Пример #1
1
void MainWindow::print()
{
    QPrinter printer( QPrinter::HighResolution );

    QString docName = d_plot->title().text();
    if ( !docName.isEmpty() )
    {
        docName.replace ( QRegExp ( QString::fromLatin1 ( "\n" ) ), tr ( " -- " ) );
        printer.setDocName ( docName );
    }

    printer.setCreator( "Bode example" );
    printer.setOrientation( QPrinter::Landscape );

    QPrintDialog dialog( &printer );
    if ( dialog.exec() )
    {
        QwtPlotRenderer renderer;

        if ( printer.colorMode() == QPrinter::GrayScale )
        {
            renderer.setDiscardFlag( QwtPlotRenderer::DiscardCanvasBackground );
            renderer.setLayoutFlag( QwtPlotRenderer::FrameWithScales );
        }

        renderer.renderTo( d_plot, printer );
    }
}
Пример #2
0
void plotsDialog::print()
{
    QPrinter printer( QPrinter::HighResolution );

    Plot* currentPlot = dynamic_cast<Plot*>(tabs->currentWidget());
    QString docName = currentPlot->title().text();
    if ( !docName.isEmpty() )
    {
        docName.replace ( QRegExp ( QString::fromLatin1 ( "\n" ) ), tr ( " -- " ) );
        printer.setDocName ( docName );
    }

    printer.setCreator( currentPlot->title().text());
    printer.setOrientation( QPrinter::Landscape );

    QPrintDialog dialog( &printer );
    if ( dialog.exec() )
    {
        QwtPlotRenderer renderer;

        if ( printer.colorMode() == QPrinter::GrayScale )
        {
            renderer.setDiscardFlag( QwtPlotRenderer::DiscardBackground );
            renderer.setDiscardFlag( QwtPlotRenderer::DiscardCanvasBackground );
            renderer.setDiscardFlag( QwtPlotRenderer::DiscardCanvasFrame );
            renderer.setLayoutFlag( QwtPlotRenderer::FrameWithScales );
        }

        renderer.renderTo( currentPlot, printer );
    }
}
Пример #3
0
void MainWindow::printsvg()
{

//    QString fileName(_record->name2display().append(".svg").c_str());
    QString fileName("bfviewer.svg");
    const QList<QByteArray> imageFormats =
        QImageWriter::supportedImageFormats();

    QStringList filter;
    filter += "SVG Documents (*.svg)";

    fileName = QFileDialog::getSaveFileName(
        this, "Export File Name", fileName,
        filter.join(";;"), NULL, QFileDialog::DontConfirmOverwrite);

    if (!fileName.isEmpty())
    {
        QSvgGenerator generator;
        QwtPlotRenderer plotrender;

        generator.setFileName( fileName );
        generator.setSize(_gridPlot->size());

        plotrender.renderTo(_gridPlot->p,generator);
    }
}
Пример #4
0
bool HistogramWindow::saveImage(QString filename)
{
    QImage redPlotImage(2*plotRed->size(), QImage::Format_RGBA8888);
    QImage greenPlotImage(2*plotGreen->size(), QImage::Format_RGBA8888);
    QImage bluePlotImage(2*plotBlue->size(), QImage::Format_RGBA8888);
    QwtPlotRenderer renderer;
    renderer.renderTo(plotRed, redPlotImage);
    renderer.renderTo(plotGreen, greenPlotImage);
    renderer.renderTo(plotBlue, bluePlotImage);

    QImage result(redPlotImage.width(),
                  redPlotImage.height()+greenPlotImage.height()+bluePlotImage.height(),
                  QImage::Format_RGBA8888);
    QPainter painter(&result);
    painter.drawImage(0, 0, redPlotImage);
    painter.drawImage(0, redPlotImage.height(), greenPlotImage);
    painter.drawImage(0, redPlotImage.height()+greenPlotImage.height(), bluePlotImage);

    return result.save(filename);
}
Пример #5
0
void SaxsviewImage::print() {
  QString printerName = config().recentPrinter();

  QPrinter printer(QPrinter::HighResolution);
  printer.setOrientation(QPrinter::Landscape);
  if (!printerName.isEmpty())
    printer.setPrinterName(printerName);

  QPrintDialog dlg(&printer, this);
  if (dlg.exec() == QDialog::Accepted) {
    QwtPlotRenderer renderer;
    renderer.renderTo(this, printer);
  }

  config().setRecentPrinter(printer.printerName());
}
Пример #6
0
void Plot::printPlot()
{
#if 1
    QPrinter printer;
#else
    QPrinter printer(QPrinter::HighResolution);
#endif
    printer.setOrientation(QPrinter::Landscape);
    printer.setOutputFileName("spectrogram.pdf");
    QPrintDialog dialog(&printer);
    if ( dialog.exec() )
    {
        QwtPlotRenderer renderer;

        renderer.setDiscardFlag(QwtPlotRenderer::DiscardBackground, false);
        renderer.setLayoutFlag(QwtPlotRenderer::KeepFrames, true);

        renderer.renderTo(this, printer);
    }
}
Пример #7
0
void Plot::printPlot()
{
    QPrinter printer( QPrinter::HighResolution );
    printer.setOrientation( QPrinter::Landscape );
    printer.setOutputFileName( "spectrogram.pdf" );

    QPrintDialog dialog( &printer );
    if ( dialog.exec() )
    {
        QwtPlotRenderer renderer;

        if ( printer.colorMode() == QPrinter::GrayScale )
        {
            renderer.setDiscardFlag( QwtPlotRenderer::DiscardBackground );
            renderer.setDiscardFlag( QwtPlotRenderer::DiscardCanvasBackground );
            renderer.setDiscardFlag( QwtPlotRenderer::DiscardCanvasFrame );
            renderer.setLayoutFlag( QwtPlotRenderer::FrameWithScales );
        }

        renderer.renderTo( this, printer );
    }
}
// Get canvas and print in the output file
void DataPlot::saveAsSVG()
{
    Q_EMIT disconnectUpdateDynamicsView();
#if 1
    QPrinter printer;
#else
    QPrinter printer(QPrinter::HighResolution);
#endif
    printer.setOrientation(QPrinter::Landscape);
    printer.setOutputFileName("iarc_simulation01.pdf");
    QPrintDialog dialog(&printer);
    if ( dialog.exec() )
    {
        QwtPlotRenderer renderer;

        renderer.setDiscardFlag(QwtPlotRenderer::DiscardBackground, false);
        renderer.setLayoutFlag(QwtPlotRenderer::KeepFrames, true);

        renderer.renderTo(this, printer);
    }
    Q_EMIT connectUpdateDynamicsView();
}
Пример #9
0
void Clamp::print() {
#if 1
	QPrinter printer;
#else
	QPrinter printer(QPrinter::HighResolution);
#if QT_VERSION < 0x040000
	printer.setOutputToFile(true);
	printer.setOutputFileName("/tmp/FI.ps");
	printer.setColorMode(QPrinter::Color);
#else
	printer.setOutputFileName("/tmp/FI.pdf");
#endif
#endif

	QString docName = splot->title().text();
	if (!docName.isEmpty()) {
		docName.replace(QRegExp(QString::fromLatin1("\n")), tr(" -- "));
		printer.setDocName(docName);
	}

	printer.setCreator("RTXI");
	printer.setOrientation(QPrinter::Landscape);

#if QT_VERSION >= 0x040000
	QPrintDialog dialog(&printer);
	if ( dialog.exec() ) {
#else
		if (printer.setup())	{
#endif 
/*
		RTXIPrintFilter filter;
		if (printer.colorMode() == QPrinter::GrayScale) {
		 int options = QwtPlotPrintFilter::PrintAll;
		 filter.setOptions(options);
		 filter.color(QColor(29, 100, 141),
			  QwtPlotPrintFilter::CanvasBackground);
		 filter.color(Qt::white, QwtPlotPrintFilter::CurveSymbol);
		}
*/
//	splot->print(printer, filter);
	QwtPlotRenderer *renderer = new QwtPlotRenderer;
	renderer->renderTo(splot, printer);
	}
}

void Clamp::exportSVG() {
	QString fileName = "FI.svg";

std::cout<<"flag 0"<<std::endl;

#if QT_VERSION < 0x040000
std::cout<<"flag 1"<<std::endl;

#ifndef QT_NO_FILEDIALOG
std::cout<<"flag 2"<<std::endl;
	fileName = QFileDialog::getSaveFileName("FI.svg", "SVG Documents (*.svg)",	this);
#endif
std::cout<<"flag 3"<<std::endl;
	if (!fileName.isEmpty()) {
		// enable workaround for Qt3 misalignments
		QwtPainter::setSVGMode(true);
		QPicture picture;
		QPainter p(&picture);
//		splot->print(&p, QRect(0, 0, 800, 600));
		QwtPlotRenderer *renderer = new QwtPlotRenderer;
		renderer->renderTo(splot, p, QRect(0, 0, 800, 600));
		p.end();
		picture.save(fileName, "svg");
	}

#elif QT_VERSION >= 0x040300
std::cout<<"flag 4"<<std::endl;
#ifdef QT_SVG_LIB
std::cout<<"flag 5"<<std::endl;
#ifndef QT_NO_FILEDIALOG
std::cout<<"flag 6"<<std::endl;
		fileName = QFileDialog::getSaveFileName(this, "Export File Name", 
		                                        QString(), "SVG Documents (*.svg)");
#endif
std::cout<<"flag 7"<<std::endl;
	if ( !fileName.isEmpty() ) {
		QSvgGenerator generator;
		generator.setFileName(fileName);
		generator.setSize(QSize(800, 600));
//		splot->print(generator);
	}
#endif
#endif
}
Пример #10
0
  void PrinterVisitor::visitGraphCellNodeBefore(GraphCell *node)
  {
    if( !ignore_ || firstChild_ )
    {

      ++currentTableRow_;
      table_->insertRows( currentTableRow_, 1 );

      // first column
      QTextTableCell tableCell( table_->cellAt( currentTableRow_, 0 ) );
      if( tableCell.isValid() )
      {
        if( !node->ChapterCounterHtml().isNull() )
        {
          QTextCursor cursor( tableCell.firstCursorPosition() );
          cursor.insertFragment( QTextDocumentFragment::fromHtml(
            node->ChapterCounterHtml() ));
        }
      }

      // second column
      tableCell = table_->cellAt( currentTableRow_, 1 );
      if( tableCell.isValid() )
      {
        QTextCursor cursor( tableCell.firstCursorPosition() );

        // input table
        QTextTableFormat tableFormatInput;
        tableFormatInput.setBorder( 0 );
        tableFormatInput.setColumns( 1 );
        tableFormatInput.setCellPadding( 2 );
        tableFormatInput.setBackground( QColor(245, 245, 255) ); // 200, 200, 255
        QVector<QTextLength> constraints;
        constraints << QTextLength(QTextLength::PercentageLength, 100);
                tableFormatInput.setColumnWidthConstraints(constraints);
        cursor.insertTable( 1, 1, tableFormatInput );

        QString html = node->textHtml();
        if( !node->isEvaluated() || node->isClosed() )
          html += "<br />";
        cursor.insertFragment( QTextDocumentFragment::fromHtml( html ));

        if( node->isEvaluated() && !node->isClosed() )
        {
          QTextTableFormat tableFormatOutput;
          tableFormatOutput.setBorder( 0 );
          tableFormatOutput.setColumns( 1 );
          tableFormatOutput.setCellPadding( 2 );
          QVector<QTextLength> constraints;
          constraints << QTextLength(QTextLength::PercentageLength, 100);
          tableFormatOutput.setColumnWidthConstraints(constraints);

          cursor = tableCell.lastCursorPosition();
          cursor.insertTable( 1, 1, tableFormatOutput );

          QString outputHtml( node->textOutputHtml() );

          outputHtml.remove( "file:///" );
          cursor.insertFragment( QTextDocumentFragment::fromHtml( outputHtml ));
        }

      }
      // print the plot
      if (node->mpPlotWindow && node->mpPlotWindow->isVisible()) {
        ++currentTableRow_;
        table_->insertRows( currentTableRow_, 1 );

        // first column
        tableCell = table_->cellAt( currentTableRow_, 1 );
        if( tableCell.isValid() )
        {
          QTextCursor cursor( tableCell.firstCursorPosition() );

          // input table
          QTextTableFormat tableFormatInput;
          tableFormatInput.setBorder( 0 );
          tableFormatInput.setColumns( 1 );
          tableFormatInput.setCellPadding( 2 );
          QVector<QTextLength> constraints;
          constraints << QTextLength(QTextLength::PercentageLength, 100);
                  tableFormatInput.setColumnWidthConstraints(constraints);
          cursor.insertTable( 1, 1, tableFormatInput );

          OMPlot::Plot *pPlot = node->mpPlotWindow->getPlot();
          // calculate height for widht while preserving aspect ratio.
          int width, height;
          if (pPlot->size().width() > 600) {
            width = 600;
            qreal ratio = (double)pPlot->size().height() / pPlot->size().width();
            height = width * qCeil(ratio);
          } else {
            width = pPlot->size().width();
            height = pPlot->size().height();
          }
          // create a pixmap and render the plot on it
          QPixmap plotPixmap(width, height);
          QwtPlotRenderer plotRenderer;
          plotRenderer.renderTo(pPlot, plotPixmap);
          // insert the pixmap to table
          cursor.insertImage(plotPixmap.toImage());
        }
      }

      if( firstChild_ )
        firstChild_ = false;
    }
  }