Getting started with Node.js modules: require , exports , imports , and beyond.

Modules are a crucial concept to understand Node.js projects. In this post, we cover Node modules: require , exports and, the future import .

Node modules allow you to write reusable code. You can nest them one inside another. Using the Node Package Manager (NPM), you can publish your modules and make them available to the community. Also, NPM enables you to reuse modules created by other developers.

We are using Node 12.x for the examples and ES6+ syntax. However, the concepts are valid for any version.

In this section, we are going to cover how to create Node modules and each one of its components:

Require

Exports

Module (module.exports vs. export)

Import

Require

require are used to consume modules. It allows you to include modules in your programs. You can add built-in core Node.js modules, community-based modules ( node_modules ), and local modules.

Let’s say we want to read a file from the filesystem. Node has a core module called ‘fs’:

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const fs = require ( 'fs' );



fs.readFile( './file.txt' , 'utf-8' , ( err, data ) => {

if (err) { throw err; }

console .log( 'data: ' , data);

});



As you can see, we imported the “fs” module into our code. It allows us to use any function attached to it, like “readFile” and many others.

The require function will look for files in the following order:

Built-in core Node.js modules (like fs ) NPM Modules. It will look in the node_modules folder. Local Modules. If the module name has a ./ , / or ../ , it will look for the directory/file in the given path. It matches the file extensions: *.js , *.json , *.mjs , *.cjs , *.wasm and *.node .

Let’s now explain each in little more details with

Built-in Modules

When you install node, it comes with many built-in modules. Node comes with batteries included ;)

Some of the most used core modules are:

fs: Allows you to manipulate (create/read/write) files and directories.

path: utilities to work with files and directories paths.

http: create HTTP servers and clients for web development.

url: utilities for parsing URLs and extracting elements from it.

These you don’t have to install it, you can import them and use them in your programs.

NPM Modules

NPM modules are 3rd-party modules that you can use after you install them. To name a few:

lodash: a collection of utility functions for manipulating arrays, objects, and strings.

request: HTTP client simpler to use than the built-in http module.

module. express: HTTP server for building websites and API. Again, simpler to use than the built-in http module.

These you have to install them first, like this:

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npm install express



and then you can reference them like built-in modules, but this time they are going to be served from the node_modules folder that contains all the 3rd-party libraries.

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const express = require ( 'express' );



Creating your own Nodejs modules

If you can’t find a built-in or 3rd-party library that does what you want, you will have to develop it yourself. In the following sections, you are going to learn how to do that using exports .

Exports

The exports keyword gives you the chance to “export” your objects and methods. Let’s do an example:

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const PI = 3.14159265359 ;



exports .area = radius => (radius ** 2 ) * PI;

exports .circumference = radius => 2 * radius * PI;



In the code below, we are exporting the area and circumference functions. We defined the PI constant, but this is only accessible within the module. Only the elements associated with exports are available outside the module.

So, we can consume it using require in another file like follows:

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const circle = require ( './circle' );



const r = 3 ;

console .log( `Circle with radius ${r} has

area: ${circle.area(r)} ;

circumference: ${circle.circumference(r)} ` );



Noticed that this time we prefix the module name with ./ . That indicates that the module is a local file.

Module Wrapper

You can think of each Node.js module as a self-contained function like the following one:

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( function ( exports, require, module, __filename, __dirname ) {

module .exports = exports = {};







});



We have already covered exports and require . Notice the relationship between module.exports and exports . They point to the same reference. But, if you assign something directly to exports you will break its link to module.exports — more on that in the next section.

For our convenience __filename and __dirname are defined. They provide the full path to the current file and directory. The latter excludes the filename and prints out the directory path.

For instance, for our ./circle.js module, it would be something like this:

__filename : /User/adrian/code/circle.js

__dirname : /User/adrian/code

Ok, we have covered exports , require , __filename , and __dirname . The only one we haven’t covered is module . Let’s go for it!

Module.exports vs. Exports

The module is not global; it is local for each module. It contains metadata about a module like id, exports, parent, children, and so on.

exports is an alias of module.exports . Consequently, whatever you assign to exports is also available on module.exports . However, if you assign something directly to exports, then you lose the shortcut to module.exports . E.g.

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class Cat {

makeSound() {

return ` ${ this .constructor.name} : Meowww` ;

}

}







module .exports = Cat;



Try the following case with exports and then with module.exports .

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const Cat = require ( './cat' );



const cat = new Cat();

console .log(cat.makeSound());



To sum up, when to use module.exports vs exports :

Use exports to:

Export named function. e.g. exports.area , exports.circumference .

Use module.exports to:

If you want to export an object, class, function at the root level (e.g. module.exports = Cat ) If you prefer to return a single object that exposes multiple assignments. e.g. module.exports = {area, circumference};

Imports

Starting with version 8.5.0+, Node.js supports ES modules natively with a feature flag and new file extension *.mjs .

For instance, our previous circle.js can be rewritten as circle.mjs as follows:

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const PI = 3.14159265359 ;



export function area ( radius ) {

return (radius ** 2 ) * PI;

}



export function circumference ( radius ) {

return 2 * radius * PI;

}



Then, we can use import:

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import { area, circumference } from './circle.mjs' ;



const r = 3 ;



console .log( `Circle with radius ${r} has

area: ${area(r)} ;

circunference: ${circumference(r)} ` );



And, finally you can run it using the experimental module feature flag:

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node --experimental-modules main.mjs



If you don’t like experimental modules, another alternative is to use a transpiler. That converts modern JavaScript to older versions for you. Good options are TypeScript, Babel, and Rollup.

Troubleshooting import and require issues

Experimental Flag

If you don’t use the experimental flag node --experimental-modules and you try to use import you will get an error like this:

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internal/modules/cjs/loader.js:819

throw new ERR_REQUIRE_ESM(filename);

^



Error [ERR_REQUIRE_ESM]: Must use import to load ES Module: bla bla blah



File extension .mjs vs .js (or .cjs)

If you have a *.mjs file you cannot use require or it will throw an error ( ReferenceError: require is not defined ). .mjs is for import ECMAScript Modules and .js is for regular require modules.

However, with *.mjs you can load both kinds of modules!

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import { area, circumference } from './circle.mjs' ;

import Cat from './cat.js' ;



const r = 3 ;

console .log( `Circle with radius ${r} has

area: ${area(r)} ;

circumference: ${circumference(r)} ` );



const cat = new Cat();

console .log(cat.makeSound());



Notice that cat.js is using commonJS modules.

Summary