/**************************************************************************** ** Copyright (C) 2001-2011 Klaralvdalens Datakonsult AB. All rights reserved. ** ** This file is part of the KD Chart library. ** ** Licensees holding valid commercial KD Chart licenses may use this file in ** accordance with the KD Chart Commercial License Agreement provided with ** the Software. ** ** ** This file may be distributed and/or modified under the terms of the ** GNU General Public License version 2 and version 3 as published by the ** Free Software Foundation and appearing in the file LICENSE.GPL.txt included. ** ** This file is provided AS IS with NO WARRANTY OF ANY KIND, INCLUDING THE ** WARRANTY OF DESIGN, MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE. ** ** Contact info@kdab.com if any conditions of this licensing are not ** clear to you. ** **********************************************************************/ #include "KDChartPlotter_p.h" #include "KDChartPlotter.h" #include "KDChartValueTrackerAttributes.h" using namespace KDChart; Plotter::Private::Private( const Private& rhs ) : AbstractCartesianDiagram::Private( rhs ) { } void Plotter::Private::setCompressorResolution( const QSizeF& size, const AbstractCoordinatePlane* plane ) { compressor.setResolution( static_cast( size.width() * plane->zoomFactorX() ), static_cast( size.height() * plane->zoomFactorY() ) ); } void Plotter::Private::paintPolyline( PaintContext* ctx, const QBrush& brush, const QPen& pen, const QPolygonF& points ) const { ctx->painter()->setBrush( brush ); ctx->painter()->setPen( PrintingParameters::scalePen( QPen( pen.color(), pen.width(), pen.style(), Qt::FlatCap, Qt::MiterJoin ) ) ); #if QT_VERSION > 0x040299 ctx->painter()->drawPolyline( points ); #else // FIXME (Mirko) verify, this sounds reverse-logical // For Qt versions older than 4.3 drawPolyline is VERY slow // so we use traditional line segments drawing instead then. for (int i = 0; i < points.size()-1; ++i) ctx->painter()->drawLine( points.at(i), points.at(i+1) ); #endif } /*! Projects a point in a space defined by its x, y, and z coordinates into a point onto a plane, given two rotation angles around the x resp. y axis. */ const QPointF Plotter::PlotterType::project( QPointF point, QPointF maxLimits, double z, const QModelIndex& index ) const { Q_UNUSED( maxLimits ); ThreeDLineAttributes td = diagram()->threeDLineAttributes( index ); //Pending Michel FIXME - the rotation does not work as expected atm double xrad = DEGTORAD( td.lineXRotation() ); double yrad = DEGTORAD( td.lineYRotation() ); QPointF ret = QPointF(point.x()*cos( yrad ) + z * sin( yrad ) , point.y()*cos( xrad ) - z * sin( xrad ) ); return ret; } void Plotter::PlotterType::paintThreeDLines( PaintContext* ctx, const QModelIndex& index, const QPointF& from, const QPointF& to, const double depth ) { // retrieve the boundaries const QPair< QPointF, QPointF > boundaries = diagram()->dataBoundaries(); const QPointF& maxLimits = boundaries.second; const QPointF topLeft = project( from, maxLimits, depth, index ); const QPointF topRight = project ( to, maxLimits, depth, index ); const QPolygonF segment = QPolygonF() << from << topLeft << topRight << to; const QBrush indexBrush ( diagram()->brush( index ) ); const PainterSaver painterSaver( ctx->painter() ); if( diagram()->antiAliasing() ) ctx->painter()->setRenderHint( QPainter::Antialiasing ); ctx->painter()->setBrush( indexBrush ); ctx->painter()->setPen( PrintingParameters::scalePen( diagram()->pen( index ) ) ); reverseMapper().addPolygon( index.row(), index.column(), segment ); ctx->painter()->drawPolygon( segment ); } // this method is factored out from LineDiagram::paint, and contains // the common parts of the method that previously implemented all // chart types in one void Plotter::PlotterType::paintElements( PaintContext* ctx, DataValueTextInfoList& list, LineAttributesInfoList& lineList, LineAttributes::MissingValuesPolicy policy ) { Q_UNUSED( policy ); // paint all lines and their attributes PainterSaver painterSaver( ctx->painter() ); if ( diagram()->antiAliasing() ) ctx->painter()->setRenderHint ( QPainter::Antialiasing ); LineAttributesInfoListIterator itline ( lineList ); QBrush curBrush; QPen curPen; QPolygonF points; while ( itline.hasNext() ) { const LineAttributesInfo& lineInfo = itline.next(); const QModelIndex& index = lineInfo.index; const ThreeDLineAttributes td = diagram()->threeDLineAttributes( index ); const ValueTrackerAttributes vt = diagram()->valueTrackerAttributes( index ); if( td.isEnabled() ){ paintThreeDLines( ctx, index, lineInfo.value, lineInfo.nextValue, td.depth() ); } else { const QBrush br( diagram()->brush( index ) ); const QPen pn( diagram()->pen( index ) ); if( points.count() && points.last() == lineInfo.value && curBrush == br && curPen == pn ) { // line goes from last value in points to lineInfo.nextValue reverseMapper().addLine( lineInfo.index.row(), lineInfo.index.column(), points.last(), lineInfo.nextValue ); points << lineInfo.nextValue; } else { if( points.count() ) paintPolyline( ctx, curBrush, curPen, points ); curBrush = br; curPen = pn; points.clear(); // line goes from lineInfo.value to lineInfo,nextValue reverseMapper().addLine( lineInfo.index.row(), lineInfo.index.column(), lineInfo.value, lineInfo.nextValue ); points << lineInfo.value << lineInfo.nextValue; } } if( vt.isEnabled() ) paintValueTracker( ctx, vt, lineInfo.value ); } if( points.count() ) paintPolyline( ctx, curBrush, curPen, points ); // paint all data value texts and the point markers paintDataValueTextsAndMarkers( diagram(), ctx, list, true ); } AttributesModel* Plotter::PlotterType::attributesModel() const { return m_private->attributesModel; } #if 0 QModelIndex LineDiagram::LineDiagramType::attributesModelRootIndex() const { return m_private->diagram->attributesModelRootIndex(); } int LineDiagram::LineDiagramType::datasetDimension() const { return m_private->datasetDimension; } #endif ReverseMapper& Plotter::PlotterType::reverseMapper() { return m_private->reverseMapper; } #if 0 LineAttributes::MissingValuesPolicy LineDiagram::LineDiagramType::getCellValues( int row, int column, bool shiftCountedXValuesByHalfSection, double& valueX, double& valueY ) const { return m_private->diagram->getCellValues( row, column, shiftCountedXValuesByHalfSection, valueX, valueY ); } double LineDiagram::LineDiagramType::valueForCellTesting( int row, int column, bool& bOK, bool showHiddenCellsAsInvalid) const { return m_private->diagram->valueForCellTesting( row, column, bOK, showHiddenCellsAsInvalid ); } #endif Plotter* Plotter::PlotterType::diagram() const { return m_private->diagram; } void Plotter::PlotterType::paintAreas( PaintContext* ctx, const QModelIndex& index, const QList< QPolygonF >& areas, const uint transparency ) { QColor trans = diagram()->brush( index ).color(); trans.setAlpha( transparency ); QPen indexPen = diagram()->pen(index); indexPen.setColor( trans ); const PainterSaver painterSaver( ctx->painter() ); if( diagram()->antiAliasing() ) ctx->painter()->setRenderHint( QPainter::Antialiasing ); ctx->painter()->setPen( PrintingParameters::scalePen( indexPen ) ); ctx->painter()->setBrush( trans ); QPainterPath path; for( int i = 0; i < areas.count(); ++i ) { const QPolygonF& p = areas[ i ]; path.addPolygon( p ); reverseMapper().addPolygon( index.row(), index.column(), p ); path.closeSubpath(); } ctx->painter()->drawPath( path ); } #if 0 double LineDiagram::LineDiagramType::valueForCell( int row, int column ) { return diagram()->valueForCell( row, column ); } #endif void Plotter::PlotterType::appendDataValueTextInfoToList( AbstractDiagram * diagram, DataValueTextInfoList & list, const QModelIndex & index, const PositionPoints& points, const Position& autoPositionPositive, const Position& autoPositionNegative, const qreal value ) { Q_UNUSED( autoPositionNegative ); m_private->appendDataValueTextInfoToList( diagram, list, index, 0, points, autoPositionPositive, autoPositionPositive, value ); } void Plotter::PlotterType::paintValueTracker( PaintContext* ctx, const ValueTrackerAttributes& vt, const QPointF& at ) { CartesianCoordinatePlane* plane = qobject_cast( ctx->coordinatePlane() ); if( !plane ) return; DataDimensionsList gridDimensions = ctx->coordinatePlane()->gridDimensionsList(); const QPointF bottomLeft( ctx->coordinatePlane()->translate( QPointF( plane->isHorizontalRangeReversed() ? gridDimensions.at( 0 ).end : gridDimensions.at( 0 ).start, plane->isVerticalRangeReversed() ? gridDimensions.at( 1 ).end : gridDimensions.at( 1 ).start ) ) ); const QPointF markerPoint = at; const QPointF ordinatePoint( bottomLeft.x(), at.y() ); const QPointF abscissaPoint( at.x(), bottomLeft.y() ); const QSizeF markerSize = vt.markerSize(); const QRectF ellipseMarker = QRectF( at.x() - markerSize.width() / 2, at.y() - markerSize.height() / 2, markerSize.width(), markerSize.height() ); const QPointF ordinateMarker[3] = { QPointF( ordinatePoint.x(), at.y() + markerSize.height() / 2 ), QPointF( ordinatePoint.x() + markerSize.width() / 2, at.y() ), QPointF( ordinatePoint.x(), at.y() - markerSize.height() / 2 ) }; const QPointF abscissaMarker[3] = { QPointF( at.x() + markerSize.width() / 2, abscissaPoint.y() ), QPointF( at.x(), abscissaPoint.y() - markerSize.height() / 2 ), QPointF( at.x() - markerSize.width() / 2, abscissaPoint.y() ) }; QPointF topLeft = ordinatePoint; QPointF bottomRightOffset = abscissaPoint - topLeft; QSizeF size( bottomRightOffset.x(), bottomRightOffset.y() ); QRectF area( topLeft, size ); PainterSaver painterSaver( ctx->painter() ); ctx->painter()->setPen( PrintingParameters::scalePen( vt.pen() ) ); ctx->painter()->setBrush( QBrush() ); ctx->painter()->drawLine( markerPoint, ordinatePoint ); ctx->painter()->drawLine( markerPoint, abscissaPoint ); ctx->painter()->fillRect( area, vt.areaBrush() ); ctx->painter()->drawEllipse( ellipseMarker ); ctx->painter()->setBrush( vt.pen().color() ); ctx->painter()->drawPolygon( ordinateMarker, 3 ); ctx->painter()->drawPolygon( abscissaMarker, 3 ); } CartesianDiagramDataCompressor& Plotter::PlotterType::compressor() const { return m_private->compressor; }