/* -*- mode: C++ ; c-file-style: "stroustrup" -*- ***************************** * QwtPolar Widget Library * Copyright (C) 2008 Uwe Rathmann * * This library is free software; you can redistribute it and/or * modify it under the terms of the Qwt License, Version 1.0 *****************************************************************************/ #include "qwt_polar_grid.h" #include #include #include #include #include #include #include #include #include #include #include static inline bool isClose( double value1, double value2 ) { return qAbs( value1 - value2 ) < DBL_EPSILON; } class QwtPolarGrid::AxisData { public: AxisData(): isVisible( false ), scaleDraw( NULL ) { } ~AxisData() { delete scaleDraw; } bool isVisible; mutable QwtAbstractScaleDraw *scaleDraw; QPen pen; QFont font; }; class QwtPolarGrid::GridData { public: GridData(): isVisible( true ), isMinorVisible( false ) { } bool isVisible; bool isMinorVisible; QwtScaleDiv scaleDiv; QPen majorPen; QPen minorPen; }; class QwtPolarGrid::PrivateData { public: GridData gridData[QwtPolar::ScaleCount]; AxisData axisData[QwtPolar::AxesCount]; QwtPolarGrid::DisplayFlags displayFlags; QwtPolarGrid::GridAttributes attributes; }; /*! \brief Constructor Enables major and disables minor grid lines. The azimuth and right radial axis are visible. all other axes are hidden. Autoscaling is enabled. */ QwtPolarGrid::QwtPolarGrid(): QwtPolarItem( QwtText( "Grid" ) ) { d_data = new PrivateData; for ( int axisId = 0; axisId < QwtPolar::AxesCount; axisId++ ) { AxisData &axis = d_data->axisData[axisId]; switch( axisId ) { case QwtPolar::AxisAzimuth: { axis.scaleDraw = new QwtRoundScaleDraw; axis.scaleDraw->setTickLength( QwtScaleDiv::MinorTick, 2 ); axis.scaleDraw->setTickLength( QwtScaleDiv::MediumTick, 2 ); axis.scaleDraw->setTickLength( QwtScaleDiv::MajorTick, 4 ); axis.isVisible = true; break; } case QwtPolar::AxisLeft: { QwtScaleDraw *scaleDraw = new QwtScaleDraw; scaleDraw->setAlignment( QwtScaleDraw::BottomScale ); axis.scaleDraw = scaleDraw; axis.isVisible = false; break; } case QwtPolar::AxisRight: { QwtScaleDraw *scaleDraw = new QwtScaleDraw; scaleDraw->setAlignment( QwtScaleDraw::BottomScale ); axis.scaleDraw = scaleDraw; axis.isVisible = true; break; } case QwtPolar::AxisTop: { QwtScaleDraw *scaleDraw = new QwtScaleDraw; scaleDraw->setAlignment( QwtScaleDraw::LeftScale ); axis.scaleDraw = scaleDraw; axis.isVisible = false; break; } case QwtPolar::AxisBottom: { QwtScaleDraw *scaleDraw = new QwtScaleDraw; scaleDraw->setAlignment( QwtScaleDraw::LeftScale ); axis.scaleDraw = scaleDraw; axis.isVisible = true; break; } default:; } } d_data->attributes = AutoScaling; d_data->displayFlags = 0; d_data->displayFlags |= SmartOriginLabel; d_data->displayFlags |= HideMaxRadiusLabel; d_data->displayFlags |= ClipAxisBackground; d_data->displayFlags |= SmartScaleDraw; d_data->displayFlags |= ClipGridLines; setZ( 10.0 ); setRenderHint( RenderAntialiased, true ); } //! Destructor QwtPolarGrid::~QwtPolarGrid() { delete d_data; } //! \return QwtPlotItem::Rtti_PolarGrid int QwtPolarGrid::rtti() const { return QwtPolarItem::Rtti_PolarGrid; } /*! Change the display flags \param flag See DisplayFlag \param on true/false */ void QwtPolarGrid::setDisplayFlag( DisplayFlag flag, bool on ) { if ( ( ( d_data->displayFlags & flag ) != 0 ) != on ) { if ( on ) d_data->displayFlags |= flag; else d_data->displayFlags &= ~flag; itemChanged(); } } /*! \return true, if flag is enabled \param flag See DisplayFlag */ bool QwtPolarGrid::testDisplayFlag( DisplayFlag flag ) const { return ( d_data->displayFlags & flag ); } /*! \brief Specify an attribute for the grid \param attribute Grid attribute \param on On/Off /sa GridAttribute, testGridAttribute(), updateScaleDiv(), QwtPolarPlot::zoom(), QwtPolarPlot::scaleDiv() */ void QwtPolarGrid::setGridAttribute( GridAttribute attribute, bool on ) { if ( bool( d_data->attributes & attribute ) == on ) return; if ( on ) d_data->attributes |= attribute; else d_data->attributes &= ~attribute; itemChanged(); } /*! \return true, if attribute is enabled \sa GridAttribute, setGridAttribute() */ bool QwtPolarGrid::testGridAttribute( GridAttribute attribute ) const { return d_data->attributes & attribute; } /*! Assign a pen for painting an axis \param axisId Axis id (QwtPolar::Axis) \param pen Pen \sa axisPen() */ void QwtPolarGrid::setAxisPen( int axisId, const QPen &pen ) { if ( axisId < 0 || axisId >= QwtPolar::AxesCount ) return; AxisData &axisData = d_data->axisData[axisId]; if ( axisData.pen != pen ) { axisData.pen = pen; itemChanged(); } } /*! Show/Hide grid lines for a scale \param scaleId Scale id ( QwtPolar::Scale ) \param show true/false */ void QwtPolarGrid::showGrid( int scaleId, bool show ) { if ( scaleId < 0 || scaleId >= QwtPolar::ScaleCount ) return; GridData &grid = d_data->gridData[scaleId]; if ( grid.isVisible != show ) { grid.isVisible = show; itemChanged(); } } /*! \return true if grid lines are enabled \param scaleId Scale id ( QwtPolar::Scale ) \sa QwtPolar::Scale, showGrid() */ bool QwtPolarGrid::isGridVisible( int scaleId ) const { if ( scaleId < 0 || scaleId >= QwtPolar::ScaleCount ) return false; return d_data->gridData[scaleId].isVisible; } /*! Show/Hide minor grid lines for a scale To display minor grid lines. showGrid() needs to be enabled too. \param scaleId Scale id ( QwtPolar::Scale ) \param show true/false \sa showGrid */ void QwtPolarGrid::showMinorGrid( int scaleId, bool show ) { if ( scaleId < 0 || scaleId >= QwtPolar::ScaleCount ) return; GridData &grid = d_data->gridData[scaleId]; if ( grid.isMinorVisible != show ) { grid.isMinorVisible = show; itemChanged(); } } /*! \return true if minor grid lines are enabled \param scaleId Scale id ( QwtPolar::Scale ) \sa showMinorGrid() */ bool QwtPolarGrid::isMinorGridVisible( int scaleId ) const { if ( scaleId < 0 || scaleId >= QwtPolar::ScaleCount ) return false; return d_data->gridData[scaleId].isMinorVisible; } /*! Show/Hide an axis \param axisId Axis id (QwtPolar::Axis) \param show true/false \sa isAxisVisible() */ void QwtPolarGrid::showAxis( int axisId, bool show ) { if ( axisId < 0 || axisId >= QwtPolar::AxesCount ) return; AxisData &axisData = d_data->axisData[axisId]; if ( axisData.isVisible != show ) { axisData.isVisible = show; itemChanged(); } } /*! \return true if the axis is visible \param axisId Axis id (QwtPolar::Axis) \sa showAxis() */ bool QwtPolarGrid::isAxisVisible( int axisId ) const { if ( axisId < 0 || axisId >= QwtPolar::AxesCount ) return false; return d_data->axisData[axisId].isVisible; } /*! Assign a pen for all axes and grid lines \param pen Pen \sa setMajorGridPen(), setMinorGridPen(), setAxisPen() */ void QwtPolarGrid::setPen( const QPen &pen ) { bool isChanged = false; for ( int scaleId = 0; scaleId < QwtPolar::ScaleCount; scaleId++ ) { GridData &grid = d_data->gridData[scaleId]; if ( grid.majorPen != pen || grid.minorPen != pen ) { grid.majorPen = pen; grid.minorPen = pen; isChanged = true; } } for ( int axisId = 0; axisId < QwtPolar::AxesCount; axisId++ ) { AxisData &axis = d_data->axisData[axisId]; if ( axis.pen != pen ) { axis.pen = pen; isChanged = true; } } if ( isChanged ) itemChanged(); } /*! Assign a font for all scale tick labels \param font Font \sa setAxisFont() */ void QwtPolarGrid::setFont( const QFont &font ) { bool isChanged = false; for ( int axisId = 0; axisId < QwtPolar::AxesCount; axisId++ ) { AxisData &axis = d_data->axisData[axisId]; if ( axis.font != font ) { axis.font = font; isChanged = true; } } if ( isChanged ) itemChanged(); } /*! Assign a pen for the major grid lines \param pen Pen \sa setPen(), setMinorGridPen(), majorGridPen */ void QwtPolarGrid::setMajorGridPen( const QPen &pen ) { bool isChanged = false; for ( int scaleId = 0; scaleId < QwtPolar::ScaleCount; scaleId++ ) { GridData &grid = d_data->gridData[scaleId]; if ( grid.majorPen != pen ) { grid.majorPen = pen; isChanged = true; } } if ( isChanged ) itemChanged(); } /*! Assign a pen for the major grid lines of a specific scale \param scaleId Scale id ( QwtPolar::Scale ) \param pen Pen \sa setPen(), setMinorGridPen(), majorGridPen */ void QwtPolarGrid::setMajorGridPen( int scaleId, const QPen &pen ) { if ( scaleId < 0 || scaleId >= QwtPolar::ScaleCount ) return; GridData &grid = d_data->gridData[scaleId]; if ( grid.majorPen != pen ) { grid.majorPen = pen; itemChanged(); } } /*! \return Pen for painting the major grid lines of a specific scale \param scaleId Scale id ( QwtPolar::Scale ) \sa setMajorGridPen(), minorGridPen() */ QPen QwtPolarGrid::majorGridPen( int scaleId ) const { if ( scaleId < 0 || scaleId >= QwtPolar::ScaleCount ) return QPen(); const GridData &grid = d_data->gridData[scaleId]; return grid.majorPen; } /*! Assign a pen for the minor grid lines \param pen Pen \sa setPen(), setMajorGridPen(), minorGridPen() */ void QwtPolarGrid::setMinorGridPen( const QPen &pen ) { bool isChanged = false; for ( int scaleId = 0; scaleId < QwtPolar::ScaleCount; scaleId++ ) { GridData &grid = d_data->gridData[scaleId]; if ( grid.minorPen != pen ) { grid.minorPen = pen; isChanged = true; } } if ( isChanged ) itemChanged(); } /*! Assign a pen for the minor grid lines of a specific scale \param scaleId Scale id ( QwtPolar::Scale ) \param pen Pen \sa setPen(), setMajorGridPen(), minorGridPen */ void QwtPolarGrid::setMinorGridPen( int scaleId, const QPen &pen ) { if ( scaleId < 0 || scaleId >= QwtPolar::ScaleCount ) return; GridData &grid = d_data->gridData[scaleId]; if ( grid.minorPen != pen ) { grid.minorPen = pen; itemChanged(); } } /*! \return Pen for painting the minor grid lines of a specific scale \param scaleId Scale id ( QwtPolar::Scale ) */ QPen QwtPolarGrid::minorGridPen( int scaleId ) const { if ( scaleId < 0 || scaleId >= QwtPolar::ScaleCount ) return QPen(); const GridData &grid = d_data->gridData[scaleId]; return grid.minorPen; } /*! \return Pen for painting a specific axis \param axisId Axis id (QwtPolar::Axis) \sa setAxisPen() */ QPen QwtPolarGrid::axisPen( int axisId ) const { if ( axisId < 0 || axisId >= QwtPolar::AxesCount ) return QPen(); return d_data->axisData[axisId].pen; } /*! Assign a font for the tick labels of a specific axis \param axisId Axis id (QwtPolar::Axis) \param font new Font */ void QwtPolarGrid::setAxisFont( int axisId, const QFont &font ) { if ( axisId < 0 || axisId >= QwtPolar::AxesCount ) return; AxisData &axisData = d_data->axisData[axisId]; if ( axisData.font != font ) { axisData.font = font; itemChanged(); } } /*! \return Font for the tick labels of a specific axis \param axisId Axis id (QwtPolar::Axis) */ QFont QwtPolarGrid::axisFont( int axisId ) const { if ( axisId < 0 || axisId >= QwtPolar::AxesCount ) return QFont(); return d_data->axisData[axisId].font; } /*! Draw the grid and axes \param painter Painter \param azimuthMap Maps azimuth values to values related to 0.0, M_2PI \param radialMap Maps radius values into painter coordinates. \param pole Position of the pole in painter coordinates \param radius Radius of the complete plot area in painter coordinates \param canvasRect Contents rect of the canvas in painter coordinates */ void QwtPolarGrid::draw( QPainter *painter, const QwtScaleMap &azimuthMap, const QwtScaleMap &radialMap, const QPointF &pole, double radius, const QRectF &canvasRect ) const { updateScaleDraws( azimuthMap, radialMap, pole, radius ); painter->save(); if ( testDisplayFlag( ClipAxisBackground ) ) { QRegion clipRegion( canvasRect.toRect() ); for ( int axisId = 0; axisId < QwtPolar::AxesCount; axisId++ ) { const AxisData &axis = d_data->axisData[axisId]; if ( axisId != QwtPolar::AxisAzimuth && axis.isVisible ) { QwtScaleDraw *scaleDraw = static_cast( axis.scaleDraw ); if ( scaleDraw->hasComponent( QwtScaleDraw::Labels ) ) { const QList &ticks = scaleDraw->scaleDiv().ticks( QwtScaleDiv::MajorTick ); for ( int i = 0; i < int( ticks.size() ); i++ ) { if ( !scaleDraw->scaleDiv().contains( ticks[i] ) ) continue; QRect labelRect = scaleDraw->boundingLabelRect( axis.font, ticks[i] ); const int margin = 2; labelRect.adjust( -margin, -margin, margin, margin ); if ( labelRect.isValid() ) clipRegion -= QRegion( labelRect ); } } } } painter->setClipRegion( clipRegion ); } // draw radial grid const GridData &radialGrid = d_data->gridData[QwtPolar::Radius]; if ( radialGrid.isVisible && radialGrid.isMinorVisible ) { painter->setPen( radialGrid.minorPen ); drawCircles( painter, canvasRect, pole, radialMap, radialGrid.scaleDiv.ticks( QwtScaleDiv::MinorTick ) ); drawCircles( painter, canvasRect, pole, radialMap, radialGrid.scaleDiv.ticks( QwtScaleDiv::MediumTick ) ); } if ( radialGrid.isVisible ) { painter->setPen( radialGrid.majorPen ); drawCircles( painter, canvasRect, pole, radialMap, radialGrid.scaleDiv.ticks( QwtScaleDiv::MajorTick ) ); } // draw azimuth grid const GridData &azimuthGrid = d_data->gridData[QwtPolar::Azimuth]; if ( azimuthGrid.isVisible && azimuthGrid.isMinorVisible ) { painter->setPen( azimuthGrid.minorPen ); drawRays( painter, canvasRect, pole, radius, azimuthMap, azimuthGrid.scaleDiv.ticks( QwtScaleDiv::MinorTick ) ); drawRays( painter, canvasRect, pole, radius, azimuthMap, azimuthGrid.scaleDiv.ticks( QwtScaleDiv::MediumTick ) ); } if ( azimuthGrid.isVisible ) { painter->setPen( azimuthGrid.majorPen ); drawRays( painter, canvasRect, pole, radius, azimuthMap, azimuthGrid.scaleDiv.ticks( QwtScaleDiv::MajorTick ) ); } painter->restore(); for ( int axisId = 0; axisId < QwtPolar::AxesCount; axisId++ ) { const AxisData &axis = d_data->axisData[axisId]; if ( axis.isVisible ) { painter->save(); drawAxis( painter, axisId ); painter->restore(); } } } /*! Draw lines from the pole \param painter Painter \param canvasRect Contents rect of the canvas in painter coordinates \param pole Position of the pole in painter coordinates \param radius Length of the lines in painter coordinates \param azimuthMap Maps azimuth values to values related to 0.0, M_2PI \param values Azimuth values, indicating the direction of the lines */ void QwtPolarGrid::drawRays( QPainter *painter, const QRectF &canvasRect, const QPointF &pole, double radius, const QwtScaleMap &azimuthMap, const QList &values ) const { for ( int i = 0; i < int( values.size() ); i++ ) { double azimuth = azimuthMap.transform( values[i] ); azimuth = ::fmod( azimuth, 2 * M_PI ); bool skipLine = false; if ( testDisplayFlag( SmartScaleDraw ) ) { const QwtAbstractScaleDraw::ScaleComponent bone = QwtAbstractScaleDraw::Backbone; if ( isClose( azimuth, 0.0 ) ) { const AxisData &axis = d_data->axisData[QwtPolar::AxisRight]; if ( axis.isVisible && axis.scaleDraw->hasComponent( bone ) ) skipLine = true; } else if ( isClose( azimuth, M_PI / 2 ) ) { const AxisData &axis = d_data->axisData[QwtPolar::AxisTop]; if ( axis.isVisible && axis.scaleDraw->hasComponent( bone ) ) skipLine = true; } else if ( isClose( azimuth, M_PI ) ) { const AxisData &axis = d_data->axisData[QwtPolar::AxisLeft]; if ( axis.isVisible && axis.scaleDraw->hasComponent( bone ) ) skipLine = true; } else if ( isClose( azimuth, 3 * M_PI / 2.0 ) ) { const AxisData &axis = d_data->axisData[QwtPolar::AxisBottom]; if ( axis.isVisible && axis.scaleDraw->hasComponent( bone ) ) skipLine = true; } } if ( !skipLine ) { const QPointF pos = qwtPolar2Pos( pole, radius, azimuth ); /* Qt4 is horrible slow, when painting primitives, with coordinates far outside the visible area. */ QPolygonF polygon( 2 ); polygon[0] = pole.toPoint(); polygon[1] = pos.toPoint(); if ( testDisplayFlag( ClipGridLines ) ) polygon = QwtClipper::clipPolygonF( canvasRect, polygon ); QwtPainter::drawPolyline( painter, polygon ); } } } /*! Draw circles \param painter Painter \param canvasRect Contents rect of the canvas in painter coordinates \param pole Position of the pole in painter coordinates \param radialMap Maps radius values into painter coordinates. \param values Radial values, indicating the distances from the pole */ void QwtPolarGrid::drawCircles( QPainter *painter, const QRectF &canvasRect, const QPointF &pole, const QwtScaleMap &radialMap, const QList &values ) const { for ( int i = 0; i < int( values.size() ); i++ ) { const double val = values[i]; const GridData &gridData = d_data->gridData[QwtPolar::Radius]; bool skipLine = false; if ( testDisplayFlag( SmartScaleDraw ) ) { const AxisData &axis = d_data->axisData[QwtPolar::AxisAzimuth]; if ( axis.isVisible && axis.scaleDraw->hasComponent( QwtAbstractScaleDraw::Backbone ) ) { if ( isClose( val, gridData.scaleDiv.upperBound() ) ) skipLine = true; } } if ( isClose( val, gridData.scaleDiv.lowerBound() ) ) skipLine = true; if ( !skipLine ) { const double radius = radialMap.transform( val ); QRectF outerRect( 0, 0, 2 * radius, 2 * radius ); outerRect.moveCenter( pole ); if ( testDisplayFlag( ClipGridLines ) ) { /* Qt4 is horrible slow, when painting primitives, with coordinates far outside the visible area. We need to clip. */ const QVector angles = QwtClipper::clipCircle( canvasRect, pole, radius ); for ( int i = 0; i < angles.size(); i++ ) { const QwtInterval intv = angles[i]; if ( intv.minValue() == 0 && intv.maxValue() == 2 * M_PI ) QwtPainter::drawEllipse( painter, outerRect ); else { const double from = intv.minValue() / M_PI * 180; const double to = intv.maxValue() / M_PI * 180; double span = to - from; if ( span < 0.0 ) span += 360.0; painter->drawArc( outerRect, qRound( from * 16 ), qRound( span * 16 ) ); } } } else { QwtPainter::drawEllipse( painter, outerRect ); } } } } /*! Paint an axis \param painter Painter \param axisId Axis id (QwtPolar::Axis) */ void QwtPolarGrid::drawAxis( QPainter *painter, int axisId ) const { if ( axisId < 0 || axisId >= QwtPolar::AxesCount ) return; AxisData &axis = d_data->axisData[axisId]; painter->setPen( axis.pen ); painter->setFont( axis.font ); QPalette pal; pal.setColor( QPalette::Foreground, axis.pen.color() ); pal.setColor( QPalette::Text, axis.pen.color() ); axis.scaleDraw->draw( painter, pal ); } /*! Update the axis scale draw geometries \param azimuthMap Maps azimuth values to values related to 0.0, M_2PI \param radialMap Maps radius values into painter coordinates. \param pole Position of the pole in painter coordinates \param radius Radius of the complete plot area in painter coordinates \sa updateScaleDiv() */ void QwtPolarGrid::updateScaleDraws( const QwtScaleMap &azimuthMap, const QwtScaleMap &radialMap, const QPointF &pole, double radius ) const { const QPoint p = pole.toPoint(); const QwtInterval interval = d_data->gridData[QwtPolar::ScaleRadius].scaleDiv.interval(); const int min = radialMap.transform( interval.minValue() ); const int max = radialMap.transform( interval.maxValue() ); const int l = max - min; for ( int axisId = 0; axisId < QwtPolar::AxesCount; axisId++ ) { AxisData &axis = d_data->axisData[axisId]; if ( axisId == QwtPolar::AxisAzimuth ) { QwtRoundScaleDraw *scaleDraw = static_cast( axis.scaleDraw ); scaleDraw->setRadius( qRound( radius ) ); scaleDraw->moveCenter( p ); double from = ::fmod( 90.0 - azimuthMap.p1() * 180.0 / M_PI, 360.0 ); if ( from < 0.0 ) from += 360.0; scaleDraw->setAngleRange( from, from - 360.0 ); scaleDraw->setTransformation( azimuthMap.transformation()->copy() ); } else { QwtScaleDraw *scaleDraw = static_cast( axis.scaleDraw ); switch( axisId ) { case QwtPolar::AxisLeft: { scaleDraw->move( p.x() - min, p.y() ); scaleDraw->setLength( -l ); break; } case QwtPolar::AxisRight: { scaleDraw->move( p.x() + min, p.y() ); scaleDraw->setLength( l ); break; } case QwtPolar::AxisTop: { scaleDraw->move( p.x(), p.y() - max ); scaleDraw->setLength( l ); break; } case QwtPolar::AxisBottom: { scaleDraw->move( p.x(), p.y() + max ); scaleDraw->setLength( -l ); break; } } scaleDraw->setTransformation( radialMap.transformation()->copy() ); } } } /*! \brief Update the item to changes of the axes scale division If AutoScaling is enabled the radial scale is calculated from the interval, otherwise the scales are adopted to the plot scales. \param azimuthScaleDiv Scale division of the azimuth-scale \param radialScaleDiv Scale division of the radius-axis \param interval The interval of the radius-axis, that is visible on the canvas \sa QwtPolarPlot::setGridAttributes() */ void QwtPolarGrid::updateScaleDiv( const QwtScaleDiv &azimuthScaleDiv, const QwtScaleDiv &radialScaleDiv, const QwtInterval &interval ) { GridData &radialGrid = d_data->gridData[QwtPolar::Radius]; const QwtPolarPlot *plt = plot(); if ( plt && testGridAttribute( AutoScaling ) ) { const QwtScaleEngine *se = plt->scaleEngine( QwtPolar::Radius ); radialGrid.scaleDiv = se->divideScale( interval.minValue(), interval.maxValue(), plt->scaleMaxMajor( QwtPolar::Radius ), plt->scaleMaxMinor( QwtPolar::Radius ), 0 ); } else { if ( radialGrid.scaleDiv != radialScaleDiv ) radialGrid.scaleDiv = radialScaleDiv; } GridData &azimuthGrid = d_data->gridData[QwtPolar::Azimuth]; if ( azimuthGrid.scaleDiv != azimuthScaleDiv ) { azimuthGrid.scaleDiv = azimuthScaleDiv; } bool hasOrigin = false; for ( int axisId = 0; axisId < QwtPolar::AxesCount; axisId++ ) { AxisData &axis = d_data->axisData[axisId]; if ( axis.isVisible && axis.scaleDraw ) { if ( axisId == QwtPolar::AxisAzimuth ) { axis.scaleDraw->setScaleDiv( azimuthGrid.scaleDiv ); if ( testDisplayFlag( SmartScaleDraw ) ) { axis.scaleDraw->enableComponent( QwtAbstractScaleDraw::Ticks, !azimuthGrid.isVisible ); } } else { QwtScaleDiv sd = radialGrid.scaleDiv; QList &ticks = const_cast &>( sd.ticks( QwtScaleDiv::MajorTick ) ); if ( testDisplayFlag( SmartOriginLabel ) ) { bool skipOrigin = hasOrigin; if ( !skipOrigin ) { if ( axisId == QwtPolar::AxisLeft || axisId == QwtPolar::AxisRight ) { if ( d_data->axisData[QwtPolar::AxisBottom].isVisible ) skipOrigin = true; } else { if ( d_data->axisData[QwtPolar::AxisLeft].isVisible ) skipOrigin = true; } } if ( ticks.size() > 0 && ticks.first() == sd.lowerBound() ) { if ( skipOrigin ) ticks.removeFirst(); else hasOrigin = true; } } if ( testDisplayFlag( HideMaxRadiusLabel ) ) { if ( ticks.size() > 0 && ticks.last() == sd.upperBound() ) ticks.removeLast(); } axis.scaleDraw->setScaleDiv( sd ); if ( testDisplayFlag( SmartScaleDraw ) ) { axis.scaleDraw->enableComponent( QwtAbstractScaleDraw::Ticks, !radialGrid.isVisible ); } } } } } /*! \return Number of pixels, that are necessary to paint the azimuth scale \sa QwtRoundScaleDraw::extent() */ int QwtPolarGrid::marginHint() const { const AxisData &axis = d_data->axisData[QwtPolar::AxisAzimuth]; if ( axis.isVisible ) { const int extent = axis.scaleDraw->extent( axis.font ); return extent; } return 0; } /*! Returns the scale draw of a specified axis \param axisId axis index ( QwtPolar::AxisLeft <= axisId <= QwtPolar::AxisBottom) \return specified scaleDraw for axis, or NULL if axis is invalid. \sa azimuthScaleDraw() */ const QwtScaleDraw *QwtPolarGrid::scaleDraw( int axisId ) const { if ( axisId >= QwtPolar::AxisLeft || axisId <= QwtPolar::AxisBottom ) return static_cast( d_data->axisData[axisId].scaleDraw ); return NULL; } /*! Returns the scale draw of a specified axis \param axisId axis index ( QwtPolar::AxisLeft <= axisId <= QwtPolar::AxisBottom) \return specified scaleDraw for axis, or NULL if axis is invalid. \sa setScaleDraw(), azimuthScaleDraw() */ QwtScaleDraw *QwtPolarGrid::scaleDraw( int axisId ) { if ( axisId >= QwtPolar::AxisLeft || axisId <= QwtPolar::AxisBottom ) return static_cast( d_data->axisData[axisId].scaleDraw ); return NULL; } /*! \brief Set a scale draw \param axisId axis index ( QwtPolar::AxisLeft <= axisId <= QwtPolar::AxisBottom) \param scaleDraw object responsible for drawing scales. \sa scaleDraw(), setAzimuthScaleDraw() */ void QwtPolarGrid::setScaleDraw( int axisId, QwtScaleDraw *scaleDraw ) { if ( axisId < QwtPolar::AxisLeft || axisId > QwtPolar::AxisBottom ) return; AxisData &axisData = d_data->axisData[axisId]; if ( axisData.scaleDraw != scaleDraw ) { delete axisData.scaleDraw; axisData.scaleDraw = scaleDraw; itemChanged(); } } /*! \return Scale draw for the azimuth scale \sa setAzimuthScaleDraw(), scaleDraw() */ const QwtRoundScaleDraw *QwtPolarGrid::azimuthScaleDraw() const { return static_cast( d_data->axisData[QwtPolar::AxisAzimuth].scaleDraw ); } /*! \return Scale draw for the azimuth scale \sa setAzimuthScaleDraw(), scaleDraw() */ QwtRoundScaleDraw *QwtPolarGrid::azimuthScaleDraw() { return static_cast( d_data->axisData[QwtPolar::AxisAzimuth].scaleDraw ); } /*! \brief Set a scale draw for the azimuth scale \param scaleDraw object responsible for drawing scales. \sa azimuthScaleDraw(), setScaleDraw() */ void QwtPolarGrid::setAzimuthScaleDraw( QwtRoundScaleDraw *scaleDraw ) { AxisData &axisData = d_data->axisData[QwtPolar::AxisAzimuth]; if ( axisData.scaleDraw != scaleDraw ) { delete axisData.scaleDraw; axisData.scaleDraw = scaleDraw; itemChanged(); } }