Position graphics relative to a surface using different surface placement modes.
Use case
Depending on the use case, data might be displayed at an absolute height (e.g. flight data recorded with altitude information), at a relative height to the terrain (e.g. transmission lines positioned relative to the ground), at a relative height to objects in the scene (e.g. extruded polygons, integrated mesh scene layer), or draped directly onto the terrain (e.g. location markers, area boundaries).
How to use the sample
The application loads a scene showing four points that use individual surface placement modes (Absolute, Relative, Relative to Scene, and either Draped Billboarded or Draped Flat). Use the toggle to change the draped mode and the slider to dynamically adjust the Z value of the graphics. Explore the scene by zooming in/out and by panning around to observe the effects of the surface placement rules.
How it works
- Create a
GraphicsOverlay
for each placement mode, settingSceneProperties.SurfacePlacement
:Absolute
, position graphic using only its Z value.Relative
, position graphic using its Z value plus the elevation of the surface.DrapedBillboarded
, position graphic upright on the surface and always facing the camera, not using its z value.DrapedFlat
, position graphic flat on the surface, not using its z value.RelativeToScene
, position graphic using its Z value plus the altitude values of the scene.
- Add graphics to the graphics overlay,
GraphicsOverlayGraphics.Add(Graphic)
. - Add each graphics overlay to the scene view by calling
SceneView.GraphicsOverlays.Add(overlay)
.
Relevant API
- Graphic
- GraphicsOverlay
- SceneProperties
- SceneProperties.SurfacePlacement
- Surface
About the data
The scene launches with a view of Brest, France. Four points are shown hovering with positions defined by each of the different surface placement modes.
Additional information
This sample uses an elevation service to add elevation/terrain to the scene. Graphics are positioned relative to that surface for the DrapedBillboarded
, DrapedFlat
, and Relative
surface placement modes. It also uses a scene layer containing 3D models of buildings. Graphics are positioned relative to that scene layer for the RelativeToScene
surface placement mode.
Tags
3D, absolute, altitude, draped, elevation, floating, relative, scenes, sea level, surface placement
Sample Code
// Copyright 2022 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 Color = System.Drawing.Color;
namespace ArcGIS.Samples.SurfacePlacements
{
[ArcGIS.Samples.Shared.Attributes.Sample(
name: "Surface placement",
category: "GraphicsOverlay",
description: "Position graphics relative to a surface using different surface placement modes.",
instructions: "The application loads a scene showing four points that use individual surface placement modes (Absolute, Relative, Relative to Scene, and either Draped Billboarded or Draped Flat). Use the toggle to change the draped mode and the slider to dynamically adjust the Z value of the graphics. Explore the scene by zooming in/out and by panning around to observe the effects of the surface placement rules.",
tags: new[] { "3D", "absolute", "altitude", "draped", "elevation", "floating", "relative", "scenes", "sea level", "surface placement" })]
public partial class SurfacePlacements : ContentPage
{
private GraphicsOverlay _drapedBillboardedOverlay;
private GraphicsOverlay _drapedFlatOverlay;
public SurfacePlacements()
{
InitializeComponent();
Initialize();
}
private void Initialize()
{
// Create new Scene.
Scene myScene = new Scene
{
// Set the Scene's basemap property.
Basemap = new Basemap(BasemapStyle.ArcGISImageryStandard)
};
// Create a camera with coordinates showing layer data.
Camera camera = new Camera(48.389124348393182, -4.4595173327138591, 140, 322, 74, 0);
// Assign the Scene to the SceneView.
MySceneView.Scene = myScene;
// Create ElevationSource from elevation data Uri.
ArcGISTiledElevationSource elevationSource = new ArcGISTiledElevationSource(
new Uri("https://elevation3d.arcgis.com/arcgis/rest/services/WorldElevation3D/Terrain3D/ImageServer"));
// Create scene layer from the Brest, France scene server.
var sceneLayer = new ArcGISSceneLayer(new Uri("https://tiles.arcgis.com/tiles/P3ePLMYs2RVChkJx/arcgis/rest/services/Buildings_Brest/SceneServer"));
MySceneView.Scene.OperationalLayers.Add(sceneLayer);
// Add elevationSource to BaseSurface's ElevationSources.
MySceneView.Scene.BaseSurface.ElevationSources.Add(elevationSource);
// Set view point of scene view using camera.
MySceneView.SetViewpointCameraAsync(camera);
// Create overlays with elevation modes.
_drapedBillboardedOverlay = new GraphicsOverlay();
_drapedBillboardedOverlay.SceneProperties.SurfacePlacement = SurfacePlacement.DrapedBillboarded;
MySceneView.GraphicsOverlays.Add(_drapedBillboardedOverlay);
_drapedFlatOverlay = new GraphicsOverlay();
_drapedFlatOverlay.SceneProperties.SurfacePlacement = SurfacePlacement.DrapedFlat;
GraphicsOverlay relativeToSceneOverlay = new GraphicsOverlay();
relativeToSceneOverlay.SceneProperties.SurfacePlacement = SurfacePlacement.RelativeToScene;
MySceneView.GraphicsOverlays.Add(relativeToSceneOverlay);
GraphicsOverlay relativeToSurfaceOverlay = new GraphicsOverlay();
relativeToSurfaceOverlay.SceneProperties.SurfacePlacement = SurfacePlacement.Relative;
MySceneView.GraphicsOverlays.Add(relativeToSurfaceOverlay);
GraphicsOverlay absoluteOverlay = new GraphicsOverlay();
absoluteOverlay.SceneProperties.SurfacePlacement = SurfacePlacement.Absolute;
MySceneView.GraphicsOverlays.Add(absoluteOverlay);
// Create point for graphic location.
MapPoint sceneRelatedPoint = new MapPoint(-4.4610562, 48.3902727, 70, camera.Location.SpatialReference);
MapPoint surfaceRelatedPoint = new MapPoint(-4.4609257, 48.3903965, 70, camera.Location.SpatialReference);
// Create a red triangle symbol.
var triangleSymbol = new SimpleMarkerSymbol(SimpleMarkerSymbolStyle.Triangle, Color.FromArgb(255, 255, 0, 0), 10);
// Create a text symbol for each elevation mode.
TextSymbol drapedBillboardedText = new TextSymbol("DRAPED BILLBOARDED", Color.FromArgb(255, 0, 0, 255), 10,
Esri.ArcGISRuntime.Symbology.HorizontalAlignment.Center,
Esri.ArcGISRuntime.Symbology.VerticalAlignment.Middle);
drapedBillboardedText.OffsetY += 20;
TextSymbol drapedFlatText = new TextSymbol("DRAPED FLAT", Color.FromArgb(255, 0, 0, 255), 10,
Esri.ArcGISRuntime.Symbology.HorizontalAlignment.Center,
Esri.ArcGISRuntime.Symbology.VerticalAlignment.Middle);
drapedFlatText.OffsetY += 20;
TextSymbol relativeToSurfaceText = new TextSymbol("RELATIVE TO SURFACE", Color.FromArgb(255, 0, 0, 255), 10,
Esri.ArcGISRuntime.Symbology.HorizontalAlignment.Center,
Esri.ArcGISRuntime.Symbology.VerticalAlignment.Middle);
relativeToSurfaceText.OffsetY += 20;
TextSymbol relativeToSceneText = new TextSymbol("RELATIVE TO SCENE", Color.FromArgb(255, 0, 0, 255), 10,
Esri.ArcGISRuntime.Symbology.HorizontalAlignment.Center,
Esri.ArcGISRuntime.Symbology.VerticalAlignment.Middle);
relativeToSceneText.OffsetY -= 20;
TextSymbol absoluteText = new TextSymbol("ABSOLUTE", Color.FromArgb(255, 0, 0, 255), 10,
Esri.ArcGISRuntime.Symbology.HorizontalAlignment.Center,
Esri.ArcGISRuntime.Symbology.VerticalAlignment.Middle);
absoluteText.OffsetY += 20;
// Add the point graphic and text graphic to the corresponding graphics overlay.
_drapedBillboardedOverlay.Graphics.Add(new Graphic(surfaceRelatedPoint, triangleSymbol));
_drapedBillboardedOverlay.Graphics.Add(new Graphic(surfaceRelatedPoint, drapedBillboardedText));
_drapedFlatOverlay.Graphics.Add(new Graphic(surfaceRelatedPoint, triangleSymbol));
_drapedFlatOverlay.Graphics.Add(new Graphic(surfaceRelatedPoint, drapedFlatText));
relativeToSceneOverlay.Graphics.Add(new Graphic(sceneRelatedPoint, triangleSymbol));
relativeToSceneOverlay.Graphics.Add(new Graphic(sceneRelatedPoint, relativeToSceneText));
relativeToSurfaceOverlay.Graphics.Add(new Graphic(surfaceRelatedPoint, triangleSymbol));
relativeToSurfaceOverlay.Graphics.Add(new Graphic(surfaceRelatedPoint, relativeToSurfaceText));
absoluteOverlay.Graphics.Add(new Graphic(surfaceRelatedPoint, triangleSymbol));
absoluteOverlay.Graphics.Add(new Graphic(surfaceRelatedPoint, absoluteText));
}
private void BillboardedClicked(object sender, EventArgs e)
{
MySceneView.GraphicsOverlays.Remove(_drapedFlatOverlay);
MySceneView.GraphicsOverlays.Add(_drapedBillboardedOverlay);
BillboardedButton.IsEnabled = false;
FlatButton.IsEnabled = true;
}
private void FlatClicked(object sender, EventArgs e)
{
MySceneView.GraphicsOverlays.Remove(_drapedBillboardedOverlay);
MySceneView.GraphicsOverlays.Add(_drapedFlatOverlay);
BillboardedButton.IsEnabled = true;
FlatButton.IsEnabled = false;
}
private void ZSlider_ValueChanged(object sender, ValueChangedEventArgs e)
{
// Ensure that the SceneView has loaded.
if (MySceneView == null) return;
foreach (GraphicsOverlay overlay in MySceneView.GraphicsOverlays)
{
foreach (Graphic graphic in overlay.Graphics)
{
graphic.Geometry = GeometryEngine.SetZ(graphic.Geometry, e.NewValue);
}
}
// Update Z value in the UI.
ValueLabel.Text = $"Z Value: {(int)e.NewValue} meters";
}
}
}