How to use CesiumJS to visualize data from a Session
This page contains code to build up a Cesium viewer using Tygron web-enpoints. For the complete code, see CesiumJS complete code.
If you are intereseted in all web enpoints of a session, see this how-to.
Constants
The following constants are used by multiple services and are therefore defind on top:
// variables const dim = 128; const minLevel = 6; const maxLevel = 19; const tilepx = 512; const TOKEN = "XXX"; // IMPORTANT: Place here the project session token between the "" const BGCOLOR = "1f1f00"; // ff0000 is red, hexadecimal color const SHADOW = true; //true ,false const BASEMAP_INDEX = 0; // SATELLITE=0, TOPOGRAPHIC=1 and GRAY=2. const STYLE = "COLORED"; // WHITE, COLORED const SPACING = 10; const TEXTURE = "MEDIUM"; // SMALL, MEDIUM , LARGE const FEATURE_ID = "ID"; const BASEURL = "https://engine.tygron.com/web/";
It is important to replace the XXX with your sessions web token. Optionally adjust the BASEURL when your domain is hosted on a different server.
Heightmap
Most of the time you want to use the heightmap of your project's session, instead of the default digital elevation height that Cesium provides. Use this code for a custom heightmap provider.
// Construct the default list of terrain sources. var terrainModels = []; terrainModels.push(new Cesium.ProviderViewModel({ name: "Project Terrain", category: "Terrain", tooltip: "", iconUrl: Cesium.buildModuleUrl('Widgets/Images/TerrainProviders/Ellipsoid.png'), creationFunction: function () { return new Cesium.CustomHeightmapTerrainProvider({ width: dim, height: dim, maximumLevel: maxLevel, callback: function (x, y, level) { if (level <= 10) { // ignore zoom levels 10 and lower return new Float32Array(dim * dim); // all zeros } const test = Cesium.Resource.fetchArrayBuffer(BASEURL+'terrain/' + level + '/' + x + '/' + y + '.bin?worlddatum=true&token='+TOKEN+'&width=' + dim + '&height=' + dim); return test.then(function (buffer) { const array = new Float32Array(dim * dim); // all zeros const view = new DataView(buffer); for (let i = 0; i < dim * dim; i++) { array[i] = view.getFloat32(i * 4); } return array; }); }, }); } }));
Base Map WMS
You can use the following code to add and access your project's WMS. Additionally, you can provide the optional layer parameter: SATELLITE, TOPOGRAPHIC or GRAY.
var imageryViewModels = []; const baseMaps = ["SATELLITE", "TOPOGRAPHIC", "GRAY"]; for (let i = 0; i < baseMaps.length; i++) { imageryViewModels.push(new Cesium.ProviderViewModel({ name: baseMaps[i], category: "Base Map", tooltip: "", iconUrl: Cesium.buildModuleUrl('Widgets/Images/TerrainProviders/Ellipsoid.png'), creationFunction: function () { return new Cesium.WebMapServiceImageryProvider({ url: BASEURL+'wms', layers: baseMaps[i], maximumLevel: maxLevel, tileHeight: tilepx, tileWidth: tilepx, getFeatureInfoFormats: [new Cesium.GetFeatureInfoFormat("json", "application/json")], proxy: new Cesium.DefaultProxy('/proxy/'), parameters: { crs: "4326", forcexy: "true", bgcolor: BGCOLOR, walled: "false", token: TOKEN }, getFeatureInfoParameters: { crs: "4326", forcexy: "true", token: TOKEN, }, }); } })); }
Viewer initialization
The Cesium viewer is initialized as followed:
// Construct the viewer, with a high-res terrain source pre-selected. var viewer = new Cesium.Viewer('cesiumContainer', { terrainProviderViewModels: terrainModels, selectedTerrainProviderViewModel: terrainModels[0], imageryProviderViewModels: imageryViewModels, selectedImageryProviderViewModel: imageryViewModels[BASEMAP_INDEX], animation: false, timeline: false, homeButton: false, navigationHelpButton: false, navigationInstructionsInitiallyVisible: false, fullscreenButton: false, shadows: SHADOW, });
3D Tileset
A 3D tileset can be added by activating an asynchronous function and awaiting the tileset call:
const start = async function () { tileset = await Cesium.Cesium3DTileset.fromUrl('3dtiles/tileset.json?token=$TOKEN&style=$STYLE&spacing=$SPACING&texture=$TEXTURE'); viewer.scene.primitives.add(tileset); }
Fly camera to Tileset
Once loaded, the camera can fly to the tileset by adding this after the tileset has been added to the scene (but before the end bracket of the start function)
boundingSphere = tileset.root.boundingVolume._boundingSphere viewer.camera.viewBoundingSphere(tileset.root.boundingVolume._boundingSphere); viewer.camera.flyToBoundingSphere(tileset.root.boundingVolume._boundingSphere);
Updating the Tileset
A tileset can be updated with the following code
var tileseturl = new Cesium.Resource({ url: "3dtiles/tileset.json", queryParameters: { token: "$TOKEN" } }); tileseturl.fetchJson().then(data => { if (tilesetversion == null) { tilesetversion = data.asset.tilesetVersion; } else if (data.asset.tilesetVersion > tilesetversion) { tilesetversion = data.asset.tilesetVersion; var tilerequest = Cesium.Cesium3DTileset.fromUrl('3dtiles/tileset.json?token=$TOKEN&style=$STYLE&spacing=$SPACING&texture=$TEXTURE'); tilerequest.then((newtileset) => { viewer.scene.primitives.add(newtileset); tileset.show = false; viewer.scene.primitives.remove(tileset); tileset = newtileset; }); } });
Overlays
Overlays are also provided by a project's WMS. The code below allows you to add overlays to the Cesium viewer. Overlay layer is a variable that stores the current overlay layer, such that it can also be destroyed when it should no longer be visible. Parameters "minLevel", "maxLevel" and "tilepx" are defined above in Heightmap.
/* Overlay Variables */ var overlayLayer = null; const activateOverlay = function(overlayID, timeframe, difference){ const provider = new Cesium.WebMapServiceImageryProvider({ url: BASEURL+'wms', layers: overlayID, maximumLevel: maxLevel, tileHeight: tilepx, tileWidth: tilepx, proxy: new Cesium.DefaultProxy('/proxy/'), parameters: { crs: "4326", forcexy: "true", token: TOKEN, timeframe: timeframe, styles: difference ? "DIFFERENCE" : "", }, getFeatureInfoParameters: { crs: "4326", forcexy: "true", token: TOKEN, timeframe: timeframe, styles: difference ? "DIFFERENCE" : "", } }); viewer.imageryLayers.remove(overlayLayer); var newOverlayLayer = new Cesium.ImageryLayer(provider, { minimumTerrainLevel: minLevel }); viewer.imageryLayers.add(newOverlayLayer); if (overlayLayer !== null) { overlayLayer.destroy(); } overlayLayer = newOverlayLayer; };
To activate any overlay, add the following code to the start function:
activateOverlay(1, 0, false);
Net lines
NetLines can be added with Cesium PolyLine Collections. A custom material gives the lines an animation. The lines are obtained using the "lines.geojson" endpoint.
/* Net Lines */ var mainLines = new Cesium.PolylineCollection(); var netLines = new Cesium.PolylineCollection(); const netlinesHeight = 120; const netlinesOffset = 50; const materialSource = ` uniform vec4 color; uniform float lengthfactor; czm_material czm_getMaterial(czm_materialInput materialInput) { czm_material material = czm_getDefaultMaterial(materialInput); float time = czm_frameNumber / 20.0; float v = fract(time + materialInput.s * lengthfactor) < 0.2 ? 0.0 :1.0; material.diffuse = color.rgb * v; material.alpha = 1.0; return material; } `; function updateAndGet(lines, result){ if (lines) { viewer.scene.primitives.remove(lines); } lines = new Cesium.PolylineCollection(); updateLines(lines, result); viewer.scene.primitives.add(lines); return lines; } async function updateNetLines() { var result = await new Cesium.Resource({ url: BASEURL+ "lines.geojson", queryParameters: { token: TOKEN, maxlength: "10", crs: "4326", forcexy: "true" } }).fetchJson(); netLines = updateAndGet(netLines, result); } async function updateMainNetLines() { var result = await new Cesium.Resource({ url: BASEURL+"lines.geojson", queryParameters: { token: TOKEN, minlength: "10", crs: "4326", forcexy: "true" } }).fetchJson(); mainLines = updateAndGet(mainLines, result); } function updateLines(lines, data) { var netLines = data.features; var ellipsoid = viewer.scene.mapProjection.ellipsoid; for (i = 0; i < netLines.length; i++) { var l = netLines[i]; var longitude = l.geometry.coordinates[0][0]; var latitude = l.geometry.coordinates[0][1]; var height = l.geometry.coordinates[0][2] == null ? netlinesHeight : l.geometry.coordinates[0][2] + netlinesOffset; var longitude2 = l.geometry.coordinates[1][0]; var latitude2 = l.geometry.coordinates[1][1]; var height2 = l.geometry.coordinates[1][2] == null ? netlinesHeight : l.geometry.coordinates[1][2] + netlinesOffset; var lid = l.properties[FEATURE_ID]; var linecolor = Cesium.Color.YELLOW; if (l.properties['color'] != null) { linecolor = Cesium.Color.fromCssColorString(l.properties['color']); } var lwidth = Number(l.properties['width']); var lineLength = Number(l.properties['length']); lines.add({ positions: Cesium.Cartesian3.fromDegreesArrayHeights([longitude, latitude, height, longitude2, latitude2, height2]), width: lwidth, material: new Cesium.Material({ fabric: { type: "netline", uniforms: { color: linecolor, lengthfactor: lineLength/20.0, }, source: materialSource, } }) }); } }
Net lines as main and minor can be added to the viewer by calling the following functions in the asynchronous start function:
updateMainNetLines(); updateNetLines();
Neighborhood labels
Neighborhood labels can be obtained from the neighborhood geojson endpoint, and converting these to Cesium Entities with a longitude and latitude.
var neighborhoodUrl = new Cesium.Resource({ url: BASEURL+"neighborhoods.geojson", queryParameters: { token: TOKEN, crs: "4326", forcexy: "true", } }); var data = await neighborhoodUrl.fetchJson(); var labels = data.features; for (var i = 0; i < labels.length; ++i) { var p = labels[i]; var longitude = p.geometry.coordinates[0]; var latitude = p.geometry.coordinates[1]; var height = p.geometry.coordinates[2] == null ? 200 : p.geometry.coordinates[2] + 200; var id = p.properties[FEATURE_ID]; const entity = viewer.entities.add({ position: Cesium.Cartesian3.fromDegrees(longitude, latitude, height), label: { text: p.properties.name, font: "12pt arial", style: Cesium.LabelStyle.FILL_AND_OUTLINE, outlineWidth: 2, verticalOrigin: Cesium.VerticalOrigin.TOP, fillColor: Cesium.Color.WHITE, } }); }