qt_demoe/third/qwtdemo/examples/oscilloscope/plot.cpp

255 lines
7.2 KiB
C++

#include "plot.h"
#include "curvedata.h"
#include "signaldata.h"
#include <qwt_plot_grid.h>
#include <qwt_plot_layout.h>
#include <qwt_plot_canvas.h>
#include <qwt_plot_marker.h>
#include <qwt_plot_curve.h>
#include <qwt_plot_directpainter.h>
#include <qwt_curve_fitter.h>
#include <qwt_painter.h>
#include <qevent.h>
class Canvas: public QwtPlotCanvas
{
public:
Canvas( QwtPlot *plot = NULL ):
QwtPlotCanvas( plot )
{
// The backing store is important, when working with widget
// overlays ( f.e rubberbands for zooming ).
// Here we don't have them and the internal
// backing store of QWidget is good enough.
setPaintAttribute( QwtPlotCanvas::BackingStore, false );
setBorderRadius( 10 );
if ( QwtPainter::isX11GraphicsSystem() )
{
#if QT_VERSION < 0x050000
// Even if not liked by the Qt development, Qt::WA_PaintOutsidePaintEvent
// works on X11. This has a nice effect on the performance.
setAttribute( Qt::WA_PaintOutsidePaintEvent, true );
#endif
// Disabling the backing store of Qt improves the performance
// for the direct painter even more, but the canvas becomes
// a native window of the window system, receiving paint events
// for resize and expose operations. Those might be expensive
// when there are many points and the backing store of
// the canvas is disabled. So in this application
// we better don't disable both backing stores.
if ( testPaintAttribute( QwtPlotCanvas::BackingStore ) )
{
setAttribute( Qt::WA_PaintOnScreen, true );
setAttribute( Qt::WA_NoSystemBackground, true );
}
}
setupPalette();
}
private:
void setupPalette()
{
QPalette pal = palette();
#if QT_VERSION >= 0x040400
QLinearGradient gradient;
gradient.setCoordinateMode( QGradient::StretchToDeviceMode );
gradient.setColorAt( 0.0, QColor( 0, 49, 110 ) );
gradient.setColorAt( 1.0, QColor( 0, 87, 174 ) );
pal.setBrush( QPalette::Window, QBrush( gradient ) );
#else
pal.setBrush( QPalette::Window, QBrush( color ) );
#endif
// QPalette::WindowText is used for the curve color
pal.setColor( QPalette::WindowText, Qt::green );
setPalette( pal );
}
};
Plot::Plot( QWidget *parent ):
QwtPlot( parent ),
d_paintedPoints( 0 ),
d_interval( 0.0, 10.0 ),
d_timerId( -1 )
{
d_directPainter = new QwtPlotDirectPainter();
setAutoReplot( false );
setCanvas( new Canvas() );
plotLayout()->setAlignCanvasToScales( true );
setAxisTitle( QwtPlot::xBottom, "Time [s]" );
setAxisScale( QwtPlot::xBottom, d_interval.minValue(), d_interval.maxValue() );
setAxisScale( QwtPlot::yLeft, -200.0, 200.0 );
QwtPlotGrid *grid = new QwtPlotGrid();
grid->setPen( Qt::gray, 0.0, Qt::DotLine );
grid->enableX( true );
grid->enableXMin( true );
grid->enableY( true );
grid->enableYMin( false );
grid->attach( this );
d_origin = new QwtPlotMarker();
d_origin->setLineStyle( QwtPlotMarker::Cross );
d_origin->setValue( d_interval.minValue() + d_interval.width() / 2.0, 0.0 );
d_origin->setLinePen( Qt::gray, 0.0, Qt::DashLine );
d_origin->attach( this );
d_curve = new QwtPlotCurve();
d_curve->setStyle( QwtPlotCurve::Lines );
d_curve->setPen( canvas()->palette().color( QPalette::WindowText ) );
d_curve->setRenderHint( QwtPlotItem::RenderAntialiased, true );
d_curve->setPaintAttribute( QwtPlotCurve::ClipPolygons, false );
d_curve->setData( new CurveData() );
d_curve->attach( this );
}
Plot::~Plot()
{
delete d_directPainter;
}
void Plot::start()
{
d_clock.start();
d_timerId = startTimer( 10 );
}
void Plot::replot()
{
CurveData *data = static_cast<CurveData *>( d_curve->data() );
data->values().lock();
QwtPlot::replot();
d_paintedPoints = data->size();
data->values().unlock();
}
void Plot::setIntervalLength( double interval )
{
if ( interval > 0.0 && interval != d_interval.width() )
{
d_interval.setMaxValue( d_interval.minValue() + interval );
setAxisScale( QwtPlot::xBottom,
d_interval.minValue(), d_interval.maxValue() );
replot();
}
}
void Plot::updateCurve()
{
CurveData *data = static_cast<CurveData *>( d_curve->data() );
data->values().lock();
const int numPoints = data->size();
if ( numPoints > d_paintedPoints )
{
const bool doClip = !canvas()->testAttribute( Qt::WA_PaintOnScreen );
if ( doClip )
{
/*
Depending on the platform setting a clip might be an important
performance issue. F.e. for Qt Embedded this reduces the
part of the backing store that has to be copied out - maybe
to an unaccelerated frame buffer device.
*/
const QwtScaleMap xMap = canvasMap( d_curve->xAxis() );
const QwtScaleMap yMap = canvasMap( d_curve->yAxis() );
QRectF br = qwtBoundingRect( *data,
d_paintedPoints - 1, numPoints - 1 );
const QRect clipRect = QwtScaleMap::transform( xMap, yMap, br ).toRect();
d_directPainter->setClipRegion( clipRect );
}
d_directPainter->drawSeries( d_curve,
d_paintedPoints - 1, numPoints - 1 );
d_paintedPoints = numPoints;
}
data->values().unlock();
}
void Plot::incrementInterval()
{
d_interval = QwtInterval( d_interval.maxValue(),
d_interval.maxValue() + d_interval.width() );
CurveData *data = static_cast<CurveData *>( d_curve->data() );
data->values().clearStaleValues( d_interval.minValue() );
// To avoid, that the grid is jumping, we disable
// the autocalculation of the ticks and shift them
// manually instead.
QwtScaleDiv scaleDiv = axisScaleDiv( QwtPlot::xBottom );
scaleDiv.setInterval( d_interval );
for ( int i = 0; i < QwtScaleDiv::NTickTypes; i++ )
{
QList<double> ticks = scaleDiv.ticks( i );
for ( int j = 0; j < ticks.size(); j++ )
ticks[j] += d_interval.width();
scaleDiv.setTicks( i, ticks );
}
setAxisScaleDiv( QwtPlot::xBottom, scaleDiv );
d_origin->setValue( d_interval.minValue() + d_interval.width() / 2.0, 0.0 );
d_paintedPoints = 0;
replot();
}
void Plot::timerEvent( QTimerEvent *event )
{
if ( event->timerId() == d_timerId )
{
updateCurve();
const double elapsed = d_clock.elapsed() / 1000.0;
if ( elapsed > d_interval.maxValue() )
incrementInterval();
return;
}
QwtPlot::timerEvent( event );
}
void Plot::resizeEvent( QResizeEvent *event )
{
d_directPainter->reset();
QwtPlot::resizeEvent( event );
}
void Plot::showEvent( QShowEvent * )
{
replot();
}
bool Plot::eventFilter( QObject *object, QEvent *event )
{
if ( object == canvas() &&
event->type() == QEvent::PaletteChange )
{
d_curve->setPen( canvas()->palette().color( QPalette::WindowText ) );
}
return QwtPlot::eventFilter( object, event );
}