24 : QPaintEngine( QPaintEngine::AllFeatures )
25 , mPaintDevice( dxfDevice )
43 return QPaintEngine::User;
55 if ( state.state() & QPaintEngine::DirtyTransform )
56 mTransform = state.transform();
58 if ( state.state() & QPaintEngine::DirtyPen )
61 if ( state.state() & QPaintEngine::DirtyBrush )
62 mBrush = state.brush();
64 if ( state.state() & QPaintEngine::DirtyOpacity )
66 mOpacity = state.opacity();
70 void QgsDxfPaintEngine::setRing(
QgsPointSequence &polyline,
const QPointF *points,
int pointCount )
73 for (
int i = 0; i < pointCount; ++i )
74 polyline.append( toDxfCoordinates( points[i] ) );
80 if ( !mDxf || !mPaintDevice )
85 setRing( polygon.last(), points, pointCount );
87 if ( mode == QPaintEngine::PolylineMode )
89 if ( mPen.style() != Qt::NoPen && mPen.brush().style() != Qt::NoBrush )
90 mDxf->
writePolyline( polygon.at( 0 ), mLayer, QStringLiteral(
"CONTINUOUS" ), penColor(), currentWidth() );
94 if ( mBrush.style() != Qt::NoBrush )
95 mDxf->
writePolygon( polygon, mLayer, QStringLiteral(
"SOLID" ), brushColor() );
101 const int pathLength = path.elementCount();
102 for (
int i = 0; i < pathLength; ++i )
104 const QPainterPath::Element &pathElem = path.elementAt( i );
105 if ( pathElem.type == QPainterPath::MoveToElement )
107 moveTo( pathElem.x, pathElem.y );
109 else if ( pathElem.type == QPainterPath::LineToElement )
111 lineTo( pathElem.x, pathElem.y );
113 else if ( pathElem.type == QPainterPath::CurveToElement )
115 curveTo( pathElem.x, pathElem.y );
117 else if ( pathElem.type == QPainterPath::CurveToDataElement )
119 mCurrentCurve.append( QPointF( pathElem.x, pathElem.y ) );
125 if ( !mPolygon.isEmpty() && mBrush.style() != Qt::NoBrush )
126 mDxf->
writePolygon( mPolygon, mLayer, QStringLiteral(
"SOLID" ), brushColor() );
131 void QgsDxfPaintEngine::moveTo(
double dx,
double dy )
135 mCurrentPolygon.append( QPointF( dx, dy ) );
138 void QgsDxfPaintEngine::lineTo(
double dx,
double dy )
141 mCurrentPolygon.append( QPointF( dx, dy ) );
144 void QgsDxfPaintEngine::curveTo(
double dx,
double dy )
147 if ( !mCurrentPolygon.isEmpty() )
148 mCurrentCurve.append( mCurrentPolygon.last() );
150 mCurrentCurve.append( QPointF( dx, dy ) );
153 void QgsDxfPaintEngine::endPolygon()
155 if ( mCurrentPolygon.size() > 1 )
157 if ( mPen.style() != Qt::NoPen )
158 drawPolygon( mCurrentPolygon.constData(), mCurrentPolygon.size(), QPaintEngine::PolylineMode );
161 setRing( mPolygon.last(), mCurrentPolygon.constData(), mCurrentPolygon.size() );
163 mCurrentPolygon.clear();
166 void QgsDxfPaintEngine::endCurve()
168 if ( mCurrentCurve.empty() )
171 if ( mCurrentPolygon.empty() )
173 mCurrentCurve.clear();
177 if ( mCurrentCurve.size() >= 3 )
180 for (
int i = 1; i <= 20; ++i )
182 mCurrentPolygon.append( bezierPoint( mCurrentCurve, t ) );
186 else if ( mCurrentCurve.size() == 2 )
188 mCurrentPolygon.append( mCurrentCurve.at( 1 ) );
190 mCurrentCurve.clear();
195 if ( !mDxf || !mPaintDevice || !lines || mPen.style() == Qt::NoPen )
198 for (
int i = 0; i < lineCount; ++i )
200 mDxf->
writeLine( toDxfCoordinates( lines[i].p1() ),
201 toDxfCoordinates( lines[i].p2() ),
202 mLayer, QStringLiteral(
"CONTINUOUS" ), penColor(), currentWidth() );
206 QgsPoint QgsDxfPaintEngine::toDxfCoordinates( QPointF pt )
const
208 if ( !mPaintDevice || !mDxf )
211 const QPointF dxfPt = mPaintDevice->
dxfCoordinates( mTransform.map( pt ) ) + mShift;
212 return QgsPoint( dxfPt.x(), dxfPt.y() );
216 double QgsDxfPaintEngine::currentWidth()
const
224 QPointF QgsDxfPaintEngine::bezierPoint(
const QList<QPointF> &controlPolygon,
double t )
228 const int cPolySize = controlPolygon.size();
231 QList<QPointF>::const_iterator it = controlPolygon.constBegin();
233 for ( ; it != controlPolygon.constEnd(); ++it )
235 bPoly = bernsteinPoly( cPolySize - 1, i, t );
236 x += ( it->x() * bPoly );
237 y += ( it->y() * bPoly );
241 return QPointF( x, y );
244 double QgsDxfPaintEngine::bernsteinPoly(
int n,
int i,
double t )
249 return lower( n, i ) * power( t, i ) * power( ( 1 - t ), ( n - i ) );
252 int QgsDxfPaintEngine::lower(
int n,
int i )
254 if ( i >= 0 && i <= n )
256 return faculty( n ) / ( faculty( i ) * faculty( n - i ) );
264 double QgsDxfPaintEngine::power(
double a,
int b )
269 const double tmp = a;
270 for (
int i = 2; i <= std::abs( b ); i++ )
279 int QgsDxfPaintEngine::faculty(
int n )
287 if ( n == 0 || n == 1 )
290 for ( i = n - 1; i >= 2; i-- )
296 QColor QgsDxfPaintEngine::penColor()
const
302 QColor
c = mPen.color();
303 c.setAlphaF(
c.alphaF() * mOpacity );
307 QColor QgsDxfPaintEngine::brushColor()
const
311 return mBrush.color();
313 QColor
c = mBrush.color();
314 c.setAlphaF(
c.alphaF() * mOpacity );
Exports QGIS layers to the DXF format.
void writeLine(const QgsPoint &pt1, const QgsPoint &pt2, const QString &layer, const QString &lineStyleName, const QColor &color, double width=-1)
Write line (as a polyline)
void writePolygon(const QgsRingSequence &polygon, const QString &layer, const QString &hatchPattern, const QColor &color)
Draw dxf filled polygon (HATCH)
void writePolyline(const QgsPointSequence &line, const QString &layer, const QString &lineStyleName, const QColor &color, double width=-1)
Draw dxf primitives (LWPOLYLINE)
A paint device for drawing into dxf files.
double widthScaleFactor() const
Returns scale factor for line width.
QPointF dxfCoordinates(QPointF pt) const
Converts a point from device coordinates to dxf coordinates.
void drawPath(const QPainterPath &path) override
bool begin(QPaintDevice *pdev) override
QgsDxfPaintEngine(const QgsDxfPaintDevice *dxfDevice, QgsDxfExport *dxf)
void drawPixmap(const QRectF &r, const QPixmap &pm, const QRectF &sr) override
void updateState(const QPaintEngineState &state) override
void drawLines(const QLineF *lines, int lineCount) override
QPaintEngine::Type type() const override
void drawPolygon(const QPointF *points, int pointCount, PolygonDrawMode mode) override
Point geometry type, with support for z-dimension and m-values.
As part of the API refactoring and improvements which landed in the Processing API was substantially reworked from the x version This was done in order to allow much of the underlying Processing framework to be ported into c
bool qgsDoubleNear(double a, double b, double epsilon=4 *std::numeric_limits< double >::epsilon())
Compare two doubles (but allow some difference)
QVector< QgsPointSequence > QgsRingSequence
QVector< QgsPoint > QgsPointSequence