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GeometryEngineDensify Method

Densifies the input geometry by inserting additional vertices along the geometry at an interval defined by maxSegmentLength.

Namespace:  Esri.ArcGISRuntime.Geometry
Assembly:  Esri.ArcGISRuntime (in Esri.ArcGISRuntime.dll) Version: 100.9.0
Syntax
public static Geometry Densify(
	Geometry geometry,
	double maxSegmentLength
)

Parameters

geometry
Type: Esri.ArcGISRuntime.GeometryGeometry
A Polyline or Polygon geometry.
maxSegmentLength
Type: SystemDouble
The maximum distance between vertices when the input geometry is densified. The linear unit is assumed to be that of the input geometry's spatial reference (decimal degrees for a geometry with a geographic spatial reference, meters for geometry with a Mercator spatial reference, and so on). See the table of projected coordinate systems in the REST API documentation to determine the unit used by a specific spatial reference https://developers.arcgis.com/rest/services-reference/projected-coordinate-systems.htm.

Return Value

Type: Geometry
Returns the densified geometry. (It does nothing to geometries with dimension less than 1, but simply passes them along).
Remarks
Additional vertices are not inserted on segments of the input Polyline or Polygon that are shorter than maxSegmentLength.
Examples

WPF

Example Name: DensifyAndGeneralize

A multipart geometry can be densified by adding interpolated points at regular intervals. Generalizing multipart geometry simplifies it while preserving its general shape. Densifying a multipart geometry adds more vertices at regular intervals.

Code example screen shot.

C#
// Copyright 2018 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.

using Esri.ArcGISRuntime.Geometry;
using Esri.ArcGISRuntime.Mapping;
using Esri.ArcGISRuntime.Symbology;
using Esri.ArcGISRuntime.UI;
using System.Drawing;
using System.Linq;

namespace ArcGISRuntime.WPF.Samples.DensifyAndGeneralize
{
    [ArcGISRuntime.Samples.Shared.Attributes.Sample(
        name: "Densify and generalize",
        category: "Geometry",
        description: "A multipart geometry can be densified by adding interpolated points at regular intervals. Generalizing multipart geometry simplifies it while preserving its general shape. Densifying a multipart geometry adds more vertices at regular intervals.",
        instructions: "Use the sliders to control the parameters of the densify and generalize methods.",
        tags: new[] { "data", "densify", "generalize", "simplify" })]
    public partial class DensifyAndGeneralize
    {
        // Graphic used to refer to the original geometry.
        private Polyline _originalPolyline;

        // Graphics used to show the densify or generalize result.
        private Graphic _resultPolylineGraphic;
        private Graphic _resultPointGraphic;

        public DensifyAndGeneralize()
        {
            InitializeComponent();

            // Create the map with a default basemap.
            MyMapView.Map = new Map(Basemap.CreateStreetsNightVector());

            // Create and add a graphics overlay.
            GraphicsOverlay overlay = new GraphicsOverlay();
            MyMapView.GraphicsOverlays.Add(overlay);

            // Create the original geometry: some points along a river.
            PointCollection points = CreateShipPoints();

            // Show the original geometry as red dots on the map.
            Multipoint originalMultipoint = new Multipoint(points);
            Graphic originalPointsGraphic = new Graphic(originalMultipoint,
                new SimpleMarkerSymbol(SimpleMarkerSymbolStyle.Circle, Color.Red, 7));
            overlay.Graphics.Add(originalPointsGraphic);

            // Show a dotted red line connecting the original points.
            _originalPolyline = new Polyline(points);
            Graphic originalPolylineGraphic = new Graphic(_originalPolyline,
                new SimpleLineSymbol(SimpleLineSymbolStyle.Dot, Color.Red, 3));
            overlay.Graphics.Add(originalPolylineGraphic);

            // Show the result (densified or generalized) points as magenta dots on the map.
            _resultPointGraphic = new Graphic
            {
                Symbol = new SimpleMarkerSymbol(SimpleMarkerSymbolStyle.Circle, Color.Magenta, 7)
            };
            overlay.Graphics.Add(_resultPointGraphic);

            // Connect the result points with a magenta polyline.
            _resultPolylineGraphic = new Graphic
            {
                Symbol = new SimpleLineSymbol(SimpleLineSymbolStyle.Solid, Color.Magenta, 3)
            };
            overlay.Graphics.Add(_resultPolylineGraphic);

            // Listen for changes in state.
            DeviationSlider.ValueChanged += (o, e) =>
                UpdateGeometry("Generalize", SegmentLengthSlider.Value, DeviationSlider.Value);
            SegmentLengthSlider.ValueChanged += (o, e) =>
                UpdateGeometry("Densify", SegmentLengthSlider.Value, DeviationSlider.Value);

            // Center the map.
            MyMapView.SetViewpointGeometryAsync(_originalPolyline.Extent, 100);
        }

        private void UpdateGeometry(string operation, double segmentLength, double deviation)
        {
            // Start with the original polyline.
            Polyline polyline = _originalPolyline;

            // Apply the selected operation.
            if (operation == "Generalize")
            {
                // Reset the other slider.
                SegmentLengthSlider.Value = 100;

                polyline = (Polyline) GeometryEngine.Generalize(polyline, deviation, true);

                // Update the result label.
                ResultLabel.Text = string.Format("Operation: Generalize, Deviation: {0:f}", deviation);
            }
            else
            {
                // Reset the other slider.
                DeviationSlider.Value = 10;

                polyline = (Polyline) GeometryEngine.Densify(polyline, segmentLength);

                // Update the result label.
                ResultLabel.Text = string.Format("Operation: Densify, Segment length: {0:f}", segmentLength);
            }

            // Update the graphic geometries to show the results.
            _resultPolylineGraphic.Geometry = polyline;
            _resultPointGraphic.Geometry = new Multipoint(polyline.Parts.SelectMany(m => m.Points));
        }

        private static PointCollection CreateShipPoints()
        {
            return new PointCollection(SpatialReference.Create(32126))
            {
                new MapPoint(2330611.130549, 202360.002957, 0.000000),
                new MapPoint(2330583.834672, 202525.984012, 0.000000),
                new MapPoint(2330574.164902, 202691.488009, 0.000000),
                new MapPoint(2330689.292623, 203170.045888, 0.000000),
                new MapPoint(2330696.773344, 203317.495798, 0.000000),
                new MapPoint(2330691.419723, 203380.917080, 0.000000),
                new MapPoint(2330435.065296, 203816.662457, 0.000000),
                new MapPoint(2330369.500800, 204329.861789, 0.000000),
                new MapPoint(2330400.929891, 204712.129673, 0.000000),
                new MapPoint(2330484.300447, 204927.797132, 0.000000),
                new MapPoint(2330514.469919, 205000.792463, 0.000000),
                new MapPoint(2330638.099138, 205271.601116, 0.000000),
                new MapPoint(2330725.315888, 205631.231308, 0.000000),
                new MapPoint(2330755.640702, 206433.354860, 0.000000),
                new MapPoint(2330680.644719, 206660.240923, 0.000000),
                new MapPoint(2330386.957926, 207340.947204, 0.000000),
                new MapPoint(2330485.861737, 207742.298501, 0.000000)
            };
        }
    }
}
XAML
<UserControl x:Class="ArcGISRuntime.WPF.Samples.DensifyAndGeneralize.DensifyAndGeneralize"
             xmlns="http://schemas.microsoft.com/winfx/2006/xaml/presentation"
             xmlns:x="http://schemas.microsoft.com/winfx/2006/xaml"
             xmlns:esri="http://schemas.esri.com/arcgis/runtime/2013">
    <Grid>
        <esri:MapView x:Name="MyMapView" />
        <Border Style="{StaticResource BorderStyle}">
            <Grid>
                <Grid.RowDefinitions>
                    <RowDefinition Height="Auto" />
                    <RowDefinition Height="Auto" />
                    <RowDefinition Height="Auto" />
                    <RowDefinition Height="Auto" />
                    <RowDefinition Height="Auto" />
                    <RowDefinition Height="Auto" />
                </Grid.RowDefinitions>
                <TextBlock Text="Adjust the sliders to see the resulting generalized or densified polyline."
                           Grid.Row="0" Margin="0,0,0,15"
                           TextWrapping="Wrap" FontWeight="Bold" />
                <TextBlock Text="Max. Deviation (Generalize)"
                           Grid.Row="1"
                           FontWeight="SemiBold" />
                <Slider x:Name="DeviationSlider"
                        Grid.Row="2" Margin="0,5,0,0"
                        Value="10" Minimum="1" Maximum="250" />
                <TextBlock Text="Max. Segment length (Densify)"
                           Grid.Row="3"
                           FontWeight="SemiBold" />
                <Slider x:Name="SegmentLengthSlider"
                        Grid.Row="4" Margin="0,5,0,5"
                        Value="100" Minimum="100" Maximum="500" />
                <TextBlock x:Name="ResultLabel"
                           Grid.Row="5"
                           Text="Adjust a slider to start"
                           TextWrapping="Wrap" FontWeight="SemiBold" Foreground="Blue" />
            </Grid>
        </Border>
    </Grid>
</UserControl>
See Also
Additional Examples
Hyperlink to ExampleDescription
DensifyAndGeneralizeA multipart geometry can be densified by adding interpolated points at regular intervals. Generalizing multipart geometry simplifies it while preserving its general shape. Densifying a multipart geometry adds more vertices at regular intervals.