void QgsEllipseSymbolLayerV2::renderPoint( QPointF point, QgsSymbolV2RenderContext& context )
{
bool ok;
if ( hasDataDefinedProperty( QgsSymbolLayerV2::EXPR_OUTLINE_WIDTH ) )
{
context.setOriginalValueVariable( mOutlineWidth );
double width = evaluateDataDefinedProperty( QgsSymbolLayerV2::EXPR_OUTLINE_WIDTH, context, mOutlineWidth ).toDouble();
width = QgsSymbolLayerV2Utils::convertToPainterUnits( context.renderContext(), width, mOutlineWidthUnit, mOutlineWidthMapUnitScale );
mPen.setWidthF( width );
}
if ( hasDataDefinedProperty( QgsSymbolLayerV2::EXPR_OUTLINE_STYLE ) )
{
context.setOriginalValueVariable( QgsSymbolLayerV2Utils::encodePenStyle( mOutlineStyle ) );
QString styleString = evaluateDataDefinedProperty( QgsSymbolLayerV2::EXPR_OUTLINE_STYLE, context, QVariant(), &ok ).toString();
if ( ok )
{
Qt::PenStyle style = QgsSymbolLayerV2Utils::decodePenStyle( styleString );
mPen.setStyle( style );
}
}
if ( hasDataDefinedProperty( QgsSymbolLayerV2::EXPR_JOIN_STYLE ) )
{
context.setOriginalValueVariable( QgsSymbolLayerV2Utils::encodePenJoinStyle( mPenJoinStyle ) );
QString style = evaluateDataDefinedProperty( QgsSymbolLayerV2::EXPR_JOIN_STYLE, context, QVariant(), &ok ).toString();
if ( ok )
{
mPen.setJoinStyle( QgsSymbolLayerV2Utils::decodePenJoinStyle( style ) );
}
}
if ( hasDataDefinedProperty( QgsSymbolLayerV2::EXPR_FILL_COLOR ) )
{
context.setOriginalValueVariable( QgsSymbolLayerV2Utils::encodeColor( mColor ) );
QString colorString = evaluateDataDefinedProperty( QgsSymbolLayerV2::EXPR_FILL_COLOR, context, QVariant(), &ok ).toString();
if ( ok )
mBrush.setColor( QgsSymbolLayerV2Utils::decodeColor( colorString ) );
}
if ( hasDataDefinedProperty( QgsSymbolLayerV2::EXPR_OUTLINE_COLOR ) )
{
context.setOriginalValueVariable( QgsSymbolLayerV2Utils::encodeColor( mOutlineColor ) );
QString colorString = evaluateDataDefinedProperty( QgsSymbolLayerV2::EXPR_OUTLINE_COLOR, context, QVariant(), &ok ).toString();
if ( ok )
mPen.setColor( QgsSymbolLayerV2Utils::decodeColor( colorString ) );
}
double scaledWidth = mSymbolWidth;
double scaledHeight = mSymbolHeight;
if ( hasDataDefinedProperty( QgsSymbolLayerV2::EXPR_WIDTH ) || hasDataDefinedProperty( QgsSymbolLayerV2::EXPR_HEIGHT ) || hasDataDefinedProperty( QgsSymbolLayerV2::EXPR_SYMBOL_NAME ) )
{
QString symbolName = mSymbolName;
if ( hasDataDefinedProperty( QgsSymbolLayerV2::EXPR_SYMBOL_NAME ) )
{
context.setOriginalValueVariable( mSymbolName );
symbolName = evaluateDataDefinedProperty( QgsSymbolLayerV2::EXPR_SYMBOL_NAME, context, mSymbolName ).toString();
}
preparePath( symbolName, context, &scaledWidth, &scaledHeight, context.feature() );
}
//offset and rotation
bool hasDataDefinedRotation = false;
QPointF offset;
double angle = 0;
calculateOffsetAndRotation( context, scaledWidth, scaledHeight, hasDataDefinedRotation, offset, angle );
QPainter* p = context.renderContext().painter();
if ( !p )
{
return;
}
QMatrix transform;
transform.translate( point.x() + offset.x(), point.y() + offset.y() );
if ( !qgsDoubleNear( angle, 0.0 ) )
{
transform.rotate( angle );
}
p->setPen( mPen );
p->setBrush( mBrush );
p->drawPath( transform.map( mPainterPath ) );
}
QRectF QgsEllipseSymbolLayerV2::bounds( QPointF point, QgsSymbolV2RenderContext& context )
{
QSizeF size = calculateSize( context );
bool hasDataDefinedRotation = false;
QPointF offset;
double angle = 0;
calculateOffsetAndRotation( context, size.width(), size.height(), hasDataDefinedRotation, offset, angle );
double pixelSize = 1.0 / context.renderContext().rasterScaleFactor();
QMatrix transform;
// move to the desired position
transform.translate( point.x() + offset.x(), point.y() + offset.y() );
if ( !qgsDoubleNear( angle, 0.0 ) )
transform.rotate( angle );
double penWidth = 0.0;
bool ok = true;
if ( hasDataDefinedProperty( QgsSymbolLayerV2::EXPR_OUTLINE_WIDTH ) )
{
context.setOriginalValueVariable( mOutlineWidth );
double outlineWidth = evaluateDataDefinedProperty( QgsSymbolLayerV2::EXPR_OUTLINE_WIDTH, context, QVariant(), &ok ).toDouble();
if ( ok )
{
penWidth = QgsSymbolLayerV2Utils::convertToPainterUnits( context.renderContext(), outlineWidth, mOutlineWidthUnit, mOutlineWidthMapUnitScale );
}
}
if ( hasDataDefinedProperty( QgsSymbolLayerV2::EXPR_OUTLINE_STYLE ) )
{
context.setOriginalValueVariable( QgsSymbolLayerV2Utils::encodePenStyle( mOutlineStyle ) );
QString outlineStyle = evaluateDataDefinedProperty( QgsSymbolLayerV2::EXPR_OUTLINE_STYLE, context, QVariant(), &ok ).toString();
if ( ok && outlineStyle == "no" )
{
penWidth = 0.0;
}
}
//antialiasing
penWidth += pixelSize;
QRectF symbolBounds = transform.mapRect( QRectF( -size.width() / 2.0,
-size.height() / 2.0,
size.width(),
size.height() ) );
//extend bounds by pen width / 2.0
symbolBounds.adjust( -penWidth / 2.0, -penWidth / 2.0,
penWidth / 2.0, penWidth / 2.0 );
return symbolBounds;
}
void QgsArrowSymbolLayer::_resolveDataDefined( QgsSymbolV2RenderContext& context )
{
if ( !hasDataDefinedProperties() )
return; // shortcut if case there is no data defined properties at all
bool ok;
if ( hasDataDefinedProperty( "arrow_width" ) )
{
context.setOriginalValueVariable( arrowWidth() );
double w = evaluateDataDefinedProperty( "arrow_width", context, QVariant(), &ok ).toDouble();
if ( ok )
{
mScaledArrowWidth = QgsSymbolLayerV2Utils::convertToPainterUnits( context.renderContext(), w, arrowWidthUnit(), arrowWidthUnitScale() );
}
}
if ( hasDataDefinedProperty( "arrow_start_width" ) )
{
context.setOriginalValueVariable( arrowStartWidth() );
double w = evaluateDataDefinedProperty( "arrow_start_width", context, QVariant(), &ok ).toDouble();
if ( ok )
{
mScaledArrowStartWidth = QgsSymbolLayerV2Utils::convertToPainterUnits( context.renderContext(), w, arrowStartWidthUnit(), arrowStartWidthUnitScale() );
}
}
if ( hasDataDefinedProperty( "head_size" ) )
{
context.setOriginalValueVariable( headSize() );
double w = evaluateDataDefinedProperty( "head_size", context, QVariant(), &ok ).toDouble();
if ( ok )
{
mScaledHeadSize = QgsSymbolLayerV2Utils::convertToPainterUnits( context.renderContext(), w, headSizeUnit(), headSizeUnitScale() );
}
}
if ( hasDataDefinedProperty( QgsSymbolLayerV2::EXPR_OFFSET ) )
{
context.setOriginalValueVariable( offset() );
double w = evaluateDataDefinedProperty( QgsSymbolLayerV2::EXPR_OFFSET, context, QVariant(), &ok ).toDouble();
if ( ok )
{
mScaledOffset = QgsSymbolLayerV2Utils::convertToPainterUnits( context.renderContext(), w, offsetUnit(), offsetMapUnitScale() );
}
}
if ( hasDataDefinedProperty( "head_type" ) )
{
context.setOriginalValueVariable( headType() );
int h = evaluateDataDefinedProperty( "head_type", context, QVariant(), &ok ).toInt();
if ( ok )
{
mComputedHeadType = static_cast<HeadType>( h );
}
}
}
QSizeF QgsEllipseSymbolLayerV2::calculateSize( QgsSymbolV2RenderContext& context, double* scaledWidth, double* scaledHeight )
{
double width = 0;
if ( hasDataDefinedProperty( QgsSymbolLayerV2::EXPR_WIDTH ) ) //1. priority: data defined setting on symbol layer le
{
context.setOriginalValueVariable( mSymbolWidth );
width = evaluateDataDefinedProperty( QgsSymbolLayerV2::EXPR_WIDTH, context, mSymbolWidth ).toDouble();
}
else if ( context.renderHints() & QgsSymbolV2::DataDefinedSizeScale ) //2. priority: is data defined size on symbol level
{
width = mSize;
}
else //3. priority: global width setting
{
width = mSymbolWidth;
}
if ( scaledWidth )
{
*scaledWidth = width;
}
width = QgsSymbolLayerV2Utils::convertToPainterUnits( context.renderContext(), width, mSymbolWidthUnit, mSymbolHeightMapUnitScale );
double height = 0;
if ( hasDataDefinedProperty( QgsSymbolLayerV2::EXPR_HEIGHT ) ) //1. priority: data defined setting on symbol layer level
{
context.setOriginalValueVariable( mSymbolHeight );
height = evaluateDataDefinedProperty( QgsSymbolLayerV2::EXPR_HEIGHT, context, mSymbolHeight ).toDouble();
}
else if ( context.renderHints() & QgsSymbolV2::DataDefinedSizeScale ) //2. priority: is data defined size on symbol level
{
height = mSize;
}
else //3. priority: global height setting
{
height = mSymbolHeight;
}
if ( scaledHeight )
{
*scaledHeight = height;
}
height = QgsSymbolLayerV2Utils::convertToPainterUnits( context.renderContext(), height, mSymbolHeightUnit, mSymbolHeightMapUnitScale );
return QSizeF( width, height );
}
void QgsMarkerSymbolLayerV2::markerOffset( QgsSymbolV2RenderContext& context, double width, double height,
QgsUnitTypes::RenderUnit widthUnit, QgsUnitTypes::RenderUnit heightUnit,
double& offsetX, double& offsetY, const QgsMapUnitScale& widthMapUnitScale, const QgsMapUnitScale& heightMapUnitScale ) const
{
offsetX = mOffset.x();
offsetY = mOffset.y();
if ( hasDataDefinedProperty( QgsSymbolLayerV2::EXPR_OFFSET ) )
{
context.setOriginalValueVariable( QgsSymbolLayerV2Utils::encodePoint( mOffset ) );
QPointF offset = QgsSymbolLayerV2Utils::decodePoint( evaluateDataDefinedProperty( QgsSymbolLayerV2::EXPR_OFFSET, context ).toString() );
offsetX = offset.x();
offsetY = offset.y();
}
offsetX = QgsSymbolLayerV2Utils::convertToPainterUnits( context.renderContext(), offsetX, mOffsetUnit, mOffsetMapUnitScale );
offsetY = QgsSymbolLayerV2Utils::convertToPainterUnits( context.renderContext(), offsetY, mOffsetUnit, mOffsetMapUnitScale );
HorizontalAnchorPoint horizontalAnchorPoint = mHorizontalAnchorPoint;
VerticalAnchorPoint verticalAnchorPoint = mVerticalAnchorPoint;
if ( hasDataDefinedProperty( QgsSymbolLayerV2::EXPR_HORIZONTAL_ANCHOR_POINT ) )
{
horizontalAnchorPoint = decodeHorizontalAnchorPoint( evaluateDataDefinedProperty( QgsSymbolLayerV2::EXPR_HORIZONTAL_ANCHOR_POINT , context ).toString() );
}
if ( hasDataDefinedProperty( QgsSymbolLayerV2::EXPR_VERTICAL_ANCHOR_POINT ) )
{
verticalAnchorPoint = decodeVerticalAnchorPoint( evaluateDataDefinedProperty( QgsSymbolLayerV2::EXPR_VERTICAL_ANCHOR_POINT, context ).toString() );
}
//correct horizontal position according to anchor point
if ( horizontalAnchorPoint == HCenter && verticalAnchorPoint == VCenter )
{
return;
}
double anchorPointCorrectionX = QgsSymbolLayerV2Utils::convertToPainterUnits( context.renderContext(), width, widthUnit, widthMapUnitScale ) / 2.0;
double anchorPointCorrectionY = QgsSymbolLayerV2Utils::convertToPainterUnits( context.renderContext(), height, heightUnit, heightMapUnitScale ) / 2.0;
if ( horizontalAnchorPoint == Left )
{
offsetX += anchorPointCorrectionX;
}
else if ( horizontalAnchorPoint == Right )
{
offsetX -= anchorPointCorrectionX;
}
//correct vertical position according to anchor point
if ( verticalAnchorPoint == Top )
{
offsetY += anchorPointCorrectionY;
}
else if ( verticalAnchorPoint == Bottom )
{
offsetY -= anchorPointCorrectionY;
}
}
double QgsSimpleLineSymbolLayerV2::dxfOffset( const QgsDxfExport& e, QgsSymbolV2RenderContext &context ) const
{
Q_UNUSED( e );
double offset = mOffset;
if ( hasDataDefinedProperty( QgsSymbolLayerV2::EXPR_OFFSET ) )
{
context.setOriginalValueVariable( mOffset );
offset = evaluateDataDefinedProperty( QgsSymbolLayerV2::EXPR_OFFSET, context, mOffset ).toDouble();
}
return offset;
}
QColor QgsSimpleLineSymbolLayerV2::dxfColor( QgsSymbolV2RenderContext& context ) const
{
if ( hasDataDefinedProperty( QgsSymbolLayerV2::EXPR_COLOR ) )
{
bool ok;
context.setOriginalValueVariable( QgsSymbolLayerV2Utils::encodeColor( mColor ) );
QString colorString = evaluateDataDefinedProperty( QgsSymbolLayerV2::EXPR_COLOR, context, QVariant(), &ok ).toString();
if ( ok )
return ( QgsSymbolLayerV2Utils::decodeColor( colorString ) );
}
return mColor;
}
double QgsSimpleLineSymbolLayerV2::dxfWidth( const QgsDxfExport& e, QgsSymbolV2RenderContext& context ) const
{
double width = mWidth;
if ( hasDataDefinedProperty( QgsSymbolLayerV2::EXPR_WIDTH ) )
{
context.setOriginalValueVariable( mWidth );
width = evaluateDataDefinedProperty( QgsSymbolLayerV2::EXPR_WIDTH, context, mWidth ).toDouble() * e.mapUnitScaleFactor( e.symbologyScaleDenominator(), widthUnit(), e.mapUnits() );
}
else if ( context.renderHints() & QgsSymbolV2::DataDefinedSizeScale )
{
width = QgsSymbolLayerV2Utils::convertToPainterUnits( context.renderContext(), mWidth, mWidthUnit, mWidthMapUnitScale );
}
return width * e.mapUnitScaleFactor( e.symbologyScaleDenominator(), widthUnit(), e.mapUnits() );
}
void QgsEllipseSymbolLayerV2::calculateOffsetAndRotation( QgsSymbolV2RenderContext& context,
double scaledWidth,
double scaledHeight,
bool& hasDataDefinedRotation,
QPointF& offset,
double& angle ) const
{
double offsetX = 0;
double offsetY = 0;
markerOffset( context, scaledWidth, scaledHeight, mSymbolWidthUnit, mSymbolHeightUnit, offsetX, offsetY, mSymbolWidthMapUnitScale, mSymbolHeightMapUnitScale );
offset = QPointF( offsetX, offsetY );
//priority for rotation: 1. data defined symbol level, 2. symbol layer rotation (mAngle)
bool ok = true;
angle = mAngle + mLineAngle;
bool usingDataDefinedRotation = false;
if ( hasDataDefinedProperty( QgsSymbolLayerV2::EXPR_ROTATION ) )
{
context.setOriginalValueVariable( angle );
angle = evaluateDataDefinedProperty( QgsSymbolLayerV2::EXPR_ROTATION, context, mAngle, &ok ).toDouble() + mLineAngle;
usingDataDefinedRotation = ok;
}
hasDataDefinedRotation = context.renderHints() & QgsSymbolV2::DataDefinedRotation || usingDataDefinedRotation;
if ( hasDataDefinedRotation )
{
// For non-point markers, "dataDefinedRotation" means following the
// shape (shape-data defined). For them, "field-data defined" does
// not work at all. TODO: if "field-data defined" ever gets implemented
// we'll need a way to distinguish here between the two, possibly
// using another flag in renderHints()
const QgsFeature* f = context.feature();
if ( f )
{
const QgsGeometry *g = f->constGeometry();
if ( g && g->type() == QGis::Point )
{
const QgsMapToPixel& m2p = context.renderContext().mapToPixel();
angle += m2p.mapRotation();
}
}
}
if ( angle )
offset = _rotatedOffset( offset, angle );
}
void QgsMarkerLineSymbolLayerV2::renderPolylineVertex( const QPolygonF& points, QgsSymbolV2RenderContext& context, Placement placement )
{
if ( points.isEmpty() )
return;
QgsRenderContext& rc = context.renderContext();
double origAngle = mMarker->angle();
int i, maxCount;
bool isRing = false;
double offsetAlongLine = mOffsetAlongLine;
if ( hasDataDefinedProperty( QgsSymbolLayerV2::EXPR_OFFSET_ALONG_LINE ) )
{
context.setOriginalValueVariable( mOffsetAlongLine );
offsetAlongLine = evaluateDataDefinedProperty( QgsSymbolLayerV2::EXPR_OFFSET_ALONG_LINE, context, mOffsetAlongLine ).toDouble();
}
if ( offsetAlongLine != 0 )
{
//scale offset along line
offsetAlongLine = QgsSymbolLayerV2Utils::convertToPainterUnits( rc, offsetAlongLine, mOffsetAlongLineUnit, mOffsetAlongLineMapUnitScale );
}
if ( offsetAlongLine == 0 && context.renderContext().geometry()
&& context.renderContext().geometry()->hasCurvedSegments() && ( placement == Vertex || placement == CurvePoint ) )
{
const QgsCoordinateTransform* ct = context.renderContext().coordinateTransform();
const QgsMapToPixel& mtp = context.renderContext().mapToPixel();
QgsVertexId vId;
QgsPointV2 vPoint;
double x, y, z;
QPointF mapPoint;
while ( context.renderContext().geometry()->nextVertex( vId, vPoint ) )
{
if (( placement == Vertex && vId.type == QgsVertexId::SegmentVertex )
|| ( placement == CurvePoint && vId.type == QgsVertexId::CurveVertex ) )
{
//transform
x = vPoint.x(), y = vPoint.y(); z = vPoint.z();
if ( ct )
{
ct->transformInPlace( x, y, z );
}
mapPoint.setX( x ); mapPoint.setY( y );
mtp.transformInPlace( mapPoint.rx(), mapPoint.ry() );
if ( mRotateMarker )
{
double angle = context.renderContext().geometry()->vertexAngle( vId );
mMarker->setAngle( angle * 180 / M_PI );
}
mMarker->renderPoint( mapPoint, context.feature(), rc, -1, context.selected() );
}
}
return;
}
if ( placement == FirstVertex )
{
i = 0;
maxCount = 1;
}
else if ( placement == LastVertex )
{
i = points.count() - 1;
maxCount = points.count();
}
else if ( placement == Vertex )
{
i = 0;
maxCount = points.count();
if ( points.first() == points.last() )
isRing = true;
}
else
{
return;
}
if ( offsetAlongLine > 0 && ( placement == FirstVertex || placement == LastVertex ) )
{
double distance;
distance = placement == FirstVertex ? offsetAlongLine : -offsetAlongLine;
renderOffsetVertexAlongLine( points, i, distance, context );
// restore original rotation
mMarker->setAngle( origAngle );
return;
}
for ( ; i < maxCount; ++i )
{
if ( isRing && placement == Vertex && i == points.count() - 1 )
{
continue; // don't draw the last marker - it has been drawn already
}
// rotate marker (if desired)
if ( mRotateMarker )
{
double angle = markerAngle( points, isRing, i );
mMarker->setAngle( origAngle + angle * 180 / M_PI );
}
mMarker->renderPoint( points.at( i ), context.feature(), rc, -1, context.selected() );
}
// restore original rotation
mMarker->setAngle( origAngle );
}
void QgsMarkerLineSymbolLayerV2::renderPolylineInterval( const QPolygonF& points, QgsSymbolV2RenderContext& context )
{
if ( points.isEmpty() )
return;
QPointF lastPt = points[0];
double lengthLeft = 0; // how much is left until next marker
bool first = mOffsetAlongLine ? false : true; //only draw marker at first vertex when no offset along line is set
QgsRenderContext& rc = context.renderContext();
double interval = mInterval;
if ( hasDataDefinedProperty( QgsSymbolLayerV2::EXPR_INTERVAL ) )
{
context.setOriginalValueVariable( mInterval );
interval = evaluateDataDefinedProperty( QgsSymbolLayerV2::EXPR_INTERVAL, context, mInterval ).toDouble();
}
if ( interval <= 0 )
{
interval = 0.1;
}
double offsetAlongLine = mOffsetAlongLine;
if ( hasDataDefinedProperty( QgsSymbolLayerV2::EXPR_OFFSET_ALONG_LINE ) )
{
context.setOriginalValueVariable( mOffsetAlongLine );
offsetAlongLine = evaluateDataDefinedProperty( QgsSymbolLayerV2::EXPR_OFFSET_ALONG_LINE, context, mOffsetAlongLine ).toDouble();
}
double painterUnitInterval = QgsSymbolLayerV2Utils::convertToPainterUnits( rc, interval, mIntervalUnit, mIntervalMapUnitScale );
lengthLeft = painterUnitInterval - QgsSymbolLayerV2Utils::convertToPainterUnits( rc, offsetAlongLine, mIntervalUnit, mIntervalMapUnitScale );
for ( int i = 1; i < points.count(); ++i )
{
const QPointF& pt = points[i];
if ( lastPt == pt ) // must not be equal!
continue;
// for each line, find out dx and dy, and length
MyLine l( lastPt, pt );
QPointF diff = l.diffForInterval( painterUnitInterval );
// if there's some length left from previous line
// use only the rest for the first point in new line segment
double c = 1 - lengthLeft / painterUnitInterval;
lengthLeft += l.length();
// rotate marker (if desired)
if ( mRotateMarker )
{
mMarker->setLineAngle( l.angle() * 180 / M_PI );
}
// draw first marker
if ( first )
{
mMarker->renderPoint( lastPt, context.feature(), rc, -1, context.selected() );
first = false;
}
// while we're not at the end of line segment, draw!
while ( lengthLeft > painterUnitInterval )
{
// "c" is 1 for regular point or in interval (0,1] for begin of line segment
lastPt += c * diff;
lengthLeft -= painterUnitInterval;
mMarker->renderPoint( lastPt, context.feature(), rc, -1, context.selected() );
c = 1; // reset c (if wasn't 1 already)
}
lastPt = pt;
}
}
void QgsMarkerLineSymbolLayerV2::renderPolyline( const QPolygonF& points, QgsSymbolV2RenderContext& context )
{
double offset = mOffset;
if ( hasDataDefinedProperty( QgsSymbolLayerV2::EXPR_OFFSET ) )
{
context.setOriginalValueVariable( mOffset );
offset = evaluateDataDefinedProperty( QgsSymbolLayerV2::EXPR_OFFSET, context, mOffset ).toDouble();
}
Placement placement = mPlacement;
bool ok;
if ( hasDataDefinedProperty( QgsSymbolLayerV2::EXPR_PLACEMENT ) )
{
QString placementString = evaluateDataDefinedProperty( QgsSymbolLayerV2::EXPR_PLACEMENT, context, QVariant(), &ok ).toString();
if ( ok )
{
if ( placementString.compare( "vertex", Qt::CaseInsensitive ) == 0 )
{
placement = Vertex;
}
else if ( placementString.compare( "lastvertex", Qt::CaseInsensitive ) == 0 )
{
placement = LastVertex;
}
else if ( placementString.compare( "firstvertex", Qt::CaseInsensitive ) == 0 )
{
placement = FirstVertex;
}
else if ( placementString.compare( "centerpoint", Qt::CaseInsensitive ) == 0 )
{
placement = CentralPoint;
}
else if ( placementString.compare( "curvepoint", Qt::CaseInsensitive ) == 0 )
{
placement = CurvePoint;
}
else
{
placement = Interval;
}
}
}
if ( offset == 0 )
{
if ( placement == Interval )
renderPolylineInterval( points, context );
else if ( placement == CentralPoint )
renderPolylineCentral( points, context );
else
renderPolylineVertex( points, context, placement );
}
else
{
context.renderContext().setGeometry( 0 ); //always use segmented geometry with offset
QList<QPolygonF> mline = ::offsetLine( points, QgsSymbolLayerV2Utils::convertToPainterUnits( context.renderContext(), offset, mOffsetUnit, mOffsetMapUnitScale ), context.feature() ? context.feature()->constGeometry()->type() : QGis::Line );
for ( int part = 0; part < mline.count(); ++part )
{
const QPolygonF &points2 = mline[ part ];
if ( placement == Interval )
renderPolylineInterval( points2, context );
else if ( placement == CentralPoint )
renderPolylineCentral( points2, context );
else
renderPolylineVertex( points2, context, placement );
}
}
}
void QgsSimpleLineSymbolLayerV2::applyDataDefinedSymbology( QgsSymbolV2RenderContext& context, QPen& pen, QPen& selPen, double& offset )
{
if ( !hasDataDefinedProperties() )
return; // shortcut
//data defined properties
bool hasStrokeWidthExpression = false;
if ( hasDataDefinedProperty( QgsSymbolLayerV2::EXPR_WIDTH ) )
{
context.setOriginalValueVariable( mWidth );
double scaledWidth = QgsSymbolLayerV2Utils::convertToPainterUnits( context.renderContext(),
evaluateDataDefinedProperty( QgsSymbolLayerV2::EXPR_WIDTH, context, mWidth ).toDouble(),
mWidthUnit, mWidthMapUnitScale );
pen.setWidthF( scaledWidth );
selPen.setWidthF( scaledWidth );
hasStrokeWidthExpression = true;
}
//color
bool ok;
if ( hasDataDefinedProperty( QgsSymbolLayerV2::EXPR_COLOR ) )
{
context.setOriginalValueVariable( QgsSymbolLayerV2Utils::encodeColor( pen.color() ) );
QString colorString = evaluateDataDefinedProperty( QgsSymbolLayerV2::EXPR_COLOR, context, QVariant(), &ok ).toString();
if ( ok )
pen.setColor( QgsSymbolLayerV2Utils::decodeColor( colorString ) );
}
//offset
if ( hasDataDefinedProperty( QgsSymbolLayerV2::EXPR_OFFSET ) )
{
context.setOriginalValueVariable( mOffset );
offset = evaluateDataDefinedProperty( QgsSymbolLayerV2::EXPR_OFFSET, context, offset ).toDouble();
}
//dash dot vector
if ( hasDataDefinedProperty( QgsSymbolLayerV2::EXPR_CUSTOMDASH ) )
{
double scaledWidth = QgsSymbolLayerV2Utils::convertToPainterUnits( context.renderContext(), mWidth, mWidthUnit, mWidthMapUnitScale );
double dashWidthDiv = mPen.widthF();
if ( hasStrokeWidthExpression )
{
dashWidthDiv = pen.widthF();
scaledWidth = pen.widthF();
}
//fix dash pattern width in Qt 4.8
QStringList versionSplit = QString( qVersion() ).split( '.' );
if ( versionSplit.size() > 1
&& versionSplit.at( 1 ).toInt() >= 8
&& ( scaledWidth * context.renderContext().rasterScaleFactor() ) < 1.0 )
{
dashWidthDiv = 1.0;
}
QVector<qreal> dashVector;
QStringList dashList = evaluateDataDefinedProperty( QgsSymbolLayerV2::EXPR_CUSTOMDASH, context, QVariant(), &ok ).toString().split( ';' );
if ( ok )
{
QStringList::const_iterator dashIt = dashList.constBegin();
for ( ; dashIt != dashList.constEnd(); ++dashIt )
{
dashVector.push_back( QgsSymbolLayerV2Utils::convertToPainterUnits( context.renderContext(), dashIt->toDouble(), mCustomDashPatternUnit, mCustomDashPatternMapUnitScale ) / dashWidthDiv );
}
pen.setDashPattern( dashVector );
}
}
//line style
if ( hasDataDefinedProperty( QgsSymbolLayerV2::EXPR_LINE_STYLE ) )
{
context.setOriginalValueVariable( QgsSymbolLayerV2Utils::encodePenStyle( pen.style() ) );
QString lineStyleString = evaluateDataDefinedProperty( QgsSymbolLayerV2::EXPR_LINE_STYLE, context, QVariant(), &ok ).toString();
if ( ok )
pen.setStyle( QgsSymbolLayerV2Utils::decodePenStyle( lineStyleString ) );
}
//join style
if ( hasDataDefinedProperty( QgsSymbolLayerV2::EXPR_JOINSTYLE ) )
{
context.setOriginalValueVariable( QgsSymbolLayerV2Utils::encodePenJoinStyle( pen.joinStyle() ) );
QString joinStyleString = evaluateDataDefinedProperty( QgsSymbolLayerV2::EXPR_JOINSTYLE, context, QVariant(), &ok ).toString();
if ( ok )
pen.setJoinStyle( QgsSymbolLayerV2Utils::decodePenJoinStyle( joinStyleString ) );
}
//cap style
if ( hasDataDefinedProperty( QgsSymbolLayerV2::EXPR_CAPSTYLE ) )
{
context.setOriginalValueVariable( QgsSymbolLayerV2Utils::encodePenCapStyle( pen.capStyle() ) );
QString capStyleString = evaluateDataDefinedProperty( QgsSymbolLayerV2::EXPR_CAPSTYLE, context, QVariant(), &ok ).toString();
if ( ok )
pen.setCapStyle( QgsSymbolLayerV2Utils::decodePenCapStyle( capStyleString ) );
}
}
void QgsEllipseSymbolLayerV2::preparePath( const QString& symbolName, QgsSymbolV2RenderContext& context, double* scaledWidth, double* scaledHeight, const QgsFeature* )
{
mPainterPath = QPainterPath();
const QgsRenderContext& ct = context.renderContext();
double width = 0;
if ( hasDataDefinedProperty( QgsSymbolLayerV2::EXPR_WIDTH ) ) //1. priority: data defined setting on symbol layer le
{
context.setOriginalValueVariable( mSymbolWidth );
width = evaluateDataDefinedProperty( QgsSymbolLayerV2::EXPR_WIDTH, context, mSymbolWidth ).toDouble();
}
else if ( context.renderHints() & QgsSymbolV2::DataDefinedSizeScale ) //2. priority: is data defined size on symbol level
{
width = mSize;
}
else //3. priority: global width setting
{
width = mSymbolWidth;
}
if ( scaledWidth )
{
*scaledWidth = width;
}
width = QgsSymbolLayerV2Utils::convertToPainterUnits( ct, width, mSymbolWidthUnit, mSymbolHeightMapUnitScale );
double height = 0;
if ( hasDataDefinedProperty( QgsSymbolLayerV2::EXPR_HEIGHT ) ) //1. priority: data defined setting on symbol layer level
{
context.setOriginalValueVariable( mSymbolHeight );
height = evaluateDataDefinedProperty( QgsSymbolLayerV2::EXPR_HEIGHT, context, mSymbolHeight ).toDouble();
}
else if ( context.renderHints() & QgsSymbolV2::DataDefinedSizeScale ) //2. priority: is data defined size on symbol level
{
height = mSize;
}
else //3. priority: global height setting
{
height = mSymbolHeight;
}
if ( scaledHeight )
{
*scaledHeight = height;
}
height = QgsSymbolLayerV2Utils::convertToPainterUnits( ct, height, mSymbolHeightUnit, mSymbolHeightMapUnitScale );
if ( symbolName == "circle" )
{
mPainterPath.addEllipse( QRectF( -width / 2.0, -height / 2.0, width, height ) );
}
else if ( symbolName == "rectangle" )
{
mPainterPath.addRect( QRectF( -width / 2.0, -height / 2.0, width, height ) );
}
else if ( symbolName == "cross" )
{
mPainterPath.moveTo( 0, -height / 2.0 );
mPainterPath.lineTo( 0, height / 2.0 );
mPainterPath.moveTo( -width / 2.0, 0 );
mPainterPath.lineTo( width / 2.0, 0 );
}
else if ( symbolName == "triangle" )
{
mPainterPath.moveTo( 0, -height / 2.0 );
mPainterPath.lineTo( -width / 2.0, height / 2.0 );
mPainterPath.lineTo( width / 2.0, height / 2.0 );
mPainterPath.lineTo( 0, -height / 2.0 );
}
}
void QgsEllipseSymbolLayerV2::renderPoint( const QPointF& point, QgsSymbolV2RenderContext& context )
{
bool ok;
if ( hasDataDefinedProperty( QgsSymbolLayerV2::EXPR_OUTLINE_WIDTH ) )
{
context.setOriginalValueVariable( mOutlineWidth );
double width = evaluateDataDefinedProperty( QgsSymbolLayerV2::EXPR_OUTLINE_WIDTH, context, mOutlineWidth ).toDouble();
width = QgsSymbolLayerV2Utils::convertToPainterUnits( context.renderContext(), width, mOutlineWidthUnit, mOutlineWidthMapUnitScale );
mPen.setWidthF( width );
}
if ( hasDataDefinedProperty( QgsSymbolLayerV2::EXPR_OUTLINE_STYLE ) )
{
context.setOriginalValueVariable( QgsSymbolLayerV2Utils::encodePenStyle( mPen.style() ) );
QString styleString = evaluateDataDefinedProperty( QgsSymbolLayerV2::EXPR_OUTLINE_STYLE, context, QVariant(), &ok ).toString();
if ( ok )
{
Qt::PenStyle style = QgsSymbolLayerV2Utils::decodePenStyle( styleString );
mPen.setStyle( style );
}
}
if ( hasDataDefinedProperty( QgsSymbolLayerV2::EXPR_FILL_COLOR ) )
{
context.setOriginalValueVariable( QgsSymbolLayerV2Utils::encodeColor( mBrush.color() ) );
QString colorString = evaluateDataDefinedProperty( QgsSymbolLayerV2::EXPR_FILL_COLOR, context, QVariant(), &ok ).toString();
if ( ok )
mBrush.setColor( QgsSymbolLayerV2Utils::decodeColor( colorString ) );
}
if ( hasDataDefinedProperty( QgsSymbolLayerV2::EXPR_OUTLINE_COLOR ) )
{
context.setOriginalValueVariable( QgsSymbolLayerV2Utils::encodeColor( mPen.color() ) );
QString colorString = evaluateDataDefinedProperty( QgsSymbolLayerV2::EXPR_OUTLINE_COLOR, context, QVariant(), &ok ).toString();
if ( ok )
mPen.setColor( QgsSymbolLayerV2Utils::decodeColor( colorString ) );
}
double scaledWidth = mSymbolWidth;
double scaledHeight = mSymbolHeight;
if ( hasDataDefinedProperty( QgsSymbolLayerV2::EXPR_WIDTH ) || hasDataDefinedProperty( QgsSymbolLayerV2::EXPR_HEIGHT ) || hasDataDefinedProperty( QgsSymbolLayerV2::EXPR_SYMBOL_NAME ) )
{
QString symbolName = mSymbolName;
if ( hasDataDefinedProperty( QgsSymbolLayerV2::EXPR_SYMBOL_NAME ) )
{
context.setOriginalValueVariable( mSymbolName );
symbolName = evaluateDataDefinedProperty( QgsSymbolLayerV2::EXPR_SYMBOL_NAME, context, mSymbolName ).toString();
}
preparePath( symbolName, context, &scaledWidth, &scaledHeight, context.feature() );
}
//offset
double offsetX = 0;
double offsetY = 0;
markerOffset( context, scaledWidth, scaledHeight, mSymbolWidthUnit, mSymbolHeightUnit, offsetX, offsetY, mSymbolWidthMapUnitScale, mSymbolHeightMapUnitScale );
QPointF off( offsetX, offsetY );
QPainter* p = context.renderContext().painter();
if ( !p )
{
return;
}
//priority for rotation: 1. data defined symbol level, 2. symbol layer rotation (mAngle)
double rotation = 0.0;
if ( hasDataDefinedProperty( QgsSymbolLayerV2::EXPR_ROTATION ) )
{
context.setOriginalValueVariable( mAngle );
rotation = evaluateDataDefinedProperty( QgsSymbolLayerV2::EXPR_ROTATION, context, mAngle ).toDouble() + mLineAngle;
}
else if ( !qgsDoubleNear( mAngle + mLineAngle, 0.0 ) )
{
rotation = mAngle + mLineAngle;
}
if ( rotation )
off = _rotatedOffset( off, rotation );
QMatrix transform;
transform.translate( point.x() + off.x(), point.y() + off.y() );
if ( !qgsDoubleNear( rotation, 0.0 ) )
{
transform.rotate( rotation );
}
p->setPen( mPen );
p->setBrush( mBrush );
p->drawPath( transform.map( mPainterPath ) );
}
bool QgsEllipseSymbolLayerV2::writeDxf( QgsDxfExport& e, double mmMapUnitScaleFactor, const QString& layerName, QgsSymbolV2RenderContext &context, QPointF shift ) const
{
//width
double symbolWidth = mSymbolWidth;
if ( hasDataDefinedProperty( QgsSymbolLayerV2::EXPR_WIDTH ) ) //1. priority: data defined setting on symbol layer le
{
context.setOriginalValueVariable( mSymbolWidth );
symbolWidth = evaluateDataDefinedProperty( QgsSymbolLayerV2::EXPR_WIDTH, context, mSymbolWidth ).toDouble();
}
else if ( context.renderHints() & QgsSymbolV2::DataDefinedSizeScale ) //2. priority: is data defined size on symbol level
{
symbolWidth = mSize;
}
if ( mSymbolWidthUnit == QgsSymbolV2::MM )
{
symbolWidth *= mmMapUnitScaleFactor;
}
//height
double symbolHeight = mSymbolHeight;
if ( hasDataDefinedProperty( QgsSymbolLayerV2::EXPR_HEIGHT ) ) //1. priority: data defined setting on symbol layer level
{
context.setOriginalValueVariable( mSymbolHeight );
symbolHeight = evaluateDataDefinedProperty( QgsSymbolLayerV2::EXPR_HEIGHT, context, mSymbolHeight ).toDouble();
}
else if ( context.renderHints() & QgsSymbolV2::DataDefinedSizeScale ) //2. priority: is data defined size on symbol level
{
symbolHeight = mSize;
}
if ( mSymbolHeightUnit == QgsSymbolV2::MM )
{
symbolHeight *= mmMapUnitScaleFactor;
}
//outline width
double outlineWidth = mOutlineWidth;
if ( hasDataDefinedProperty( QgsSymbolLayerV2::EXPR_OUTLINE_WIDTH ) )
{
context.setOriginalValueVariable( mOutlineWidth );
outlineWidth = evaluateDataDefinedProperty( QgsSymbolLayerV2::EXPR_OUTLINE_WIDTH, context, mOutlineWidth ).toDouble();
}
if ( mOutlineWidthUnit == QgsSymbolV2::MM )
{
outlineWidth *= outlineWidth;
}
//fill color
bool ok;
QColor fc = mColor;
if ( hasDataDefinedProperty( QgsSymbolLayerV2::EXPR_FILL_COLOR ) )
{
context.setOriginalValueVariable( QgsSymbolLayerV2Utils::encodeColor( mColor ) );
QString colorString = evaluateDataDefinedProperty( QgsSymbolLayerV2::EXPR_FILL_COLOR, context, QVariant(), &ok ).toString();
if ( ok )
fc = QgsSymbolLayerV2Utils::decodeColor( colorString );
}
//outline color
QColor oc = mOutlineColor;
if ( hasDataDefinedProperty( QgsSymbolLayerV2::EXPR_OUTLINE_COLOR ) )
{
context.setOriginalValueVariable( QgsSymbolLayerV2Utils::encodeColor( mOutlineColor ) );
QString colorString = evaluateDataDefinedProperty( QgsSymbolLayerV2::EXPR_OUTLINE_COLOR, context, QVariant(), &ok ).toString();
if ( ok )
oc = QgsSymbolLayerV2Utils::decodeColor( colorString );
}
//symbol name
QString symbolName = mSymbolName;
if ( hasDataDefinedProperty( QgsSymbolLayerV2::EXPR_SYMBOL_NAME ) )
{
context.setOriginalValueVariable( mSymbolName );
symbolName = evaluateDataDefinedProperty( QgsSymbolLayerV2::EXPR_SYMBOL_NAME, context, mSymbolName ).toString();
}
//offset
double offsetX = 0;
double offsetY = 0;
markerOffset( context, offsetX, offsetY );
QPointF off( offsetX, offsetY );
//priority for rotation: 1. data defined symbol level, 2. symbol layer rotation (mAngle)
double rotation = 0.0;
if ( hasDataDefinedProperty( QgsSymbolLayerV2::EXPR_ROTATION ) )
{
context.setOriginalValueVariable( mAngle );
rotation = evaluateDataDefinedProperty( QgsSymbolLayerV2::EXPR_ROTATION, context, mAngle ).toDouble() + mLineAngle;
}
else if ( !qgsDoubleNear( mAngle + mLineAngle, 0.0 ) )
{
rotation = mAngle + mLineAngle;
}
rotation = -rotation; //rotation in Qt is counterclockwise
if ( rotation )
off = _rotatedOffset( off, rotation );
QTransform t;
t.translate( shift.x() + offsetX, shift.y() + offsetY );
if ( !qgsDoubleNear( rotation, 0.0 ) )
t.rotate( rotation );
double halfWidth = symbolWidth / 2.0;
double halfHeight = symbolHeight / 2.0;
if ( symbolName == "circle" )
{
if ( qgsDoubleNear( halfWidth, halfHeight ) )
{
QgsPointV2 pt( t.map( QPointF( 0, 0 ) ) );
e.writeFilledCircle( layerName, oc, pt, halfWidth );
}
else
{
QgsPointSequenceV2 line;
double stepsize = 2 * M_PI / 40;
for ( int i = 0; i < 39; ++i )
{
double angle = stepsize * i;
double x = halfWidth * cos( angle );
double y = halfHeight * sin( angle );
line << QgsPointV2( t.map( QPointF( x, y ) ) );
}
//close ellipse with first point
line << line.at( 0 );
if ( mBrush.style() != Qt::NoBrush )
e.writePolygon( QgsRingSequenceV2() << line, layerName, "SOLID", fc );
if ( mPen.style() != Qt::NoPen )
e.writePolyline( line, layerName, "CONTINUOUS", oc, outlineWidth );
}
}
else if ( symbolName == "rectangle" )
{
QgsPointSequenceV2 p;
p << QgsPointV2( t.map( QPointF( -halfWidth, -halfHeight ) ) )
<< QgsPointV2( t.map( QPointF( halfWidth, -halfHeight ) ) )
<< QgsPointV2( t.map( QPointF( halfWidth, halfHeight ) ) )
<< QgsPointV2( t.map( QPointF( -halfWidth, halfHeight ) ) );
p << p[0];
if ( mBrush.style() != Qt::NoBrush )
e.writePolygon( QgsRingSequenceV2() << p, layerName, "SOLID", fc );
if ( mPen.style() != Qt::NoPen )
e.writePolyline( p, layerName, "CONTINUOUS", oc, outlineWidth );
return true;
}
else if ( symbolName == "cross" && mPen.style() != Qt::NoPen )
{
e.writePolyline( QgsPointSequenceV2()
<< QgsPointV2( t.map( QPointF( -halfWidth, 0 ) ) )
<< QgsPointV2( t.map( QPointF( halfWidth, 0 ) ) ),
layerName, "CONTINUOUS", oc, outlineWidth );
e.writePolyline( QgsPointSequenceV2()
<< QgsPointV2( t.map( QPointF( 0, halfHeight ) ) )
<< QgsPointV2( t.map( QPointF( 0, -halfHeight ) ) ),
layerName, "CONTINUOUS", oc, outlineWidth );
return true;
}
else if ( symbolName == "triangle" )
{
QgsPointSequenceV2 p;
p << QgsPointV2( t.map( QPointF( -halfWidth, -halfHeight ) ) )
<< QgsPointV2( t.map( QPointF( halfWidth, -halfHeight ) ) )
<< QgsPointV2( t.map( QPointF( 0, halfHeight ) ) );
p << p[0];
if ( mBrush.style() != Qt::NoBrush )
e.writePolygon( QgsRingSequenceV2() << p, layerName, "SOLID", fc );
if ( mPen.style() != Qt::NoPen )
e.writePolyline( p, layerName, "CONTINUOUS", oc, outlineWidth );
return true;
}
return false; //soon...
}
