This guide will teach you how to build a simple app using Ember from scratch.
We'll cover these steps:
- Installing Ember.
- Creating a new application.
- Defining a route.
- Writing a UI component.
- Building your app to be deployed to production.
Install Ember
You can install Ember with a single command using npm, the Node.js package manager. Type this into your terminal:
npm install -g ember-cli
Don't have npm? Learn how to install Node.js and npm here. For a full list of dependencies necessary for an Ember CLI project, consult our Installing Ember guide.
Create a New Application
Once you've installed Ember CLI via npm,
you will have access to a new ember
command in your terminal.
You can use the ember new
command to create a new application.
ember new ember-quickstart
This one command will create a new directory called ember-quickstart
and set up a new Ember application inside of it.
Out of the box, your application will include:
- A development server.
- Template compilation.
- JavaScript and CSS minification.
- ES2015 features via Babel.
By providing everything you need to build production-ready web applications in an integrated package, Ember makes starting new projects a breeze.
Let's make sure everything is working properly.
cd
into the application directory ember-quickstart
and start the development server by typing:
cd ember-quickstart
ember serve
After a few seconds, you should see output that looks like this:
Livereload server on http://localhost:7020
Serving on http://localhost:4200/
(To stop the server at any time, type Ctrl-C in your terminal.)
Open http://localhost:4200
in your browser of choice.
You should see an Ember welcome page and not much else.
Congratulations! You just created and booted your first Ember app.
We will start by editing the application
template.
This template is always on screen while the user has your application loaded.
In your editor, open app/templates/application.hbs
and change it to the following:
Ember detects the changed file and automatically reloads the page for you in the background.
You should see that the welcome page has been replaced by "PeopleTracker".
You also added an {{outlet}}
to this page,
which means that any nested route will be rendered in that place.
Define a Route
Let's build an application that shows a list of scientists. To do that, the first step is to create a route. For now, you can think of routes as being the different pages that make up your application.
Ember comes with generators that automate the boilerplate code for common tasks.
To generate a route, type this in a new terminal window in your ember-quickstart
directory:
ember generate route scientists
You'll see output like this:
installing route
create app/routes/scientists.js
create app/templates/scientists.hbs
updating router
add route scientists
installing route-test
create tests/unit/routes/scientists-test.js
That is Ember telling you that it has created:
- A template to be displayed when the user visits
/scientists
. - A
Route
object that fetches the model used by that template. - An entry in the application's router (located in
app/router.js
). - A unit test for this route.
Open the newly-created template in app/templates/scientists.hbs
and add the following HTML:
In your browser, open http://localhost:4200/scientists
.
You should see the <h2>
you put in the scientists.hbs
template,
right below the <h1>
from our application.hbs
template.
Now that we've got the scientists
template rendering,
let's give it some data to render.
We do that by specifying a model for that route,
and we can specify a model by editing app/routes/scientists.js
.
We'll take the code created for us by the generator and add a model()
method to the Route
:
import Route from '@ember/routing/route';
export default Route.extend({
model() {
return ['Marie Curie', 'Mae Jemison', 'Albert Hofmann'];
}
});
This code example uses the latest features in JavaScript, some of which you may not be familiar with. Learn more with this overview of the newest JavaScript features.
In a route's model()
method, you return whatever data you want to make available to the template.
If you need to fetch data asynchronously,
the model()
method supports any library that uses JavaScript Promises.
Now let's tell Ember how to turn that array of strings into HTML.
Open the scientists
template and add the following code to loop through the array and print it:
Here, we use the each
helper to loop over each item in the array we provided from the model()
hook and print it inside an <li>
element.
Create a UI Component
As your application grows, you will notice you are sharing UI elements between multiple pages, or using them multiple times on the same page. Ember makes it easy to refactor your templates into reusable components.
Let's create a people-list
component that we can use in multiple places to show a list of people.
As usual, there's a generator that makes this easy for us. Make a new component by typing:
ember generate component people-list
Copy and paste the scientists
template into the people-list
component's template and edit it to look as follows:
Note that we've changed the title from a hard-coded string ("List of Scientists") to a dynamic property ({{title}}
).
We've also renamed scientist
to the more-generic person
,
decreasing the coupling of our component to where it's used.
Save this template and switch back to the scientists
template.
Replace all our old code with our new componentized version.
We're going to tell our component:
- What title to use, via the
title
attribute. - What array of people to use, via the
people
attribute. We'll provide this route'smodel
as the list of people.
Go back to your browser and you should see that the UI looks identical. The only difference is that now we've componentized our list into a version that's more reusable and more maintainable.
You can see this in action if you create a new route that shows a different list of people.
As an exercise for the reader,
you may try to create a programmers
route that shows a list of famous programmers.
By re-using the people-list
component, you can do it in almost no code at all.
Click Events
So far, your application is listing data,
but there is no way for the user to interact with the information.
In web applications you often want to listen for user events like clicks or hovers.
Ember makes this easy to do.
First , add a <button>
with an action
helper to the li
in your people-list
component.
The action
helper allows you to add event listeners to elements and call named functions.
By default, the action
helper adds a click
event listener,
but it can be used to listen for any element event.
Now, when the li
element is clicked a showPerson
function will be called from the actions
object in the people-list
component.
Think of this like calling this.actions.showPerson(person)
from our template.
To handle this function call you need to modify the people-list
component file to add the function to be called.
In the component, add an actions
object with a showPerson
function that alerts the first argument.
import Component from '@ember/component';
export default Component.extend({
actions: {
showPerson(person) {
alert(person);
}
}
});
Now in the browser when a scientist's name is clicked, this function is called and the person's name is alerted.
Building For Production
Now that we've written our application and verified that it works in development, it's time to get it ready to deploy to our users.
To do so, run the following command:
ember build --env production
The build
command packages up all of the assets that make up your
application—JavaScript, templates, CSS, web fonts, images, and
more.
In this case, we told Ember to build for the production environment via the --env
flag.
This creates an optimized bundle that's ready to upload to your web host.
Once the build finishes,
you'll find all of the concatenated and minified assets in your application's dist/
directory.
The Ember community values collaboration and building common tools that everyone relies on. If you're interested in deploying your app to production in a fast and reliable way, check out the Ember CLI Deploy addon.
If you deploy your application to an Apache web server, first create a new virtual host for the application. To make sure all routes are handled by index.html, add the following directive to the application's virtual host configuration:
FallbackResource index.html