Пример #1
0
void QgsVectorLayerProperties::loadRows()
{
  QObject::disconnect( tblAttributes, SIGNAL( cellChanged( int, int ) ), this, SLOT( on_tblAttributes_cellChanged( int, int ) ) );
  const QgsFieldMap &fields = layer->pendingFields();

  tblAttributes->clear();

  tblAttributes->setColumnCount( attrColCount );
  tblAttributes->setRowCount( fields.size() );
  tblAttributes->setHorizontalHeaderItem( attrIdCol, new QTableWidgetItem( tr( "Id" ) ) );
  tblAttributes->setHorizontalHeaderItem( attrNameCol, new QTableWidgetItem( tr( "Name" ) ) );
  tblAttributes->setHorizontalHeaderItem( attrTypeCol, new QTableWidgetItem( tr( "Type" ) ) );
  tblAttributes->setHorizontalHeaderItem( attrLengthCol, new QTableWidgetItem( tr( "Length" ) ) );
  tblAttributes->setHorizontalHeaderItem( attrPrecCol, new QTableWidgetItem( tr( "Precision" ) ) );
  tblAttributes->setHorizontalHeaderItem( attrCommentCol, new QTableWidgetItem( tr( "Comment" ) ) );
  tblAttributes->setHorizontalHeaderItem( attrEditTypeCol, new QTableWidgetItem( tr( "Edit widget" ) ) );
  tblAttributes->setHorizontalHeaderItem( attrAliasCol, new QTableWidgetItem( tr( "Alias" ) ) );

  tblAttributes->horizontalHeader()->setResizeMode( 1, QHeaderView::Stretch );
  tblAttributes->horizontalHeader()->setResizeMode( 7, QHeaderView::Stretch );
  tblAttributes->setSelectionBehavior( QAbstractItemView::SelectRows );
  tblAttributes->setSelectionMode( QAbstractItemView::ExtendedSelection );
  tblAttributes->verticalHeader()->hide();

  int row = 0;
  for ( QgsFieldMap::const_iterator it = fields.begin(); it != fields.end(); it++, row++ )
    setRow( row, it.key(), it.value() );

  tblAttributes->resizeColumnsToContents();
  QObject::connect( tblAttributes, SIGNAL( cellChanged( int, int ) ), this, SLOT( on_tblAttributes_cellChanged( int, int ) ) );
}
void QgsVectorLayerProperties::loadRows()
{
  const QgsFieldMap &fields = layer->pendingFields();

  tblAttributes->clear();

  tblAttributes->setColumnCount( 8 );
  tblAttributes->setRowCount( fields.size() );
  tblAttributes->setHorizontalHeaderItem( 0, new QTableWidgetItem( tr( "id" ) ) );
  tblAttributes->setHorizontalHeaderItem( 1, new QTableWidgetItem( tr( "name" ) ) );
  tblAttributes->setHorizontalHeaderItem( 2, new QTableWidgetItem( tr( "type" ) ) );
  tblAttributes->setHorizontalHeaderItem( 3, new QTableWidgetItem( tr( "length" ) ) );
  tblAttributes->setHorizontalHeaderItem( 4, new QTableWidgetItem( tr( "precision" ) ) );
  tblAttributes->setHorizontalHeaderItem( 5, new QTableWidgetItem( tr( "comment" ) ) );
  tblAttributes->setHorizontalHeaderItem( 6, new QTableWidgetItem( tr( "edit widget" ) ) );
  tblAttributes->setHorizontalHeaderItem( 7, new QTableWidgetItem( tr( "values" ) ) );

  tblAttributes->setSelectionBehavior( QAbstractItemView::SelectRows );
  tblAttributes->setSelectionMode( QAbstractItemView::MultiSelection );

  int row = 0;
  for ( QgsFieldMap::const_iterator it = fields.begin(); it != fields.end(); it++, row++ )
    setRow( row, it.key(), it.value() );

  tblAttributes->resizeColumnsToContents();
}
Пример #3
0
bool QgsZonalStatisticsDialog::prefixIsValid( const QString& prefix ) const
{
  QgsVectorLayer* vl = polygonLayer();
  if ( !vl )
  {
    return false;
  }
  QgsVectorDataProvider* dp = vl->dataProvider();
  if ( !dp )
  {
    return false;
  }

  QgsFieldMap providerFieldMap = dp->fields();
  QgsFieldMap::const_iterator it = providerFieldMap.constBegin();
  QString currentFieldName;

  for ( ; it != providerFieldMap.constEnd(); ++it )
  {
    currentFieldName = it.value().name();
    if ( currentFieldName == ( prefix + "mean" ) || currentFieldName == ( prefix + "sum" ) || currentFieldName == ( prefix + "count" ) )
    {
      return false;
    }
  }
  return true;
}
Пример #4
0
void RgLineVectorLayerSettingsWidget::on_mcbLayers_selectItem()
{
  mcbDirection->clear();
  mcbSpeed->clear();

  mcbDirection->insertItem( 0, tr( "Always use default" ) );
  mcbSpeed->insertItem( 0, tr( "Always use default" ) );

  QgsVectorLayer* vl = selectedLayer();
  if ( !vl )
    return;

  QgsVectorDataProvider* provider = vl->dataProvider();
  if ( !provider )
    return;

  const QgsFieldMap& fields = provider->fields();
  QgsFieldMap::const_iterator it;
  for ( it = fields.constBegin(); it != fields.constEnd(); ++it )
  {
    QgsField currentField = it.value();
    QVariant currentType = currentField.type();
    if ( currentType == QVariant::Int || currentType == QVariant::String )
    {
      mcbDirection->insertItem( 1, currentField.name() );
    }
    if ( currentType == QVariant::Int || currentType == QVariant::Double )
    {
      mcbSpeed->insertItem( 1, currentField.name() );
    }
  }

} // RgDSettingsDlg::on_mcbLayers_selectItem()
Пример #5
0
void QgsLabelingGui::populateDataDefinedCombos( QgsPalLayerSettings& s )
{
  QList<QComboBox*> comboList;
  comboList << mSizeAttributeComboBox;
  comboList << mColorAttributeComboBox;
  comboList << mBoldAttributeComboBox;
  comboList << mItalicAttributeComboBox;
  comboList << mUnderlineAttributeComboBox;
  comboList << mStrikeoutAttributeComboBox;
  comboList << mFontFamilyAttributeComboBox;
  comboList << mBufferSizeAttributeComboBox;
  comboList << mBufferColorAttributeComboBox;
  comboList << mXCoordinateComboBox;
  comboList << mYCoordinateComboBox;
  comboList << mHorizontalAlignmentComboBox;
  comboList << mVerticalAlignmentComboBox;
  comboList << mLabelDistanceComboBox;
  comboList << mRotationComboBox;

  QList<QComboBox*>::iterator comboIt = comboList.begin();
  for ( ; comboIt != comboList.end(); ++comboIt )
  {
    ( *comboIt )->addItem( "", QVariant() );
  }

  const QgsFieldMap& fields = mLayer->dataProvider()->fields();
  for ( QgsFieldMap::const_iterator it = fields.constBegin(); it != fields.constEnd(); it++ )
  {
    for ( comboIt = comboList.begin(); comboIt != comboList.end(); ++comboIt )
    {
      ( *comboIt )->addItem( it.value().name(), it.key() );
    }

  }

  //set current combo boxes to already existing indices
  setCurrentComboValue( mSizeAttributeComboBox, s, QgsPalLayerSettings::Size );
  setCurrentComboValue( mColorAttributeComboBox, s, QgsPalLayerSettings::Color );
  setCurrentComboValue( mBoldAttributeComboBox, s, QgsPalLayerSettings::Bold );
  setCurrentComboValue( mItalicAttributeComboBox, s, QgsPalLayerSettings::Italic );
  setCurrentComboValue( mUnderlineAttributeComboBox, s, QgsPalLayerSettings::Underline );
  setCurrentComboValue( mStrikeoutAttributeComboBox, s, QgsPalLayerSettings::Strikeout );
  setCurrentComboValue( mFontFamilyAttributeComboBox, s, QgsPalLayerSettings::Family );
  setCurrentComboValue( mBufferSizeAttributeComboBox, s , QgsPalLayerSettings::BufferSize );
  setCurrentComboValue( mBufferColorAttributeComboBox, s, QgsPalLayerSettings::BufferColor );
  setCurrentComboValue( mXCoordinateComboBox, s, QgsPalLayerSettings::PositionX );
  setCurrentComboValue( mYCoordinateComboBox, s, QgsPalLayerSettings::PositionY );
  setCurrentComboValue( mHorizontalAlignmentComboBox, s, QgsPalLayerSettings::Hali );
  setCurrentComboValue( mVerticalAlignmentComboBox, s, QgsPalLayerSettings::Vali );
  setCurrentComboValue( mLabelDistanceComboBox, s, QgsPalLayerSettings::LabelDistance );
  setCurrentComboValue( mRotationComboBox, s, QgsPalLayerSettings::Rotation );
}
QgsDelAttrDialog::QgsDelAttrDialog( const QgsVectorLayer* vl ): QDialog()
{
    setupUi( this );
    if ( vl )
    {
        listBox2->clear();
        const QgsFieldMap layerAttributes = vl->pendingFields();
        QgsFieldMap::const_iterator attIt = layerAttributes.constBegin();
        for ( ; attIt != layerAttributes.constEnd(); ++attIt )
        {
            QListWidgetItem* item = new QListWidgetItem( attIt.value().name(), listBox2 );
            item->setData( Qt::UserRole, attIt.key() );
        }
    }
}
Пример #7
0
void QgsFieldCalculator::populateFields()
{
  if ( !mVectorLayer )
    return;

  const QgsFieldMap fieldMap = mVectorLayer->pendingFields();
  QgsFieldMap::const_iterator fieldIt = fieldMap.constBegin();
  for ( ; fieldIt != fieldMap.constEnd(); ++fieldIt )
  {

    QString fieldName = fieldIt.value().name();

    //insert into field list and field combo box
    mFieldMap.insert( fieldName, fieldIt.key() );
    mExistingFieldComboBox->addItem( fieldName );
  }
}
QgsVectorFieldSymbolLayerWidget::QgsVectorFieldSymbolLayerWidget( const QgsVectorLayer* vl, QWidget* parent ): QgsSymbolLayerV2Widget( parent, vl ), mLayer( 0 )
{
  setupUi( this );
  if ( mVectorLayer )
  {
    const QgsFieldMap& fm = mVectorLayer->pendingFields();
    QgsFieldMap::const_iterator fieldIt = fm.constBegin();
    mXAttributeComboBox->addItem( "" );
    mYAttributeComboBox->addItem( "" );
    for ( ; fieldIt != fm.constEnd(); ++fieldIt )
    {
      QString fieldName = fieldIt.value().name();
      mXAttributeComboBox->addItem( fieldName );
      mYAttributeComboBox->addItem( fieldName );
    }
  }
}
QMap<int, QString> QgsComposerAttributeTable::getHeaderLabels() const
{
  QMap<int, QString> header;
  if ( mVectorLayer )
  {
    QgsFieldMap vectorFields = mVectorLayer->pendingFields();
    QgsFieldMap::const_iterator fieldIt = vectorFields.constBegin();
    for ( ; fieldIt != vectorFields.constEnd(); ++fieldIt )
    {
      if ( mDisplayAttributes.size() > 0 && !mDisplayAttributes.contains( fieldIt.key() ) )
      {
        continue;
      }
      header.insert( fieldIt.key(), attributeDisplayName( fieldIt.key(), fieldIt.value().name() ) );
    }
  }
  return header;
}
Пример #10
0
void QgsFieldCalculator::accept()
{

  // Set up QgsDistanceArea each time we (re-)calculate
  QgsDistanceArea myDa;

  myDa.setSourceCrs( mVectorLayer->crs().srsid() );
  myDa.setEllipsoidalMode( QgisApp::instance()->mapCanvas()->mapRenderer()->hasCrsTransformEnabled() );
  myDa.setEllipsoid( QgsProject::instance()->readEntry( "Measure", "/Ellipsoid", GEO_NONE ) );


  QString calcString = builder->expressionText();
  QgsExpression exp( calcString );

  if ( !mVectorLayer || !mVectorLayer->isEditable() )
    return;

  if ( ! exp.prepare( mVectorLayer->pendingFields() ) )
  {
    QMessageBox::critical( 0, tr( "Evaluation error" ), exp.evalErrorString() );
    return;
  }

  mVectorLayer->beginEditCommand( "Field calculator" );

  //update existing field
  if ( mUpdateExistingGroupBox->isChecked() || !mNewFieldGroupBox->isEnabled() )
  {
    QMap<QString, int>::const_iterator fieldIt = mFieldMap.find( mExistingFieldComboBox->currentText() );
    if ( fieldIt != mFieldMap.end() )
    {
      mAttributeId = fieldIt.value();
    }
  }
  else
  {
    //create new field
    QgsField newField( mOutputFieldNameLineEdit->text(),
                       ( QVariant::Type ) mOutputFieldTypeComboBox->itemData( mOutputFieldTypeComboBox->currentIndex(), Qt::UserRole ).toInt(),
                       mOutputFieldTypeComboBox->itemData( mOutputFieldTypeComboBox->currentIndex(), Qt::UserRole + 1 ).toString(),
                       mOutputFieldWidthSpinBox->value(),
                       mOutputFieldPrecisionSpinBox->value() );

    if ( !mVectorLayer->addAttribute( newField ) )
    {
      QMessageBox::critical( 0, tr( "Provider error" ), tr( "Could not add the new field to the provider." ) );
      mVectorLayer->destroyEditCommand();
      return;
    }

    //get index of the new field
    const QgsFieldMap fieldList = mVectorLayer->pendingFields();

    QgsFieldMap::const_iterator it = fieldList.constBegin();
    for ( ; it != fieldList.constEnd(); ++it )
    {
      if ( it.value().name() == mOutputFieldNameLineEdit->text() )
      {
        mAttributeId = it.key();
        break;
      }
    }
  }

  if ( mAttributeId == -1 )
  {
    mVectorLayer->destroyEditCommand();
    return;
  }

  //go through all the features and change the new attribute
  QgsFeature feature;
  bool calculationSuccess = true;
  QString error;

  bool onlySelected = mOnlyUpdateSelectedCheckBox->isChecked();
  QgsFeatureIds selectedIds = mVectorLayer->selectedFeaturesIds();

  // block layerModified signals (that would trigger table update)
  mVectorLayer->blockSignals( true );

  bool useGeometry = exp.needsGeometry();
  int rownum = 1;

  mVectorLayer->select( mVectorLayer->pendingAllAttributesList(), QgsRectangle(), useGeometry, false );
  while ( mVectorLayer->nextFeature( feature ) )
  {
    if ( onlySelected )
    {
      if ( !selectedIds.contains( feature.id() ) )
      {
        continue;
      }
    }

    exp.setCurrentRowNumber( rownum );
    exp.setGeomCalculator( myDa );

    QVariant value = exp.evaluate( &feature );
    if ( exp.hasEvalError() )
    {
      calculationSuccess = false;
      error = exp.evalErrorString();
      break;
    }
    else
    {
      mVectorLayer->changeAttributeValue( feature.id(), mAttributeId, value, false );
    }

    rownum++;
  }

  // stop blocking layerModified signals and make sure that one layerModified signal is emitted
  mVectorLayer->blockSignals( false );
  mVectorLayer->setModified( true, false );

  if ( !calculationSuccess )
  {
    QMessageBox::critical( 0, tr( "Error" ), tr( "An error occured while evaluating the calculation string:\n%1" ).arg( error ) );
    mVectorLayer->destroyEditCommand();
    return;
  }

  mVectorLayer->endEditCommand();
  QDialog::accept();
}
QgsPointDisplacementRendererWidget::QgsPointDisplacementRendererWidget( QgsVectorLayer* layer, QgsStyleV2* style, QgsFeatureRendererV2* renderer ): \
    QgsRendererV2Widget( layer, style ), mEmbeddedRendererWidget( 0 )
{
  if ( !layer )
  {
    return;
  }

  //the renderer only applies to point vector layers
  if ( layer->wkbType() != QGis::WKBPoint && layer->wkbType()  != QGis::WKBPoint25D )
  {
    //setup blank dialog
    mRenderer = 0;
    setupBlankUi( layer->name() );
    return;
  }
  setupUi( this );

  if ( renderer && renderer->type() == "pointDisplacement" )
  {
    mRenderer = dynamic_cast<QgsPointDisplacementRenderer*>( renderer->clone() );
  }
  else
  {
    mRenderer = new QgsPointDisplacementRenderer();
  }

  blockAllSignals( true );

  //insert attributes into combo box
  if ( layer )
  {
    const QgsFieldMap layerAttributes = layer->pendingFields();
    QgsFieldMap::const_iterator it = layerAttributes.constBegin();
    for ( ; it != layerAttributes.constEnd(); ++it )
    {
      mLabelFieldComboBox->addItem( it.value().name() );
    }
    mLabelFieldComboBox->addItem( tr( "None" ) );

    QString currentLabelAttribute = mRenderer->labelAttributeName();
    if ( !currentLabelAttribute.isEmpty() )
    {
      mLabelFieldComboBox->setCurrentIndex( mLabelFieldComboBox->findText( currentLabelAttribute ) );
    }
    else
    {
      mLabelFieldComboBox->setCurrentIndex( mLabelFieldComboBox->findText( tr( "None" ) ) );
    }
  }

  //insert possible renderer types
  QStringList rendererList = QgsRendererV2Registry::instance()->renderersList();
  QStringList::const_iterator it = rendererList.constBegin();
  for ( ; it != rendererList.constEnd(); ++it )
  {
    if ( *it != "pointDisplacement" )
    {
      QgsRendererV2AbstractMetadata* m = QgsRendererV2Registry::instance()->rendererMetadata( *it );
      mRendererComboBox->addItem( m->icon(), m->visibleName(), *it );
    }
  }

  mCircleWidthSpinBox->setValue( mRenderer->circleWidth() );
  mCircleColorButton->setColor( mRenderer->circleColor() );
  mLabelColorButton->setColor( mRenderer->labelColor() );
  mCircleModificationSpinBox->setValue( mRenderer->circleRadiusAddition() );
  mDistanceSpinBox->setValue( mRenderer->tolerance() );

  //scale dependent labelling
  mMaxScaleDenominatorEdit->setText( QString::number( mRenderer->maxLabelScaleDenominator() ) );
  mMaxScaleDenominatorEdit->setValidator( new QDoubleValidator( mMaxScaleDenominatorEdit ) );
  if ( mRenderer->maxLabelScaleDenominator() > 0 )
  {
    mScaleDependentLabelsCheckBox->setCheckState( Qt::Checked );
  }
  else
  {
    mScaleDependentLabelsCheckBox->setCheckState( Qt::Unchecked );
    mMaxScaleDenominatorEdit->setEnabled( false );
  }


  blockAllSignals( false );

  //set the appropriate renderer dialog
  if ( mRenderer && mRenderer->embeddedRenderer() )
  {
    QString rendererName = mRenderer->embeddedRenderer()->type();
    int rendererIndex = mRendererComboBox->findData( rendererName );
    if ( rendererIndex != -1 )
    {
      mRendererComboBox->setCurrentIndex( rendererIndex );
      on_mRendererComboBox_currentIndexChanged( rendererIndex );
    }
  }

  updateCenterIcon();
}
Пример #12
0
QDomDocument QgsWFSServer::describeFeatureType()
{
  QgsDebugMsg( "Entering." );
  QDomDocument doc;
  //xsd:schema
  QDomElement schemaElement = doc.createElement( "schema"/*xsd:schema*/ );
  schemaElement.setAttribute( "xmlns", "http://www.w3.org/2001/XMLSchema" );
  schemaElement.setAttribute( "xmlns:xsd", "http://www.w3.org/2001/XMLSchema" );
  schemaElement.setAttribute( "xmlns:ogc", "http://www.opengis.net/ogc" );
  schemaElement.setAttribute( "xmlns:gml", "http://www.opengis.net/gml" );
  schemaElement.setAttribute( "xmlns:qgs", "http://www.qgis.org/gml" );
  schemaElement.setAttribute( "targetNamespace", "http://www.qgis.org/gml" );
  doc.appendChild( schemaElement );

  //xsd:import
  QDomElement importElement = doc.createElement( "import"/*xsd:import*/ );
  importElement.setAttribute( "namespace", "http://www.opengis.net/gml" );
  importElement.setAttribute( "schemaLocation", "http://schemas.opengis.net/gml/2.1.2/feature.xsd" );
  schemaElement.appendChild( importElement );

  //read TYPENAME
  QString typeName;
  QMap<QString, QString>::const_iterator type_name_it = mParameterMap.find( "TYPENAME" );
  if ( type_name_it != mParameterMap.end() )
  {
    typeName = type_name_it.value();
  }
  else
  {
    return doc;
  }

  QStringList wfsLayersId = mConfigParser->wfsLayers();
  QMap< QString, QMap< int, QString > > aliasInfo = mConfigParser->layerAliasInfo();
  QMap< QString, QSet<QString> > hiddenAttributes = mConfigParser->hiddenAttributes();

  QList<QgsMapLayer*> layerList;
  QgsMapLayer* currentLayer = 0;

  layerList = mConfigParser->mapLayerFromStyle( typeName, "" );
  currentLayer = layerList.at( 0 );

  QgsVectorLayer* layer = dynamic_cast<QgsVectorLayer*>( currentLayer );
  if ( layer && wfsLayersId.contains( layer->id() ) )
  {
    //is there alias info for this vector layer?
    QMap< int, QString > layerAliasInfo;
    QMap< QString, QMap< int, QString > >::const_iterator aliasIt = aliasInfo.find( currentLayer->id() );
    if ( aliasIt != aliasInfo.constEnd() )
    {
      layerAliasInfo = aliasIt.value();
    }

    //hidden attributes for this layer
    QSet<QString> layerHiddenAttributes;
    QMap< QString, QSet<QString> >::const_iterator hiddenIt = hiddenAttributes.find( currentLayer->id() );
    if ( hiddenIt != hiddenAttributes.constEnd() )
    {
      layerHiddenAttributes = hiddenIt.value();
    }

    //do a select with searchRect and go through all the features
    QgsVectorDataProvider* provider = layer->dataProvider();
    if ( !provider )
    {
      return doc;
    }

    typeName = typeName.replace( QString( " " ), QString( "_" ) );

    //xsd:element
    QDomElement elementElem = doc.createElement( "element"/*xsd:element*/ );
    elementElem.setAttribute( "name", typeName );
    elementElem.setAttribute( "type", "qgs:" + typeName + "Type" );
    elementElem.setAttribute( "substitutionGroup", "gml:_Feature" );
    schemaElement.appendChild( elementElem );

    //xsd:complexType
    QDomElement complexTypeElem = doc.createElement( "complexType"/*xsd:complexType*/ );
    complexTypeElem.setAttribute( "name", typeName + "Type" );
    schemaElement.appendChild( complexTypeElem );

    //xsd:complexType
    QDomElement complexContentElem = doc.createElement( "complexContent"/*xsd:complexContent*/ );
    complexTypeElem.appendChild( complexContentElem );

    //xsd:extension
    QDomElement extensionElem = doc.createElement( "extension"/*xsd:extension*/ );
    extensionElem.setAttribute( "base", "gml:AbstractFeatureType" );
    complexContentElem.appendChild( extensionElem );

    //xsd:sequence
    QDomElement sequenceElem = doc.createElement( "sequence"/*xsd:sequence*/ );
    extensionElem.appendChild( sequenceElem );

    //xsd:element
    QDomElement geomElem = doc.createElement( "element"/*xsd:element*/ );
    geomElem.setAttribute( "name", "geometry" );
    geomElem.setAttribute( "type", "gml:GeometryPropertyType" );
    geomElem.setAttribute( "minOccurs", "0" );
    geomElem.setAttribute( "maxOccurs", "1" );
    sequenceElem.appendChild( geomElem );

    const QgsFieldMap& fields = provider->fields();
    for ( QgsFieldMap::const_iterator it = fields.begin(); it != fields.end(); ++it )
    {

      QString attributeName = it.value().name();
      //skip attribute if it has edit type 'hidden'
      if ( layerHiddenAttributes.contains( attributeName ) )
      {
        continue;
      }

      //xsd:element
      QDomElement geomElem = doc.createElement( "element"/*xsd:element*/ );
      geomElem.setAttribute( "name", attributeName );
      if ( it.value().type() == 2 )
        geomElem.setAttribute( "type", "integer" );
      else if ( it.value().type() == 6 )
        geomElem.setAttribute( "type", "double" );
      else
        geomElem.setAttribute( "type", "string" );

      sequenceElem.appendChild( geomElem );

      //check if the attribute name should be replaced with an alias
      QMap<int, QString>::const_iterator aliasIt = layerAliasInfo.find( it.key() );
      if ( aliasIt != layerAliasInfo.constEnd() )
      {
        geomElem.setAttribute( "alias", aliasIt.value() );
      }

    }
  }

  return doc;
}
void QgsMergeAttributesDialog::createTableWidgetContents()
{
  //get information about attributes from vector layer
  if ( !mVectorLayer )
  {
    return;
  }

  //combo box row, attributes titles, feature values and current merge results
  mTableWidget->setRowCount( mFeatureList.size() + 2 );

  //create combo boxes and insert attribute names
  const QgsFieldMap& fieldMap = mVectorLayer->pendingFields();

  int col = 0;
  for ( QgsFieldMap::const_iterator fieldIt = fieldMap.constBegin();
        fieldIt != fieldMap.constEnd();
        ++fieldIt )
  {
    if ( mVectorLayer->editType( fieldIt.key() ) == QgsVectorLayer::Hidden ||
         mVectorLayer->editType( fieldIt.key() ) == QgsVectorLayer::Immutable )
      continue;

    mTableWidget->setColumnCount( col + 1 );

    mTableWidget->setCellWidget( 0, col, createMergeComboBox( fieldIt->type() ) );

    QTableWidgetItem *item = new QTableWidgetItem( fieldIt.value().name() );
    item->setData( Qt::UserRole, fieldIt.key() );
    mTableWidget->setHorizontalHeaderItem( col++, item );
  }

  //insert the attribute values
  QStringList verticalHeaderLabels; //the id column is in the
  verticalHeaderLabels << tr( "Id" );

  for ( int i = 0; i < mFeatureList.size(); ++i )
  {
    verticalHeaderLabels << QString::number( mFeatureList[i].id() );

    const QgsAttributeMap &attrs = mFeatureList[i].attributeMap();

    for ( int j = 0; j < mTableWidget->columnCount(); j++ )
    {
      int idx = mTableWidget->horizontalHeaderItem( j )->data( Qt::UserRole ).toInt();

      QTableWidgetItem* attributeValItem = new QTableWidgetItem( attrs[idx].toString() );
      attributeValItem->setFlags( Qt::ItemIsEnabled | Qt::ItemIsSelectable );
      mTableWidget->setItem( i + 1, j, attributeValItem );
      mTableWidget->setCellWidget( i + 1, j, QgsAttributeEditor::createAttributeEditor( mTableWidget, NULL, mVectorLayer, idx, attrs[idx] ) );
    }
  }

  //merge
  verticalHeaderLabels << tr( "Merge" );
  mTableWidget->setVerticalHeaderLabels( verticalHeaderLabels );

  //insert currently merged values
  for ( int i = 0; i < mTableWidget->columnCount(); ++i )
  {
    refreshMergedValue( i );
  }
}
Пример #14
0
void QgsFieldCalculator::accept()
{
    if ( mVectorLayer && mVectorLayer->isEditable() )
    {
        QString calcString = mExpressionTextEdit->toPlainText();

        //create QgsExpression
        QgsExpression exp( calcString );
        if ( exp.hasParserError() )
        {
            //expression not valid
            QMessageBox::critical( 0, tr( "Syntax error" ), tr( QString( "Invalid expression syntax. The error message of the parser is: '" + exp.parserErrorString() + "'" ).toLocal8Bit().data() ) );
            return;
        }

        if ( ! exp.prepare( mVectorLayer->pendingFields() ) )
        {
            QMessageBox::critical( 0, tr( "Evaluation error" ), exp.evalErrorString() );
            return;
        }

        mVectorLayer->beginEditCommand( "Field calculator" );

        //update existing field
        if ( mUpdateExistingFieldCheckBox->checkState() == Qt::Checked )
        {
            QMap<QString, int>::const_iterator fieldIt = mFieldMap.find( mExistingFieldComboBox->currentText() );
            if ( fieldIt != mFieldMap.end() )
            {
                mAttributeId = fieldIt.value();
            }
        }
        //create new field
        else
        {
            //create new field
            QgsField newField( mOutputFieldNameLineEdit->text(),
                               ( QVariant::Type ) mOutputFieldTypeComboBox->itemData( mOutputFieldTypeComboBox->currentIndex(), Qt::UserRole ).toInt(),
                               mOutputFieldTypeComboBox->itemData( mOutputFieldTypeComboBox->currentIndex(), Qt::UserRole + 1 ).toString(),
                               mOuputFieldWidthSpinBox->value(),
                               mOutputFieldPrecisionSpinBox->value() );

            if ( !mVectorLayer->addAttribute( newField ) )
            {
                QMessageBox::critical( 0, tr( "Provider error" ), tr( "Could not add the new field to the provider." ) );
                mVectorLayer->destroyEditCommand();
                return;
            }

            //get index of the new field
            const QgsFieldMap fieldList = mVectorLayer->pendingFields();

            QgsFieldMap::const_iterator it = fieldList.constBegin();
            for ( ; it != fieldList.constEnd(); ++it )
            {
                if ( it.value().name() == mOutputFieldNameLineEdit->text() )
                {
                    mAttributeId = it.key();
                    break;
                }
            }
        }

        if ( mAttributeId == -1 )
        {
            mVectorLayer->destroyEditCommand();
            return;
        }

        //go through all the features and change the new attribute
        QgsFeature feature;
        bool calculationSuccess = true;
        QString error;

        bool onlySelected = ( mOnlyUpdateSelectedCheckBox->checkState() == Qt::Checked );
        QgsFeatureIds selectedIds = mVectorLayer->selectedFeaturesIds();

        // block layerModified signals (that would trigger table update)
        mVectorLayer->blockSignals( true );

        bool useGeometry = exp.needsGeometry();
        int rownum = 1;

        mVectorLayer->select( mVectorLayer->pendingAllAttributesList(), QgsRectangle(), useGeometry, false );
        while ( mVectorLayer->nextFeature( feature ) )
        {
            if ( onlySelected )
            {
                if ( !selectedIds.contains( feature.id() ) )
                {
                    continue;
                }
            }

            exp.setCurrentRowNumber( rownum );

            QVariant value = exp.evaluate( &feature );
            if ( exp.hasEvalError() )
            {
                calculationSuccess = false;
                error = exp.evalErrorString();
                break;
            }
            else
            {
                mVectorLayer->changeAttributeValue( feature.id(), mAttributeId, value, false );
            }

            rownum++;
        }

        // stop blocking layerModified signals and make sure that one layerModified signal is emitted
        mVectorLayer->blockSignals( false );
        mVectorLayer->setModified( true, false );

        if ( !calculationSuccess )
        {
            QMessageBox::critical( 0, tr( "Error" ), tr( "An error occured while evaluating the calculation string:\n%1" ).arg( error ) );
            mVectorLayer->destroyEditCommand();
            return;
        }

        mVectorLayer->endEditCommand();
    }
    QDialog::accept();
}
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() );
    }
  }
}