コード例 #1
0
ファイル: qgsgeometrycheck.cpp プロジェクト: cz172638/QGIS
void QgsGeometryCheck::deleteFeatureGeometryRing( const QString &layerId, QgsFeature &feature, int partIdx, int ringIdx, Changes &changes ) const
{
  QgsFeaturePool *featurePool = mContext->featurePools[layerId];
  QgsGeometry featureGeom = feature.geometry();
  QgsAbstractGeometry *partGeom = QgsGeometryCheckerUtils::getGeomPart( featureGeom.get(), partIdx );
  if ( dynamic_cast<QgsCurvePolygon *>( partGeom ) )
  {
    // If we delete the exterior ring of a polygon, it makes no sense to keep the interiors
    if ( ringIdx == 0 )
    {
      deleteFeatureGeometryPart( layerId, feature, partIdx, changes );
    }
    else
    {
      static_cast<QgsCurvePolygon *>( partGeom )->removeInteriorRing( ringIdx - 1 );
      feature.setGeometry( featureGeom );
      featurePool->updateFeature( feature );
      changes[layerId][feature.id()].append( Change( ChangeRing, ChangeRemoved, QgsVertexId( partIdx, ringIdx ) ) );
    }
  }
  // Other geometry types do not have rings, remove the entire part
  else
  {
    deleteFeatureGeometryPart( layerId, feature, partIdx, changes );
  }
}
コード例 #2
0
ファイル: qgsgeometrycheck.cpp プロジェクト: cz172638/QGIS
void QgsGeometryCheck::deleteFeatureGeometryPart( const QString &layerId, QgsFeature &feature, int partIdx, Changes &changes ) const
{
  QgsFeaturePool *featurePool = mContext->featurePools[layerId];
  QgsGeometry featureGeom = feature.geometry();
  QgsAbstractGeometry *geom = featureGeom.get();
  if ( dynamic_cast<QgsGeometryCollection *>( geom ) )
  {
    static_cast<QgsGeometryCollection *>( geom )->removeGeometry( partIdx );
    if ( static_cast<QgsGeometryCollection *>( geom )->numGeometries() == 0 )
    {
      featurePool->deleteFeature( feature.id() );
      changes[layerId][feature.id()].append( Change( ChangeFeature, ChangeRemoved ) );
    }
    else
    {
      feature.setGeometry( featureGeom );
      featurePool->updateFeature( feature );
      changes[layerId][feature.id()].append( Change( ChangePart, ChangeRemoved, QgsVertexId( partIdx ) ) );
    }
  }
  else
  {
    featurePool->deleteFeature( feature.id() );
    changes[layerId][feature.id()].append( Change( ChangeFeature, ChangeRemoved ) );
  }
}
コード例 #3
0
void QgsGeometryDuplicateNodesCheck::fixError( const QMap<QString, QgsFeaturePool *> &featurePools, QgsGeometryCheckError *error, int method, const QMap<QString, int> & /*mergeAttributeIndices*/, Changes &changes ) const
{
  QgsFeaturePool *featurePool = featurePools[ error->layerId() ];
  QgsFeature feature;
  if ( !featurePool->getFeature( error->featureId(), feature ) )
  {
    error->setObsolete();
    return;
  }
  QgsGeometry featureGeom = feature.geometry();
  QgsAbstractGeometry *geom = featureGeom.get();
  QgsVertexId vidx = error->vidx();

  // Check if point still exists
  if ( !vidx.isValid( geom ) )
  {
    error->setObsolete();
    return;
  }

  // Check if error still applies
  int nVerts = QgsGeometryCheckerUtils::polyLineSize( geom, vidx.part, vidx.ring );
  QgsPoint pi = geom->vertexAt( QgsVertexId( vidx.part, vidx.ring, ( vidx.vertex + nVerts - 1 ) % nVerts ) );
  QgsPoint pj = geom->vertexAt( error->vidx() );
  if ( QgsGeometryUtils::sqrDistance2D( pi, pj ) >= mContext->tolerance )
  {
    error->setObsolete();
    return;
  }

  // Fix error
  if ( method == NoChange )
  {
    error->setFixed( method );
  }
  else if ( method == RemoveDuplicates )
  {
    if ( !QgsGeometryCheckerUtils::canDeleteVertex( geom, vidx.part, vidx.ring ) )
    {
      error->setFixFailed( tr( "Resulting geometry is degenerate" ) );
    }
    else if ( !geom->deleteVertex( error->vidx() ) )
    {
      error->setFixFailed( tr( "Failed to delete vertex" ) );
    }
    else
    {
      feature.setGeometry( featureGeom );
      featurePool->updateFeature( feature );
      error->setFixed( method );
      changes[error->layerId()][error->featureId()].append( Change( ChangeNode, ChangeRemoved, error->vidx() ) );
    }
  }
  else
  {
    error->setFixFailed( tr( "Unknown method" ) );
  }
}
コード例 #4
0
int QgsGeometrySnapperSingleSource::run( const QgsFeatureSource &source, QgsFeatureSink &sink, double thresh, QgsFeedback *feedback )
{
  // the logic here comes from GRASS implementation of Vect_snap_lines_list()

  int count = 0;
  int totalCount = source.featureCount() * 2;

  // step 1: record all point locations in a spatial index + extra data structure to keep
  // reference to which other point they have been snapped to (in the next phase).

  QgsSpatialIndex index;
  QVector<AnchorPoint> pnts;
  QgsFeatureRequest request;
  request.setSubsetOfAttributes( QgsAttributeList() );
  QgsFeatureIterator fi = source.getFeatures( request );
  buildSnapIndex( fi, index, pnts, feedback, count, totalCount );

  if ( feedback->isCanceled() )
    return 0;

  // step 2: go through all registered points and if not yet marked mark it as anchor and
  // assign this anchor to all not yet marked points in threshold

  assignAnchors( index, pnts, thresh );

  // step 3: alignment of vertices and segments to the anchors
  // Go through all lines and:
  //   1) for all vertices: if not anchor snap it to its anchor
  //   2) for all segments: snap it to all anchors in threshold (except anchors of vertices of course)

  int modified = 0;
  QgsFeature f;
  fi = source.getFeatures();
  while ( fi.nextFeature( f ) )
  {
    if ( feedback->isCanceled() )
      break;

    QgsGeometry geom = f.geometry();
    if ( snapGeometry( geom.get(), index, pnts, thresh ) )
    {
      f.setGeometry( geom );
      ++modified;
    }

    sink.addFeature( f, QgsFeatureSink::FastInsert );

    ++count;
    feedback->setProgress( 100. * count / totalCount );
  }

  return modified;
}
コード例 #5
0
ファイル: qgsgeometrycheck.cpp プロジェクト: cz172638/QGIS
void QgsGeometryCheck::replaceFeatureGeometryPart( const QString &layerId, QgsFeature &feature, int partIdx, QgsAbstractGeometry *newPartGeom, Changes &changes ) const
{
  QgsFeaturePool *featurePool = mContext->featurePools[layerId];
  QgsGeometry featureGeom = feature.geometry();
  QgsAbstractGeometry *geom = featureGeom.get();
  if ( QgsGeometryCollection *geomCollection = dynamic_cast< QgsGeometryCollection *>( geom ) )
  {
    geomCollection->removeGeometry( partIdx );
    geomCollection->addGeometry( newPartGeom );
    changes[layerId][feature.id()].append( Change( ChangePart, ChangeRemoved, QgsVertexId( partIdx ) ) );
    changes[layerId][feature.id()].append( Change( ChangePart, ChangeAdded, QgsVertexId( geomCollection->partCount() - 1 ) ) );
    feature.setGeometry( featureGeom );
  }
  else
  {
    feature.setGeometry( QgsGeometry( newPartGeom ) );
    changes[layerId][feature.id()].append( Change( ChangeFeature, ChangeChanged ) );
  }
  featurePool->updateFeature( feature );
}
コード例 #6
0
void QgsMapToolDigitizeFeature::cadCanvasReleaseEvent( QgsMapMouseEvent *e )
{
  QgsVectorLayer *vlayer = qobject_cast<QgsVectorLayer *>( mLayer );

  if ( !vlayer )
    //if no given layer take the current from canvas
    vlayer = currentVectorLayer();

  if ( !vlayer )
  {
    notifyNotVectorLayer();
    return;
  }

  QgsWkbTypes::Type layerWKBType = vlayer->wkbType();

  QgsVectorDataProvider *provider = vlayer->dataProvider();

  if ( !( provider->capabilities() & QgsVectorDataProvider::AddFeatures ) )
  {
    emit messageEmitted( tr( "The data provider for this layer does not support the addition of features." ), Qgis::Warning );
    return;
  }

  if ( !vlayer->isEditable() )
  {
    notifyNotEditableLayer();
    return;
  }

  // POINT CAPTURING
  if ( mode() == CapturePoint )
  {
    if ( e->button() != Qt::LeftButton )
      return;

    //check we only use this tool for point/multipoint layers
    if ( vlayer->geometryType() != QgsWkbTypes::PointGeometry && mCheckGeometryType )
    {
      emit messageEmitted( tr( "Wrong editing tool, cannot apply the 'capture point' tool on this vector layer" ), Qgis::Warning );
      return;
    }

    QgsPointXY savePoint; //point in layer coordinates
    try
    {
      QgsPoint fetchPoint;
      int res;
      res = fetchLayerPoint( e->mapPointMatch(), fetchPoint );
      if ( res == 0 )
      {
        savePoint = QgsPointXY( fetchPoint.x(), fetchPoint.y() );
      }
      else
      {
        savePoint = toLayerCoordinates( vlayer, e->mapPoint() );
      }
      QgsDebugMsg( "savePoint = " + savePoint.toString() );
    }
    catch ( QgsCsException &cse )
    {
      Q_UNUSED( cse );
      emit messageEmitted( tr( "Cannot transform the point to the layers coordinate system" ), Qgis::Warning );
      return;
    }

    //only do the rest for provider with feature addition support
    //note that for the grass provider, this will return false since
    //grass provider has its own mechanism of feature addition
    if ( provider->capabilities() & QgsVectorDataProvider::AddFeatures )
    {
      QgsFeature f( vlayer->fields(), 0 );

      QgsGeometry g;
      if ( layerWKBType == QgsWkbTypes::Point )
      {
        g = QgsGeometry::fromPointXY( savePoint );
      }
      else if ( !QgsWkbTypes::isMultiType( layerWKBType ) && QgsWkbTypes::hasZ( layerWKBType ) )
      {
        g = QgsGeometry( new QgsPoint( QgsWkbTypes::PointZ, savePoint.x(), savePoint.y(), defaultZValue() ) );
      }
      else if ( QgsWkbTypes::isMultiType( layerWKBType ) && !QgsWkbTypes::hasZ( layerWKBType ) )
      {
        g = QgsGeometry::fromMultiPointXY( QgsMultiPointXY() << savePoint );
      }
      else if ( QgsWkbTypes::isMultiType( layerWKBType ) && QgsWkbTypes::hasZ( layerWKBType ) )
      {
        QgsMultiPoint *mp = new QgsMultiPoint();
        mp->addGeometry( new QgsPoint( QgsWkbTypes::PointZ, savePoint.x(), savePoint.y(), defaultZValue() ) );
        g = QgsGeometry( mp );
      }
      else
      {
        // if layer supports more types (mCheckGeometryType is false)
        g = QgsGeometry::fromPointXY( savePoint );
      }

      if ( QgsWkbTypes::hasM( layerWKBType ) )
      {
        g.get()->addMValue();
      }

      f.setGeometry( g );
      f.setValid( true );

      digitized( f );

      // we are done with digitizing for now so instruct advanced digitizing dock to reset its CAD points
      cadDockWidget()->clearPoints();
    }
  }

  // LINE AND POLYGON CAPTURING
  else if ( mode() == CaptureLine || mode() == CapturePolygon )
  {
    //check we only use the line tool for line/multiline layers
    if ( mode() == CaptureLine && vlayer->geometryType() != QgsWkbTypes::LineGeometry && mCheckGeometryType )
    {
      emit messageEmitted( tr( "Wrong editing tool, cannot apply the 'capture line' tool on this vector layer" ), Qgis::Warning );
      return;
    }

    //check we only use the polygon tool for polygon/multipolygon layers
    if ( mode() == CapturePolygon && vlayer->geometryType() != QgsWkbTypes::PolygonGeometry && mCheckGeometryType )
    {
      emit messageEmitted( tr( "Wrong editing tool, cannot apply the 'capture polygon' tool on this vector layer" ), Qgis::Warning );
      return;
    }

    //add point to list and to rubber band
    if ( e->button() == Qt::LeftButton )
    {
      int error = addVertex( e->mapPoint(), e->mapPointMatch() );
      if ( error == 1 )
      {
        //current layer is not a vector layer
        return;
      }
      else if ( error == 2 )
      {
        //problem with coordinate transformation
        emit messageEmitted( tr( "Cannot transform the point to the layers coordinate system" ), Qgis::Warning );
        return;
      }

      startCapturing();
    }
    else if ( e->button() == Qt::RightButton )
    {
      // End of string
      deleteTempRubberBand();

      //lines: bail out if there are not at least two vertices
      if ( mode() == CaptureLine && size() < 2 )
      {
        stopCapturing();
        return;
      }

      //polygons: bail out if there are not at least two vertices
      if ( mode() == CapturePolygon && size() < 3 )
      {
        stopCapturing();
        return;
      }

      if ( mode() == CapturePolygon )
      {
        closePolygon();
      }

      //create QgsFeature with wkb representation
      std::unique_ptr< QgsFeature > f( new QgsFeature( vlayer->fields(), 0 ) );

      //does compoundcurve contain circular strings?
      //does provider support circular strings?
      bool hasCurvedSegments = captureCurve()->hasCurvedSegments();
      bool providerSupportsCurvedSegments = vlayer->dataProvider()->capabilities() & QgsVectorDataProvider::CircularGeometries;

      QList<QgsPointLocator::Match> snappingMatchesList;
      QgsCurve *curveToAdd = nullptr;
      if ( hasCurvedSegments && providerSupportsCurvedSegments )
      {
        curveToAdd = captureCurve()->clone();
      }
      else
      {
        curveToAdd = captureCurve()->curveToLine();
        snappingMatchesList = snappingMatches();
      }

      if ( mode() == CaptureLine )
      {
        QgsGeometry g( curveToAdd );
        f->setGeometry( g );
      }
      else
      {
        QgsCurvePolygon *poly = nullptr;
        if ( hasCurvedSegments && providerSupportsCurvedSegments )
        {
          poly = new QgsCurvePolygon();
        }
        else
        {
          poly = new QgsPolygon();
        }
        poly->setExteriorRing( curveToAdd );
        QgsGeometry g( poly );
        f->setGeometry( g );

        QgsGeometry featGeom = f->geometry();
        int avoidIntersectionsReturn = featGeom.avoidIntersections( QgsProject::instance()->avoidIntersectionsLayers() );
        f->setGeometry( featGeom );
        if ( avoidIntersectionsReturn == 1 )
        {
          //not a polygon type. Impossible to get there
        }
        if ( f->geometry().isEmpty() ) //avoid intersection might have removed the whole geometry
        {
          emit messageEmitted( tr( "The feature cannot be added because it's geometry collapsed due to intersection avoidance" ), Qgis::Critical );
          stopCapturing();
          return;
        }
      }
      f->setValid( true );

      digitized( *f );

      stopCapturing();
    }
  }
}
コード例 #7
0
void QgsGeometrySelfIntersectionCheck::fixError( QgsGeometryCheckError *error, int method, const QMap<QString, int> & /*mergeAttributeIndices*/, Changes &changes ) const
{
  QgsFeaturePool *featurePool = mContext->featurePools[ error->layerId() ];
  QgsFeature feature;
  if ( !featurePool->getFeature( error->featureId(), feature ) )
  {
    error->setObsolete();
    return;
  }
  QgsGeometry featureGeom = feature.geometry();
  QgsAbstractGeometry *geom = featureGeom.get();
  QgsVertexId vidx = error->vidx();

  // Check if ring still exists
  if ( !vidx.isValid( geom ) )
  {
    error->setObsolete();
    return;
  }

  const QgsGeometryUtils::SelfIntersection &inter = static_cast<QgsGeometrySelfIntersectionCheckError *>( error )->intersection();
  // Check if error still applies
  bool ringIsClosed = false;
  int nVerts = QgsGeometryCheckerUtils::polyLineSize( geom, vidx.part, vidx.ring, &ringIsClosed );
  if ( nVerts == 0 || inter.segment1 >= nVerts || inter.segment2 >= nVerts )
  {
    error->setObsolete();
    return;
  }
  QgsPoint p1 = geom->vertexAt( QgsVertexId( vidx.part, vidx.ring, inter.segment1 ) );
  QgsPoint q1 = geom->vertexAt( QgsVertexId( vidx.part, vidx.ring, inter.segment2 ) );
  QgsPoint p2 = geom->vertexAt( QgsVertexId( vidx.part, vidx.ring, ( inter.segment1 + 1 ) % nVerts ) );
  QgsPoint q2 = geom->vertexAt( QgsVertexId( vidx.part, vidx.ring, ( inter.segment2 + 1 ) % nVerts ) );
  QgsPoint s;
  bool intersection = false;
  if ( !QgsGeometryUtils::segmentIntersection( p1, p2, q1, q2, s, intersection, mContext->tolerance ) )
  {
    error->setObsolete();
    return;
  }

  // Fix with selected method
  if ( method == NoChange )
  {
    error->setFixed( method );
  }
  else if ( method == ToMultiObject || method == ToSingleObjects )
  {
    // Extract rings
    QgsPointSequence ring1, ring2;
    bool ring1EndsWithS = false;
    bool ring2EndsWithS = false;
    for ( int i = 0; i < nVerts; ++i )
    {
      if ( i <= inter.segment1 || i >= inter.segment2 + 1 )
      {
        ring1.append( geom->vertexAt( QgsVertexId( vidx.part, vidx.ring, i ) ) );
        ring1EndsWithS = false;
        if ( i == inter.segment2 + 1 )
        {
          ring2.append( s );
          ring2EndsWithS = true;
        }
      }
      else
      {
        ring2.append( geom->vertexAt( QgsVertexId( vidx.part, vidx.ring, i ) ) );
        ring2EndsWithS = true;
        if ( i == inter.segment1 + 1 )
        {
          ring1.append( s );
          ring1EndsWithS = false;
        }
      }
    }
    if ( nVerts == inter.segment2 + 1 )
    {
      ring2.append( s );
      ring2EndsWithS = true;
    }
    if ( ringIsClosed || ring1EndsWithS )
      ring1.append( ring1.front() ); // Ensure ring is closed
    if ( ringIsClosed || ring2EndsWithS )
      ring2.append( ring2.front() ); // Ensure ring is closed

    if ( ring1.size() < 3 + ( ringIsClosed || ring1EndsWithS ) || ring2.size() < 3 + ( ringIsClosed || ring2EndsWithS ) )
    {
      error->setFixFailed( tr( "Resulting geometry is degenerate" ) );
      return;
    }
    QgsLineString *ringGeom1 = new QgsLineString();
    ringGeom1->setPoints( ring1 );
    QgsLineString *ringGeom2 = new QgsLineString();
    ringGeom2->setPoints( ring2 );

    QgsAbstractGeometry *part = QgsGeometryCheckerUtils::getGeomPart( geom, vidx.part );
    // If is a polygon...
    if ( dynamic_cast<QgsCurvePolygon *>( part ) )
    {
      QgsCurvePolygon *poly = static_cast<QgsCurvePolygon *>( part );
      // If self-intersecting ring is an interior ring, create separate holes
      if ( vidx.ring > 0 )
      {
        poly->removeInteriorRing( vidx.ring );
        poly->addInteriorRing( ringGeom1 );
        poly->addInteriorRing( ringGeom2 );
        changes[error->layerId()][feature.id()].append( Change( ChangeRing, ChangeRemoved, vidx ) );
        changes[error->layerId()][feature.id()].append( Change( ChangeRing, ChangeAdded, QgsVertexId( vidx.part, poly->ringCount() - 2 ) ) );
        changes[error->layerId()][feature.id()].append( Change( ChangeRing, ChangeAdded, QgsVertexId( vidx.part, poly->ringCount() - 1 ) ) );
        feature.setGeometry( featureGeom );
        featurePool->updateFeature( feature );
      }
      else
      {
        // If ring is exterior, build two polygons, and reassign interiors as necessary
        poly->setExteriorRing( ringGeom1 );

        // If original feature was a linear polygon, also create the new part as a linear polygon
        QgsCurvePolygon *poly2 = dynamic_cast<QgsPolygon *>( part ) ? new QgsPolygon() : new QgsCurvePolygon();
        poly2->setExteriorRing( ringGeom2 );

        // Reassing interiors as necessary
        std::unique_ptr< QgsGeometryEngine > geomEnginePoly1 = QgsGeometryCheckerUtils::createGeomEngine( poly, mContext->tolerance );
        std::unique_ptr< QgsGeometryEngine > geomEnginePoly2 = QgsGeometryCheckerUtils::createGeomEngine( poly2, mContext->tolerance );
        for ( int n = poly->numInteriorRings(), i = n - 1; i >= 0; --i )
        {
          if ( !geomEnginePoly1->contains( poly->interiorRing( i ) ) )
          {
            if ( geomEnginePoly2->contains( poly->interiorRing( i ) ) )
            {
              poly2->addInteriorRing( static_cast<QgsCurve *>( poly->interiorRing( i )->clone() ) );
              // No point in adding ChangeAdded changes, since the entire poly2 is added anyways later on
            }
            poly->removeInteriorRing( i );
            changes[error->layerId()][feature.id()].append( Change( ChangeRing, ChangeRemoved, QgsVertexId( vidx.part, 1 + i ) ) );
          }
        }

        if ( method == ToMultiObject )
        {
          // If is already a geometry collection, just add the new polygon.
          if ( dynamic_cast<QgsGeometryCollection *>( geom ) )
          {
            static_cast<QgsGeometryCollection *>( geom )->addGeometry( poly2 );
            changes[error->layerId()][feature.id()].append( Change( ChangeRing, ChangeChanged, QgsVertexId( vidx.part, vidx.ring ) ) );
            changes[error->layerId()][feature.id()].append( Change( ChangePart, ChangeAdded, QgsVertexId( geom->partCount() - 1 ) ) );
            feature.setGeometry( featureGeom );
            featurePool->updateFeature( feature );
          }
          // Otherwise, create multipolygon
          else
          {
            QgsMultiPolygon *multiPoly = new QgsMultiPolygon();
            multiPoly->addGeometry( poly->clone() );
            multiPoly->addGeometry( poly2 );
            feature.setGeometry( QgsGeometry( multiPoly ) );
            featurePool->updateFeature( feature );
            changes[error->layerId()][feature.id()].append( Change( ChangeFeature, ChangeChanged ) );
          }
        }
        else // if ( method == ToSingleObjects )
        {
          QgsFeature newFeature;
          newFeature.setAttributes( feature.attributes() );
          newFeature.setGeometry( QgsGeometry( poly2 ) );
          feature.setGeometry( featureGeom );
          featurePool->updateFeature( feature );
          featurePool->addFeature( newFeature );
          changes[error->layerId()][feature.id()].append( Change( ChangeRing, ChangeChanged, QgsVertexId( vidx.part, vidx.ring ) ) );
          changes[error->layerId()][newFeature.id()].append( Change( ChangeFeature, ChangeAdded ) );
        }
      }
    }
    else if ( dynamic_cast<QgsCurve *>( part ) )
    {
      if ( method == ToMultiObject )
      {
        if ( dynamic_cast<QgsGeometryCollection *>( geom ) )
        {
          QgsGeometryCollection *geomCollection = static_cast<QgsGeometryCollection *>( geom );
          geomCollection->removeGeometry( vidx.part );
          geomCollection->addGeometry( ringGeom1 );
          geomCollection->addGeometry( ringGeom2 );
          feature.setGeometry( featureGeom );
          featurePool->updateFeature( feature );
          changes[error->layerId()][feature.id()].append( Change( ChangePart, ChangeRemoved, QgsVertexId( vidx.part ) ) );
          changes[error->layerId()][feature.id()].append( Change( ChangePart, ChangeAdded, QgsVertexId( geomCollection->partCount() - 2 ) ) );
          changes[error->layerId()][feature.id()].append( Change( ChangePart, ChangeAdded, QgsVertexId( geomCollection->partCount() - 1 ) ) );
        }
        else
        {
          QgsMultiCurve *geomCollection = new QgsMultiLineString();
          geomCollection->addGeometry( ringGeom1 );
          geomCollection->addGeometry( ringGeom2 );
          feature.setGeometry( QgsGeometry( geomCollection ) );
          featurePool->updateFeature( feature );
          changes[error->layerId()][feature.id()].append( Change( ChangeFeature, ChangeChanged ) );
        }
      }
      else // if(method == ToSingleObjects)
      {
        if ( dynamic_cast<QgsGeometryCollection *>( geom ) )
        {
          QgsGeometryCollection *geomCollection = static_cast<QgsGeometryCollection *>( geom );
          geomCollection->removeGeometry( vidx.part );
          geomCollection->addGeometry( ringGeom1 );
          feature.setGeometry( featureGeom );
          featurePool->updateFeature( feature );
          changes[error->layerId()][feature.id()].append( Change( ChangePart, ChangeRemoved, QgsVertexId( vidx.part ) ) );
          changes[error->layerId()][feature.id()].append( Change( ChangePart, ChangeAdded, QgsVertexId( geomCollection->partCount() - 1 ) ) );
        }
        else
        {
          feature.setGeometry( QgsGeometry( ringGeom1 ) );
          featurePool->updateFeature( feature );
          changes[error->layerId()][feature.id()].append( Change( ChangeFeature, ChangeChanged, QgsVertexId( vidx.part ) ) );
        }
        QgsFeature newFeature;
        newFeature.setAttributes( feature.attributes() );
        newFeature.setGeometry( QgsGeometry( ringGeom2 ) );
        featurePool->addFeature( newFeature );
        changes[error->layerId()][newFeature.id()].append( Change( ChangeFeature, ChangeAdded ) );
      }
    }
    else
    {
      delete ringGeom1;
      delete ringGeom2;
    }
    error->setFixed( method );
  }
  else
  {
    error->setFixFailed( tr( "Unknown method" ) );
  }
}