/*!
Wrapper for QPainter::drawPolyline()
*/
void QwtPainter::drawPolyline(QPainter *painter, const QwtPolygon &pa)
{
QRect clipRect;
const bool deviceClipping = isClippingNeeded(painter, clipRect);
QwtPolygon cpa = d_metricsMap.layoutToDevice(pa);
if ( deviceClipping )
cpa = QwtClipper::clipPolygon(clipRect, cpa);
#if QT_VERSION >= 0x040000
bool doSplit = false;
const QPaintEngine *pe = painter->paintEngine();
if ( pe && pe->type() == QPaintEngine::Raster &&
painter->pen().width() >= 2 )
{
/*
The raster paint engine seems to use some algo with O(n*n).
( Qt 4.3 is better than Qt 4.2, but remains unacceptable)
To work around this problem, we have to split the polygon into
smaller pieces.
*/
doSplit = true;
}
if ( doSplit )
{
const int numPoints = cpa.size();
const QPoint *points = cpa.data();
const int splitSize = 20;
for ( int i = 0; i < numPoints; i += splitSize )
{
const int n = qwtMin(splitSize + 1, cpa.size() - i);
painter->drawPolyline(points + i, n);
}
}
else
#endif
painter->drawPolyline(cpa);
}
/*!
\brief Draw lines
If the CurveAttribute Fitted is enabled a QwtCurveFitter tries
to interpolate/smooth the curve, before it is painted.
\param painter Painter
\param xMap x map
\param yMap y map
\param from index of the first point to be painted
\param to index of the last point to be painted
\sa setCurveAttribute(), setCurveFitter(), draw(),
drawLines(), drawDots(), drawSteps(), drawSticks()
*/
void QwtPlotCurve::drawLines(QPainter *painter,
const QwtScaleMap &xMap, const QwtScaleMap &yMap,
int from, int to) const
{
int size = to - from + 1;
if ( size <= 0 )
return;
QwtPolygon polyline;
if ( ( d_data->attributes & Fitted ) && d_data->curveFitter )
{
// Transform x and y values to window coordinates
// to avoid a distinction between linear and
// logarithmic scales.
#if QT_VERSION < 0x040000
QwtArray<QwtDoublePoint> points(size);
#else
QPolygonF points(size);
#endif
for (int i = from; i <= to; i++)
{
QwtDoublePoint &p = points[i];
p.setX( xMap.xTransform(x(i)) );
p.setY( yMap.xTransform(y(i)) );
}
points = d_data->curveFitter->fitCurve(points);
size = points.size();
if ( size == 0 )
return;
// Round QwtDoublePoints to QPoints
// When Qwt support for Qt3 has been dropped (Qwt 6.x)
// we will use a doubles for painting and the following
// step will be obsolete.
polyline.resize(size);
const QwtDoublePoint *p = points.data();
QPoint *pl = polyline.data();
if ( d_data->paintAttributes & PaintFiltered )
{
QPoint pp(qRound(p[0].x()), qRound(p[0].y()));
pl[0] = pp;
int count = 1;
for (int i = 1; i < size; i++)
{
const QPoint pi(qRound(p[i].x()), qRound(p[i].y()));
if ( pi != pp )
{
pl[count++] = pi;
pp = pi;
}
}
if ( count != size )
polyline.resize(count);
}
else
{
for ( int i = 0; i < size; i++ )
{
pl[i].setX( qRound(p[i].x()) );
pl[i].setY( qRound(p[i].y()) );
}
}
}
else
{
polyline.resize(size);
if ( d_data->paintAttributes & PaintFiltered )
{
QPoint pp( xMap.transform(x(from)), yMap.transform(y(from)) );
polyline.setPoint(0, pp);
int count = 1;
for (int i = from + 1; i <= to; i++)
{
const QPoint pi(xMap.transform(x(i)), yMap.transform(y(i)));
if ( pi != pp )
{
polyline.setPoint(count, pi);
count++;
pp = pi;
}
}
if ( count != size )
polyline.resize(count);
}
else
{
for (int i = from; i <= to; i++)
{
int xi = xMap.transform(x(i));
int yi = yMap.transform(y(i));
polyline.setPoint(i - from, xi, yi);
}
}
}
if ( d_data->paintAttributes & ClipPolygons )
polyline = QwtClipper::clipPolygon(painter->window(), polyline);
QwtPainter::drawPolyline(painter, polyline);
if ( d_data->brush.style() != Qt::NoBrush )
fillCurve(painter, xMap, yMap, polyline);
}
