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Webpack Docs

You can create your own context with the require.context() function. .
Great. What is a "context"? What does this actually do?

It allows you to pass in a directory to search, a flag indicating whether subdirectories should be searched too, and a regular expression to match files against. .
Allows me to "search"? Search for files I'm assuming, and then what? What does this function ultimately do? What is it used for?

  • and then what? then what depends on what you specify in your webpack configuration file. What you quoted from the documentation sounds clear to me, it allows to specify from where to start collecting the files and resolving the imports and other flags to aid the process – Teedeez Jan 6 '19 at 6:30
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One of the main features of webpack's compiler is to recursively parse all the modules, starting from the entries, to build a graph of all the module dependencies by analyzing require(), require.context(), import and import() expressions.

The usual interpretation of "context" in webpack, and similarly in Node.js, is some directory that is used as a base for resolving paths to modules. For example, the current working directory is used as the default context for webpack to resolve the actual path to the index.js entry module; the context for the request require.resolve('../../../foo.js') is __dirname.

require.context is a special feature supported by webpack's compiler that allows you to get all matching modules starting from some base directory. The intention is to tell webpack at compile time to transform that expression into a dynamic list of all the possible matching module requests that it can resolve, in turn adding them as build dependencies and allowing you to require them at runtime.

In short, you would use require.context in the exact same situation when in Node.js at runtime you would use globs to dynamically build a list of module paths to require. The return value is a callable object that behaves like require, whose keys contain the necessary module request data that can be passed to it as an argument to require the module.

There are several ways you can use it, but I think the two most common use cases are to either automagically require some well-known kind of modules (e.g. you just add some.test.js test module and in some module you use require.context to dynamically discover all the tests, thus not having to document and remember to do it manually every time you add a new test module) or to load static assets in the repository to emit files to the build output (new webpack users coming from other build tools are usually surprised that their images, fonts, audio files and other assets do not appear in the output unless they are required from some module).

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Here is a practical, but long example so bear with me. I'm going to show you how to load fragments of HTML from a folder and output them onto a page using Webpack and require.context().

There are a lot of ways to build a website these days using templates and templating languages: you've got handlebars, mustache, markdown, jasmine, JSX, and plenty of static generators to deal with them, such as Eleventy, Hugo, Gatsby. And that's not to mention the choice of vanilla HTML or some sort of framework, such as Vue.

But sometimes you just need to grab some HTML from some files and get it out onto a page. And there is a way to load fragments of HTML from a folder and output them onto a page using Webpack and require.context().

Why use require.context or HTML fragments at all?

If you're looking to build a website or even a small web app then there are probably more straightforward, scalable methods.

Recently, however, I've been building a simple component UI library and wanted a quick way to simply grab some HTML and include it in an end page – or series of pages – to show a live version of the library in action.

The HTML files weren't complete documents, however, simply fragments of HTML that encapsulated a particular component from the library to show its markup. Also, I wanted them broken up into separate files in a folder for better organization in the project. The main issues this presents is finding a reliable way to grab all the files since they're broken up parts, not entire HTML documents, and grabbing them in a logical order, rather than having to have one loooong document.

I'm using Webpack to bundle everything and deal with the CSS and JS processing, so it made sense to try and find a simple way to involve Webpack to grab these files and process them. There are other options of course, but some aren't all that feasible... But here we concentrate on Webpack based solution

Webpack and require.context() to the rescue!

So then, since we're already using Webpack to build this thing, let's leverage one of Webpack's great features: require.context().

First, configure html-loader to process our files Firstly, because we're loading HTML files, we'll need to install Webpack's html-loader; an easy feat with npm/yarn:

npm i -D html-loader or yarn add --dev html-loader

From here, we need to add the html-loader configuration into our webpack.config.js

module: {
        rules: 
        [
            {
                test: /\.html$/,
                exclude: /node_modules/,
                use: {
                    loader: 'html-loader'
                }
            },
            ...
            {
            //other rules here
            }
        ]
      }

Now, Webpack can recognise and process HTML files for us if we do something like this:

require('/path/to/html/file.html');

But that's just one file, we need to load a bunch in, which will be a growing list – impractical to keeping adding a single line at a time.

Now we can load HTML files, we can set about using require.context() to load in some files within a folder and process their contents.

Here's what I did to achieve just that:

// grab the element where we'll output the HTML to
const output = document.querySelector('#output');

// create a 'cache' where we can store our built up HTML from our fragments
let htmlFragmentCache = {};

// here, we're creating an anonymous function that loads up our HTML fragments
// then it adds them to our cache object
const importAll = requireContext => requireContext.keys().forEach(key => htmlFragmentCache[key] = requireContext(key));

// next, we call our importAll() function to load the files
// notice how this is where we call the require.context() function
// it uses our file path, whether to load subdirectories and what file type to get
importAll(require.context('./fragments', false, /.html$/));

// finally, we can loop over our cache's keys and add the HTML to our output element
Object.keys(htmlFragmentCache).forEach(key => output.innerHTML += htmlFragmentCache[key]);

And it's as simple as that! Of course, even those scant few lines can be condensed into an anonymous function (really, an example of an Immediately Invoked Function Expression or IIFE) to create an even cleaner, terser end result:

(context => {
    // need to clear out the current element's contents (just in case!)
    output.innerHTML = '';

    // now, load up the html fragments and add them to the page
    context.keys().forEach(key => output.innerHTML += context(key));
})(require.context('./fragments', false, /.html$/));

And there we have it. A really clean, simple way to load in a bunch of HTML files in a folder, using require.context() in a JavaScript file, loaded, processed and bundled using Webpack. Bosh!

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