Node.js is a platform for building fast and scalable server applications using JavaScript. Node.js is the runtime and NPM is the Package Manager for Node.js modules.
VS Code has support for the JavaScript and TypeScript languages out-of-the-box as well as Node.js debugging. However, to run a Node.js application, you will need to install the Node.js runtime on your machine.
To get started in this walkthrough, install Node.js for your platform. The Node Package Manager is included in the Node.js distribution. You'll need to open a new terminal (command prompt) for the node
and npm
command line tools to be on your PATH.
Linux: There are specific Node.js packages available for the various flavors of Linux. See Installing Node.js via package manager to find the Node.js package and installation instructions tailored to your version of Linux.
Tip: To test that you've got Node.js correctly installed on your computer, type
node --help
from a terminal and you should see the usage documentation.
Hello World#
Let's get started by creating the simplest Node.js application, "Hello World".
Create an empty folder called "Hello", navigate into and open VS Code:
mkdir Hello
cd Hello
code .
Tip: You can open files or folders directly from the command line. The period '.' refers to the current folder, therefore VS Code will start and open the
Hello
folder.
From the File Explorer tool bar, press the New File button:
and name the file app.js
:
By using the .js
file extension, VS Code interprets this file as JavaScript and will evaluate the contents with the JavaScript language service.
Create a simple string variable in app.js
and send the contents of the string to the console:
var msg = 'hello world';
console.log(msg);
Note that when you typed console.
IntelliSense on the console
object was automatically presented to you. When editing JavaScript files, VS Code will automatically provide you with IntelliSense for the DOM.
Also notice that VS Code knows that msg
is a string based on the initialization to 'hello world'
. If you type msg.
you'll see IntelliSense showing all of the string functions available on msg
.
After experimenting with IntelliSense, revert any extra changes from the source code example above and save the file (Ctrl+S).
Running Hello World
It's simple to run app.js
with Node.js. From a terminal, just type:
node app.js
You should see "Hello World" output to the terminal and then Node.js returns.
Debugging Hello World
As mentioned in the introduction, VS Code comes with a Node.js debugger installed. Let's try debugging our simple application.
To set a breakpoint in app.js
, put the editor cursor on the first line and press F9 or simply click in the editor left gutter next to the line numbers. A red circle will appear in the gutter.
We now need to configure the debugger for this simple workspace. Select the Debug View in the Side Bar:
Click on the Configure gear icon at the top of the Debug view to create a default launch.json
configuration file and select Node.js as the Debug Environment. This configuration file lets you specify how to start the application, what arguments to pass in, the working directory, and more. The new launch.json
file is created in a VS Code specific .vscode
folder in root of your workspace.
With the default Node.js Launch configuration created, you can now click Debug tool bar green arrow or press F5 to launch and debug "Hello World". Your breakpoint will be hit and you can view and step through the simple application. Notice that VS Code displays an orange Status Bar to indicate it is in Debug mode and the DEBUG CONSOLE is displayed.
Now that you've seen VS Code in action with "Hello World", the next section shows using VS Code with a full-stack Node.js web app.
Express#
Express is a very popular application framework for building and running Node.js applications. You can scaffold (create) a new Express application using the Express Generator tool. The Express Generator is shipped as an NPM module and installed by using the NPM command line tool npm
.
Tip: To test that you've got
npm
correctly installed on your computer, typenpm --help
from a terminal and you should see the usage documentation.
Install the Express Generator by running the following from a terminal:
npm install -g express-generator
The -g
switch installs the Express Generator globally on your machine so you can run it from anywhere.
We can now scaffold a new Express application called myExpressApp
by running:
express myExpressApp
This creates a new folder called myExpressApp
with the contents of your application. To install all of the application's dependencies (again shipped as NPM modules), go to the new folder and execute npm install
:
cd myExpressApp
npm install
At this point, we should test that our application runs. The generated Express application has a package.json
file which includes a start
script to run node ./bin/www
. This will start the Node.js application running.
From a terminal in the Express application folder, run:
npm start
The Node.js web server will start and you can browse to http://localhost:3000
to see the running application.
Great Code Editing Experiences#
Close the browser and from a terminal in the myExpressApp
folder, stop the Node.js server by pressing CTRL+C.
Now launch VS Code:
code .
The Node.js and Express documentation does a great job explaining how to build rich applications using the platform and framework. Visual Studio Code will make you more productive developing these types of applications by providing great code editing and navigation experiences.
Earlier we saw the IntelliSense that the JavaScript language service can infer about your source code. Next we will see that with a little more setup and configuration, Visual Studio Code can provide even richer information and build support.
Adding a jsconfig.json Configuration File#
When VS Code detects that you are working on a JavaScript file, it looks to see if you have a JavaScript configuration file jsconfig.json
in your workspace. If it doesn't find one, you will see a green lightbulb on the Status Bar prompting you to create one.
Click the green lightbulb and accept the prompt to create a jsconfig.json
file:
If you do not have Auto Save on, save the file by pressing Ctrl+S.
The presence of this file lets VS Code know that it should treat all the files under this root as part of the same project. We'll see in the next section that this is important for extending IntelliSense by adding typings (Type Definition files) to your workspace. This configuration file also lets you specify settings such as compilerOptions
and which folders you'd like the JavaScript language service to exclude
(ignore). The default jsconfig.json
file we just created tells the JavaScript language service that you are writing ES6 compliant code and you want to ignore dependency and temporary content folders.
IntelliSense and Typings#
VS Code can use TypeScript definition files (for example node.d.ts
) to provide metadata to VS Code about the JavaScript based frameworks you are consuming in your application. Because TypeScript definition files are written in TypeScript, they can express the data types of parameters and functions, allowing VS Code to provide a rich IntelliSense experience.
Typings, the type definition manager for TypeScript, makes it easy to search for and install TypeScript definition files into your workspace. This tool can download the requested definitions from a variety of sources, including the DefinitelyTyped repository. As we did with the Express Generator, we will install the Typings command line tool globally using NPM so that you can use the tool in any application you create.
npm install -g typings
Tip: Typings has a number of options for configuring where and how definition files are downloaded. From the terminal, run
typings --help
for more information.
Go back to the file app.js
and notice that if you hover over the Node.js global object __dirname
, VS Code does not know the type and displays any
.
Now, using the Typings command line, pull down the Node.js and Express type definition files:
typings install dt~node --global
typings install dt~express dt~serve-static dt~express-serve-static-core --global
The dt~
prefix tells the Typings tool to search the DefinitelyTyped repository for the specified type definition files.
Tip: You can download multiple definition files by combining them on the command line, as you can see from the Express typings above. We need to install the typings for Express and also it's references.
Note: Don't worry if you see
typings INFO reference
messages during installation. The Typings tool is cleaning out unnecessary///
references in the downloaded typings files.
Notice how VS Code now understands what __dirname
is, based on the metadata from the node.d.ts
file. Even more exciting, you can get full IntelliSense against the Node.js framework. For example, you can require http
and get full IntelliSense against the http
class as you type in Visual Studio Code.
Note: Make sure you have a
jsconfig.json
file in your workspace root as described in the previous section so VS Code will pick up the installed typings files.
You can also write code that references modules in other files. For example, in app.js
we require the ./routes/index
module, which exports an Express.Router
class. If you bring up IntelliSense on routes
, you can see the shape of the Router
class.
Debugging your Express Application#
Just as we did earlier for "Hello World", you will need to create a debugger configuration file launch.json
for your Express application. Click on the Debug icon in the View Bar and then the Configure gear icon at the top of the Debug view to create a default launch.json
file. Again select the Node.js environment. When the file is first created, VS Code will look in package.json
for a start
script and will use that value as the program
(which in this case is ${workspaceRoot}/bin/www
) for the Launch configuration. A second Attach configuration is also created to show you how to attach to a running Node.js application.
Save the new file and make sure Launch is selected in the configuration dropdown at the top of the Debug view. Open app.js
and set a breakpoint near the top of the file where the Express app object is created by clicking in the gutter to the left of the line number. Press F5 to start debugging the application. VS Code will start the server in a new terminal and hit the breakpoint we set. From there you can inspect variables, create watches, and step through your code.
Node.js Extensions#
The community is continually developing more and more valuable extensions for Node.js. Here are some of the extensions we have found most useful.
- JavaScript (ES6) code snippets - Snippets for JavaScript in ES6 syntax.
- ESLint - Integrates ESLint into VS Code.
- JSHint - Integrates JSHint into VS Code.
- Add JSDoc comments - Adds JSDoc @param and @return tags for selected function signatures in JS and TS.
- Beautify - This extension enables running js-beautify in VS Code.
Here are some popular extensions from the Marketplace.
Tip: The extensions shown above are dynamically queried. Click on an extension tile above to read the description and reviews to decide which extension is best for you. See more in the Marketplace.
Next Steps#
There is much more to explore with Visual Studio Code, please try the following topics:
- Settings - Learn how to customize VS Code for how you like to work.
- Debugging - This is where VS Code really shines
- Editing Evolved - Lint, IntelliSense, Lightbulbs, Peek and Go to Definition and more
- Tasks - Running tasks with Gulp, Grunt and Jake. Showing Errors and Warnings
Common Questions#
Q: IntelliSense isn't working for Node.js and Express after I install their typings?
A: Be sure you have a jsconfig.json
file in the workspace root folder so that VS Code treats all files and folders as belonging to the same project context. Without a jsconfig.json
, VS Code considers JavaScript and TypeScript files in isolation and won't associate your source code types with the typings type definitions files.
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