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#include <qimage.h>
#include <qpen.h>
#include <qpainter.h>
#include "qwt_painter.h"
#include "qwt_scale_map.h"
#include "qwt_color_map.h"
#include "plot_waterfall.h"

#if QWT_VERSION < 0x060000
#include "qwt_double_interval.h"
#endif

typedef QVector<QRgb> QwtColorTable;

class PlotWaterfallImage: public QImage
{
    // This class hides some Qt3/Qt4 API differences
public:
    PlotWaterfallImage(const QSize &size, QwtColorMap::Format format):
      QImage(size, format == QwtColorMap::RGB
	     ? QImage::Format_ARGB32 : QImage::Format_Indexed8 )
  {
  }

  PlotWaterfallImage(const QImage &other):
    QImage(other)
  {
  }

  void initColorTable(const QImage& other)
  {
    setColorTable(other.colorTable());
  }
};

class PlotWaterfall::PrivateData
{
public:
  PrivateData()
  {
    data = NULL;
    colorMap = new QwtLinearColorMap();
  }
  ~PrivateData()
  {
    delete colorMap;
  }

  WaterfallData *data;
  QwtColorMap *colorMap;
};

/*!
  Sets the following item attributes:
  - QwtPlotItem::AutoScale: true
  - QwtPlotItem::Legend:    false

  The z value is initialized by 8.0.

  \param title Title

  \sa QwtPlotItem::setItemAttribute(), QwtPlotItem::setZ()
*/
PlotWaterfall::PlotWaterfall(WaterfallData* data, const QString &title):
    QwtPlotRasterItem(title)
{
    d_data = new PrivateData();
    d_data->data = data;

//    setCachePolicy(QwtPlotRasterItem::PaintCache);

    setItemAttribute(QwtPlotItem::AutoScale, true);
    setItemAttribute(QwtPlotItem::Legend, false);

    setZ(8.0);
}

//! Destructor
PlotWaterfall::~PlotWaterfall()
{
    delete d_data;
}

const WaterfallData* PlotWaterfall::data()const{
    return d_data->data;
}

//! \return QwtPlotItem::Rtti_PlotSpectrogram
int PlotWaterfall::rtti() const
{
    return QwtPlotItem::Rtti_PlotSpectrogram;
}

/*!
  Change the color map

  Often it is useful to display the mapping between intensities and
  colors as an additional plot axis, showing a color bar.

  \param colorMap Color Map

  \sa colorMap(), QwtScaleWidget::setColorBarEnabled(),
  QwtScaleWidget::setColorMap()
*/
void PlotWaterfall::setColorMap(const QwtColorMap &colorMap)
{
    delete d_data->colorMap;
#if QWT_VERSION < 0x060000
    d_data->colorMap = colorMap.copy();
#endif

    invalidateCache();
    itemChanged();
}

/*!
  \return Color Map used for mapping the intensity values to colors
  \sa setColorMap()
*/
const QwtColorMap &PlotWaterfall::colorMap() const
{
  return *d_data->colorMap;
}

/*!
  \return Bounding rect of the data
  \sa QwtRasterData::boundingRect
*/
#if QWT_VERSION < 0x060000
QwtDoubleRect PlotWaterfall::boundingRect() const
{
  return d_data->data->boundingRect();
}
#endif

/*!
  \brief Returns the recommended raster for a given rect.

  F.e the raster hint is used to limit the resolution of
  the image that is rendered.

  \param rect Rect for the raster hint
  \return data().rasterHint(rect)
*/
#if QWT_VERSION < 0x060000
QSize PlotWaterfall::rasterHint(const QwtDoubleRect &rect) const
{
  return d_data->data->rasterHint(rect);
}
#endif

/*!
  \brief Render an image from the data and color map.

  The area is translated into a rect of the paint device.
  For each pixel of this rect the intensity is mapped
  into a color.

  \param xMap X-Scale Map
  \param yMap Y-Scale Map
  \param area Area that should be rendered in scale coordinates.

  \return A QImage::Format_Indexed8 or QImage::Format_ARGB32 depending
  on the color map.

  \sa QwtRasterData::intensity(), QwtColorMap::rgb(),
  QwtColorMap::colorIndex()
*/
#if QWT_VERSION < 0x060000
QImage PlotWaterfall::renderImage(const QwtScaleMap &xMap,
				  const QwtScaleMap &yMap,
				  const QwtDoubleRect &area) const
#else
QImage PlotWaterfall::renderImage(const QwtScaleMap &xMap,
				  const QwtScaleMap &yMap,
				  const QRectF &area,
				  const QSize &size) const
#endif
{
    if ( area.isEmpty() )
        return QImage();

#if QWT_VERSION < 0x060000
    QRect rect = transform(xMap, yMap, area);
    const QSize res = d_data->data->rasterHint(area);
#else
    QRect rect(0,0,0,0);
    const QSize res(0,0);
#endif

    QwtScaleMap xxMap = xMap;
    QwtScaleMap yyMap = yMap;

    if ( res.isValid() )
    {
        /*
          It is useless to render an image with a higher resolution
          than the data offers. Of course someone will have to
          scale this image later into the size of the given rect, but f.e.
          in case of postscript this will done on the printer.
	*/
        rect.setSize(rect.size().boundedTo(res));

        int px1 = rect.x();
        int px2 = rect.x() + rect.width();
        if ( xMap.p1() > xMap.p2() )
            qSwap(px1, px2);

        double sx1 = area.x();
        double sx2 = area.x() + area.width();
        if ( xMap.s1() > xMap.s2() )
            qSwap(sx1, sx2);

        int py1 = rect.y();
        int py2 = rect.y() + rect.height();
        if ( yMap.p1() > yMap.p2() )
            qSwap(py1, py2);

        double sy1 = area.y();
        double sy2 = area.y() + area.height();
        if ( yMap.s1() > yMap.s2() )
            qSwap(sy1, sy2);

        xxMap.setPaintInterval(px1, px2);
        xxMap.setScaleInterval(sx1, sx2);
        yyMap.setPaintInterval(py1, py2);
        yyMap.setScaleInterval(sy1, sy2);
    }

    PlotWaterfallImage image(rect.size(), d_data->colorMap->format());

#if QWT_VERSION < 0x060000
    const QwtDoubleInterval intensityRange = d_data->data->range();
#else
    const QwtInterval intensityRange = d_data->data->interval(Qt::ZAxis);
#endif
    if ( !intensityRange.isValid() )
        return image;

    d_data->data->initRaster(area, rect.size());

    if ( d_data->colorMap->format() == QwtColorMap::RGB )
    {
        for ( int y = rect.top(); y <= rect.bottom(); y++ )
        {
            const double ty = yyMap.invTransform(y);

            QRgb *line = (QRgb *)image.scanLine(y - rect.top());
            for ( int x = rect.left(); x <= rect.right(); x++ )
            {
                const double tx = xxMap.invTransform(x);

                *line++ = d_data->colorMap->rgb(intensityRange,
						d_data->data->value(tx, ty));
            }
        }
    }
    else if ( d_data->colorMap->format() == QwtColorMap::Indexed )
    {
        image.setColorTable(d_data->colorMap->colorTable(intensityRange));

        for ( int y = rect.top(); y <= rect.bottom(); y++ )
        {
            const double ty = yyMap.invTransform(y);

            unsigned char *line = image.scanLine(y - rect.top());
            for ( int x = rect.left(); x <= rect.right(); x++ )
            {
                const double tx = xxMap.invTransform(x);

                *line++ = d_data->colorMap->colorIndex(intensityRange,
						       d_data->data->value(tx, ty));
            }
        }
    }

    d_data->data->discardRaster();

    // Mirror the image in case of inverted maps

    const bool hInvert = xxMap.p1() > xxMap.p2();
    const bool vInvert = yyMap.p1() < yyMap.p2();
    if ( hInvert || vInvert )
    {
      image = image.mirrored(hInvert, vInvert);
    }

    return image;
}

/*!
  \brief Draw the spectrogram

  \param painter Painter
  \param xMap Maps x-values into pixel coordinates.
  \param yMap Maps y-values into pixel coordinates.
  \param canvasRect Contents rect of the canvas in painter coordinates

  \sa setDisplayMode, renderImage,
  QwtPlotRasterItem::draw, drawContourLines
*/

void PlotWaterfall::draw(QPainter *painter,
			 const QwtScaleMap &xMap,
			 const QwtScaleMap &yMap,
			 const QRect &canvasRect) const
{
    QwtPlotRasterItem::draw(painter, xMap, yMap, canvasRect);
}