This tutorial shows you how to:
Before you begin, if you are new to the ArcGIS API for JavaScript, please read our Setting up a Development Environment topic which covers prerequisites such as setting up a web server and using various IDEs and text editors.
This tutorial shows how to use modules from the ArcGIS API for JavaScript using Asynchronous Module Definition (AMD). For more information on AMD, refer to the following:
The main difference between AMD and legacy code is how modules are loaded (require()
vs. dojo.require()
) and how classes from modules are referenced (globals are used in legacy code while AMD style code uses local variables). For the nostalgic, the non-AMD version of this tutorial is still available.
First, set up a basic HTML document. Here's an example:
<!DOCTYPE html> <html> <head> <meta http-equiv="Content-Type" content="text/html; charset=utf-8"> <meta name="viewport" content="initial-scale=1, maximum-scale=1, user-scalable=no"> <title></title> </head> </html>
To begin working with the ArcGIS API for JavaScript, add the following script and link tags inside the <head>
tag:
<link rel="stylesheet" href="https://js.arcgis.com/3.46/esri/css/esri.css"> <script src="https://js.arcgis.com/3.46/"></script>
The script tag loads the ArcGIS API for JavaScript. When new versions of the JavaScript API are released, update the version number to match the newly released version of the API.
The esri.css style sheet contains styles specific to Esri widgets and components. For more information about this stylesheet, refer to the help topic on required CSS.
Optionally, include one of the style sheets for a Dojo Dijit theme. There are four themes available: claro, tundra, soria and nihilo. Tundra and claro are used frequently in the API samples. Experiment with different themes and see which you prefer. Again, using a Dojo Dijit theme is optional but doing so is an easy way to get a consistent look and feel to widgets included in the API. The URLs for the various theme style sheets are as follows:
https://js.arcgis.com/3.46/dijit/themes/claro/claro.css
https://js.arcgis.com/3.46/dijit/themes/tundra/tundra.css
https://js.arcgis.com/3.46/dijit/themes/nihilo/nihilo.css
https://js.arcgis.com/3.46/dijit/themes/soria/soria.css
Use a second <script>
to load specific modules from the API. Instead of having this script tag reference a URL, JavaScript code will be added directly inside of it.
<script> require(["esri/map"], function(Map) { ... }); </script>
One thing to note about the code in this step is that the argument(s) to the function inside of require() can be anything you like. For consistency, we've published a list of preferred argument aliases for Esri modules. We recommend following that list when naming arguments passed to the require callback function. Dojo also does the same with their list of preferred argument aliases.
Putting JavaScript inside a script tag is useful when building simple pages or experimenting but not suitable for larger applications. When building a larger application, all JavaScript should be in separate .js files.
The global require()
function (provided by Dojo) is used to load modules. Esri's JavaScript API is built on top of Dojo and relies on Dojo for its module system and other features like vector graphics and localization as well as a way to abstract away browser differences. For more information on the relationship between Dojo and the JavaScript API, see Working with Dojo and Why Dojo.
A new map is created using Map
, which is a reference to the Map class that was loaded from the esri/map
module. The string passed to Map
, "map", is the id of the div element that will contain the map. An object to specify other map properties, such as basemap and starting center point and zoom level, is also passed to the Map constructor.
var map; require(["esri/map"], function(Map) { map = new Map("map", { basemap: "topo-vector", center: [-122.45, 37.75], zoom: 13 }); });
Additional basemap options are listed in the esri/basemaps object documentation. Use alternate basemaps by modifying the basemap option in the sandbox.
Because the map variable is declared outside of a function, it is a global variable. This is useful while testing/debugging because the browser's developer console can be used to interact with the map.
Now that the JavaScript to create a map is in place, the next step is to add the associated HTML. For this example, the HTML is very simple: a body tag, which defines what is visible in the browser, and a single div element inside the body where the map will be created.
<body class="claro"> <div id="map"></div> </body>
The div has an id of "map" to match the id that is passed to the map constructor. The body tag has a class attribute of "claro". This is used to apply styles from claro style sheet included in the head tag of the page to elements (widgets) in the page. If using a different theme, like tundra, use class="tundra"
.
For this tutorial, the map fills the browser window. To achieve this, add the following css inside the page's <head>
tag:
<style> html, body, #map { height: 100%; padding: 0; margin: 0; } </style>