Example #1
0
void QgsMarkerLineSymbolLayerV2::renderOffsetVertexAlongLine( const QPolygonF &points, int vertex, double distance, QgsSymbolV2RenderContext& context )
{
  if ( points.isEmpty() )
    return;

  QgsRenderContext& rc = context.renderContext();
  double origAngle = mMarker->angle();
  if ( distance == 0 )
  {
    // rotate marker (if desired)
    if ( mRotateMarker )
    {
      bool isRing = false;
      if ( points.first() == points.last() )
        isRing = true;
      double angle = markerAngle( points, isRing, vertex );
      mMarker->setAngle( origAngle + angle * 180 / M_PI );
    }
    mMarker->renderPoint( points[vertex], context.feature(), rc, -1, context.selected() );
    return;
  }

  int pointIncrement = distance > 0 ? 1 : -1;
  QPointF previousPoint = points[vertex];
  int startPoint = distance > 0 ? qMin( vertex + 1, points.count() - 1 ) : qMax( vertex - 1, 0 );
  int endPoint = distance > 0 ? points.count() - 1 : 0;
  double distanceLeft = qAbs( distance );

  for ( int i = startPoint; pointIncrement > 0 ? i <= endPoint : i >= endPoint; i += pointIncrement )
  {
    const QPointF& pt = points[i];

    if ( previousPoint == pt ) // must not be equal!
      continue;

    // create line segment
    MyLine l( previousPoint, pt );

    if ( distanceLeft < l.length() )
    {
      //destination point is in current segment
      QPointF markerPoint = previousPoint + l.diffForInterval( distanceLeft );
      // rotate marker (if desired)
      if ( mRotateMarker )
      {
        mMarker->setAngle( origAngle + ( l.angle() * 180 / M_PI ) );
      }
      mMarker->renderPoint( markerPoint, context.feature(), rc, -1, context.selected() );
      return;
    }

    distanceLeft -= l.length();
    previousPoint = pt;
  }

  //didn't find point
  return;
}
void QgsLineDecorationSymbolLayerV2::renderPolyline( const QPolygonF& points, QgsSymbolV2RenderContext& context )
{
  // draw arrow at the end of line

  QPainter* p = context.renderContext().painter();
  if ( !p )
  {
    return;
  }

  int cnt = points.count();
  QPointF p2 = points.at( --cnt );
  QPointF p1 = points.at( --cnt );
  while ( p2 == p1 && cnt )
    p1 = points.at( --cnt );
  if ( p1 == p2 ) {
    // this is a collapsed line... don't bother drawing an arrow
    // with arbitrary orientation
    return;
  }

  double angle = atan2( p2.y() - p1.y(), p2.x() - p1.x() );
  double size = context.outputLineWidth( mWidth * 8 );
  double angle1 = angle + M_PI / 6;
  double angle2 = angle - M_PI / 6;

  QPointF p2_1 = p2 - QPointF( size * cos( angle1 ), size * sin( angle1 ) );
  QPointF p2_2 = p2 - QPointF( size * cos( angle2 ), size * sin( angle2 ) );

  p->setPen( context.selected() ? mSelPen : mPen );
  p->drawLine( p2, p2_1 );
  p->drawLine( p2, p2_2 );
}
void QgsSimpleLineSymbolLayerV2::renderPolyline( const QPolygonF& points, QgsSymbolV2RenderContext& context )
{
  QPainter* p = context.renderContext().painter();
  if ( !p )
  {
    return;
  }

  double offset = 0.0;
  applyDataDefinedSymbology( context, mPen, mSelPen, offset );

  p->setPen( context.selected() ? mSelPen : mPen );

  // Disable 'Antialiasing' if the geometry was generalized in the current RenderContext (We known that it must have least #2 points).
#if 0 // TODO[MD]: after merge
  if ( points.size() <= 2 && context.layer() && context.layer()->simplifyDrawingCanbeApplied( context.renderContext(), QgsVectorSimplifyMethod::AntialiasingSimplification ) && QgsAbstractGeometrySimplifier::canbeGeneralizedByDeviceBoundingBox( points, context.layer()->simplifyMethod().threshold() ) && ( p->renderHints() & QPainter::Antialiasing ) )
  {
    p->setRenderHint( QPainter::Antialiasing, false );
    p->drawPolyline( points );
    p->setRenderHint( QPainter::Antialiasing, true );
    return;
  }
#endif

  if ( offset == 0 )
  {
    p->drawPolyline( points );
  }
  else
  {
    double scaledOffset = offset * QgsSymbolLayerV2Utils::lineWidthScaleFactor( context.renderContext(), mOffsetUnit );
    p->drawPolyline( ::offsetLine( points, scaledOffset ) );
  }
}
Example #4
0
void QgsFontMarkerSymbolLayerV2::renderPoint( const QPointF& point, QgsSymbolV2RenderContext& context )
{
  QPainter *p = context.renderContext().painter();
  if ( !p )
    return;

  QColor penColor = context.selected() ? context.renderContext().selectionColor() : mColor;
  penColor.setAlphaF( mColor.alphaF() * context.alpha() );
  p->setPen( penColor );
  p->setFont( mFont );

  p->save();
  //offset
  double offsetX = 0;
  double offsetY = 0;
  markerOffset( context, offsetX, offsetY );
  QPointF outputOffset( offsetX, offsetY );
  if ( mAngle )
    outputOffset = _rotatedOffset( outputOffset, mAngle );
  p->translate( point + outputOffset );

  if ( context.renderHints() & QgsSymbolV2::DataDefinedSizeScale )
  {
    double s = mSize / mOrigSize;
    p->scale( s, s );
  }

  if ( mAngle != 0 )
    p->rotate( mAngle );

  p->drawText( -mChrOffset, mChr );
  p->restore();
}
void QgsSimpleLineSymbolLayerV2::renderPolyline( const QPolygonF& points, QgsSymbolV2RenderContext& context )
{
  QPainter* p = context.renderContext().painter();
  if ( !p )
  {
    return;
  }

  if ( context.renderHints() & QgsSymbolV2::DataDefinedSizeScale )
  {
    double scaledWidth = context.outputLineWidth( mWidth );
    mPen.setWidthF( scaledWidth );
    mSelPen.setWidthF( scaledWidth );
  }

  p->setPen( context.selected() ? mSelPen : mPen );
  if ( mOffset == 0 )
  {
    p->drawPolyline( points );
  }
  else
  {
    double scaledOffset = context.outputLineWidth( mOffset );
    p->drawPolyline( ::offsetLine( points, scaledOffset ) );
  }
}
void QgsSimpleFillSymbolLayerV2::renderPolygon( const QPolygonF& points, QList<QPolygonF>* rings, QgsSymbolV2RenderContext& context )
{
  QPainter* p = context.renderContext().painter();
  if ( !p )
  {
    return;
  }

  p->setBrush( context.selected() ? mSelBrush : mBrush );
  p->setPen( mPen );
  p->setPen( context.selected() ? mSelPen : mPen );

  if ( !mOffset.isNull() )
    p->translate( mOffset );

  _renderPolygon( p, points, rings );

  if ( !mOffset.isNull() )
    p->translate( -mOffset );
}
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;

  if ( placement == FirstVertex )
  {
    i = 0;
    maxCount = 1;
  }
  else if ( placement == LastVertex )
  {
    i = points.count() - 1;
    maxCount = points.count();
  }
  else
  {
    i = 0;
    maxCount = points.count();
    if ( points.first() == points.last() )
      isRing = true;
  }

  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 );
}
Example #8
0
void QgsMarkerLineSymbolLayerV2::renderPolylineCentral( const QPolygonF& points, QgsSymbolV2RenderContext& context )
{
  if ( points.size() > 0 )
  {
    // calc length
    qreal length = 0;
    QPolygonF::const_iterator it = points.constBegin();
    QPointF last = *it;
    for ( ++it; it != points.constEnd(); ++it )
    {
      length += sqrt(( last.x() - it->x() ) * ( last.x() - it->x() ) +
                     ( last.y() - it->y() ) * ( last.y() - it->y() ) );
      last = *it;
    }

    // find the segment where the central point lies
    it = points.constBegin();
    last = *it;
    qreal last_at = 0, next_at = 0;
    QPointF next;
    int segment = 0;
    for ( ++it; it != points.constEnd(); ++it )
    {
      next = *it;
      next_at += sqrt(( last.x() - it->x() ) * ( last.x() - it->x() ) +
                      ( last.y() - it->y() ) * ( last.y() - it->y() ) );
      if ( next_at >= length / 2 )
        break; // we have reached the center
      last = *it;
      last_at = next_at;
      segment++;
    }

    // find out the central point on segment
    MyLine l( last, next ); // for line angle
    qreal k = ( length * 0.5 - last_at ) / ( next_at - last_at );
    QPointF pt = last + ( next - last ) * k;

    // draw the marker
    double origAngle = mMarker->angle();
    if ( mRotateMarker )
      mMarker->setAngle( origAngle + l.angle() * 180 / M_PI );
    mMarker->renderPoint( pt, context.feature(), context.renderContext(), -1, context.selected() );
    if ( mRotateMarker )
      mMarker->setAngle( origAngle );
  }
}
void QgsSimpleLineSymbolLayerV2::renderPolyline( const QPolygonF& points, QgsSymbolV2RenderContext& context )
{
  QPainter* p = context.renderContext().painter();
  if ( !p )
  {
    return;
  }

  double offset = 0.0;
  applyDataDefinedSymbology( context, mPen, mSelPen, offset );

  p->setPen( context.selected() ? mSelPen : mPen );

  // Disable 'Antialiasing' if the geometry was generalized in the current RenderContext (We known that it must have least #2 points).
  if ( points.size() <= 2 && context.layer() && context.layer()->simplifyDrawingCanbeApplied( context.renderContext(), QgsVectorLayer::AntialiasingSimplification ) && QgsAbstractGeometrySimplifier::canbeGeneralizedByDeviceBoundingBox( points, context.layer()->simplifyMethod().threshold() ) && ( p->renderHints() & QPainter::Antialiasing ) )
  {
    p->setRenderHint( QPainter::Antialiasing, false );
    p->drawPolyline( points );
    p->setRenderHint( QPainter::Antialiasing, true );
    return;
  }

  if ( mDrawInsidePolygon )
  {
    //only drawing the line on the interior of the polygon, so set clip path for painter
    p->save();
    QPainterPath clipPath;
    clipPath.addPolygon( points );
    p->setClipPath( clipPath, Qt::IntersectClip );
  }

  if ( offset == 0 )
  {
    p->drawPolyline( points );
  }
  else
  {
    double scaledOffset = offset * QgsSymbolLayerV2Utils::lineWidthScaleFactor( context.renderContext(), mOffsetUnit );
    p->drawPolyline( ::offsetLine( points, scaledOffset ) );
  }

  if ( mDrawInsidePolygon )
  {
    //restore painter to reset clip path
    p->restore();
  }
}
void QgsImageFillSymbolLayer::renderPolygon( const QPolygonF& points, QList<QPolygonF>* rings, QgsSymbolV2RenderContext& context )
{
  QPainter* p = context.renderContext().painter();
  if ( !p )
  {
    return;
  }
  p->setPen( QPen( Qt::NoPen ) );
  if ( context.selected() )
  {
    QColor selColor = context.selectionColor();
    // Alister - this doesn't seem to work here
    //if ( ! selectionIsOpaque )
    //  selColor.setAlphaF( context.alpha() );
    p->setBrush( QBrush( selColor ) );
    _renderPolygon( p, points, rings );
  }

  if ( doubleNear( mAngle, 0.0 ) )
  {
    p->setBrush( mBrush );
  }
  else
  {
    QTransform t = mBrush.transform();
    t.rotate( mAngle );
    QBrush rotatedBrush = mBrush;
    rotatedBrush.setTransform( t );
    p->setBrush( rotatedBrush );
  }
  _renderPolygon( p, points, rings );
  if ( mOutline )
  {
    mOutline->renderPolyline( points, context.feature(), context.renderContext(), -1, selectFillBorder && context.selected() );
    if ( rings )
    {
      QList<QPolygonF>::const_iterator ringIt = rings->constBegin();
      for ( ; ringIt != rings->constEnd(); ++ringIt )
      {
        mOutline->renderPolyline( *ringIt, context.feature(), context.renderContext(), -1, selectFillBorder && context.selected() );
      }
    }
  }
}
Example #11
0
void QgsSimpleLineSymbolLayerV2::renderPolyline( const QPolygonF& points, QgsSymbolV2RenderContext& context )
{
  QPainter* p = context.renderContext().painter();
  if ( !p )
  {
    return;
  }

  //size scaling by field
  if ( context.renderHints() & QgsSymbolV2::DataDefinedSizeScale )
  {
    applySizeScale( context, mPen, mSelPen );
  }

  double offset = mOffset;
  applyDataDefinedSymbology( context, mPen, mSelPen, offset );

  p->setPen( context.selected() ? mSelPen : mPen );

  // Disable 'Antialiasing' if the geometry was generalized in the current RenderContext (We known that it must have least #2 points).
  if ( points.size() <= 2 &&
       ( context.renderContext().vectorSimplifyMethod().simplifyHints() & QgsVectorSimplifyMethod::AntialiasingSimplification ) &&
       QgsAbstractGeometrySimplifier::isGeneralizableByDeviceBoundingBox( points, context.renderContext().vectorSimplifyMethod().threshold() ) &&
       ( p->renderHints() & QPainter::Antialiasing ) )
  {
    p->setRenderHint( QPainter::Antialiasing, false );
    p->drawPolyline( points );
    p->setRenderHint( QPainter::Antialiasing, true );
    return;
  }

  if ( qgsDoubleNear( offset, 0 ) )
  {
    p->drawPolyline( points );
  }
  else
  {
    double scaledOffset = QgsSymbolLayerV2Utils::convertToPainterUnits( context.renderContext(), offset, mOffsetUnit, mOffsetMapUnitScale );
    QList<QPolygonF> mline = ::offsetLine( points, scaledOffset, context.feature() ? context.feature()->constGeometry()->type() : QGis::Line );
    for ( int part = 0; part < mline.count(); ++part )
      p->drawPolyline( mline[ part ] );
  }
}
void QgsSimpleLineSymbolLayerV2::renderPolyline( const QPolygonF& points, QgsSymbolV2RenderContext& context )
{
  QPainter* p = context.renderContext().painter();
  if ( !p )
  {
    return;
  }

  double offset = 0.0;
  applyDataDefinedSymbology( context, mPen, mSelPen, offset );

  p->setPen( context.selected() ? mSelPen : mPen );

  if ( offset == 0 )
  {
    p->drawPolyline( points );
  }
  else
  {
    double scaledOffset = offset * QgsSymbolLayerV2Utils::lineWidthScaleFactor( context.renderContext(), mOffsetUnit );
    p->drawPolyline( ::offsetLine( points, scaledOffset ) );
  }
}
Example #13
0
void QgsSimpleMarkerSymbolLayerV2::renderPoint( const QPointF& point, QgsSymbolV2RenderContext& context )
{
  QPainter *p = context.renderContext().painter();
  if ( !p )
  {
    return;
  }

  //offset
  double offsetX = 0;
  double offsetY = 0;
  markerOffset( context, offsetX, offsetY );
  QPointF off( offsetX, offsetY );

  //angle
  double angle = mAngle;
  if ( mAngleExpression )
  {
    angle = mAngleExpression->evaluate( const_cast<QgsFeature*>( context.feature() ) ).toDouble();
  }
  if ( angle )
    off = _rotatedOffset( off, angle );

  //data defined shape?
  if ( mNameExpression )
  {
    QString name = mNameExpression->evaluate( const_cast<QgsFeature*>( context.feature() ) ).toString();
    if ( !prepareShape( name ) ) // drawing as a polygon
    {
      preparePath( name ); // drawing as a painter path
    }
  }

  if ( mUsingCache )
  {
    // we will use cached image
    QImage &img = context.selected() ? mSelCache : mCache;
    double s = img.width() / context.renderContext().rasterScaleFactor();
    p->drawImage( QRectF( point.x() - s / 2.0 + off.x(),
                          point.y() - s / 2.0 + off.y(),
                          s, s ), img );
  }
  else
  {
    QMatrix transform;

    // move to the desired position
    transform.translate( point.x() + off.x(), point.y() + off.y() );

    QgsExpression *sizeExpression = expression( "size" );
    bool hasDataDefinedSize = context.renderHints() & QgsSymbolV2::DataDefinedSizeScale || sizeExpression;

    // resize if necessary
    if ( hasDataDefinedSize )
    {
      double scaledSize = mSize;
      if ( sizeExpression )
      {
        scaledSize = sizeExpression->evaluate( const_cast<QgsFeature*>( context.feature() ) ).toDouble();
      }
      scaledSize *= QgsSymbolLayerV2Utils::lineWidthScaleFactor( context.renderContext(), mSizeUnit );

      switch ( mScaleMethod )
      {
        case QgsSymbolV2::ScaleArea:
          scaledSize = sqrt( scaledSize );
          break;
        case QgsSymbolV2::ScaleDiameter:
          break;
      }

      double half = scaledSize / 2.0;
      transform.scale( half, half );
    }

    bool hasDataDefinedRotation = context.renderHints() & QgsSymbolV2::DataDefinedRotation || mAngleExpression;
    if ( angle != 0 && hasDataDefinedRotation )
      transform.rotate( angle );

    QgsExpression* colorExpression = expression( "color" );
    QgsExpression* colorBorderExpression = expression( "color_border" );
    QgsExpression* outlineWidthExpression = expression( "outline_width" );
    if ( colorExpression )
    {
      mBrush.setColor( QgsSymbolLayerV2Utils::decodeColor( colorExpression->evaluate( const_cast<QgsFeature*>( context.feature() ) ).toString() ) );
    }
    if ( colorBorderExpression )
    {
      mPen.setColor( QgsSymbolLayerV2Utils::decodeColor( colorBorderExpression->evaluate( const_cast<QgsFeature*>( context.feature() ) ).toString() ) );
      mSelPen.setColor( QgsSymbolLayerV2Utils::decodeColor( colorBorderExpression->evaluate( const_cast<QgsFeature*>( context.feature() ) ).toString() ) );
    }
    if ( outlineWidthExpression )
    {
      double outlineWidth = outlineWidthExpression->evaluate( const_cast<QgsFeature*>( context.feature() ) ).toDouble();
      mPen.setWidthF( outlineWidth * QgsSymbolLayerV2Utils::lineWidthScaleFactor( context.renderContext(), mOutlineWidthUnit ) );
      mSelPen.setWidthF( outlineWidth * QgsSymbolLayerV2Utils::lineWidthScaleFactor( context.renderContext(), mOutlineWidthUnit ) );
    }

    p->setBrush( context.selected() ? mSelBrush : mBrush );
    p->setPen( context.selected() ? mSelPen : mPen );

    if ( !mPolygon.isEmpty() )
      p->drawPolygon( transform.map( mPolygon ) );
    else
      p->drawPath( transform.map( mPath ) );
  }
}
void QgsMarkerLineSymbolLayerV2::renderPolylineVertex( const QPolygonF& points, QgsSymbolV2RenderContext& context, Placement placement )
{
  if ( points.isEmpty() )
    return;

  QgsRenderContext& rc = context.renderContext();

  double origAngle = mMarker->angle();
  double angle;
  int i, maxCount;
  bool isRing = false;

  if ( placement == FirstVertex )
  {
    i = 0;
    maxCount = 1;
  }
  else if ( placement == LastVertex )
  {
    i = points.count() - 1;
    maxCount = points.count();
  }
  else
  {
    i = 0;
    maxCount = points.count();
    if ( points.first() == points.last() )
      isRing = true;
  }

  for ( ; i < maxCount; ++i )
  {
    const QPointF& pt = points[i];

    // rotate marker (if desired)
    if ( mRotateMarker )
    {
      if ( i == 0 )
      {
        if ( !isRing )
        {
          // use first segment's angle
          const QPointF& nextPt = points[i+1];
          if ( pt == nextPt )
            continue;
          angle = MyLine( pt, nextPt ).angle();
        }
        else
        {
          // closed ring: use average angle between first and last segment
          const QPointF& prevPt = points[points.count() - 2];
          const QPointF& nextPt = points[1];
          if ( prevPt == pt || nextPt == pt )
            continue;

          angle = _averageAngle( prevPt, pt, nextPt );
        }
      }
      else if ( i == points.count() - 1 )
      {
        if ( !isRing )
        {
          // use last segment's angle
          const QPointF& prevPt = points[i-1];
          if ( pt == prevPt )
            continue;
          angle = MyLine( prevPt, pt ).angle();
        }
        else
        {
          // don't draw the last marker - it has been drawn already
          continue;
        }
      }
      else
      {
        // use average angle
        const QPointF& prevPt = points[i-1];
        const QPointF& nextPt = points[i+1];
        if ( prevPt == pt || nextPt == pt )
          continue;

        angle = _averageAngle( prevPt, pt, nextPt );
      }
      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 QgsCentroidFillSymbolLayerV2::renderPolygon( const QPolygonF& points, QList<QPolygonF>* rings, QgsSymbolV2RenderContext& context )
{
  Q_UNUSED( rings );

  // calculate centroid
  double cx = 0, cy = 0;
  double area, sum = 0;
  for ( int i = points.count() - 1, j = 0; j < points.count(); i = j++ )
  {
    const QPointF& p1 = points[i];
    const QPointF& p2 = points[j];
    area = p1.x() * p2.y() - p1.y() * p2.x();
    sum += area;
    cx += ( p1.x() + p2.x() ) * area;
    cy += ( p1.y() + p2.y() ) * area;
  }
  sum *= 3.0;
  cx /= sum;
  cy /= sum;

  mMarker->renderPoint( QPointF( cx, cy ), context.feature(), context.renderContext(), -1, context.selected() );
}
Example #16
0
void QgsSvgMarkerSymbolLayerV2::renderPoint( const QPointF& point, QgsSymbolV2RenderContext& context )
{
  QPainter *p = context.renderContext().painter();
  if ( !p )
    return;

  double size = mSize;
  QgsExpression* sizeExpression = expression( "size" );
  bool hasDataDefinedSize = context.renderHints() & QgsSymbolV2::DataDefinedSizeScale || sizeExpression;

  if ( sizeExpression )
  {
    size = sizeExpression->evaluate( const_cast<QgsFeature*>( context.feature() ) ).toDouble();
  }
  size *= QgsSymbolLayerV2Utils::lineWidthScaleFactor( context.renderContext(), mSizeUnit );

  if ( hasDataDefinedSize )
  {
    switch ( mScaleMethod )
    {
      case QgsSymbolV2::ScaleArea:
        size = sqrt( size );
        break;
      case QgsSymbolV2::ScaleDiameter:
        break;
    }
  }

  //don't render symbols with size below one or above 10,000 pixels
  if (( int )size < 1 || 10000.0 < size )
  {
    return;
  }

  p->save();

  //offset
  double offsetX = 0;
  double offsetY = 0;
  markerOffset( context, offsetX, offsetY );
  QPointF outputOffset( offsetX, offsetY );

  double angle = mAngle;
  QgsExpression* angleExpression = expression( "angle" );
  if ( angleExpression )
  {
    angle = angleExpression->evaluate( const_cast<QgsFeature*>( context.feature() ) ).toDouble();
  }
  if ( angle )
    outputOffset = _rotatedOffset( outputOffset, angle );
  p->translate( point + outputOffset );

  bool rotated = !qgsDoubleNear( angle, 0 );
  bool drawOnScreen = qgsDoubleNear( context.renderContext().rasterScaleFactor(), 1.0, 0.1 );
  if ( rotated )
    p->rotate( angle );

  QString path = mPath;
  QgsExpression* nameExpression = expression( "name" );
  if ( nameExpression )
  {
    path = nameExpression->evaluate( const_cast<QgsFeature*>( context.feature() ) ).toString();
  }

  double outlineWidth = mOutlineWidth;
  QgsExpression* outlineWidthExpression = expression( "outline_width" );
  if ( outlineWidthExpression )
  {
    outlineWidth = outlineWidthExpression->evaluate( const_cast<QgsFeature*>( context.feature() ) ).toDouble();
  }

  QColor fillColor = mFillColor;
  QgsExpression* fillExpression = expression( "fill" );
  if ( fillExpression )
  {
    fillColor = QgsSymbolLayerV2Utils::decodeColor( fillExpression->evaluate( const_cast<QgsFeature*>( context.feature() ) ).toString() );
  }

  QColor outlineColor = mOutlineColor;
  QgsExpression* outlineExpression = expression( "outline" );
  if ( outlineExpression )
  {
    outlineColor = QgsSymbolLayerV2Utils::decodeColor( outlineExpression->evaluate( const_cast<QgsFeature*>( context.feature() ) ).toString() );
  }


  bool fitsInCache = true;
  bool usePict = true;
  double hwRatio = 1.0;
  if ( drawOnScreen && !rotated )
  {
    usePict = false;
    const QImage& img = QgsSvgCache::instance()->svgAsImage( path, size, fillColor, outlineColor, outlineWidth,
                        context.renderContext().scaleFactor(), context.renderContext().rasterScaleFactor(), fitsInCache );
    if ( fitsInCache && img.width() > 1 )
    {
      //consider transparency
      if ( !qgsDoubleNear( context.alpha(), 1.0 ) )
      {
        QImage transparentImage = img.copy();
        QgsSymbolLayerV2Utils::multiplyImageOpacity( &transparentImage, context.alpha() );
        p->drawImage( -transparentImage.width() / 2.0, -transparentImage.height() / 2.0, transparentImage );
        hwRatio = ( double )transparentImage.height() / ( double )transparentImage.width();
      }
      else
      {
        p->drawImage( -img.width() / 2.0, -img.height() / 2.0, img );
        hwRatio = ( double )img.height() / ( double )img.width();
      }
    }
  }

  if ( usePict || !fitsInCache )
  {
    p->setOpacity( context.alpha() );
    const QPicture& pct = QgsSvgCache::instance()->svgAsPicture( path, size, fillColor, outlineColor, outlineWidth,
                          context.renderContext().scaleFactor(), context.renderContext().rasterScaleFactor(), context.renderContext().forceVectorOutput() );

    if ( pct.width() > 1 )
    {
      p->drawPicture( 0, 0, pct );
      hwRatio = ( double )pct.height() / ( double )pct.width();
    }
  }

  if ( context.selected() )
  {
    QPen pen( context.renderContext().selectionColor() );
    double penWidth = QgsSymbolLayerV2Utils::lineWidthScaleFactor( context.renderContext(), QgsSymbolV2::MM );
    if ( penWidth > size / 20 )
    {
      // keep the pen width from covering symbol
      penWidth = size / 20;
    }
    double penOffset = penWidth / 2;
    pen.setWidth( penWidth );
    p->setPen( pen );
    p->setBrush( Qt::NoBrush );
    double wSize = size + penOffset;
    double hSize = size * hwRatio + penOffset;
    p->drawRect( QRectF( -wSize / 2.0, -hSize / 2.0, wSize, hSize ) );
  }

  p->restore();
}
Example #17
0
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 );
}
Example #18
0
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 QgsSvgMarkerSymbolLayerV2::renderPoint( const QPointF& point, QgsSymbolV2RenderContext& context )
{
  QPainter* p = context.renderContext().painter();
  if ( !p )
  {
    return;
  }

  double size = context.outputLineWidth( mSize );
  //don't render symbols with size below one or above 10,000 pixels
  if (( int )size < 1 || 10000.0 < size )
  {
    return;
  }

  p->save();
  QPointF outputOffset = QPointF( context.outputLineWidth( mOffset.x() ), context.outputLineWidth( mOffset.y() ) );
  if ( mAngle )
    outputOffset = _rotatedOffset( outputOffset, mAngle );
  p->translate( point + outputOffset );

  bool rotated = !doubleNear( mAngle, 0 );
  bool drawOnScreen = doubleNear( context.renderContext().rasterScaleFactor(), 1.0, 0.1 );
  if ( rotated )
    p->rotate( mAngle );

  bool fitsInCache = true;
  bool usePict = true;
  double hwRatio = 1.0;
  if ( drawOnScreen && !rotated )
  {
    usePict = false;
    const QImage& img = QgsSvgCache::instance()->svgAsImage( mPath, size, mFillColor, mOutlineColor, mOutlineWidth,
                        context.renderContext().scaleFactor(), context.renderContext().rasterScaleFactor(), fitsInCache );
    if ( fitsInCache && img.width() > 1 )
    {
      //consider transparency
      if ( !doubleNear( context.alpha(), 1.0 ) )
      {
        QImage transparentImage = img.copy();
        QgsSymbolLayerV2Utils::multiplyImageOpacity( &transparentImage, context.alpha() );
        p->drawImage( -transparentImage.width() / 2.0, -transparentImage.height() / 2.0, transparentImage );
        hwRatio = ( double )transparentImage.height() / ( double )transparentImage.width();
      }
      else
      {
        p->drawImage( -img.width() / 2.0, -img.height() / 2.0, img );
        hwRatio = ( double )img.height() / ( double )img.width();
      }
    }
  }

  if ( usePict || !fitsInCache )
  {
    p->setOpacity( context.alpha() );
    const QPicture& pct = QgsSvgCache::instance()->svgAsPicture( mPath, size, mFillColor, mOutlineColor, mOutlineWidth,
                          context.renderContext().scaleFactor(), context.renderContext().rasterScaleFactor() );

    if ( pct.width() > 1 )
    {
      p->drawPicture( 0, 0, pct );
      hwRatio = ( double )pct.height() / ( double )pct.width();
    }
  }

  if ( context.selected() )
  {
    QPen pen( context.selectionColor() );
    double penWidth = context.outputLineWidth( 1.0 );
    if ( penWidth > size / 20 )
    {
      // keep the pen width from covering symbol
      penWidth = size / 20;
    }
    double penOffset = penWidth / 2;
    pen.setWidth( penWidth );
    p->setPen( pen );
    p->setBrush( Qt::NoBrush );
    double wSize = size + penOffset;
    double hSize = size * hwRatio + penOffset;
    p->drawRect( QRectF( -wSize / 2.0, -hSize / 2.0, wSize, hSize ) );
  }

  p->restore();
}
Example #20
0
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
  double origAngle = mMarker->angle();

  QgsRenderContext& rc = context.renderContext();
  double interval = mInterval;

  QgsExpression* intervalExpression = expression( "interval" );
  if ( intervalExpression )
  {
    interval = intervalExpression->evaluate( const_cast<QgsFeature*>( context.feature() ) ).toDouble();
  }
  if ( interval <= 0 )
  {
    interval = 0.1;
  }
  double offsetAlongLine = mOffsetAlongLine;
  QgsExpression* offsetAlongLineExpression = expression( "offset_along_line" );
  if ( offsetAlongLineExpression )
  {
    offsetAlongLine = offsetAlongLineExpression->evaluate( const_cast<QgsFeature*>( context.feature() ) ).toDouble();
  }

  double painterUnitInterval = interval * QgsSymbolLayerV2Utils::lineWidthScaleFactor( rc, mIntervalUnit, mIntervalMapUnitScale );
  lengthLeft = painterUnitInterval - offsetAlongLine * QgsSymbolLayerV2Utils::lineWidthScaleFactor( rc, 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->setAngle( origAngle + ( 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;
  }

  // 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 = true;
  double origAngle = mMarker->angle();

  double painterUnitInterval = context.outputLineWidth( mInterval > 0 ? mInterval : 0.1 );

  QgsRenderContext& rc = context.renderContext();

  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->setAngle( origAngle + ( l.angle() * 180 / M_PI ) );
    }

    // draw first marker
    if ( first )
    {
      mMarker->renderPoint( lastPt, 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, rc, -1, context.selected() );
      c = 1; // reset c (if wasn't 1 already)
    }

    lastPt = pt;
  }

  // restore original rotation
  mMarker->setAngle( origAngle );

}
Example #22
0
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;
  QgsExpression* offsetAlongLineExpression = expression( "offset_along_line" );
  if ( offsetAlongLineExpression )
  {
    offsetAlongLine = offsetAlongLineExpression->evaluate( const_cast<QgsFeature*>( context.feature() ) ).toDouble();
  }
  if ( offsetAlongLine != 0 )
  {
    //scale offset along line
    offsetAlongLine *= QgsSymbolLayerV2Utils::lineWidthScaleFactor( rc, mOffsetAlongLineUnit, mOffsetAlongLineMapUnitScale );
  }

  if ( placement == FirstVertex )
  {
    i = 0;
    maxCount = 1;
  }
  else if ( placement == LastVertex )
  {
    i = points.count() - 1;
    maxCount = points.count();
  }
  else
  {
    i = 0;
    maxCount = points.count();
    if ( points.first() == points.last() )
      isRing = true;
  }

  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 QgsSimpleMarkerSymbolLayerV2::renderPoint( const QPointF& point, QgsSymbolV2RenderContext& context )
{
  QgsRenderContext& rc = context.renderContext();
  QPainter* p = rc.painter();
  if ( !p )
  {
    return;
  }

  QPointF off( context.outputLineWidth( mOffset.x() ), context.outputLineWidth( mOffset.y() ) );
  if ( mAngle )
    off = _rotatedOffset( off, mAngle );

  if ( mUsingCache )
  {
    // we will use cached image
    QImage &img = context.selected() ? mSelCache : mCache;
    double s = img.width() / context.renderContext().rasterScaleFactor();
    p->drawImage( QRectF( point.x() - s / 2.0 + off.x(),
                          point.y() - s / 2.0 + off.y(),
                          s, s ), img );
  }
  else
  {
    QMatrix transform;

    bool hasDataDefinedRotation = context.renderHints() & QgsSymbolV2::DataDefinedRotation;
    bool hasDataDefinedSize = context.renderHints() & QgsSymbolV2::DataDefinedSizeScale;

    // move to the desired position
    transform.translate( point.x() + off.x(), point.y() + off.y() );

    // resize if necessary
    if ( hasDataDefinedSize )
    {
      double scaledSize = context.outputLineWidth( mSize );

      switch ( mScaleMethod )
      {
        case QgsSymbolV2::ScaleArea:
          scaledSize = sqrt( scaledSize );
          break;
        case QgsSymbolV2::ScaleDiameter:
          break;
      }

      double half = scaledSize / 2.0;
      transform.scale( half, half );
    }

    // rotate if necessary
    if ( mAngle != 0 && hasDataDefinedRotation )
    {
      transform.rotate( mAngle );
    }

    p->setBrush( context.selected() ? mSelBrush : mBrush );
    p->setPen( context.selected() ? mSelPen : mPen );

    if ( !mPolygon.isEmpty() )
      p->drawPolygon( transform.map( mPolygon ) );
    else
      p->drawPath( transform.map( mPath ) );
  }
}