public Collection <Feature> GetEditingFeaturesInterseting(BaseShape baseShape)
{
BaseShape searchArea = baseShape;
if (baseShape.GetWellKnownType() == WellKnownType.Point)
{
PointShape worldCoordinate = (PointShape)baseShape;
double searchTorlerence = 15 * MapArguments.CurrentResolution;
searchArea = new RectangleShape(worldCoordinate.X - searchTorlerence,
worldCoordinate.Y + searchTorlerence, worldCoordinate.X + searchTorlerence,
worldCoordinate.Y - searchTorlerence);
}
Collection <Feature> features = new Collection <Feature>();
lock (EditShapesLayer)
{
if (!EditShapesLayer.IsOpen)
{
EditShapesLayer.Open();
}
var intersectingFeatures = EditShapesLayer.QueryTools.GetFeaturesIntersecting(searchArea, EditShapesLayer.GetDistinctColumnNames());
foreach (var feature in intersectingFeatures)
{
features.Add(feature);
}
}
return(features);
}
protected override void AddInputShapeCore(BaseShape shape)
{
WellKnownType type = shape.GetWellKnownType();
if (type == WellKnownType.Line || type == WellKnownType.Multiline)
{
FirstInputFeatureLayer.InternalFeatures.Add(shape.GetFeature());
}
else if (type == WellKnownType.Polygon || type == WellKnownType.Multipolygon)
{
SecondInputFeatureLayer.InternalFeatures.Add(shape.GetFeature());
}
}
protected override void AddInputShapeCore(BaseShape shape)
{
WellKnownType type = shape.GetWellKnownType();
if (type == WellKnownType.Point || type == WellKnownType.Multipoint)
{
FirstInputFeatureLayer.InternalFeatures.Add(shape.GetFeature());
}
else if (type == WellKnownType.Polygon || type == WellKnownType.Multipolygon)
{
SecondInputFeatureLayer.InternalFeatures.Add(shape.GetFeature());
}
else
{
throw new Exception("The input shape is wrong");
}
}
private static IEnumerable <PointShape> CollectPoints(BaseShape shape)
{
WellKnownType wktype = shape.GetWellKnownType();
if (wktype == WellKnownType.Point)
{
yield return((PointShape)shape);
}
else if (wktype == WellKnownType.Multipoint)
{
foreach (var point in ((MultipointShape)shape).Points)
{
yield return(point);
}
}
else if (wktype == WellKnownType.Line)
{
foreach (var point in CollectPoints((LineShape)shape))
{
yield return(point);
}
}
else if (wktype == WellKnownType.Multiline)
{
foreach (var point in CollectPoints((MultilineShape)shape))
{
yield return(point);
}
}
else if (wktype == WellKnownType.Polygon)
{
foreach (var point in CollectPoints((PolygonShape)shape))
{
yield return(point);
}
}
else if (wktype == WellKnownType.Multipolygon)
{
foreach (var point in CollectPoints((MultipolygonShape)shape))
{
yield return(point);
}
}
}
private Collection <Feature> GetTargetFeaturesInterseting(BaseShape baseShape)
{
BaseShape searchArea = baseShape;
if (baseShape.GetWellKnownType() == WellKnownType.Point)
{
PointShape worldCoordinate = (PointShape)baseShape;
double searchTorlerence = 15 * MapArguments.CurrentResolution;
searchArea = new RectangleShape(worldCoordinate.X - searchTorlerence,
worldCoordinate.Y + searchTorlerence, worldCoordinate.X + searchTorlerence,
worldCoordinate.Y - searchTorlerence);
}
Collection <Feature> features = new Collection <Feature>();
lock (EditTargetLayer)
{
if (!EditTargetLayer.IsOpen)
{
EditTargetLayer.Open();
}
//var excludeFeatures = new Collection<string>();
//foreach (var item in editTargetLayer.FeatureIdsToExclude)
//{
// excludeFeatures.Add(item);
//}
editTargetLayer.FeatureIdsToExclude.Clear();
foreach (var item in newFeatureIds)
{
editTargetLayer.FeatureIdsToExclude.Add(item);
}
EditTargetLayer.SafeProcess(() =>
{
var intersectingFeatures = EditTargetLayer.QueryTools.GetFeaturesIntersecting(searchArea, EditTargetLayer.GetDistinctColumnNames());
foreach (var feature in intersectingFeatures)
{
try
{
features.Add(feature);
}
catch
{
features.Add(SqlTypesGeometryHelper.MakeValid(feature));
}
}
});
}
foreach (var item in editShapesLayer.InternalFeatures)
{
if (item.GetShape().Intersects(searchArea) && !features.Any(f => f.GetWellKnownText() == item.GetWellKnownText()))
{
features.Add(item);
}
}
foreach (var item in editCandidatesLayer.InternalFeatures)
{
if (item.GetShape().Intersects(searchArea) && !features.Any(f => f.GetWellKnownText() == item.GetWellKnownText()))
{
features.Add(item);
}
}
return(features);
}
/// <summary>
/// Get elevation data using the ElevationCloudClient and update the UI
/// </summary>
private async Task PerformElevationQuery(BaseShape queryShape)
{
// Get feature layers from the MapView
LayerOverlay elevationPointsOverlay = (LayerOverlay)mapView.Overlays["Elevation Features Overlay"];
InMemoryFeatureLayer drawnShapesLayer = (InMemoryFeatureLayer)elevationPointsOverlay.Layers["Drawn Shape Layer"];
InMemoryFeatureLayer elevationPointsLayer = (InMemoryFeatureLayer)elevationPointsOverlay.Layers["Elevation Points Layer"];
// Clear the existing shapes from the map
elevationPointsLayer.Open();
elevationPointsLayer.Clear();
elevationPointsLayer.Close();
drawnShapesLayer.Open();
drawnShapesLayer.Clear();
drawnShapesLayer.Close();
// Add the drawn shape to the map
drawnShapesLayer.InternalFeatures.Add(new Feature(queryShape));
// Set options from the UI and run the query using the ElevationCloudClient
Collection <CloudElevationPointResult> elevationPoints = new Collection <CloudElevationPointResult>();
int projectionInSrid = 3857;
// Show a loading graphic to let users know the request is running
loadingIndicator.IsRunning = true;
loadingLayout.IsVisible = true;
// The point interval distance determines how many elevation points are retrieved for line and area queries
int pointIntervalDistance = (int)intervalDistance.Value;
switch (queryShape.GetWellKnownType())
{
case WellKnownType.Point:
PointShape drawnPoint = (PointShape)queryShape;
double elevation = await elevationCloudClient.GetElevationOfPointAsync(drawnPoint.X, drawnPoint.Y, projectionInSrid);
// The API for getting the elevation of a single point returns a double, so we manually create a CloudElevationPointResult to use as a data source for the Elevations list
elevationPoints.Add(new CloudElevationPointResult(elevation, drawnPoint));
// Update the UI with the average, highest, and lowest elevations
txtAverageElevation.Text = $"Average Elevation: {elevation:0.00} feet";
txtHighestElevation.Text = $"Highest Elevation: {elevation:0.00} feet";
txtLowestElevation.Text = $"Lowest Elevation: {elevation:0.00} feet";
break;
case WellKnownType.Line:
LineShape drawnLine = (LineShape)queryShape;
var result = await elevationCloudClient.GetElevationOfLineAsync(drawnLine, projectionInSrid, pointIntervalDistance, DistanceUnit.Meter, DistanceUnit.Feet);
elevationPoints = result.ElevationPoints;
// Update the UI with the average, highest, and lowest elevations
txtAverageElevation.Text = $"Average Elevation: {result.AverageElevation:0.00} feet";
txtHighestElevation.Text = $"Highest Elevation: {result.HighestElevationPoint.Elevation:0.00} feet";
txtLowestElevation.Text = $"Lowest Elevation: {result.LowestElevationPoint.Elevation:0.00} feet";
break;
case WellKnownType.Polygon:
PolygonShape drawnPolygon = (PolygonShape)queryShape;
result = await elevationCloudClient.GetElevationOfAreaAsync(drawnPolygon, projectionInSrid, pointIntervalDistance, DistanceUnit.Meter, DistanceUnit.Feet);
elevationPoints = result.ElevationPoints;
// Update the UI with the average, highest, and lowest elevations
txtAverageElevation.Text = $"Average Elevation: {result.AverageElevation:0.00} feet";
txtHighestElevation.Text = $"Highest Elevation: {result.HighestElevationPoint.Elevation:0.00} feet";
txtLowestElevation.Text = $"Lowest Elevation: {result.LowestElevationPoint.Elevation:0.00} feet";
break;
default:
break;
}
// Add the elevation result points to the map and list box
foreach (CloudElevationPointResult elevationPoint in elevationPoints)
{
elevationPointsLayer.InternalFeatures.Add(new Feature(elevationPoint.Point));
}
lsbElevations.ItemsSource = elevationPoints;
// Hide the loading graphic
loadingIndicator.IsRunning = false;
loadingLayout.IsVisible = false;
// Set the map extent to the elevation query feature
drawnShapesLayer.Open();
mapView.CenterAt(drawnShapesLayer.GetBoundingBox().GetCenterPoint());
drawnShapesLayer.Close();
mapView.Refresh();
}
