Ejemplo n.º 1
0
void QgsAttributeTypeLoadDialog::loadDataToValueMap()
{
  mValueMap.clear();
  int idx = keyComboBox->itemData( keyComboBox->currentIndex() ).toInt();
  int idx2 = valueComboBox->itemData( valueComboBox->currentIndex() ).toInt();
  QgsMapLayer* dataLayer = QgsMapLayerRegistry::instance()->mapLayer( layerComboBox->currentText() );
  QgsVectorLayer* vLayer = qobject_cast<QgsVectorLayer *>( dataLayer );
  if ( vLayer == NULL )
  {
    return;
  }

  QgsVectorDataProvider* dataProvider = vLayer->dataProvider();
  dataProvider->enableGeometrylessFeatures( true );

  QgsAttributeList attributeList = QgsAttributeList();
  attributeList.append( idx );
  attributeList.append( idx2 );
  vLayer->select( attributeList, QgsRectangle(), false );

  QgsFeature f;
  while ( vLayer->nextFeature( f ) )
  {
    QVariant val = f.attributeMap()[idx];
    if ( val.isValid() && !val.isNull() && !val.toString().isEmpty() )
    {
      mValueMap.insert( f.attributeMap()[idx2].toString(), val );
    }
  }
  dataProvider->enableGeometrylessFeatures( false );
}
Ejemplo n.º 2
0
void QgsMapToolSimplify::canvasPressEvent( QMouseEvent * e )
{
  QgsVectorLayer * vlayer = currentVectorLayer();
  QgsPoint layerCoords = mCanvas->getCoordinateTransform()->toMapPoint( e->pos().x(), e->pos().y() );

  double r = QgsTolerance::vertexSearchRadius( vlayer, mCanvas->mapRenderer() );
  QgsRectangle selectRect = QgsRectangle( layerCoords.x() - r, layerCoords.y() - r,
                                          layerCoords.x() + r, layerCoords.y() + r );
  vlayer->select( QgsAttributeList(), selectRect, true );

  QgsGeometry* geometry = QgsGeometry::fromPoint( layerCoords );
  double minDistance = DBL_MAX;
  double currentDistance;
  QgsFeature f;

  mSelectedFeature.setValid( false );

  while ( vlayer->nextFeature( f ) )
  {
    currentDistance = geometry->distance( *( f.geometry() ) );
    if ( currentDistance < minDistance )
    {
      minDistance = currentDistance;
      mSelectedFeature = f;
    }
  }

  // delete previous rubberband (if any)
  removeRubberBand();

  if ( mSelectedFeature.isValid() )
  {
    if ( mSelectedFeature.geometry()->isMultipart() )
    {
      QMessageBox::critical( 0, tr( "Unsupported operation" ), tr( "Multipart features are not supported for simplification." ) );
      return;
    }

    mRubberBand = new QgsRubberBand( mCanvas );
    mRubberBand->setToGeometry( mSelectedFeature.geometry(), 0 );
    mRubberBand->setColor( Qt::red );
    mRubberBand->setWidth( 2 );
    mRubberBand->show();
    //calculate boudaries for slidebar
    if ( calculateSliderBoudaries() )
    {
      // show dialog as a non-modal window
      mSimplifyDialog->show();
    }
    else
    {
      QMessageBox::warning( 0, tr( "Unsupported operation" ), tr( "This feature cannot be simplified. Check if feature has enough vertices to be simplified." ) );
    }
  }
}
Ejemplo n.º 3
0
void QgsAttributeTypeLoadDialog::createPreview( int fieldIndex, bool full )
{
  previewTableWidget->clearContents();

  for ( int i = previewTableWidget->rowCount() - 1; i > 0; i-- )
  {
    previewTableWidget->removeRow( i );
  }
  if ( layerComboBox->currentIndex() < 0 || fieldIndex < 0 )
  {
    //when nothing is selected there is no reason for preview
    return;
  }
  int idx = keyComboBox->itemData( keyComboBox->currentIndex() ).toInt();
  int idx2 = valueComboBox->itemData( valueComboBox->currentIndex() ).toInt();
  QgsMapLayer* dataLayer = QgsMapLayerRegistry::instance()->mapLayer( layerComboBox->currentText() );
  QgsVectorLayer* vLayer = qobject_cast<QgsVectorLayer *>( dataLayer );
  if ( vLayer == NULL )
  {
    return;
  }

  QgsVectorDataProvider* dataProvider = vLayer->dataProvider();
  dataProvider->enableGeometrylessFeatures( true );

  QgsAttributeList attributeList = QgsAttributeList();
  attributeList.append( idx );
  attributeList.append( idx2 );
  vLayer->select( attributeList, QgsRectangle(), false );

  QgsFeature f;
  QMap<QString, QVariant> valueMap;
  while ( vLayer->nextFeature( f ) )
  {
    QVariant val1 = f.attributeMap()[idx];
    QVariant val2 = f.attributeMap()[idx2];
    if ( val1.isValid() && !val1.isNull() && !val1.toString().isEmpty()
         && val2.isValid() && !val2.isNull() && !val2.toString().isEmpty() )
    {
      valueMap.insert( val1.toString(), val2.toString() );
    }
    if ( !full && valueMap.size() > 8 )
      break; //just first entries all on button
  }
  int row = 0;
  for ( QMap<QString, QVariant>::iterator mit = valueMap.begin(); mit != valueMap.end(); mit++, row++ )
  {
    previewTableWidget->insertRow( row );
    previewTableWidget->setItem( row, 0, new QTableWidgetItem( mit.value().toString() ) );
    previewTableWidget->setItem( row, 1, new QTableWidgetItem( mit.key() ) );
  }

  dataProvider->enableGeometrylessFeatures( false );
}
Ejemplo n.º 4
0
QWidget *QgsAttributeEditor::createAttributeEditor( QWidget *parent, QWidget *editor, QgsVectorLayer *vl, int idx, const QVariant &value, QMap<int, QWidget*> &proxyWidgets )
{
  if ( !vl )
    return 0;

  QWidget *myWidget = 0;
  QgsVectorLayer::EditType editType = vl->editType( idx );
  const QgsField &field = vl->pendingFields()[idx];
  QVariant::Type myFieldType = field.type();

  bool synchronized = false;

  switch ( editType )
  {
    case QgsVectorLayer::UniqueValues:
    {
      QList<QVariant> values;
      vl->dataProvider()->uniqueValues( idx, values );

      QComboBox *cb = comboBox( editor, parent );
      if ( cb )
      {
        cb->setEditable( false );

        for ( QList<QVariant>::iterator it = values.begin(); it != values.end(); it++ )
          cb->addItem( it->toString(), it->toString() );

        myWidget = cb;
      }

    }
    break;

    case QgsVectorLayer::Enumeration:
    {
      QStringList enumValues;
      vl->dataProvider()->enumValues( idx, enumValues );

      QComboBox *cb = comboBox( editor, parent );
      if ( cb )
      {
        QStringList::const_iterator s_it = enumValues.constBegin();
        for ( ; s_it != enumValues.constEnd(); ++s_it )
        {
          cb->addItem( *s_it, *s_it );
        }

        myWidget = cb;
      }
    }
    break;

    case QgsVectorLayer::ValueMap:
    {
      const QMap<QString, QVariant> &map = vl->valueMap( idx );

      QComboBox *cb = comboBox( editor, parent );
      if ( cb )
      {
        for ( QMap<QString, QVariant>::const_iterator it = map.begin(); it != map.end(); it++ )
        {
          cb->addItem( it.key(), it.value() );
        }

        myWidget = cb;
      }
    }
    break;

    case QgsVectorLayer::ValueRelation:
    {
      const QgsVectorLayer::ValueRelationData &data = vl->valueRelation( idx );

      QgsVectorLayer *layer = qobject_cast<QgsVectorLayer*>( QgsMapLayerRegistry::instance()->mapLayer( data.mLayer ) );
      QMap< QString, QString > map;

      int fi = -1;
      if ( layer )
      {
        int ki = layer->fieldNameIndex( data.mOrderByValue ? data.mValue : data.mKey );
        int vi = layer->fieldNameIndex( data.mOrderByValue ? data.mKey : data.mValue );

        if ( !data.mFilterAttributeColumn.isNull() )
          fi = layer->fieldNameIndex( data.mFilterAttributeColumn );

        if ( ki >= 0 && vi >= 0 )
        {
          QgsAttributeList attributes;
          attributes << ki;
          attributes << vi;
          if ( fi >= 0 )
            attributes << fi;
          layer->select( attributes, QgsRectangle(), false );
          QgsFeature f;
          while ( layer->nextFeature( f ) )
          {
            if ( fi >= 0 && f.attributeMap()[ fi ].toString() != data.mFilterAttributeValue )
              continue;

            map.insert( f.attributeMap()[ ki ].toString(), f.attributeMap()[ vi ].toString() );
          }
        }
      }

      if ( !data.mAllowMulti )
      {
        QComboBox *cb = comboBox( editor, parent );
        if ( cb )
        {
          if ( data.mAllowNull )
          {
            QSettings settings;
            cb->addItem( tr( "(no selection)" ), settings.value( "qgis/nullValue", "NULL" ).toString() );
          }

          for ( QMap< QString, QString >::const_iterator it = map.begin(); it != map.end(); it++ )
          {
            if ( data.mOrderByValue )
              cb->addItem( it.key(), it.value() );
            else
              cb->addItem( it.value(), it.key() );
          }

          myWidget = cb;
        }
      }
      else
      {
        QListWidget *lw = listWidget( editor, parent );
        if ( lw )
        {
          QStringList checkList = value.toString().remove( QChar( '{' ) ).remove( QChar( '}' ) ).split( "," );

          for ( QMap< QString, QString >::const_iterator it = map.begin(); it != map.end(); it++ )
          {
            QListWidgetItem *item;
            if ( data.mOrderByValue )
            {
              item = new QListWidgetItem( it.key() );
              item->setData( Qt::UserRole, it.value() );
              item->setCheckState( checkList.contains( it.value() ) ? Qt::Checked : Qt::Unchecked );
            }
            else
            {
              item = new QListWidgetItem( it.value() );
              item->setData( Qt::UserRole, it.key() );
              item->setCheckState( checkList.contains( it.key() ) ? Qt::Checked : Qt::Unchecked );
            }
            lw->addItem( item );
          }

          myWidget = lw;
        }
      }
    }
    break;

    case QgsVectorLayer::Classification:
    {
      QMap<QString, QString> classes;

      const QgsUniqueValueRenderer *uvr = dynamic_cast<const QgsUniqueValueRenderer *>( vl->renderer() );
      if ( uvr )
      {
        const QList<QgsSymbol *> symbols = uvr->symbols();

        for ( int i = 0; i < symbols.size(); i++ )
        {
          QString label = symbols[i]->label();
          QString name = symbols[i]->lowerValue();

          if ( label == "" )
            label = name;

          classes.insert( name, label );
        }
      }

      const QgsCategorizedSymbolRendererV2 *csr = dynamic_cast<const QgsCategorizedSymbolRendererV2 *>( vl->rendererV2() );
      if ( csr )
      {
        const QgsCategoryList &categories = (( QgsCategorizedSymbolRendererV2 * )csr )->categories(); // FIXME: QgsCategorizedSymbolRendererV2::categories() should be const
        for ( int i = 0; i < categories.size(); i++ )
        {
          QString label = categories[i].label();
          QString value = categories[i].value().toString();
          if ( label.isEmpty() )
            label = value;
          classes.insert( value, label );
        }
      }

      QComboBox *cb = comboBox( editor, parent );
      if ( cb )
      {
        for ( QMap<QString, QString>::const_iterator it = classes.begin(); it != classes.end(); it++ )
        {
          cb->addItem( it.value(), it.key() );
        }

        myWidget = cb;
      }
    }
    break;

    case QgsVectorLayer::DialRange:
    case QgsVectorLayer::SliderRange:
    case QgsVectorLayer::EditRange:
    {
      if ( myFieldType == QVariant::Int )
      {
        int min = vl->range( idx ).mMin.toInt();
        int max = vl->range( idx ).mMax.toInt();
        int step = vl->range( idx ).mStep.toInt();

        if ( editType == QgsVectorLayer::EditRange )
        {
          QSpinBox *sb = 0;

          if ( editor )
            sb = qobject_cast<QSpinBox *>( editor );
          else
            sb = new QSpinBox( parent );

          if ( sb )
          {
            sb->setRange( min, max );
            sb->setSingleStep( step );

            myWidget = sb;
          }
        }
        else
        {
          QAbstractSlider *sl = 0;

          if ( editor )
          {
            sl = qobject_cast<QAbstractSlider*>( editor );
          }
          else if ( editType == QgsVectorLayer::DialRange )
          {
            sl = new QDial( parent );
          }
          else
          {
            sl = new QSlider( Qt::Horizontal, parent );
          }

          if ( sl )
          {
            sl->setRange( min, max );
            sl->setSingleStep( step );

            myWidget = sl;
          }
        }
        break;
      }
      else if ( myFieldType == QVariant::Double )
      {
        QDoubleSpinBox *dsb = 0;
        if ( editor )
          dsb = qobject_cast<QDoubleSpinBox*>( editor );
        else
          dsb = new QDoubleSpinBox( parent );

        if ( dsb )
        {
          double min = vl->range( idx ).mMin.toDouble();
          double max = vl->range( idx ).mMax.toDouble();
          double step = vl->range( idx ).mStep.toDouble();

          dsb->setRange( min, max );
          dsb->setSingleStep( step );

          myWidget = dsb;
        }
        break;
      }
    }

    case QgsVectorLayer::CheckBox:
    {
      QCheckBox *cb = 0;
      if ( editor )
        cb = qobject_cast<QCheckBox*>( editor );
      else
        cb = new QCheckBox( parent );

      if ( cb )
      {
        myWidget = cb;
        break;
      }
    }

    // fall-through

    case QgsVectorLayer::LineEdit:
    case QgsVectorLayer::TextEdit:
    case QgsVectorLayer::UuidGenerator:
    case QgsVectorLayer::UniqueValuesEditable:
    case QgsVectorLayer::Immutable:
    {
      QLineEdit *le = 0;
      QTextEdit *te = 0;
      QPlainTextEdit *pte = 0;
      QComboBox * cb = 0;

      if ( editor )
      {
        le = qobject_cast<QLineEdit *>( editor );
        te = qobject_cast<QTextEdit *>( editor );
        pte = qobject_cast<QPlainTextEdit *>( editor );
        cb = qobject_cast<QComboBox *>( editor );
      }
      else if ( editType == QgsVectorLayer::TextEdit )
      {
        pte = new QPlainTextEdit( parent );
      }
      else
      {
        le = new QLineEdit( parent );
      }

      if ( le )
      {
        if ( editType == QgsVectorLayer::UniqueValuesEditable )
        {
          QList<QVariant> values;
          vl->dataProvider()->uniqueValues( idx, values );

          QStringList svalues;
          for ( QList<QVariant>::const_iterator it = values.begin(); it != values.end(); it++ )
            svalues << it->toString();

          QCompleter *c = new QCompleter( svalues );
          c->setCompletionMode( QCompleter::PopupCompletion );
          le->setCompleter( c );
        }

        if ( editType == QgsVectorLayer::UuidGenerator )
        {
          le->setReadOnly( true );
        }

        le->setValidator( new QgsFieldValidator( le, field ) );

        myWidget = le;
      }

      if ( te )
      {
        te->setAcceptRichText( true );
        myWidget = te;
      }

      if ( pte )
      {
        myWidget = pte;
      }

      if ( cb )
      {
        myWidget = cb;
      }

      if ( myWidget )
      {
        myWidget->setDisabled( editType == QgsVectorLayer::Immutable );

        QgsStringRelay* relay = NULL;

        QMap<int, QWidget*>::const_iterator it = proxyWidgets.find( idx );
        if ( it != proxyWidgets.end() )
        {
          QObject* obj = qvariant_cast<QObject*>( (*it)->property( "QgisAttrEditProxy" ) );
          relay = qobject_cast<QgsStringRelay*>( obj );
        }
        else
        {
          relay = new QgsStringRelay( myWidget );
        }

        if ( cb && cb->isEditable() )
        {
          synchronized =  connect( relay, SIGNAL( textChanged( QString ) ), myWidget, SLOT( setEditText( QString ) ) );
          synchronized &= connect( myWidget, SIGNAL( editTextChanged( QString ) ), relay, SLOT( changeText( QString ) ) );
        }
        else
        {
          synchronized =  connect( relay, SIGNAL( textChanged( QString ) ), myWidget, SLOT( setText( QString ) ) );
          synchronized &= connect( myWidget, SIGNAL( textChanged( QString ) ), relay, SLOT( changeText( QString ) ) );
        }

        if ( !cb || cb->isEditable() )
        {
          myWidget->setProperty( "QgisAttrEditProxy", QVariant( QMetaType::QObjectStar, &relay ) );
        }
      }
    }
    break;

    case QgsVectorLayer::Hidden:
      myWidget = 0;
      break;

    case QgsVectorLayer::FileName:
    case QgsVectorLayer::Calendar:
    {
      QPushButton *pb = 0;
      QLineEdit *le = qobject_cast<QLineEdit *>( editor );
      if ( le )
      {
        if ( le )
          myWidget = le;

        if ( editor->parent() )
        {
          pb = editor->parent()->findChild<QPushButton *>();
        }
      }
      else
      {
        le = new QLineEdit();

        pb = new QPushButton( tr( "..." ) );

        QHBoxLayout *hbl = new QHBoxLayout();
        hbl->addWidget( le );
        hbl->addWidget( pb );

        myWidget = new QWidget( parent );
        myWidget->setBackgroundRole( QPalette::Window );
        myWidget->setAutoFillBackground( true );
        myWidget->setLayout( hbl );
      }

      if ( pb )
      {
        if ( editType == QgsVectorLayer::FileName )
          connect( pb, SIGNAL( clicked() ), new QgsAttributeEditor( pb ), SLOT( selectFileName() ) );
        if ( editType == QgsVectorLayer::Calendar )
          connect( pb, SIGNAL( clicked() ), new QgsAttributeEditor( pb ), SLOT( selectDate() ) );
      }
    }
    break;
  }

  QMap<int, QWidget*>::const_iterator it = proxyWidgets.find( idx );
  if ( it != proxyWidgets.end() )
  {
    if ( !synchronized )
    {
      myWidget->setEnabled( false );
    }
  }
  else
  {
    proxyWidgets.insert( idx, myWidget );
  }

  setValue( myWidget, vl, idx, value );

  return myWidget;
}
Ejemplo n.º 5
0
void GlobePlugin::setupMap()
{
  QSettings settings;
  QString cacheDirectory = settings.value( "cache/directory", QgsApplication::qgisSettingsDirPath() + "cache" ).toString();
  TMSCacheOptions cacheOptions;
  cacheOptions.setPath( cacheDirectory.toStdString() );

  MapOptions mapOptions;
  mapOptions.cache() = cacheOptions;
  osgEarth::Map *map = new osgEarth::Map( mapOptions );

  //Default image layer
  GDALOptions driverOptions;
  driverOptions.url() = QDir::cleanPath( QgsApplication::pkgDataPath() + "/globe/world.tif" ).toStdString();
  ImageLayerOptions layerOptions( "world", driverOptions );
  layerOptions.cacheEnabled() = false;
  map->addImageLayer( new osgEarth::ImageLayer( layerOptions ) );

  MapNodeOptions nodeOptions;
  //nodeOptions.proxySettings() =
  //nodeOptions.enableLighting() = false;

  //LoadingPolicy loadingPolicy( LoadingPolicy::MODE_SEQUENTIAL );
  TerrainOptions terrainOptions;
  //terrainOptions.loadingPolicy() = loadingPolicy;
  terrainOptions.compositingTechnique() = TerrainOptions::COMPOSITING_MULTITEXTURE_FFP;
  nodeOptions.setTerrainOptions( terrainOptions );

  // The MapNode will render the Map object in the scene graph.
  mMapNode = new osgEarth::MapNode( map, nodeOptions );

  //prefill cache
  if ( !QFile::exists( cacheDirectory + "/worldwind_srtm" ) )
  {
    copyFolder( QgsApplication::pkgDataPath() + "/globe/data/worldwind_srtm", cacheDirectory + "/globe/worldwind_srtm" );
  }

  mRootNode = new osg::Group();
  mRootNode->addChild( mMapNode );

  // Add layers to the map
  layersChanged();

  // model placement utils
  mElevationManager = new osgEarth::Util::ElevationManager( mMapNode->getMap() );
  mElevationManager->setTechnique( osgEarth::Util::ElevationManager::TECHNIQUE_GEOMETRIC );
  mElevationManager->setMaxTilesToCache( 50 );

  mObjectPlacer = new osgEarth::Util::ObjectPlacer( mMapNode );

  // place 3D model on point layer
  if ( mSettingsDialog.modelLayer() && !mSettingsDialog.modelPath().isEmpty() )
  {
    osg::Node* model = osgDB::readNodeFile( mSettingsDialog.modelPath().toStdString() );
    if ( model )
    {
      QgsVectorLayer* layer = mSettingsDialog.modelLayer();
      QgsAttributeList fetchAttributes;
      layer->select( fetchAttributes ); //TODO: select only visible features
      QgsFeature feature;
      while ( layer->nextFeature( feature ) )
      {
        QgsPoint point = feature.geometry()->asPoint();
        placeNode( model, point.y(), point.x() );
      }
    }
  }

}
void RgLineVectorLayerDirector::makeGraph( RgGraphBuilder *builder, const QVector< QgsPoint >& additionalPoints,
    QVector< QgsPoint >& tiedPoint ) const
{
  QgsVectorLayer *vl = myLayer();

  if ( vl == NULL )
    return;

  int featureCount = ( int ) vl->featureCount() * 2;
  int step = 0;

  QgsCoordinateTransform ct;
  QgsDistanceArea da;
  ct.setSourceCrs( vl->crs() );

  if ( builder->coordinateTransformEnabled() )
  {
    ct.setDestCRS( builder->destinationCrs() );
    da.setProjectionsEnabled( true );
    //
    //da.setSourceCrs( builder->destinationCrs().srsid() );
    //
  }
  else
  {
    ct.setDestCRS( vl->crs() );
    da.setProjectionsEnabled( false );
  }

  tiedPoint = QVector< QgsPoint >( additionalPoints.size(), QgsPoint( 0.0, 0.0 ) );
  TiePointInfo tmpInfo;
  tmpInfo.mLength = infinity();

  QVector< TiePointInfo > pointLengthMap( additionalPoints.size(), tmpInfo );
  QVector< TiePointInfo >::iterator pointLengthIt;

  // begin: tie points to the graph
  QgsAttributeList la;
  vl->select( la );
  QgsFeature feature;
  while ( vl->nextFeature( feature ) )
  {
    QgsMultiPolyline mpl;
    if ( feature.geometry()->wkbType() == QGis::WKBLineString )
    {
      mpl.push_back( feature.geometry()->asPolyline() );
    }else if ( feature.geometry()->wkbType() == QGis::WKBMultiLineString )
    {
      mpl = feature.geometry()->asMultiPolyline();
    }

    QgsMultiPolyline::iterator mplIt;
    for ( mplIt = mpl.begin(); mplIt != mpl.end(); ++mplIt )
    {
      QgsPoint pt1, pt2;
      bool isFirstPoint = true;
      QgsPolyline::iterator pointIt;
      for ( pointIt = mplIt->begin(); pointIt != mplIt->end(); ++pointIt )
      {
        pt2 = builder->addVertex( ct.transform( *pointIt ) );
        if ( !isFirstPoint )
        {
          int i = 0;
          for ( i = 0; i != additionalPoints.size(); ++i )
          {
            TiePointInfo info;
            if ( pt1 == pt2 )
            {
              info.mLength = additionalPoints[ i ].sqrDist( pt1 );
              info.mTiedPoint = pt1;
            }
            else
            {
              info.mLength = additionalPoints[ i ].sqrDistToSegment( pt1.x(), pt1.y(), pt2.x(), pt2.y(), info.mTiedPoint );
            }
            if ( pointLengthMap[ i ].mLength > info.mLength )
            {
              info.mTiedPoint = builder->addVertex( info.mTiedPoint );
              info.mFirstPoint = pt1;
              info.mLastPoint = pt2;

              pointLengthMap[ i ] = info;
              tiedPoint[ i ] = info.mTiedPoint;
            }
          }
        }
        pt1 = pt2;
        isFirstPoint = false;
      }
    }
    emit buildProgress( ++step, featureCount );
  }
  // end: tie points to graph

  if ( mDirectionFieldId != -1 )
  {
    la.push_back( mDirectionFieldId );
  }
  if ( mSpeedFieldId != -1 )
  {
    la.push_back( mSpeedFieldId );
  }

  SpeedUnit su = SpeedUnit::byName( mSpeedUnitName );

  // begin graph construction
  vl->select( la );
  while ( vl->nextFeature( feature ) )
  {
    QgsAttributeMap attr = feature.attributeMap();
    int directionType = mDefaultDirection;
    QgsAttributeMap::const_iterator it;
    // What direction have feature?
    for ( it = attr.constBegin(); it != attr.constEnd(); ++it )
    {
      if ( it.key() != mDirectionFieldId )
      {
        continue;
      }
      QString str = it.value().toString();
      if ( str == mBothDirectionValue )
      {
        directionType = 3;
      }
      else if ( str == mDirectDirectionValue )
      {
        directionType = 1;
      }
      else if ( str == mReverseDirectionValue )
      {
        directionType = 2;
      }
    }
    // What speed have feature?
    double speed = 0.0;
    for ( it = attr.constBegin(); it != attr.constEnd(); ++it )
    {
      if ( it.key() != mSpeedFieldId )
      {
        continue;
      }
      speed = it.value().toDouble();
    }
    if ( speed <= 0.0 )
    {
      speed = mDefaultSpeed;
    }

    // begin features segments and add arc to the Graph;
    QgsMultiPolyline mpl;
    if ( feature.geometry()->wkbType() == QGis::WKBLineString )
    {
      mpl.push_back( feature.geometry()->asPolyline() );
    }else if ( feature.geometry()->wkbType() == QGis::WKBMultiLineString )
    {
      mpl = feature.geometry()->asMultiPolyline();
    }
    QgsMultiPolyline::iterator mplIt;
    for ( mplIt = mpl.begin(); mplIt != mpl.end(); ++mplIt )
    {
      QgsPoint pt1, pt2;
      bool isFirstPoint = true;
      QgsPolyline::iterator pointIt;
      for ( pointIt = mplIt->begin(); pointIt != mplIt->end(); ++pointIt )
      {
        pt2 = builder->addVertex( ct.transform( *pointIt ) );

        std::map< double, QgsPoint > pointsOnArc;
        pointsOnArc[ 0.0 ] = pt1;
        pointsOnArc[ pt1.sqrDist( pt2 )] = pt2;

        for ( pointLengthIt = pointLengthMap.begin(); pointLengthIt != pointLengthMap.end(); ++pointLengthIt )
        {
          if ( pointLengthIt->mFirstPoint == pt1 && pointLengthIt->mLastPoint == pt2 )
          {
            QgsPoint tiedPoint = pointLengthIt->mTiedPoint;
            pointsOnArc[ pt1.sqrDist( tiedPoint )] = tiedPoint;
          }
        }

        if ( !isFirstPoint )
        {
          std::map< double, QgsPoint >::iterator pointsIt;
          QgsPoint pt1;
          QgsPoint pt2;
          bool isFirstPoint = true;
          for ( pointsIt = pointsOnArc.begin(); pointsIt != pointsOnArc.end(); ++pointsIt )
          {
            pt2 = pointsIt->second;
            if ( !isFirstPoint )
            {
              double cost = da.measureLine( pt1, pt2 );
              if ( directionType == 1 ||
                   directionType == 3 )
              {
                builder->addArc( pt1, pt2, cost, speed*su.multipler(), feature.id() );
              }
              if ( directionType == 2 ||
                   directionType == 3 )
              {
                builder->addArc( pt2, pt1, cost, speed*su.multipler(), feature.id() );
              }
            }
            pt1 = pt2;
            isFirstPoint = false;
          }
        } // if ( !isFirstPoint )
        pt1 = pt2;
        isFirstPoint = false;
      }
    } // for (it = pl.begin(); it != pl.end(); ++it)
    emit buildProgress( ++step, featureCount );
  } // while( vl->nextFeature(feature) )
} // makeGraph( RgGraphBuilder *builder, const QgsRectangle& rt )
Ejemplo n.º 7
0
void QgsMapToolSelectUtils::setSelectFeatures( QgsMapCanvas* canvas,
        QgsGeometry* selectGeometry,
        bool doContains,
        bool doDifference,
        bool singleSelect )
{
    if ( selectGeometry->type() != QGis::Polygon )
    {
        return;
    }
    QgsVectorLayer* vlayer = QgsMapToolSelectUtils::getCurrentVectorLayer( canvas );
    if ( vlayer == NULL )
    {
        return;
    }

    // toLayerCoordinates will throw an exception for any 'invalid' points in
    // the rubber band.
    // For example, if you project a world map onto a globe using EPSG 2163
    // and then click somewhere off the globe, an exception will be thrown.
    QgsGeometry selectGeomTrans( *selectGeometry );

    if ( canvas->mapRenderer()->hasCrsTransformEnabled() )
    {
        try
        {
            QgsCoordinateTransform ct( canvas->mapRenderer()->destinationCrs(), vlayer->crs() );
            selectGeomTrans.transform( ct );
        }
        catch ( QgsCsException &cse )
        {
            Q_UNUSED( cse );
            // catch exception for 'invalid' point and leave existing selection unchanged
            QgsLogger::warning( "Caught CRS exception " + QString( __FILE__ ) + ": " + QString::number( __LINE__ ) );
            QMessageBox::warning( canvas, QObject::tr( "CRS Exception" ),
                                  QObject::tr( "Selection extends beyond layer's coordinate system." ) );
            return;
        }
    }

    QApplication::setOverrideCursor( Qt::WaitCursor );

    QgsDebugMsg( "Selection layer: " + vlayer->name() );
    QgsDebugMsg( "Selection polygon: " + selectGeomTrans.exportToWkt() );
    QgsDebugMsg( "doContains: " + QString( doContains ? "T" : "F" ) );
    QgsDebugMsg( "doDifference: " + QString( doDifference ? "T" : "F" ) );

    vlayer->select( QgsAttributeList(), selectGeomTrans.boundingBox(), true, true );

    QgsFeatureIds newSelectedFeatures;
    QgsFeature f;
    QgsFeatureId closestFeatureId = 0;
    bool foundSingleFeature = false;
    double closestFeatureDist = std::numeric_limits<double>::max();
    while ( vlayer->nextFeature( f ) )
    {
        QgsGeometry* g = f.geometry();
        if ( doContains )
        {
            if ( !selectGeomTrans.contains( g ) )
                continue;
        }
        else
        {
            if ( !selectGeomTrans.intersects( g ) )
                continue;
        }
        if ( singleSelect )
        {
            foundSingleFeature = true;
            double distance = g->distance( selectGeomTrans );
            if ( distance <= closestFeatureDist )
            {
                closestFeatureDist = distance;
                closestFeatureId = f.id();
            }
        }
        else
        {
            newSelectedFeatures.insert( f.id() );
        }
    }
    if ( singleSelect && foundSingleFeature )
    {
        newSelectedFeatures.insert( closestFeatureId );
    }

    QgsDebugMsg( "Number of new selected features: " + QString::number( newSelectedFeatures.size() ) );

    QgsFeatureIds layerSelectedFeatures;
    if ( doDifference )
    {
        layerSelectedFeatures = vlayer->selectedFeaturesIds();
        QgsFeatureIds::const_iterator i = newSelectedFeatures.constEnd();
        while ( i != newSelectedFeatures.constBegin() )
        {
            --i;
            if ( layerSelectedFeatures.contains( *i ) )
            {
                layerSelectedFeatures.remove( *i );
            }
            else
            {
                layerSelectedFeatures.insert( *i );
            }
        }
    }
    else
    {
        layerSelectedFeatures = newSelectedFeatures;
    }
    vlayer->setSelectedFeatures( layerSelectedFeatures );

    QApplication::restoreOverrideCursor();
}
Ejemplo n.º 8
0
void QgsMapToolReshape::canvasReleaseEvent( QMouseEvent * e )
{
  //check if we operate on a vector layer //todo: move this to a function in parent class to avoid duplication
  QgsVectorLayer *vlayer = qobject_cast<QgsVectorLayer *>( mCanvas->currentLayer() );

  if ( !vlayer )
  {
    QMessageBox::information( 0, tr( "Not a vector layer" ),
                              tr( "The current layer is not a vector layer" ) );
    return;
  }

  if ( !vlayer->isEditable() )
  {
    QMessageBox::information( 0, tr( "Layer not editable" ),
                              tr( "Cannot edit the vector layer. Use 'Toggle Editing' to make it editable." )
                            );
    return;
  }

  //add point to list and to rubber band
  int error = addVertex( e->pos() );
  if ( error == 1 )
  {
    //current layer is not a vector layer
    return;
  }
  else if ( error == 2 )
  {
    //problem with coordinate transformation
    QMessageBox::information( 0, tr( "Coordinate transform error" ),
                              tr( "Cannot transform the point to the layers coordinate system" ) );
    return;
  }

  if ( e->button() == Qt::LeftButton )
  {
    startCapturing();
  }
  else if ( e->button() == Qt::RightButton )
  {
    //find out bounding box of mCaptureList
    if ( size() < 1 )
    {
      stopCapturing();
      return;
    }
    QgsPoint firstPoint = points().at( 0 );
    QgsRectangle bbox( firstPoint.x(), firstPoint.y(), firstPoint.x(), firstPoint.y() );
    for ( int i = 1; i < size(); ++i )
    {
      bbox.combineExtentWith( points().at( i ).x(), points().at( i ).y() );
    }

    //query all the features that intersect bounding box of capture line
    vlayer->select( QgsAttributeList(), bbox, true, false );
    QgsFeature f;
    int reshapeReturn;
    bool reshapeDone = false;

    vlayer->beginEditCommand( tr( "Reshape" ) );
    while ( vlayer->nextFeature( f ) )
    {
      //query geometry
      //call geometry->reshape(mCaptureList)
      //register changed geometry in vector layer
      QgsGeometry* geom = f.geometry();
      if ( geom )
      {
        reshapeReturn = geom->reshapeGeometry( points() );
        if ( reshapeReturn == 0 )
        {
          vlayer->changeGeometry( f.id(), geom );
          reshapeDone = true;
        }
      }
    }

    if ( reshapeDone )
    {
      vlayer->endEditCommand();
    }
    else
    {
      vlayer->destroyEditCommand();
    }

    stopCapturing();
  }
}
Ejemplo n.º 9
0
QWidget *QgsAttributeEditor::createAttributeEditor( QWidget *parent, QWidget *editor, QgsVectorLayer *vl, int idx, const QVariant &value )
{
  if ( !vl )
    return NULL;

  QWidget *myWidget = NULL;
  QgsVectorLayer::EditType editType = vl->editType( idx );
  const QgsField &field = vl->pendingFields()[idx];
  QVariant::Type myFieldType = field.type();

  switch ( editType )
  {
    case QgsVectorLayer::UniqueValues:
    {
      QList<QVariant> values;
      vl->dataProvider()->uniqueValues( idx, values );

      QComboBox *cb = comboBox( editor, parent );
      if ( cb )
      {
        cb->setEditable( false );

        for ( QList<QVariant>::iterator it = values.begin(); it != values.end(); it++ )
          cb->addItem( it->toString(), it->toString() );

        myWidget = cb;
      }
    }
    break;

    case QgsVectorLayer::Enumeration:
    {
      QStringList enumValues;
      vl->dataProvider()->enumValues( idx, enumValues );

      QComboBox *cb = comboBox( editor, parent );
      if ( cb )
      {
        QStringList::const_iterator s_it = enumValues.constBegin();
        for ( ; s_it != enumValues.constEnd(); ++s_it )
        {
          cb->addItem( *s_it, *s_it );
        }

        myWidget = cb;
      }
    }
    break;

    case QgsVectorLayer::ValueMap:
    {
      const QMap<QString, QVariant> &map = vl->valueMap( idx );

      QComboBox *cb = comboBox( editor, parent );
      if ( cb )
      {
        for ( QMap<QString, QVariant>::const_iterator it = map.begin(); it != map.end(); it++ )
        {
          cb->addItem( it.key(), it.value() );
        }

        myWidget = cb;
      }
    }
    break;

    case QgsVectorLayer::ValueRelation:
    {
      QSettings settings;
      QString nullValue = settings.value( "qgis/nullValue", "NULL" ).toString();

      const QgsVectorLayer::ValueRelationData &data = vl->valueRelation( idx );

      QgsVectorLayer *layer = qobject_cast<QgsVectorLayer*>( QgsMapLayerRegistry::instance()->mapLayer( data.mLayer ) );
      QMap< QString, QString > map;
      if ( layer )
      {
        int ki = layer->fieldNameIndex( data.mOrderByValue ? data.mValue : data.mKey );
        int vi = layer->fieldNameIndex( data.mOrderByValue ? data.mKey : data.mValue );

        if ( data.mAllowNull )
          map.insert( nullValue, tr( "(no selection)" ) );

        if ( ki >= 0 && vi >= 0 )
        {
          layer->select( QgsAttributeList() << ki << vi, QgsRectangle(), false );
          QgsFeature f;
          while ( layer->nextFeature( f ) )
          {
            map.insert( f.attributeMap()[ ki ].toString(), f.attributeMap()[ vi ].toString() );
          }
        }
      }

      QComboBox *cb = comboBox( editor, parent );
      if ( cb )
      {
        for ( QMap< QString, QString >::const_iterator it = map.begin(); it != map.end(); it++ )
        {
          if ( data.mOrderByValue )
            cb->addItem( it.key(), it.value() );
          else
            cb->addItem( it.value(), it.key() );
        }

        myWidget = cb;
      }
    }
    break;

    case QgsVectorLayer::Classification:
    {
      QMap<QString, QString> classes;

      const QgsUniqueValueRenderer *uvr = dynamic_cast<const QgsUniqueValueRenderer *>( vl->renderer() );
      if ( uvr )
      {
        const QList<QgsSymbol *> symbols = uvr->symbols();

        for ( int i = 0; i < symbols.size(); i++ )
        {
          QString label = symbols[i]->label();
          QString name = symbols[i]->lowerValue();

          if ( label == "" )
            label = name;

          classes.insert( name, label );
        }
      }

      const QgsCategorizedSymbolRendererV2 *csr = dynamic_cast<const QgsCategorizedSymbolRendererV2 *>( vl->rendererV2() );
      if ( csr )
      {
        const QgsCategoryList &categories = (( QgsCategorizedSymbolRendererV2 * )csr )->categories(); // FIXME: QgsCategorizedSymbolRendererV2::categories() should be const
        for ( int i = 0; i < categories.size(); i++ )
        {
          QString label = categories[i].label();
          QString value = categories[i].value().toString();
          if ( label.isEmpty() )
            label = value;
          classes.insert( value, label );
        }
      }

      QComboBox *cb = comboBox( editor, parent );
      if ( cb )
      {
        for ( QMap<QString, QString>::const_iterator it = classes.begin(); it != classes.end(); it++ )
        {
          cb->addItem( it.value(), it.key() );
        }

        myWidget = cb;
      }
    }
    break;


    case QgsVectorLayer::DialRange:
    case QgsVectorLayer::SliderRange:
    case QgsVectorLayer::EditRange:
    {
      if ( myFieldType == QVariant::Int )
      {
        int min = vl->range( idx ).mMin.toInt();
        int max = vl->range( idx ).mMax.toInt();
        int step = vl->range( idx ).mStep.toInt();

        if ( editType == QgsVectorLayer::EditRange )
        {
          QSpinBox *sb = NULL;

          if ( editor )
            sb = qobject_cast<QSpinBox *>( editor );
          else
            sb = new QSpinBox( parent );

          if ( sb )
          {
            sb->setRange( min, max );
            sb->setSingleStep( step );

            myWidget = sb;
          }
        }
        else
        {
          QAbstractSlider *sl = NULL;

          if ( editor )
          {
            sl = qobject_cast<QAbstractSlider*>( editor );
          }
          else if ( editType == QgsVectorLayer::DialRange )
          {
            sl = new QDial( parent );
          }
          else
          {
            sl = new QSlider( Qt::Horizontal, parent );
          }

          if ( sl )
          {
            sl->setRange( min, max );
            sl->setSingleStep( step );

            myWidget = sl;
          }
        }
        break;
      }
      else if ( myFieldType == QVariant::Double )
      {
        QDoubleSpinBox *dsb = NULL;
        if ( editor )
          dsb = qobject_cast<QDoubleSpinBox*>( editor );
        else
          dsb = new QDoubleSpinBox( parent );

        if ( dsb )
        {
          double min = vl->range( idx ).mMin.toDouble();
          double max = vl->range( idx ).mMax.toDouble();
          double step = vl->range( idx ).mStep.toDouble();

          dsb->setRange( min, max );
          dsb->setSingleStep( step );

          myWidget = dsb;
        }
        break;
      }
    }

    case QgsVectorLayer::CheckBox:
    {
      QCheckBox *cb = NULL;
      if ( editor )
        cb = qobject_cast<QCheckBox*>( editor );
      else
        cb = new QCheckBox( parent );

      if ( cb )
      {
        myWidget = cb;
        break;
      }
    }

    // fall-through

    case QgsVectorLayer::LineEdit:
    case QgsVectorLayer::TextEdit:
    case QgsVectorLayer::UniqueValuesEditable:
    case QgsVectorLayer::Immutable:
    {
      QLineEdit *le = NULL;
      QTextEdit *te = NULL;
      QPlainTextEdit *pte = NULL;

      if ( editor )
      {
        le = qobject_cast<QLineEdit *>( editor );
        te = qobject_cast<QTextEdit *>( editor );
        pte = qobject_cast<QPlainTextEdit *>( editor );
      }
      else if ( editType == QgsVectorLayer::TextEdit )
      {
        pte = new QPlainTextEdit( parent );
      }
      else
      {
        le = new QLineEdit( parent );
      }

      if ( le )
      {

        if ( editType == QgsVectorLayer::UniqueValuesEditable )
        {
          QList<QVariant> values;
          vl->dataProvider()->uniqueValues( idx, values );

          QStringList svalues;
          for ( QList<QVariant>::const_iterator it = values.begin(); it != values.end(); it++ )
            svalues << it->toString();

          QCompleter *c = new QCompleter( svalues );
          c->setCompletionMode( QCompleter::PopupCompletion );
          le->setCompleter( c );
        }

        le->setValidator( new QgsFieldValidator( le, field ) );
        myWidget = le;
      }

      if ( te )
      {
        te->setAcceptRichText( true );
        myWidget = te;
      }

      if ( pte )
      {
        myWidget = pte;
      }

      if ( myWidget )
      {
        myWidget->setDisabled( editType == QgsVectorLayer::Immutable );
      }
    }
    break;

    case QgsVectorLayer::Hidden:
      myWidget = NULL;
      break;

    case QgsVectorLayer::FileName:
    case QgsVectorLayer::Calendar:
    {
      QPushButton *pb = NULL;
      QLineEdit *le = qobject_cast<QLineEdit *>( editor );
      if ( le )
      {
        if ( le )
          myWidget = le;

        if ( editor->parent() )
        {
          pb = editor->parent()->findChild<QPushButton *>();
        }
      }
      else
      {
        le = new QLineEdit();

        pb = new QPushButton( tr( "..." ) );

        QHBoxLayout *hbl = new QHBoxLayout();
        hbl->addWidget( le );
        hbl->addWidget( pb );

        myWidget = new QWidget( parent );
        myWidget->setBackgroundRole( QPalette::Window );
        myWidget->setAutoFillBackground( true );
        myWidget->setLayout( hbl );
      }

      if ( pb )
      {
        if ( editType == QgsVectorLayer::FileName )
          connect( pb, SIGNAL( clicked() ), new QgsAttributeEditor( pb ), SLOT( selectFileName() ) );
        if ( editType == QgsVectorLayer::Calendar )
          connect( pb, SIGNAL( clicked() ), new QgsAttributeEditor( pb ), SLOT( selectDate() ) );
      }
    }
    break;
  }

  setValue( myWidget, vl, idx, value );

  return myWidget;
}
void QgsOfflineEditing::copyVectorLayer( QgsVectorLayer* layer, sqlite3* db, const QString& offlineDbPath )
{
  if ( layer == NULL )
  {
    return;
  }

  QString tableName = layer->name();

  // create table
  QString sql = QString( "CREATE TABLE '%1' (" ).arg( tableName );
  QString delim = "";
  const QgsFieldMap& fields = layer->dataProvider()->fields();
  for ( QgsFieldMap::const_iterator it = fields.begin(); it != fields.end() ; ++it )
  {
    QString dataType = "";
    QVariant::Type type = it.value().type();
    if ( type == QVariant::Int )
    {
      dataType = "INTEGER";
    }
    else if ( type == QVariant::Double )
    {
      dataType = "REAL";
    }
    else if ( type == QVariant::String )
    {
      dataType = "TEXT";
    }
    else
    {
      showWarning( tr( "Unknown data type %1" ).arg( type ) );
    }

    sql += delim + QString( "'%1' %2" ).arg( it.value().name() ).arg( dataType );
    delim = ",";
  }
  sql += ")";

  // add geometry column
  QString geomType = "";
  switch ( layer->wkbType() )
  {
    case QGis::WKBPoint:
      geomType = "POINT";
      break;
    case QGis::WKBMultiPoint:
      geomType = "MULTIPOINT";
      break;
    case QGis::WKBLineString:
      geomType = "LINESTRING";
      break;
    case QGis::WKBMultiLineString:
      geomType = "MULTILINESTRING";
      break;
    case QGis::WKBPolygon:
      geomType = "POLYGON";
      break;
    case QGis::WKBMultiPolygon:
      geomType = "MULTIPOLYGON";
      break;
    default:
      showWarning( tr( "QGIS wkbType %1 not supported" ).arg( layer->wkbType() ) );
      break;
  };
  QString sqlAddGeom = QString( "SELECT AddGeometryColumn('%1', 'Geometry', %2, '%3', 2)" )
                       .arg( tableName )
                       .arg( layer->crs().authid().startsWith( "EPSG:", Qt::CaseInsensitive ) ? layer->crs().authid().mid( 5 ).toLong() : 0 )
                       .arg( geomType );

  // create spatial index
  QString sqlCreateIndex = QString( "SELECT CreateSpatialIndex('%1', 'Geometry')" ).arg( tableName );

  int rc = sqlExec( db, sql );
  if ( rc == SQLITE_OK )
  {
    rc = sqlExec( db, sqlAddGeom );
    if ( rc == SQLITE_OK )
    {
      rc = sqlExec( db, sqlCreateIndex );
    }
  }

  if ( rc == SQLITE_OK )
  {
    // add new layer
    QgsVectorLayer* newLayer = new QgsVectorLayer( QString( "dbname='%1' table='%2'(Geometry) sql=" )
        .arg( offlineDbPath ).arg( tableName ), tableName + " (offline)", "spatialite" );
    if ( newLayer->isValid() )
    {
      // mark as offline layer
      newLayer->setCustomProperty( CUSTOM_PROPERTY_IS_OFFLINE_EDITABLE, true );

      // store original layer source
      newLayer->setCustomProperty( CUSTOM_PROPERTY_REMOTE_SOURCE, layer->source() );
      newLayer->setCustomProperty( CUSTOM_PROPERTY_REMOTE_PROVIDER, layer->providerType() );

      // copy style
      bool hasLabels = layer->hasLabelsEnabled();
      if ( !hasLabels )
      {
        // NOTE: copy symbology before adding the layer so it is displayed correctly
        copySymbology( layer, newLayer );
      }

      // register this layer with the central layers registry
      QgsMapLayerRegistry::instance()->addMapLayer( newLayer );

      if ( hasLabels )
      {
        // NOTE: copy symbology of layers with labels enabled after adding to project, as it will crash otherwise (WORKAROUND)
        copySymbology( layer, newLayer );
      }

      // TODO: layer order

      // copy features
      newLayer->startEditing();
      QgsFeature f;

      // NOTE: force feature recount for PostGIS layer, else only visible features are counted, before iterating over all features (WORKAROUND)
      layer->setSubsetString( "" );

      layer->select( layer->pendingAllAttributesList(), QgsRectangle(), true, false );

      mProgressDialog->setupProgressBar( tr( "%v / %m features copied" ), layer->featureCount() );
      int featureCount = 1;

      QList<int> remoteFeatureIds;
      while ( layer->nextFeature( f ) )
      {
        remoteFeatureIds << f.id();

        // NOTE: Spatialite provider ignores position of geometry column
        // fill gap in QgsAttributeMap if geometry column is not last (WORKAROUND)
        int column = 0;
        QgsAttributeMap newAttrMap;
        QgsAttributeMap attrMap = f.attributeMap();
        for ( QgsAttributeMap::const_iterator it = attrMap.begin(); it != attrMap.end(); ++it )
        {
          newAttrMap.insert( column++, it.value() );
        }
        f.setAttributeMap( newAttrMap );

        newLayer->addFeature( f, false );

        mProgressDialog->setProgressValue( featureCount++ );
      }
      if ( newLayer->commitChanges() )
      {
        mProgressDialog->setupProgressBar( tr( "%v / %m features processed" ), layer->featureCount() );
        featureCount = 1;

        // update feature id lookup
        int layerId = getOrCreateLayerId( db, newLayer->id() );
        QList<int> offlineFeatureIds;
        newLayer->select( QgsAttributeList(), QgsRectangle(), false, false );
        while ( newLayer->nextFeature( f ) )
        {
          offlineFeatureIds << f.id();
        }

        // NOTE: insert fids in this loop, as the db is locked during newLayer->nextFeature()
        sqlExec( db, "BEGIN" );
        for ( int i = 0; i < remoteFeatureIds.size(); i++ )
        {
          addFidLookup( db, layerId, offlineFeatureIds.at( i ), remoteFeatureIds.at( i ) );

          mProgressDialog->setProgressValue( featureCount++ );
        }
        sqlExec( db, "COMMIT" );
      }
      else
      {
        showWarning( newLayer->commitErrors().join( "\n" ) );
      }

      // remove remote layer
      QgsMapLayerRegistry::instance()->removeMapLayer( layer->id() );
    }
  }
}