Ejemplo n.º 1
0
void VLCStatsView::addValue( float value )
{
    value /= 1000;

    QPolygonF shape = totalbitrateShape->polygon();
    if ( shape.count() > ( STATS_LENGTH + 2 ) ) /* keep only STATS_LENGTH samples */
    {
        shape.remove( 1 );
        for(int i=1; i<( STATS_LENGTH + 2 ); i++)
            ( (QPointF &) shape.at(i) ).setX( i - 1 ); /*move back values*/
    }

    int count = shape.count();
    if ( count == 0 )
    {
        shape << QPointF( 0, 0 ); /* begin and close shape */
        shape << QPointF( count, 0 );
    }

    shape.insert( shape.end() - 1, QPointF( count, value ) );
    ( (QPointF &) shape.last() ).setX( count );
    totalbitrateShape->setPolygon( shape );

    addHistoryValue( value );

    QRectF maxsizes = scene()->itemsBoundingRect();
    maxsizes.setRight( STATS_LENGTH );
    fitInView( maxsizes ); /* fix viewport */
    drawRulers( maxsizes );
}
Ejemplo n.º 2
0
void GradientEditor::pointsUpdated()
{
    qreal w = m_alpha_shade->width();

    QGradientStops stops;

    QPolygonF points;

    points += m_red_shade->points();
    points += m_green_shade->points();
    points += m_blue_shade->points();
    points += m_alpha_shade->points();

    qSort(points.begin(), points.end(), x_less_than);

    for (int i=0; i<points.size(); ++i) {
        qreal x = int(points.at(i).x());
        if (i < points.size() - 1 && x == points.at(i+1).x())
            continue;
        QColor color((0x00ff0000 & m_red_shade->colorAt(int(x))) >> 16,
                     (0x0000ff00 & m_green_shade->colorAt(int(x))) >> 8,
                     (0x000000ff & m_blue_shade->colorAt(int(x))),
                     (0xff000000 & m_alpha_shade->colorAt(int(x))) >> 24);

        if (x / w > 1)
            return;

        stops << QGradientStop(x / w, color);
    }

    m_alpha_shade->setGradientStops(stops);

    emit gradientStopsChanged(stops);
}
Ejemplo n.º 3
0
void Checker::prepareForDisplay (const QPolygonF &polygon,
                                 int pointRadius,
                                 const DocumentModelAxesChecker &modelAxesChecker,
                                 const DocumentModelCoords &modelCoords)
{
  LOG4CPP_INFO_S ((*mainCat)) << "Checker::prepareForDisplay";

  ENGAUGE_ASSERT (polygon.count () == NUM_AXES_POINTS);

  // Convert pixel coordinates in QPointF to screen and graph coordinates in Point using
  // identity transformation, so this routine can reuse computations provided by Transformation
  QList<Point> points;
  QPolygonF::const_iterator itr;
  for (itr = polygon.begin (); itr != polygon.end (); itr++) {

    const QPointF &pF = *itr;

    Point p (DUMMY_CURVENAME,
             pF,
             pF);
    points.push_back (p);
  }

  // Screen and graph coordinates are treated as the same, so identity transform is used
  Transformation transformIdentity;
  transformIdentity.identity();
  prepareForDisplay (points,
                     pointRadius,
                     modelAxesChecker,
                     modelCoords,
                     transformIdentity);
}
Ejemplo n.º 4
0
void VLCStatsView::addHistoryValue( float value )
{
    /* We keep a full history by creating virtual blocks for inserts, growing
       by power of 2 when no more space is available. At this time, we also
       free space by agregating the oldest values 2 by 2.
       Each shown value finally being a mean of blocksize samples.
    */
    bool doinsert = false;
    int next_blocksize = blocksize;
    QPolygonF shape = historyShape->polygon();
    int count = shape.count();
    if ( count == 0 )
    {
        shape << QPointF( 0, 0 ); /* begin and close shape */
        shape << QPointF( count, 0 );
    }

    valuesaccumulator += ( value / blocksize );
    valuesaccumulatorcount++;

    if ( valuesaccumulatorcount == blocksize )
    {
        valuesaccumulator = 0;
        valuesaccumulatorcount = 0;
        doinsert = true;
    }

    if ( doinsert )
    {
        if ( count > ( STATS_LENGTH + 2 ) )
        {
            float y = 0;
            y += ((QPointF &) shape.at( historymergepointer + 1 )).y();
            y += ((QPointF &) shape.at( historymergepointer + 2 )).y();
            y /= 2;

            /* merge */
            shape.remove( historymergepointer + 2 );
            ( (QPointF &) shape.at( historymergepointer + 1 ) ).setY( y );
            for(int i=historymergepointer +1; i<( STATS_LENGTH + 2 ); i++)
                ( (QPointF &) shape.at(i) ).setX( i - 1 ); /*move back values*/
            historymergepointer++;
            if ( historymergepointer > ( STATS_LENGTH - 1 ) )
            {
                historymergepointer = 0;
                next_blocksize = ( blocksize << 1 );
            }
        }

        shape.insert( shape.end() - 1, QPointF( count, value ) );
        ( (QPointF &) shape.last() ).setX( count );
    }
    else
        ( (QPointF &) shape.last() ).setX( count - 1 );

    historyShape->setPolygon( shape );

    blocksize = next_blocksize;
}
Ejemplo n.º 5
0
int main(int argc, char *argv[])
{
    // This usage QApplication and QLabel is adapted from
    // http://en.wikipedia.org/wiki/Qt_(toolkit)#Qt_hello_world
    QApplication app(argc, argv);

    // Declare a polygon. This is just Qt. The Qt Polygon can be used
    // in GGL as well, just by its oneline registration above.
    QPolygonF polygon;

    // Qt methods can be used, in this case to add points
    polygon
        << QPointF(10, 20) << QPointF(20, 30)
        << QPointF(30, 20) << QPointF(20, 10)
        << QPointF(10, 20);

    // GGL methods can be used, e.g. to calculate area
    std::ostringstream out;
    out << "GGL area: " << boost::geometry::area(polygon) << std::endl;

    // Some functionality is defined in both Qt and GGL
    QPointF p(20,20);
    out << "Qt contains: "
        << (polygon.containsPoint(p, Qt::WindingFill) ? "yes" : "no")
        << std::endl
        << "GGL within: "
        << (boost::geometry::within(p, polygon) ? "yes" : "no")
        << std::endl;
    // Detail: if point is ON boundary, Qt says yes, GGL says no.


    // Qt defines an iterator
    // (which is actually required for GGL, it's part of the ring-concept)
    // such that GGL can use the points of this polygon
    QPolygonF::const_iterator it;
    for (it = polygon.begin(); it != polygon.end(); ++it)
    {
        // Stream Delimiter-Separated, just to show something GGL can do
        out << boost::geometry::dsv(*it) << std::endl;
    }

    // Stream the polygon as well
    out << boost::geometry::dsv(polygon) << std::endl;

    // Just show what we did in a label
    QLabel label(out.str().c_str());
    label.show();
    return app.exec();

    // What else could be useful, functionality that GGL has and Qt not (yet)?
    // - simplify a polygon (to get less points and preserve shape)
    // - clip a polygon with a box
    // - calculate the centroid
    // - calculate the perimeter
    // - calculate the convex hull
    // - transform it using matrix transformations
}
Ejemplo n.º 6
0
Circle::Circle(const QPointF& p1, const QPointF& p2, const QPointF& p3) {
    QPolygonF poly;
    poly << p1 << p2 << p3;
    qSort(poly.begin(), poly.end(), pointLessThan);
    if      CHECK_AND_MAKE(0, 1, 2)
    else if CHECK_AND_MAKE(0, 2, 1)
    else if CHECK_AND_MAKE(1, 0, 2)
    else if CHECK_AND_MAKE(1, 2, 0)
    else if CHECK_AND_MAKE(2, 0, 1)
    else if CHECK_AND_MAKE(2, 1, 0)
    else mRadius = -1;
}
Ejemplo n.º 7
0
int main(int argc, char *argv[])
{
    // This usage QApplication and QLabel is adapted from
    // http://en.wikipedia.org/wiki/Qt_(toolkit)#Qt_hello_world
    QApplication app(argc, argv);

    // Declare a Qt polygon. The Qt Polygon can be used
    // in Boost.Geometry, just by its oneline registration above.
    QPolygonF polygon;

    // Use Qt to add points to polygon
    polygon
        << QPointF(10, 20) << QPointF(20, 30)
        << QPointF(30, 20) << QPointF(20, 10)
        << QPointF(10, 20);

    // Use Boost.Geometry e.g. to calculate area
    std::ostringstream out;
    out << "Boost.Geometry area: " << boost::geometry::area(polygon) << std::endl;

    // Some functionality is defined in both Qt and Boost.Geometry
    QPointF p(20,20);
    out << "Qt contains: "
        << (polygon.containsPoint(p, Qt::WindingFill) ? "yes" : "no")
        << std::endl
        << "Boost.Geometry within: "
        << (boost::geometry::within(p, polygon) ? "yes" : "no")
        << std::endl;
    // Detail: if point is ON boundary, Qt says yes, Boost.Geometry says no.

    // Qt defines an iterator
    // (which is required for of the Boost.Geometry ring-concept)
    // such that Boost.Geometry can use the points of this polygon
    QPolygonF::const_iterator it;
    for (it = polygon.begin(); it != polygon.end(); ++it)
    {
        // Stream Delimiter-Separated, just to show something Boost.Geometry can do
        out << boost::geometry::dsv(*it) << std::endl;
    }

    // Stream the polygon as well
    out << boost::geometry::dsv(polygon) << std::endl;

    // Just show what we did in a label
    QLabel label(out.str().c_str());
    label.show();
    return app.exec();
}
Ejemplo n.º 8
0
void DialogFunction::onInsertPoint()
{
	QAction* pActionInsertPoint = static_cast<QAction*>(sender());
	const QPoint& point = pActionInsertPoint->data().toPoint();
	QwtArraySeriesData<QPointF>* pSeries = static_cast<QwtArraySeriesData<QPointF>*>(_pCurve->data());
	if (pSeries)
	{
		QPolygonF samples = pSeries->samples();
		QPointF newPoint;
		newPoint.setX(widgetPlot->invTransform(_pCurve->xAxis(), point.x()));
		newPoint.setY(widgetPlot->invTransform(_pCurve->yAxis(), point.y()));
		QPolygonF::iterator it = qLowerBound(samples.begin(), samples.end(), newPoint, boost::bind(&QPointF::x, _1) < boost::bind(&QPointF::x, _2));
		samples.insert(it, newPoint);
		_pCurve->setSamples(samples);
		widgetPlot->replot();
	}
}
Ejemplo n.º 9
0
void polygonClip(const QPolygonF& inpoly,
		 const QRectF& cliprect,
		 QPolygonF& out)
{
  // construct initial state
  State state(cliprect, out);

  // do the clipping
  for(QPolygonF::const_iterator pt = inpoly.begin(); pt != inpoly.end(); ++pt)
    {
      state.leftClipPoint(*pt);
    }

  // complete
  state.leftClipPoint(state.left1st);
  state.rightClipPoint(state.right1st);
  state.topClipPoint(state.top1st);
  state.bottomClipPoint(state.bottom1st);
}
Ejemplo n.º 10
0
void BaseObjectView::resizePolygon(QPolygonF &pol, float width, float height)
{
	QVector<QPointF>::iterator itr,itr_end;
	float coef_a, coef_b;

	itr=pol.begin();
	itr_end=pol.end();

	//Calculates the resize factor
	coef_a=width / pol.boundingRect().width();
	coef_b=height / pol.boundingRect().height();

	//Applies the resize factor to all the polygon points
	while(itr!=itr_end)
	{
		itr->setX(itr->x() * coef_a);
		itr->setY(itr->y() * coef_b);
		itr++;
	}
}
Ejemplo n.º 11
0
void
ViewerGL::Implementation::drawCheckerboardTexture(const QPolygonF& polygon)
{
    ///We divide by 2 the tiles count because one texture is 4 tiles actually
    QPointF topLeft, btmRight;
    double screenW, screenH;
    {
        QMutexLocker l(&zoomCtxMutex);
        topLeft = zoomCtx.toZoomCoordinates(0, 0);
        screenW = zoomCtx.screenWidth();
        screenH = zoomCtx.screenHeight();
        btmRight = zoomCtx.toZoomCoordinates(screenW - 1, screenH - 1);
    }
    double xTilesCountF = screenW / (checkerboardTileSize * 4); //< 4 because the texture contains 4 tiles
    double yTilesCountF = screenH / (checkerboardTileSize * 4);
    GLuint savedTexture;

    GL_GPU::glGetIntegerv(GL_TEXTURE_BINDING_2D, (GLint*)&savedTexture);
    {
        GLProtectAttrib<GL_GPU> a(GL_ENABLE_BIT);

        GL_GPU::glEnable(GL_TEXTURE_2D);
        GL_GPU::glBindTexture(GL_TEXTURE_2D, checkerboardTextureID);
        GL_GPU::glBegin(GL_POLYGON);
        for (QPolygonF::const_iterator it = polygon.begin();
             it != polygon.end();
             ++it) {
            GL_GPU::glTexCoord2d( xTilesCountF * ( it->x() - topLeft.x() )  / ( btmRight.x() - topLeft.x() ),
                          yTilesCountF * ( it->y() - btmRight.y() ) / ( topLeft.y() - btmRight.y() ) );
            GL_GPU::glVertex2d( it->x(), it->y() );
        }
        GL_GPU::glEnd();


        //glDisable(GL_SCISSOR_TEST);
    } // GLProtectAttrib a(GL_SCISSOR_BIT | GL_ENABLE_BIT);
    GL_GPU::glBindTexture(GL_TEXTURE_2D, savedTexture);
    glCheckError(GL_GPU);
}
Ejemplo n.º 12
0
QTransform Carton::transform(Faces face, const QPointF &translation, qreal scaling) const
{
    QTransform result;

    const QSizeF originalSize(faceSize(face));
    QPolygonF original(4);
    original[0] = QPointF(0,                    0);                     // TopLeft
    original[1] = QPointF(originalSize.width(), 0);                     // TopRight
    original[2] = QPointF(originalSize.width(), originalSize.height()), // BottomRight
    original[3] = QPointF(0,                    originalSize.height()); // BottomLeft

    QPolygonF targetFace = face2d(face);
    QPolygonF::iterator i;
    for (i = targetFace.begin(); i != targetFace.end(); ++i) {
        (*i).setX((*i).x() * scaling + translation.x());
        (*i).setY((*i).y() * scaling + translation.y());
    }

    const bool possible = QTransform::quadToQuad(original, targetFace, result);
    Q_ASSERT(possible);

    return result;
}
Ejemplo n.º 13
0
void _PolyClipper::clipPolyline(const QPolygonF& poly)
{
  // exit if fewer than 2 points in polygon
  if ( poly.size() < 2 )
    return;

  // output goes here
  QPolygonF pout;

  QPolygonF::const_iterator polyiter = poly.begin();
  QPointF lastpt = *polyiter;
  polyiter++;

  for( ; polyiter != poly.end(); ++polyiter )
    {
      QPointF p1 = lastpt;
      QPointF p2 = *polyiter;

      bool plotline = _clipper.clipLine(p1, p2);
      if( plotline )
        {
          if( pout.isEmpty() )
            {
              // add first line
              pout << p1;
              if( ! smallDelta(p1, p2) )
                pout << p2;
            }
          else
            {
              if( p1 == pout.last() )
                {
                  if( ! smallDelta(p1, p2) )
                    // extend polyline
                    pout << p2;
                }
              else
                {
                  // paint existing line
                  if( pout.size() >= 2 )
                    emitPolyline(pout);

                  // start new line
                  pout.clear();
                  pout << p1;
                  if( ! smallDelta(p1, p2) )
                    pout << p2;
                }
            }
        }
      else
        {
          // line isn't in region, so ignore results from clip function

          // paint existing line
          if( pout.size() >= 2 )
            emitPolyline(pout);

          // cleanup
          pout.clear();
        }


      lastpt = *polyiter;
    }

  if( pout.size() >= 2 )
    emitPolyline(pout);
}