Beispiel #1
0
void AdaptAver::adArAv(int curx, int cury, int powerX, int powerY)
{ //Adaptive Arithmetic Average
    //qDebug() << "adarav";
    QList<int> proxArrayR; //массивы пикселей окрестности точки
    QList<int> proxArrayG; //для трёх цветов (red, green, blue)
    QList<int> proxArrayB;
    for (int y = cury - powerY; y <= cury+ powerY; y++)
        for (int x = curx - powerX; x <= curx+ powerX; x++)
        {//проверяем окрестные пиксели
            if ((0 <= x && x <= image.width()-1) && (0 <= y && y <= image.height()-1))
            { //записываем значения
                QColor pixel = image.pixel(x, y);
                proxArrayR.append(pixel.red());
                proxArrayG.append(pixel.green());
                proxArrayB.append(pixel.blue());
            }
            else { //если мы за пределами картинки - записываем чёрный цвет
                proxArrayR.append(0);
                proxArrayG.append(0);
                proxArrayB.append(0);
            }
        }


    QColor pixel = image.pixel(curx, cury);//(QColor(0, 0, 0, 255)); //makin a pixel

    int aveRed = listAverage(proxArrayR); //устанавливаем значение его цветов равным
    int aveGreen = listAverage(proxArrayG);//среднему арифметическому массива ближайших пикселей
    int aveBlue = listAverage(proxArrayB);

    double dispRed = listDisp(proxArrayR, aveRed); //считаем дисперсии значений этих массивов
    double dispGreen = listDisp(proxArrayG, aveGreen);
    double dispBlue = listDisp(proxArrayB, aveBlue);


    if (dispNoise > dispRed) //если значение дисперсии шума выше, чем дисперсия массива окрестности
        pixel.setRed(aveRed); //фильтр работает как фильтр арифметического среднего
    if (dispNoise <= dispRed) //иначе значение задается по формуле z' = z - (Dшум/Dz)*(z - u), u - локальное среднее яркости пикселей
        pixel.setRed(pixel.red()- (dispNoise/dispRed)*(pixel.red()-aveRed));

    if (dispNoise > dispGreen)
        pixel.setGreen(aveGreen);
    if (dispNoise <= dispGreen)
        pixel.setGreen(pixel.green()- (dispNoise/dispGreen)*(pixel.green()-aveGreen));

    if (dispNoise > dispBlue)
        pixel.setBlue(aveBlue);
    if (dispNoise <= dispBlue)
        pixel.setBlue(pixel.blue()- (dispNoise/dispBlue)*(pixel.blue()-aveBlue));

    if ((0 <= curx && curx <= image.width()-1) && (0 <= cury && cury <= image.height()-1))
        result.setPixel(curx, cury, pixel.rgb()); //записываем значение в результат
}
Beispiel #2
0
void Widget::SetColor(double cosDifuse,double cosSpecular)
{

    // qDebug() << cosDifuse;
    if (cosDifuse < 0) {cosDifuse = 0;}
    if (cosSpecular < 0) {cosSpecular = 0 ;}

    double red,green,blue;
    red = color_anbient.red()/255.0+
          cosDifuse*color_diffuse.red()/255.0+
  //        pow(cosSpecular*color_specular.red()/255.0,intense);
          cosSpecular*color_specular.red()/255.0;

    color.setRed(max(0,min(red*255,255)));
    green = color_anbient.green()/255.0+
            cosDifuse*color_diffuse.green()/255.0+
           // pow(cosSpecular*color_specular.green()/255.0,intense);
          cosSpecular*color_specular.green()/255.0;

    color.setGreen(max(0,min(green*255,255)));

    blue = color_anbient.blue()/255.0+
            cosDifuse*color_diffuse.blue()/255.0+
  //          pow(cosSpecular*color_specular.blue()/255.0,intense);
          cosSpecular*color_specular.blue()/255.0;

    color.setBlue(max(0,min(blue*255,255)));


}
Beispiel #3
0
void QgsColorWidget::alterColor( QColor& color, const QgsColorWidget::ColorComponent component, const int newValue ) const
{
  int h, s, v, a;
  color.getHsv( &h, &s, &v, &a );

  //clip value to sensible range
  int clippedValue = qMin( qMax( 0, newValue ), componentRange( component ) );

  switch ( component )
  {
    case QgsColorWidget::Red:
      color.setRed( clippedValue );
      return;
    case QgsColorWidget::Green:
      color.setGreen( clippedValue );
      return;
    case QgsColorWidget::Blue:
      color.setBlue( clippedValue );
      return;
    case QgsColorWidget::Hue:
      color.setHsv( clippedValue, s, v, a );
      return;
    case QgsColorWidget::Saturation:
      color.setHsv( h, clippedValue, v, a );
      return;
    case QgsColorWidget::Value:
      color.setHsv( h, s, clippedValue, a );
      return;
    case QgsColorWidget::Alpha:
      color.setAlpha( clippedValue );
      return;
    default:
      return;
  }
}
void MIPS32SyntaxHighlighter::setBackgroundColor(QColor const &color){
    MIPS32SyntaxHighlighter::backgroundColor = color;
    
    int red = color.red();
    int blue = color.blue();
    int green = color.green();
    int offset = (int)(DEFAULT_COLOR_BACKGROUND_HIGHLIGHT_RATIO * 256.0);
    
    if(offset < 0){
        if(red+offset < 0){red-=offset;}else{red+=offset;}
        if(green+offset < 0){green-=offset;}else{green+=offset;}
        if(blue+offset < 0){blue-=offset;}else{blue+=offset;}
    }else if(offset > 0){
        if(red+offset > 255){red-=offset;}else{red+=offset;}
        if(green+offset > 255){green-=offset;}else{green+=offset;}
        if(blue+offset > 255){blue-=offset;}else{blue+=offset;}
    }else{
        //don't change color
    }
    QColor tmpColor;
    tmpColor.setRed(red);
    tmpColor.setBlue(blue);
    tmpColor.setGreen(green);
    MIPS32SyntaxHighlighter::backgroundHighlightColor = tmpColor;
}
QColor ColorMappingGenerator::GetColor(ColorMappingType color_type, float current_value, float min_value, float max_value){
    float value = current_value;
    if ( value < min_value ) value = min_value;
    if ( value > max_value ) value = max_value;

	if ( value < color_index_vec_[color_type][0].value_index ) value = color_index_vec_[color_type][0].value_index;
	if ( value > color_index_vec_[color_type][color_index_vec_[color_type].size() - 1].value_index ) value = color_index_vec_[color_type][color_index_vec_[color_type].size() - 1].value_index;

    int current_index = 0;
    while ( current_index < color_index_vec_[color_type].size() && value > color_index_vec_[color_type][current_index].value_index ) current_index++;
    if ( current_index == 0 )
        return color_index_vec_[color_type][0].color;
    else {
        QColor color;
        if ( is_linear_[color_type] ){
            float scale = (color_index_vec_[color_type][current_index].value_index - value) / (color_index_vec_[color_type][current_index].value_index - color_index_vec_[color_type][current_index - 1].value_index);
            color.setRed(scale * color_index_vec_[color_type][current_index - 1].color.red() + (1.0 - scale) * color_index_vec_[color_type][current_index].color.red());
            color.setGreen(scale * color_index_vec_[color_type][current_index - 1].color.green() + (1.0 - scale) * color_index_vec_[color_type][current_index].color.green());
            color.setBlue(scale * color_index_vec_[color_type][current_index - 1].color.blue() + (1.0 - scale) * color_index_vec_[color_type][current_index].color.blue());
        } else {
            color = color_index_vec_[color_type][current_index - 1].color;
        }

        return color;
    }
}
void RedEyeReductionImageOperation::apply(QImage* img, const QRectF& rectF)
{
    const QRect rect = PaintUtils::containingRect(rectF);
    const qreal radius = rectF.width() / 2;
    const qreal centerX = rectF.x() + radius;
    const qreal centerY = rectF.y() + radius;
    const Ramp radiusRamp(qMin(double(radius * 0.7), double(radius - 1)), radius, 1., 0.);

    uchar* line = img->scanLine(rect.top()) + rect.left() * 4;
    for (int y = rect.top(); y < rect.bottom(); ++y, line += img->bytesPerLine()) {
        QRgb* ptr = (QRgb*)line;

        for (int x = rect.left(); x < rect.right(); ++x, ++ptr) {
            const qreal currentRadius = sqrt(pow(y - centerY, 2) + pow(x - centerX, 2));
            qreal alpha = radiusRamp(currentRadius);
            if (qFuzzyCompare(alpha, 0)) {
                continue;
            }

            const QColor src(*ptr);
            alpha *= computeRedEyeAlpha(src);
            int r = src.red();
            int g = src.green();
            int b = src.blue();
            QColor dst;
            // Replace red with green, and blend according to alpha
            dst.setRed(int((1 - alpha) * r + alpha * g));
            dst.setGreen(int((1 - alpha) * g + alpha * g));
            dst.setBlue(int((1 - alpha) * b + alpha * b));
            *ptr = dst.rgba();
        }
    }
}
Beispiel #7
0
void EyedropperTool::mouseReleaseEvent(QMouseEvent *event)
{
    Layer* layer = mEditor->layers()->currentLayer();
    if (layer == NULL) { return; }

    if (event->button() == Qt::LeftButton)
    {
        if (layer->type() == Layer::BITMAP)
        {
            BitmapImage* targetImage = ((LayerBitmap *)layer)->getLastBitmapImageAtFrame( mEditor->currentFrame(), 0);
            //QColor pickedColour = targetImage->pixel(getLastPoint().x(), getLastPoint().y());
            QColor pickedColour;
            pickedColour.setRgba( targetImage->pixel( getLastPoint().x(), getLastPoint().y() ) );
            int transp = 255 - pickedColour.alpha();
            pickedColour.setRed( pickedColour.red() + transp );
            pickedColour.setGreen( pickedColour.green() + transp );
            pickedColour.setBlue( pickedColour.blue() + transp );
            if (pickedColour.alpha() != 0)
            {
                mEditor->color()->setColor(pickedColour);
            }
        }
        else if (layer->type() == Layer::VECTOR)
        {
            VectorImage *vectorImage = ((LayerVector *)layer)->getLastVectorImageAtFrame(mEditor->currentFrame(), 0);
            int colourNumber = vectorImage->getColourNumber(getLastPoint());
            if (colourNumber != -1)
            {
                mEditor->color()->setColorNumber(colourNumber);
            }
        }
    }
}
Beispiel #8
0
QColor Viewport::determineColor(const QColor &basecolor,
                                float weight, float totalweight,
                                bool highlighted, bool single)
{
	QColor color = basecolor;
	qreal alpha;
	/* TODO: this is far from optimal yet. challenge is to give a good
	   view where important information is not lost, yet not clutter
	   the view with too much low-weight information */
	/* logarithm is used to prevent single data points to get lost.
	   this should be configurable. */
	alpha = useralpha;
	if (drawLog->isChecked())
		alpha *= (0.01 + 0.99*(std::log(weight+1) / std::log(totalweight)));
	else
		alpha *= (0.01 + 0.99*(weight / totalweight));
	color.setAlphaF(std::min(alpha, 1.)); // cap at 1

	if (highlighted) {
		if (basecolor == Qt::white) {
			color = Qt::yellow;
		} else {
			color.setGreen(std::min(color.green() + 195, 255));
			color.setRed(std::min(color.red() + 195, 255));
			color.setBlue(color.blue()/2);
		}
		color.setAlphaF(1.);
	}

	// recolor singleLabel (and make 100% opaque)
	if (single) {
		color.setRgbF(1., 1., 0., 1.);
	}
	return color;
}
Beispiel #9
0
//render the square on the screen
void Square::paint(QPainter *painter, const QStyleOptionGraphicsItem *, QWidget *)
{
	QColor color;
	if(selected)
	{
		//if the user clicked it, draw it purple
		color.setBlue(100); color.setRed(100); color.setGreen(0);
	}
	else
	{
		//otherwise draw it white
		color.setBlue(255); color.setRed(255); color.setGreen(255);
	}
	painter->setBrush(color);
	painter->drawRect(xcoor1,ycoor1,xcoor2-xcoor1,ycoor2-ycoor1);
}
Beispiel #10
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static QColor Vec3ToQColor(idVec3 v) {
    QColor c;
    c.setRed( static_cast<int>(v.x * 255) );
    c.setGreen( static_cast<int>(v.y * 255) );
    c.setBlue( static_cast<int>(v.z * 255) );
    return c;
}
QColor KDReports::XmlHelper::readBackground( const QDomElement& element )
{
    QColor ret;
    if ( element.hasAttribute( QLatin1String( "background" ) ) ) {
        const QString name = element.attribute( QLatin1String( "background" ) );
        ret = QColor( name );
    } else if( element.hasAttribute( QLatin1String( "bgred" ) ) &&
        element.hasAttribute( QLatin1String( "bggreen" ) ) &&
        element.hasAttribute( QLatin1String( "bgblue" ) ) ) {
        int red = 0, green = 0, blue = 0;
        bool ok = true;
        red = element.attribute( QLatin1String( "bgred" ) ).toInt( &ok );
        if( ok ) {
            green = element.attribute( QLatin1String( "bggreen" ) ).toInt( &ok );
            if( ok ) {
                blue = element.attribute( QLatin1String( "bgblue" ) ).toInt( &ok );
                if( ok ) {
                    ret.setRed( red );
                    ret.setGreen( green );
                    ret.setBlue( blue );
                }
            }
        }
    }
    return ret;
}
Beispiel #12
0
Datei: run.cpp Projekt: trtikm/E2
void Renderer::initialize(xqtgl::window*  surface)
{
    m_backgroundColor = QColor::fromRgbF(0.1f, 0.1f, 0.2f, 1.0f);
    m_backgroundColor.setRed(qrand() % 64);
    m_backgroundColor.setGreen(qrand() % 128);
    m_backgroundColor.setBlue(qrand() % 256);
}
Beispiel #13
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QColor ColorWidget::TranslateToQColor(const float3 color)
{
    QColor qcolor;
    qcolor.setRed(color[0]);
    qcolor.setGreen(color[1]);
    qcolor.setBlue(color[2]);
    return qcolor;
}
Beispiel #14
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QColor readColor(QDomElement e)
      {
      QColor c;
      c.setRed(e.attribute("r").toInt());
      c.setGreen(e.attribute("g").toInt());
      c.setBlue(e.attribute("b").toInt());
      return c;
      }
Beispiel #15
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QColor Style::mergeColors(const QColor &colorA, const QColor &colorB, int factor) const
{
    QColor tmp = colorA;
    tmp.setRed((tmp.red() * factor) / maxFactor + (colorB.red() * (maxFactor - factor)) / maxFactor);
    tmp.setGreen((tmp.green() * factor) / maxFactor + (colorB.green() * (maxFactor - factor)) / maxFactor);
    tmp.setBlue((tmp.blue() * factor) / maxFactor + (colorB.blue() * (maxFactor - factor)) / maxFactor);
    return tmp;
}
static void dampColors(QColor &col)
{
    //Reduce the colors that are less visible to the eye, because they are closer to black when it comes to contrast
    //The most significant color to the eye is green. Then comes red, and then blue, with blue _much_ less significant.

    col.setBlue(0);
    col.setRed(col.red() / 2);
}
Beispiel #17
0
void MainWindow::colorImage()
{
	int x, y;
	Mat image;
	QColor color;
	
	QFileDialog *dialog = new QFileDialog();
	dialog->setNameFilter("PNG Files (*.png)");
	dialog->setOption(QFileDialog::ReadOnly);
	//dialog->setOption(QFileDialog::DontUseNativeDialog);
	dialog->setDirectory(".");
	QStringList fileNames;
	if (dialog->exec()) {
		fileNames = dialog->selectedFiles();
		QString fileName = fileNames.at(0);
		image = imread(fileName.toStdString(), CV_LOAD_IMAGE_COLOR);

		for( y=0; y!=image.rows; ++y) {
			if((y%2) == 0) {
				for(x=0;x!=image.cols;++x) {
					color.setBlue(image.data[((y*image.cols)+x)*3]);
					color.setGreen(image.data[((y*image.cols)+x)*3+1]);
					color.setRed(image.data[((y*image.cols)+x)*3+2]);
					motorControl.setLedColor(color);
					motorControl.commandMotor1(3, -4);
				}
			} else {
				for(x=image.cols-1;x!=-1;--x) {
					color.setBlue(image.data[((y*image.cols)+x)*3]);
					color.setGreen(image.data[((y*image.cols)+x)*3+1]);
					color.setRed(image.data[((y*image.cols)+x)*3+2]);
					motorControl.setLedColor(color);
					motorControl.commandMotor1(3, 4);
				}
			}
			motorControl.commandMotor2(6, -4);
		}
		color.setRed(0);
		color.setGreen(0);
		color.setBlue(0);
		motorControl.setLedColor(color);
		motorControl.releaseMotor1();
		motorControl.releaseMotor2();
	}	
}
Beispiel #18
0
void GrBar::hoverEnterEvent(QGraphicsSceneHoverEvent *pe){
    QApplication::setOverrideCursor( Qt::PointingHandCursor );
    QColor color = brushList.at(curIndexBrush).color();
    color.setRed( color.red()/2 );
    color.setGreen( color.green()/2 );
    color.setBlue( color.blue()/2 );
    brushList[curIndexBrush].setColor( color );
    QGraphicsItem::hoverEnterEvent( pe );
}
void QtGradientStopsControllerPrivate::slotChangeValue(int color)
{
    QColor c = m_ui->valueColorLine->color();
    if (m_ui->hsvRadioButton->isChecked())
        c.setHsvF(c.hueF(), c.saturationF(), (qreal)color / 255, c.alphaF());
    else
        c.setBlue(color);
    slotChangeValue(c);
}
Beispiel #20
0
void GrBar::hoverLeaveEvent(QGraphicsSceneHoverEvent *pe){
    QApplication::restoreOverrideCursor();
    QColor color = brushList.at(curIndexBrush).color();
    color.setRed( color.red()*2 );
    color.setGreen( color.green()*2 );
    color.setBlue( color.blue()*2 );
    brushList[curIndexBrush].setColor( color );
    QGraphicsItem::hoverLeaveEvent( pe );
}
QString QmitkStdMultiWidgetEditor::MitkColorToHex(const mitk::Color& color)
{
  QColor returnColor;
  float colorMax = 255.0f;
  returnColor.setRed(static_cast<int>(color[0]* colorMax + 0.5));
  returnColor.setGreen(static_cast<int>(color[1]* colorMax + 0.5));
  returnColor.setBlue(static_cast<int>(color[2]* colorMax + 0.5));
  return returnColor.name();
}
Beispiel #22
0
QColor StyleHelper::mergedColors(const QColor &colorA, const QColor &colorB, int factor)
{
    const int maxFactor = 100;
    QColor tmp = colorA;
    tmp.setRed((tmp.red() * factor) / maxFactor + (colorB.red() * (maxFactor - factor)) / maxFactor);
    tmp.setGreen((tmp.green() * factor) / maxFactor + (colorB.green() * (maxFactor - factor)) / maxFactor);
    tmp.setBlue((tmp.blue() * factor) / maxFactor + (colorB.blue() * (maxFactor - factor)) / maxFactor);
    return tmp;
}
Beispiel #23
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QColor readColor(const QDomElement& e)
      {
      QColor c;
      c.setRed(e.attribute("r").toInt());
      c.setGreen(e.attribute("g").toInt());
      c.setBlue(e.attribute("b").toInt());
      c.setAlpha(e.attribute("a", "255").toInt());
      return c;
      }
Beispiel #24
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    private: void setColourForIteration(QColor &farbe, int iter) {
        if(model->getIterationen() == iter) {
            farbe.setRed(0);
            farbe.setGreen(0);
            farbe.setBlue(0);
            return;
        }

        double anteil = (double)iter / (double)model->getIterationen();

        int r = getFarbAnteilMitDif(anteil, farbenMaske[0]);
        int g = getFarbAnteilMitDif(anteil, farbenMaske[1]);
        int b = getFarbAnteilMitDif(anteil, farbenMaske[2]);

        farbe.setRed(r);
        farbe.setGreen(g);
        farbe.setBlue(b);
    }
Beispiel #25
0
QColor fromARGBString(const QString &c)
{
    Q_ASSERT(c.length() == 8);
    QColor color;
    color.setRed(c.mid(2, 2).toInt(0, 16));
    color.setGreen(c.mid(4, 2).toInt(0, 16));
    color.setBlue(c.mid(6, 2).toInt(0, 16));
    return color;
}
Beispiel #26
0
void TreeOutputItem::setCaption()
{
    QColor col = QApplication::palette(static_cast<const QWidget *>(NULL)).color(QPalette::Button);
    setFont(0, QFont("Sans", 12));
    if ( Source == m_role ) {
        col.setBlue(0);
        setBackground(0, QBrush(col));
        setText(0, m_caption);
    }
    else if ( EnabledSink == m_role ) {
        col.setBlue(0);
        setBackground(0, QBrush(col));
        setText(0, tr("☑ %0").arg(m_caption));
    }
    else {
        setBackground(0, QBrush(col));
        setText(0, tr("☐ %0").arg(m_caption));
    }
}
Beispiel #27
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QColor ZPunctum::highlightingColor(const QColor &color) const
{
  QColor highlight;

  highlight.setRed(imin2(255, color.red() + 96));
  highlight.setGreen(imin2(255, color.green() + 96));
  highlight.setBlue(imin2(255, color.blue() + 96));

  return highlight;
}
Beispiel #28
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// Mix colors a and b with a ratio in the range [0-255]
QColor QCommandLinkButtonPrivate::mergedColors(const QColor &a, const QColor &b, int value = 50) const
{
    Q_ASSERT(value >= 0);
    Q_ASSERT(value <= 255);
    QColor tmp = a;
    tmp.setRed((tmp.red() * value) / 255 + (b.red() * (255 - value)) / 255);
    tmp.setGreen((tmp.green() * value) / 255 + (b.green() * (255 - value)) / 255);
    tmp.setBlue((tmp.blue() * value) / 255 + (b.blue() * (255 - value)) / 255);
    return tmp;
}
Beispiel #29
0
QColor DetailSection::ColorFromString(QString s)
{
    QStringList l= s.split(",");
    QColor c;
    c.setRed(l.at(0).toDouble());
    c.setGreen(l.at(1).toDouble());
    c.setBlue(l.at(2).toDouble());
    c.setAlpha(l.at(3).toDouble());
    return c;
}
Beispiel #30
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QColor XmlReader::readColor()
      {
      Q_ASSERT(tokenType() == QXmlStreamReader::StartElement);
      QColor c;
      c.setRed(intAttribute("r"));
      c.setGreen(intAttribute("g"));
      c.setBlue(intAttribute("b"));
      c.setAlpha(intAttribute("a", 255));
      skipCurrentElement();
      return c;
      }