Learn how to display geometries in different projections.
A geometry projection transforms the vertices of a geometric shape from one coordinate system (a spatial reference) to another. For example, you can project a geographic coordinate system such as WGS84 (4326) to a projected coordinate system such as World Sinusoidal (54008).
Each projection can maintain one of the following: area, angle, or direction. The projection you use is based on your application's requirements. For example, if you have data centered on the North Pole, the Web Mercator (3857) spatial reference is typically not used as the pole features are not correctly represented by the projection; there is a large area distortion. Instead, you might use the North Pole Gnomonic (102034) spatial reference because it preserves the area around the North Pole.
In this tutorial, you will project GeoJSON features using the projection engine and a spatial reference chosen from the selector. The map's center point and buffer graphic are also added to the map view.
Prerequisites ArcGIS Accounts:You need an ArcGIS Location Platform or ArcGIS Online account.
Steps Create a new penYou need an access token with the correct privileges to access the location services used in this tutorial.
esriConfig.apiKey to your access token.
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var esriConfig = {
apiKey: "YOUR_ACCESS_TOKEN",
};
To learn about other ways to get an access token, go to Types of authentication.
Add a Calcite select to change the spatial referenceIn CodePen > HTML, remove the component's basemap attribute and modify the Map's center and zoom attributes
Basemaps define the spatial reference of the Map. Removing the basemap attribute allows you to modify the spatial reference and observe the effect on the shape of the GeoJSON features.
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<body>
<arcgis-map center="-10, 30" scale="150000000">
<arcgis-zoom position="top-left"></arcgis-zoom>
</arcgis-map>
</body>
Add HTML to add an arcgis-placement with a calcite-select inside. The calcite-select component will be used to switch between spatial references.
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<body>
<arcgis-map center="-10, 30" scale="150000000">
<arcgis-zoom position="top-left"></arcgis-zoom>
<arcgis-placement position="top-right">
<div class="select-container">
<calcite-label>
Select a projection
<calcite-select id="wkid">
<calcite-option-group label="Equidistant (maintain length)">
<calcite-option value="4326" selected>
WGS84 (GCS) -> pseudo Plate Carrée (Cylindrical)
</calcite-option>
<calcite-option value="54028">World Cassini (Cylindrical)</calcite-option>
<calcite-option value="54027">World Equidistant conic (Conic)</calcite-option>
</calcite-option-group>
<calcite-option-group label="Conformal (maintain angles)">
<calcite-option value="54026">World Stereographic (Azimuthal)</calcite-option>
</calcite-option-group>
<calcite-option-group label="Equal-area (maintain area)">
<calcite-option value="54010">World Eckert VI (Pseudocylindrical)</calcite-option>
<calcite-option value="54008">World Sinusoidal (Pseudocylindrical)</calcite-option>
</calcite-option-group>
<calcite-option-group label="Gnomonic (distances)">
<calcite-option value="102034">North Pole Gnomonic (Azimuthal)</calcite-option>
</calcite-option-group>
<calcite-option-group label="Compromise (distort all)">
<calcite-option value="3857">
Web Mercator Auxiliary Sphere (Cylindrical)
</calcite-option>
<calcite-option value="54016">
World Gall Stereographic (Cylindrical)
</calcite-option>
<calcite-option value="54042">World Winkel Tripel (Pseudoazimuthal)</calcite-option>
<calcite-option value="54050">
World Fuller / Dymaxion map (Polyhedral)
</calcite-option>
</calcite-option-group>
</calcite-select>
</calcite-label>
</div>
</arcgis-placement>
</arcgis-map>
</body>
Within the <style> tags, apply some CSS styles for the div containing the calcite-select component.
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<style>
html,
body {
height: 100%;
margin: 0;
}
.select-container {
background-color: white;
border-radius: 5px;
padding: 10px;
width: 400px;
}
</style>
In a new <script> at the bottom of the <body>, use $arcgis.import() to add the modules we need.
The ArcGIS Maps SDK for JavaScript is available via CDN and npm, but this tutorial is based on CDN. The $arcgis.import global function accepts a module path or array of module paths, and returns a promise that resolves with the requested modules. This function can only be used when working with the CDN; otherwise, use the standard import syntax. To learn more about the SDK's different modules, visit the References page.
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<script type="module">
const [
Graphic,
Map,
Extent,
Geometry,
geodesicBufferOperator,
projectOperator,
Point,
SpatialReference,
GeoJSONLayer,
SimpleRenderer,
SimpleFillSymbol,
SimpleMarkerSymbol,
] = await $arcgis.import([
"@arcgis/core/Graphic.js",
"@arcgis/core/Map.js",
"@arcgis/core/geometry/Extent.js",
"@arcgis/core/geometry/Geometry.js",
"@arcgis/core/geometry/operators/geodesicBufferOperator.js",
"@arcgis/core/geometry/operators/projectOperator.js",
"@arcgis/core/geometry/Point.js",
"@arcgis/core/geometry/SpatialReference.js",
"@arcgis/core/layers/GeoJSONLayer.js",
"@arcgis/core/renderers/SimpleRenderer.js",
"@arcgis/core/symbols/SimpleFillSymbol.js",
"@arcgis/core/symbols/SimpleMarkerSymbol.js",
]);
</script>
Create the buffer and point symbols that will for graphics created in a later step.
Set polygon and point styling that will display when a point is buffered on the map.
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const bufferSymbol = new SimpleFillSymbol({
color: [150, 130, 220, 0.85],
outline: {
color: "gray",
width: 0.5,
},
});
const pointSymbol = new SimpleMarkerSymbol({
color: "red",
outline: {
color: "white",
width: 0.5,
},
size: 5,
});
To visualize the extent of the world for each spatial reference, create a new Graphic with a SimpleFillSymbol set to a gray dashed outline and a fully transparent fill. Set the geometry to to an Extent that covers the entire world with the spatialReference property to WGS84.
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const projectionBoundary = new Graphic({
symbol: new SimpleFillSymbol({
color: [0, 0, 0, 0],
outline: {
width: 0.5,
color: [50, 50, 50, 0.75],
style: "dash",
},
}),
geometry: new Extent({
xmin: -180,
xmax: 180,
ymin: -90,
ymax: 90,
spatialReference: SpatialReference.WGS84,
}),
});
Create a layer based on GeoJSON data with the GeoJSONLayer class. GeoJSON features are in the WGS84 geographic coordinate system. Once added to the map, the features are automatically projected to the match the spatial reference in the map view.
Create a countriesGeoJson element that instantiates the GeoJSONLayer class. Set the renderer to add a purple outline around the countries.
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const countriesGeoJSON = new GeoJSONLayer({
url: "https://services3.arcgis.com/GVgbJbqm8hXASVYi/ArcGIS/rest/services/World_Countries_(Generalized)/FeatureServer/0/query?where=1%3D1&outFields=*&f=geojson",
copyright: "Esri",
spatialReference: {
wkid: 4326,
},
renderer: new SimpleRenderer({
symbol: new SimpleFillSymbol({
color: [255, 255, 255, 1],
outline: {
width: 0.5,
color: [100, 70, 170, 0.75],
},
}),
}),
});
Get a reference to the arcgis-map component and set its spatialReference to 4326 (WGS84). Set the map property to a new Map. Add the countriesGeoJson layer to the layers property of the Map.
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const viewElement = document.querySelector("arcgis-map");
viewElement.spatialReference = new SpatialReference({
wkid: 4326,
});
viewElement.map = new Map({
layers: [countriesGeoJSON],
});
The default spatial reference for a GeoJSON layer is WGS84 (4326). Use the selector to switch between WGS84 and the other projections defined in the calcite-select.
Create a changeSpatialReference function that will change the spatial reference of the map based on the wkid that chosen from the calcite-select.
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function changeSpatialReference(wkid) {
const spatialReference = new SpatialReference({
wkid: Number(wkid),
});
viewElement.spatialReference = spatialReference;
}
Get a reference to the calcite-select element. Add an event listener to set the spatial reference and project the map's center point using the changeSpatialReference function.
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const wkidSelect = document.getElementById("wkid");
wkidSelect?.addEventListener("calciteSelectChange", () => {
changeSpatialReference(wkidSelect.value);
});
Run the app. Switch between spatial reference and observe how the shape of the layers change.
To visualize the effect of the reprojected maps's boundary and center point, add them as a graphics to the Map and display the point's x/y coordinates from the new spatial reference.
Create a displayCoordinates function with a point parameter. Define a popupTemplate to display the wkid, x, and y coordinates of the point.
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function displayCoordinates(point) {
const popupTemplate = {
title: `WKID: ${point.spatialReference.wkid}`,
content: `<b>X:</b> ${point.x.toFixed(5)} | <b>Y:</b> ${point.y.toFixed(5)}`,
overwriteActions: true,
};
}
Create a graphic. Set the geometry with the point and the popupTemplate with the popupTemplate defined in the previous step. Add the graphic to the view and call the openPopup method to display the popup when the application loads.
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function displayCoordinates(point) {
const popupTemplate = {
title: `WKID: ${point.spatialReference.wkid}`,
content: `<b>X:</b> ${point.x.toFixed(5)} | <b>Y:</b> ${point.y.toFixed(5)}`,
overwriteActions: true,
};
const graphic = new Graphic({
geometry: point,
popupTemplate: popupTemplate,
});
viewElement.graphics.removeAll();
viewElement.graphics.add(projectionBoundary);
viewElement.graphics.add(graphic);
viewElement.openPopup({
features: [graphic],
});
}
Update the changeSpatialReference function and add a arcgisViewReadyChange event listener to call the displayCoordinates function with the map's center point as its parameter.
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function changeSpatialReference(wkid) {
const spatialReference = new SpatialReference({
wkid: Number(wkid),
});
viewElement.spatialReference = spatialReference;
displayCoordinates(viewElement.center);
}
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viewElement.addEventListener("arcgisViewReadyChange", () => {
displayCoordinates(viewElement.center);
});
Run the app. Switch between spatial references to view the projected coordinates of the center of the map.
Each projection maintains the accuracy of one dimension, but creates inaccuracies in another. For example, you might be able to maintain area but not distance. To view the effects each spatial reference has on a circular shape, create a geodesic buffer where you move the mouse. The geodesicBuffer method only works in WGS84 (4326) and Web Mercator (3857) spatial references. To view the buffer in another spatial reference, you need to reproject the point first to either 4326 or 3857 and then call the geodesicBuffer method.
Create a bufferPoint function that takes the point as its parameter. If the point is in another spatial reference, then call the project operator and transform the coordinates into 4326 to create the buffer. If there is no point, then return.
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async function bufferPoint(point) {
if (!projectOperator.isLoaded()) {
await projectOperator.load();
}
const wkid = point.spatialReference.wkid;
if (wkid !== 4326 && wkid !== 3857) {
point = projectOperator.execute(point, new SpatialReference({ wkid: 4326 }));
if (!point) {
return;
}
}
}
}
Create a buffer graphic using the geodesicBuffer operator on the point. It will buffer the point with a radius of 1000 kilometers.
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async function bufferPoint(point) {
if (!projectOperator.isLoaded()) {
await projectOperator.load();
}
const wkid = point.spatialReference.wkid;
if (wkid !== 4326 && wkid !== 3857) {
point = projectOperator.execute(point, new SpatialReference({ wkid: 4326 }));
if (!point) {
return;
}
}
if (!geodesicBufferOperator.isLoaded()) {
await geodesicBufferOperator.load();
}
const buffer = geodesicBufferOperator.execute(point, 1000, {
unit: "kilometers",
});
}
}
Remove existing graphics from the view except for the map projection boundary and map's center point graphics.
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async function bufferPoint(point) {
if (!projectOperator.isLoaded()) {
await projectOperator.load();
}
const wkid = point.spatialReference.wkid;
if (wkid !== 4326 && wkid !== 3857) {
point = projectOperator.execute(point, new SpatialReference({ wkid: 4326 }));
if (!point) {
return;
}
}
if (!geodesicBufferOperator.isLoaded()) {
await geodesicBufferOperator.load();
}
const buffer = geodesicBufferOperator.execute(point, 1000, {
unit: "kilometers",
});
if (point && buffer) {
// Avoid removing the map projection boundary and the point graphic
viewElement.graphics = viewElement.graphics.slice(0, 2);
}
}
Create a bufferGraphic that takes the buffer as its geometry and the bufferSymbol for its symbol styling. Add the bufferGraphic, along with the point, created from moving the mouse, and its pointSymbol styling to the arcgis-map.
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async function bufferPoint(point) {
if (!projectOperator.isLoaded()) {
await projectOperator.load();
}
const wkid = point.spatialReference.wkid;
if (wkid !== 4326 && wkid !== 3857) {
point = projectOperator.execute(point, new SpatialReference({ wkid: 4326 }));
if (!point) {
return;
}
}
if (!geodesicBufferOperator.isLoaded()) {
await geodesicBufferOperator.load();
}
const buffer = geodesicBufferOperator.execute(point, 1000, {
unit: "kilometers",
});
if (point && buffer) {
// Avoid removing the map projection boundary and the point graphic
viewElement.graphics = viewElement.graphics.slice(0, 2);
const bufferGraphic = new Graphic({
geometry: buffer,
symbol: bufferSymbol,
});
viewElement.graphics.addMany([
bufferGraphic,
new Graphic({
geometry: point,
symbol: pointSymbol,
}),
]);
}
}
Create a createBuffer function that takes the event as its parameter. Define a point based on thex and y coordinates from the event. If there is a point, call the bufferPoint function.
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function createBuffer(event) {
const point = viewElement.view.toMap({
x: event.x,
y: event.y,
});
if (point) {
bufferPoint(point);
}
}
Create an event handler that will buffer a point based on the movement of the mouse.
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viewElement.addEventListener("arcgisViewReadyChange", () => {
displayCoordinates(viewElement.center);
});
viewElement.addEventListener("arcgisViewPointerMove", (event) => {
createBuffer(event.detail);
});
const wkidSelect = document.getElementById("wkid");
wkidSelect?.addEventListener("calciteSelectChange", () => {
changeSpatialReference(wkidSelect.value);
});
In CodePen, run your code to display the map.
When you run the app, you will see the map's center point and its coordinates. The features in the GeoJSON layer, as well as the geometries of the map's center point and buffer, are reprojected when you choose a new spatial reference. Move the mouse around the map to view the distortion for each spatial reference.
What's next?Learn how to use additional API features and ArcGIS services in these tutorials:
RetroSearch is an open source project built by @garambo | Open a GitHub Issue
Search and Browse the WWW like it's 1997 | Search results from DuckDuckGo
HTML:
3.2
| Encoding:
UTF-8
| Version:
0.7.4