( int i = 0; i < countStops; i++ )
		{
			QColor c( s[ i ].second );
			c.setAlpha( 255 );
			newStops << QGradientStop( s[ i ].first, c );
		}

		//newStops << compositeGradient.stops();
		compositeGradient.setStops( newStops );
		generateBackground( true );
		update();
	}
}
Exemplo n.º 29
0
bool
PathGroups::keyPressEvent(QKeyEvent *event)
{
  for(int i=0; i<m_paths.count(); i++)
    {
      if (m_paths[i]->grabsMouse())
	{
	  if (event->key() == Qt::Key_G)
	    {
	      m_paths[i]->removeFromMouseGrabberPool();
	      return true;
	    }
	  if (event->key() == Qt::Key_C)
	    {
	      bool b = m_paths[i]->closed();
	      m_paths[i]->setClosed(!b);
	      return true;
	    }
	  else if (event->key() == Qt::Key_P)
	    {
	      bool b = m_paths[i]->showPoints();
	      m_paths[i]->setShowPoints(!b);    
	      return true;
	    }
	  else if (event->key() == Qt::Key_L)
	    {
	      bool b = m_paths[i]->showLength();
	      m_paths[i]->setShowLength(!b);    
	      return true;
	    }
	  else if (event->key() == Qt::Key_X)
	    {
	      m_paths[i]->setMoveAxis(PathGroupGrabber::MoveX);
	      return true;
	    }
	  else if (event->key() == Qt::Key_Y)
	    {
	      if (event->modifiers() & Qt::ControlModifier ||
		  event->modifiers() & Qt::MetaModifier)
		m_paths[i]->redo();
	      else
		m_paths[i]->setMoveAxis(PathGroupGrabber::MoveY);
	      return true;
	    }
	  else if (event->key() == Qt::Key_Z)
	    {
	      if (event->modifiers() & Qt::ControlModifier ||
		  event->modifiers() & Qt::MetaModifier)
		m_paths[i]->undo();
	      else
		m_paths[i]->setMoveAxis(PathGroupGrabber::MoveZ);
	      return true;
	    }
	  else if (event->key() == Qt::Key_W)
	    {
	      m_paths[i]->setMoveAxis(PathGroupGrabber::MoveAll);
	      return true;
	    }
	  else if (event->key() == Qt::Key_S)
	    {
	      int idx = m_paths[i]->pointPressed();
	      if (idx > -1)
		{
		  float radx = m_paths[i]->getRadX(idx);
		  if (event->modifiers() & Qt::ShiftModifier)
		    radx--;
		  else
		    radx++;
		  radx = qMax(1.0f, radx);
		  m_paths[i]->setRadX(idx, radx, m_sameForAll);
		  return true;
		}
	    }
	  else if (event->key() == Qt::Key_T)
	    {
	      int idx = m_paths[i]->pointPressed();
	      if (idx > -1)
		{
		  float rady = m_paths[i]->getRadY(idx);
		  if (event->modifiers() & Qt::ShiftModifier)
		    rady--;
		  else
		    rady++;
		  rady = qMax(1.0f, rady);
		  m_paths[i]->setRadY(idx, rady, m_sameForAll);
		}
	      else // switch to tube mode
		{
		  if (event->modifiers() & Qt::ShiftModifier)
		    {
		      m_paths[i]->loadCaption();
		    }
		  else
		    {
		      bool b = m_paths[i]->tube();
		      m_paths[i]->setTube(!b);
		    }
		}

	      return true;
	    }
	  else if (event->key() == Qt::Key_A)
	    {
	      int idx = m_paths[i]->pointPressed();
	      if (idx > -1)
		{
		  float a = m_paths[i]->getAngle(idx);
		  if (event->modifiers() & Qt::ShiftModifier)
		    a--;
		  else
		    a++;
		  m_paths[i]->setAngle(idx, a, m_sameForAll);
		  return true;
		}
	    }
	  else if (event->key() == Qt::Key_Delete ||
		   event->key() == Qt::Key_Backspace ||
		   event->key() == Qt::Key_Backtab)
	    {
	      m_paths[i]->removeFromMouseGrabberPool();
	      m_paths.removeAt(i);
	      return true;
	    }

	  if (event->key() == Qt::Key_Space)
	    {
	      PropertyEditor propertyEditor;
	      QMap<QString, QVariantList> plist;

	      QVariantList vlist;

	      vlist.clear();
	      vlist << QVariant("double");
	      vlist << QVariant(m_paths[i]->opacity());
	      vlist << QVariant(0.0);
	      vlist << QVariant(1.0);
	      vlist << QVariant(0.1); // singlestep
	      vlist << QVariant(1); // decimals
	      plist["opacity"] = vlist;

	      vlist.clear();
	      vlist << QVariant("colorgradient");
	      QGradientStops stops = m_paths[i]->stops();
	      for(int s=0; s<stops.size(); s++)
		{
		  float pos = stops[s].first;
		  QColor color = stops[s].second;
		  int r = color.red();
		  int g = color.green();
		  int b = color.blue();
		  int a = color.alpha();
		  vlist << QVariant(pos);
		  vlist << QVariant(r);
		  vlist << QVariant(g);
		  vlist << QVariant(b);
		  vlist << QVariant(a);
		}
	      plist["color"] = vlist;

	      vlist.clear();
	      vlist << QVariant("checkbox");
	      vlist << QVariant(m_paths[i]->filterPathLen());
	      plist["filter on length"] = vlist;

	      float vmin, vmax;
	      m_paths[i]->userPathlenMinmax(vmin, vmax);
	      vlist.clear();
	      vlist << QVariant("string");
	      vlist << QVariant(QString("%1 %2").arg(vmin).arg(vmax));
	      plist["length bounds"] = vlist;

	      vlist.clear();
	      vlist << QVariant("checkbox");
	      vlist << QVariant(m_paths[i]->scaleType());
	      plist["scale type"] = vlist;

	      vlist.clear();
	      vlist << QVariant("checkbox");
	      vlist << QVariant(m_paths[i]->depthcue());
	      plist["depthcue"] = vlist;

	      vlist.clear();
	      vlist << QVariant("int");
	      vlist << QVariant(m_paths[i]->segments());
	      vlist << QVariant(1);
	      vlist << QVariant(100);
	      plist["smoothness"] = vlist;

	      vlist.clear();
	      vlist << QVariant("int");
	      vlist << QVariant(m_paths[i]->sections());
	      vlist << QVariant(1);
	      vlist << QVariant(100);
	      plist["sections"] = vlist;

	      vlist.clear();
	      vlist << QVariant("int");
	      vlist << QVariant(m_paths[i]->sparseness());
	      vlist << QVariant(1);
	      vlist << QVariant(100);
	      plist["sparseness"] = vlist;

	      vlist.clear();
	      vlist << QVariant("int");
	      vlist << QVariant(m_paths[i]->separation());
	      vlist << QVariant(0);
	      vlist << QVariant(10);
	      plist["screen separation"] = vlist;

	      vlist.clear();
	      vlist << QVariant("combobox");
	      vlist << QVariant(m_paths[i]->capType());
	      vlist << QVariant("flat");
	      vlist << QVariant("round");
	      vlist << QVariant("arrow");
	      plist["cap style"] = vlist;

	      vlist.clear();
	      vlist << QVariant("combobox");
	      vlist << QVariant(m_paths[i]->arrowDirection());
	      vlist << QVariant("forward");
	      vlist << QVariant("backward");
	      plist["arrow direction"] = vlist;

	      vlist.clear();
	      vlist << QVariant("checkbox");
	      vlist << QVariant(m_paths[i]->animate());
	      plist["animate"] = vlist;

	      vlist.clear();
	      vlist << QVariant("checkbox");
	      vlist << QVariant(m_paths[i]->allowInterpolate());
	      plist["interpolate"] = vlist;

	      vlist.clear();
	      vlist << QVariant("int");
	      vlist << QVariant(m_paths[i]->animateSpeed());
	      vlist << QVariant(10);
	      vlist << QVariant(100);
	      plist["animation speed"] = vlist;

	      vlist.clear();
	      vlist << QVariant("checkbox");
	      vlist << QVariant(m_paths[i]->arrowForAll());
	      plist["arrows for all"] = vlist;

	      vlist.clear();
	      vlist << QVariant("checkbox");
	      vlist << QVariant(m_sameForAll);
	      plist["same for all"] = vlist;

	      vlist.clear();
	      vlist << QVariant("checkbox");
	      vlist << QVariant(m_paths[i]->clip());
	      plist["clip"] = vlist;

	      vlist.clear();
	      vlist << QVariant("checkbox");
	      vlist << QVariant(m_paths[i]->allowEditing());
	      plist["allow editing"] = vlist;

	      vlist.clear();
	      vlist << QVariant("checkbox");
	      vlist << QVariant(m_paths[i]->blendMode());
	      plist["blend with volume"] = vlist;

	      vlist.clear();
	      plist["command"] = vlist;

	      vlist.clear();
	      QFile helpFile(":/pathgroups.help");
	      if (helpFile.open(QFile::ReadOnly))
		{
		  QTextStream in(&helpFile);
		  QString line = in.readLine();
		  while (!line.isNull())
		    {
		      if (line == "#begin")
			{
			  QString keyword = in.readLine();
			  QString helptext;
			  line = in.readLine();
			  while (!line.isNull())
			    {
			      helptext += line;
			      helptext += "\n";
			      line = in.readLine();
			      if (line == "#end") break;
			    }
			  vlist << keyword << helptext;
			}
		      line = in.readLine();
		    }
		}	      
	      plist["commandhelp"] = vlist;


	      vlist.clear();
	      QString mesg;
	      float pmin, pmax;
	      m_paths[i]->pathlenMinmax(pmin, pmax);
	      mesg = QString("min/max path lengths : %1 %2\n").arg(pmin).arg(pmax);
	      float mins,maxs;
	      mins = m_paths[i]->minScale();
	      maxs = m_paths[i]->maxScale();
	      mesg += QString("min/max scale : %1 %2\n").arg(mins).arg(maxs);
	      vlist << mesg;
	      plist["message"] = vlist;


	      QStringList keys;
	      keys << "color";
	      keys << "opacity";
	      keys << "depthcue";
	      keys << "gap";
	      keys << "filter on length";
	      keys << "length bounds";
	      keys << "scale type";
	      keys << "gap";
	      keys << "smoothness";
	      keys << "sections";
	      keys << "sparseness";
	      keys << "screen separation";
	      keys << "gap";
	      keys << "cap style";
	      keys << "arrow direction";
	      keys << "arrows for all";
	      keys << "gap";
	      keys << "animate";
	      keys << "interpolate";
	      keys << "animation speed";
	      keys << "gap";
	      keys << "same for all";
	      keys << "clip";
	      keys << "blend with volume";
	      keys << "allow editing";
	      keys << "command";
	      keys << "commandhelp";
	      keys << "message";
	      

	      propertyEditor.set("Path Group Parameters", plist, keys);

	      
	      QMap<QString, QPair<QVariant, bool> > vmap;

	      if (propertyEditor.exec() == QDialog::Accepted)
		vmap = propertyEditor.get();
	      else
		return true;

	      keys = vmap.keys();

	      for(int ik=0; ik<keys.count(); ik++)
		{
		  QPair<QVariant, bool> pair = vmap.value(keys[ik]);


		  if (pair.second)
		    {
		      if (keys[ik] == "color")
			{
			  QGradientStops stops = propertyEditor.getGradientStops(keys[ik]);
			  m_paths[i]->setStops(stops);
			}
		      else if (keys[ik] == "opacity")
			m_paths[i]->setOpacity(pair.first.toDouble());
		      else if (keys[ik] == "scale type")
			m_paths[i]->setScaleType(pair.first.toBool());
		      else if (keys[ik] == "sections")
			m_paths[i]->setSections(pair.first.toInt());
		      else if (keys[ik] == "smoothness")
			m_paths[i]->setSegments(pair.first.toInt());
		      else if (keys[ik] == "sparseness")
			m_paths[i]->setSparseness(pair.first.toInt());
		      else if (keys[ik] == "screen separation")
			m_paths[i]->setSeparation(pair.first.toInt());
		      else if (keys[ik] == "depthcue")
			m_paths[i]->setDepthcue(pair.first.toBool());
		      else if (keys[ik] == "animate")
			m_paths[i]->setAnimate(pair.first.toBool());
		      else if (keys[ik] == "interpolate")
			m_paths[i]->setAllowInterpolate(pair.first.toBool());
		      else if (keys[ik] == "animation speed")
			m_paths[i]->setAnimateSpeed(pair.first.toInt());
		      else if (keys[ik] == "cap style")
			m_paths[i]->setCapType(pair.first.toInt());
		      else if (keys[ik] == "arrow direction")
			m_paths[i]->setArrowDirection(pair.first.toInt());
		      else if (keys[ik] == "arrows for all")
			m_paths[i]->setArrowForAll(pair.first.toBool());
		      else if (keys[ik] == "same for all")
			{
			  m_sameForAll = pair.first.toBool();
			  m_paths[i]->setSameForAll(m_sameForAll);
			}
		      else if (keys[ik] == "clip")
			m_paths[i]->setClip(pair.first.toBool());
		      else if (keys[ik] == "allow editing")
			m_paths[i]->setAllowEditing(pair.first.toBool());
		      else if (keys[ik] == "blend with volume")
			m_paths[i]->setBlendMode(pair.first.toBool());
		      else if (keys[ik] == "filter on length")
			m_paths[i]->setFilterPathLen(pair.first.toBool());
		      else if (keys[ik] == "length bounds")
			{
			  QString vstr = pair.first.toString();
			  QStringList vl = vstr.split(" ", QString::SkipEmptyParts);
			  if (vl.count() == 2)
			    m_paths[i]->setUserPathlenMinmax(vl[0].toDouble(),
							     vl[1].toDouble());
			}
		    }
		}

	      QString cmd = propertyEditor.getCommandString();
	      if (!cmd.isEmpty())
		processCommand(i, cmd);	
	      	      
	      updateGL();
	    }
	}
    }
  
  return true;
}
Exemplo n.º 30
0
QBrush XMLParseBase::parseGradient(const QDomElement &element)
{
    QLinearGradient gradient;
    QString gradientStart = element.attribute("start", "");
    QString gradientEnd = element.attribute("end", "");
    int gradientAlpha = element.attribute("alpha", "255").toInt();
    QString direction = element.attribute("direction", "vertical");

    float x1, y1, x2, y2 = 0.0;
    if (direction == "vertical")
    {
        x1 = 0.5;
        x2 = 0.5;
        y1 = 0.0;
        y2 = 1.0;
    }
    else if (direction == "diagonal")
    {
        x1 = 0.0;
        x2 = 1.0;
        y1 = 0.0;
        y2 = 1.0;
    }
    else
    {
        x1 = 0.0;
        x2 = 1.0;
        y1 = 0.5;
        y2 = 0.5;
    }

    gradient.setCoordinateMode(QGradient::ObjectBoundingMode);
    gradient.setStart(x1, y1);
    gradient.setFinalStop(x2, y2);

    QGradientStops stops;

    if (!gradientStart.isEmpty())
    {
        QColor startColor = QColor(gradientStart);
        startColor.setAlpha(gradientAlpha);
        QGradientStop stop(0.0, startColor);
        stops.append(stop);
    }

    if (!gradientEnd.isEmpty())
    {
        QColor endColor = QColor(gradientEnd);
        endColor.setAlpha(gradientAlpha);
        QGradientStop stop(1.0, endColor);
        stops.append(stop);
    }

    for (QDomNode child = element.firstChild(); !child.isNull();
        child = child.nextSibling())
    {
        QDomElement childElem = child.toElement();
        if (childElem.tagName() == "stop")
        {
            float position = childElem.attribute("position", "0").toFloat();
            QString color = childElem.attribute("color", "");
            int alpha = childElem.attribute("alpha", "-1").toInt();
            if (alpha < 0)
                alpha = gradientAlpha;
            QColor stopColor = QColor(color);
            stopColor.setAlpha(alpha);
            QGradientStop stop((position / 100), stopColor);
            stops.append(stop);
        }
    }

    gradient.setStops(stops);

    return QBrush(gradient);
}