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# Real Time Chat With NodeJS, Socket.io and ExpressJS

NodeJS gives me the ability to write back-end code in one of my favorite languages: JavaScript. It's the perfect technology for building real time applications. In this tutorial, I'll show you how to build a web chat application, using ExpressJS and Socket.io.

By the way, if you want to find a ready-made chat solution using Node.js, have a look at Yahoo! Messenger node.JS BOT on Envato Market.

## Setup Environment

Of course, the first thing to do is get NodeJS installed on your system. If you are a Windows or Mac user, you can visit nodejs.org and download the installer. If you instead prefer Linux, I'd suggest that you refer to this link. Although I won't go into further details on this, if you encounter any installation issues, I'm happy to help; just leave a comment below this post.

Once you have NodeJS installed, you're ready to setup the needed instruments.

1. ExpressJS - this will manage the server and the response to the user
3. Socket.io - allows for real time communication between the front-end and back-end

Continuing on, within an empty directory, create a package.json file with the following content.

By using the console (under Windows - command prompt), navigate to your folder and execute:

Within a few seconds, you'll have all the necessary dependencies downloaded to the node_modules directory.

## Developing the Backend

Let's begin with a simple server, which will deliver the application's HTML page, and then continue with the more interesting bits: the real time communication. Create an index.js file with the following core expressjs code:

Above, we've created an application and defined its port. Next, we registered a route, which, in this case, is a simple GET request without any parameters. For now, the route's handler simply sends some text to the client. Finally, of course, at the bottom, we run the server. To initialize the application, from the console, execute:

The server is running, so you should be able to open http://127.0.0.1:3700/ and see:

Now, instead of "It works" we should serve HTML. Instead of pure HTML, it can be beneficial to use a template engine. Jade is an excellent choice, which has good integration with ExpressJS. This is what I typically use in my own projects. Create a directory, called tpl, and put the following page.jade file within it:

The Jade's syntax is not so complex, but, for a full guide, I suggest that you refer to jade-lang.com. In order to use Jade with ExpressJS, we require the following settings.

This code informs Express where your template files are, and which template engine to use. It all specifies the function that will process the template's code. Once everything is setup, we can use the .render method of the response object, and simply send our Jade code to the user.

The output isn't special at this point; nothing more than a div element (the one with id content), which will be used as a holder for the chat messages and two controls (input field and button), which we will use to send the message.

Because we will use an external JavaScript file that will hold the front-end logic, we need to inform ExpressJS where to look for such resources. Create an empty directory, public, and add the following line before the call to the .listen method.

So far so good; we have a server that successfully responds to GET requests. Now, it's time to add Socket.io integration. Change this line:

to:

Above, we passed the ExpressJS server to Socket.io. In effect, our real time communication will still happen on the same port.

Moving forward, we need to write the code that will receive a message from the client, and send it to all the others. Every Socket.io application begins with a connection handler. We should have one:

The object, socket, which is passed to your handler, is actually the socket of the client. Think about it as a junction between your server and the user's browser. Upon a successful connection, we send a welcome type of message, and, of course, bind another handler that will be used as a receiver. As a result, the client should emit a message with the name, send, which we will catch. Following that, we simply forward the data sent by the user to all other sockets with io.sockets.emit.

With the code above, our back-end is ready to receive and send messages to the clients. Let's add some front-end code.

## Developing the Front-end

Create chat.js, and place it within the public directory of your application. Paste the following code:

Our logic is wrapped in a .onload handler just to ensure that all the markup and external JavaScript is fully loaded. In the next few lines, we create an array, which will store all the messages, a socket object, and few shortcuts to our DOM elements. Again, similar to the back-end, we bind a function, which will react to the socket's activity. In our case, this is an event, named message. When such an event occurs, we expect to receive an object, data, with the property, message. Add that message to our storage and update the content div. We've also included the logic for sending the message. It's quite simple, simply emitting a message with the name, send.

If you open http://localhost:3700, you will encounter some errors popup. That's because we need to update page.jade to contain the necessary JavaScript files.

We can again run our server with node index.js in the console and open http://localhost:3700. You should see the welcome message. Of course, if you send something, it should be shown in the content's div. If you want to be sure that it works, open a new tab (or, better, a new browser) and load the application. The great thing about Socket.io is that it works even if you stop the NodeJS server. The front-end will continue to work. Once the server is booted up again, your chat will be fine too.

In its current state, our chat is not perfect, and requires some improvements.

## Improvements

The first change that we need to make is to the identity of the messages. Currently, it's not clear which messages is sent by whom. The good thing is that we don't have to update our NodeJS code to achieve this. That's because the server simply forwards the data object. So, we need to add a new property there, and read it later. Before making corrections to chat.js, let's add a new input field, where the user may add his/her name. Within page.jade, change the controls div:

Next, in code.js:

To summarize the changes, we've:

1. Added a new shortcut for the username's input field
2. Updated the presentation of the messages a bit
3. Appended a new username property to the object, which is sent to the server

If the the number of messages becomes too high, the user will need to scroll the div:

Keep in mind that the above solution will likely not work in IE7 and below, but that's okay: it's time for IE7 to fade away. However, if you want to ensure support, feel free to use jQuery:

It would also be nice if the input field is cleared after sending the message:

The final boring problem is the clicking of the send button each time. With a touch of jQuery, we can listen for when the user presses the Enter key.

The function, sendMessage, could be registered, like so:

Please note that this isn't a best practice, as it is registered as a global function. But, for our little test here, it'll be fine.

## Conclusion

NodeJS is an extremely useful technology, and provides us with a great deal of power and joy, especially when considering the fact that we can write pure JavaScript. As you can see, with only a few lines of code, we managed to write a fully functional real time chat application. Pretty neat!