Display a layer from a WFS service, requesting only features for the current extent.
Use case
WFS is an open standard with functionality similar to ArcGIS feature services. The ArcGIS Maps SDK for Qt support for WFS allows you to interoperate with open systems, which are often used in inter-agency efforts, like those for disaster relief.
How to use the sample
Pan and zoom to see features within the current map extent.
How it works
- Create a
WfsFeatureTablewith a URL and table name. - Create a
FeatureLayerfrom the feature table and add it to the map. - Listen for the
MapView::navigatingChangedsignal to detect when the user has stopped navigating the map. - When the user is finished navigating, use
populateFromServiceAsyncto load the table with data for the current visible extent.
Relevant API
- FeatureLayer
- MapView::navigatingChanged
- WfsFeatureTable
- WfsFeatureTable::populateFromServiceAsync
About the data
This service shows building footprints for downtown Seattle. For additional information, see the underlying service on ArcGIS Online.
Tags
browse, catalog, feature, interaction cache, layers, OGC, service, web, WFS
Sample Code
// [WriteFile Name=DisplayWfsLayer, Category=Layers]
// [Legal]
// Copyright 2019 Esri.
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
// http://www.apache.org/licenses/LICENSE-2.0
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
// [Legal]
#ifdef PCH_BUILD
#include "pch.hpp"
#endif // PCH_BUILD
#include "DisplayWfsLayer.h"
#include "Map.h"
#include "MapQuickView.h"
#include "WfsFeatureTable.h"
#include "FeatureLayer.h"
#include "QueryParameters.h"
#include "SimpleRenderer.h"
#include "SimpleLineSymbol.h"
#include "Error.h"
#include "MapTypes.h"
#include "SymbolTypes.h"
#include "LayerListModel.h"
#include "GeodatabaseTypes.h"
#include "CoreTypes.h"
#include "SpatialReference.h"
#include "Envelope.h"
#include "Viewpoint.h"
#include "Polygon.h"
#include <QFuture>
using namespace Esri::ArcGISRuntime;
DisplayWfsLayer::DisplayWfsLayer(QObject* parent /* = nullptr */):
QObject(parent),
m_map(new Map(BasemapStyle::ArcGISTopographic, this))
{
// create WFS Feature Table
m_wfsFeatureTable = new WfsFeatureTable(QUrl("https://dservices2.arcgis.com/ZQgQTuoyBrtmoGdP/arcgis/services/Seattle_Downtown_Features/WFSServer?service=wfs&request=getcapabilities"),
"Seattle_Downtown_Features:Buildings", this);
// Set feature request mode to manual - only manual is supported at v100.5.
// In this mode, you must manually populate the table - panning and zooming
// won't request features automatically.
m_wfsFeatureTable->setFeatureRequestMode(FeatureRequestMode::ManualCache);
// populate the feature table once loaded
connect(m_wfsFeatureTable, &WfsFeatureTable::doneLoading, this, [this](const Error& e)
{
if (e.isEmpty())
populateWfsFeatureTable();
});
// create feature layer from the feature table
FeatureLayer* featureLayer = new FeatureLayer(m_wfsFeatureTable, this);
// add a renderer to the layer
SimpleLineSymbol* sls = new SimpleLineSymbol(SimpleLineSymbolStyle::Solid, QColor("red"), 3.0f, this);
SimpleRenderer* sr = new SimpleRenderer(sls, this);
featureLayer->setRenderer(sr);
// add the layer to the map
m_map->operationalLayers()->append(featureLayer);
// set initial viewpoint
Envelope env(-122.341581, 47.613758, -122.332662, 47.617207, SpatialReference::wgs84());
m_map->setInitialViewpoint(Viewpoint(env));
}
DisplayWfsLayer::~DisplayWfsLayer() = default;
void DisplayWfsLayer::init()
{
// Register the map view for QML
qmlRegisterType<MapQuickView>("Esri.Samples", 1, 0, "MapView");
qmlRegisterType<DisplayWfsLayer>("Esri.Samples", 1, 0, "DisplayWfsLayerSample");
}
MapQuickView* DisplayWfsLayer::mapView() const
{
return m_mapView;
}
// Set the view (created in QML)
void DisplayWfsLayer::setMapView(MapQuickView* mapView)
{
if (!mapView || mapView == m_mapView)
{
return;
}
m_mapView = mapView;
m_mapView->setMap(m_map);
connect(m_mapView, &MapQuickView::navigatingChanged, this, [this]()
{
if (m_mapView->isNavigating())
return;
populateWfsFeatureTable();
});
emit mapViewChanged();
}
void DisplayWfsLayer::populateWfsFeatureTable()
{
if (!m_mapView || !m_wfsFeatureTable)
return;
// create query parameters
QueryParameters params;
params.setGeometry(m_mapView->visibleArea().extent());
params.setSpatialRelationship(SpatialRelationship::Intersects);
// query the service
constexpr bool clearCache = false;
const QStringList outFields = {"*"};
auto future = m_wfsFeatureTable->populateFromServiceAsync(params, clearCache, outFields);
Q_UNUSED(future)
}