💡Use Craft CMS? Check out the Craft + Vite flavoured version of this kit.
A solid platform for front-end development, following the Hypermedia Driven Application (HDA) architecture and the Locality of Behaviour (LoB) principle. Create highly interactive, SPA-like web apps without the overhead.
Includes a working demo featuring full page transitions and example Alpine.js
, Vue 3
and vanilla JS components.
- Laravel Mix 6 / Webpack 5 / PostCSS 8 - provides a robust ES6 development environment with script and style injection (HMR, file watching)
- htmx for HTML-over-the-wire
- Tailwind CSS for utility-first CSS
- Alpine.js + Async Alpine for composing behaviour directly in markup, with support for asynchronous on-demand components
- Vue.js (v3) for complex reactive applications using SFCs
- Minimalistic JavaScript framework for vanilla JS components:
- Components can be lazyloaded as they enter the DOM and use loading strategies including
visible
,idle
andmedia
- Framework-agnostic - works with vanilla JS, Vue, jQuery, GSAP, Alpine.js or your framework of choice; any third party script can be integrated into the simple component lifecycle
- Components can be lazyloaded as they enter the DOM and use loading strategies including
- SASS auto compiling, prefixing, minifying and sourcemaps
- CSS Autoprefixer, PostCSS Preset Env for older browsers
- Polyfills for older browsers (Core-Js 3)
- SVG icon sprites
- Image optimisation
- Static files (fonts, images etc)
- Eslint
- Stylelint
- Sensible defaults, optimised for fast development rebuilds
Node 16+
npm install
-
Review the settings in
webpack.mix.settings.js
andtailwind.config.php
, and customise for your project. -
Create an
.env
file and add an environment variableDEFAULT_SITE_URL
pointing to the hostname of your local website.
DEFAULT_SITE_URL=mywebsite.test
Run the development server (with hot module reloading and file watching)
npm run dev
Run the development server (with linting and source maps)
npm run debug
Run the production build
npm run build
Fix your javascript with eslint
npm run fix-scripts
Fix your styles with stylelint
npm run fix-styles
View list of supported browsers for this project (see package.json
to edit):
npx browserslist
Our aim is to keep markup and logic (styling / scripting) together in one file, wherever possible, and this starter kit gives you some great tools to start with simply by editing html. Realistically however, this isn’t always possible or desirable as the complexity of an application increases: sometimes we need units of behaviour or style to be separated as individual components that map to elements in the markup. Ideally, these components should be as self-contained and expressive as possible, so they remain readable and composable.
This kit gives you the flexibility to find a pragmatic balance between Locality of Behaviour (LoB) and Separation of Concerns (SoC) that suits your project and preferences.
You may need to create bespoke styles for UI states that can’t easily be expressed with Tailwind CSS classes. This kit allows you to organise these in a ITCSS-inspired folder hierarchy, and use SASS as much or as little as you wish.
- Settings – global variables, config switches etc.
- Functions – globally used functions.
- Mixins – globally used mixins.
- Base – styling for bare HTML elements (like BODY, H1, A, etc.).
- Objects – class-based selectors which define undecorated, design patterns, intended to be reusable between projects (e.g.
.o-ratio
). - Layouts – layout grids and containers (e.g.
.l-container
). - Vendor - third party component stylesheets
- Components – specific UI components (e.g.
.c-button
). - Utils – utilities and helper classes with ability to override anything which goes before (e.g.
.h1
).
Alpine.js
allows you to express UI component behaviour directly in markup, but sometimes you may need to isolate behaviour in an individual component and load it asynchronously on demand rather than in one big script bundle up-front. This kit allows you to use Async Alpine components, Vue SFCs or roll your own vanilla JS components. The later can be used to load heavy third-party libraries like GSAP in a memory-efficient manner, by wrapping them in a mount()
/ unmount()
lifecycle.
This file controls the components you wish to load, and the selectors they map to.
Global components are loaded once on initial page load. They manage the state of site-wide elements and behaviours like the main menu, <head>
metadata and window resize events. Create global components in framework/components/global
.
Vanilla JS components are loaded on demand in content swapped into a target by htmx, such as <main>
. Create local components in framework/components/local
and attach to elements with data-component="myComponent"
. Determine the loading strategy for the component instance with data-load=""
.
The component can appear once or multiple times in your markup, with each instance respecting the loading strategy specified for the element it is mounted on. Regardless of the number of instances, the component’s script (split into an individual chunk file by Webpack) will only be requested once - when the component is first encountered.
For example, if you create a component class at framework/components/local/myComponent.js
, you can use it in your html like this:
<div id="a-unique-id" data-component="myComponent" data-load="visible"></div>
<div id="another-unique-id" data-component="myComponent" data-load="media (min-width: 1024px)" data-options='{"option1":"value1", "option2":"value2"}'></div>
Each instance must have a unique ID.
If the element contains markup that is manipulated by the component you have created, preserve the initial markup state for history restores by using the hx-history-preserve
attribute. For example, a component matching the [data-component="carousel"]
selector that uses Swiper.js to generate a carousel:
<div id="my-carousel" class="swiper" data-component="carousel" hx-history-preserve>
<div class="swiper-wrapper">
<div class="swiper-slide">Slide 1</div>
<div class="swiper-slide">Slide 2</div>
<div class="swiper-slide">Slide 3</div>
</div>
<div class="swiper-pagination"></div>
</div>
It is also possible to manually load a component and attach it to a selector in start.js
. When the selector enters the dom, the component will be loaded and mounted using the selected strategy. Manual loading is only recommended for components that coordinate the behaviour of multiple elements using Observers (e.g. sal.js).
this.componentLoader.load('sal', '[data-sal]', 'eager');
Htmx uses a 'swap and settle' logic to enable CSS transitions between new and old content. From the docs:
When new content is received from a server, before the content is swapped in, the existing content of the page is examined for elements that match by the id attribute. If a match is found for an element in the new content, the attributes of the old content are copied onto the new element before the swap occurs. The new content is then swapped in, but with the old attribute values. Finally, the new attribute values are swapped in, after a "settle" delay (20ms by default)
If your component adds attributes (e.g. classes) to the element it is mounted on AND uses those classes to determine it's own state, you may find it won't initialise itself fully after a swap between two pages where the element IDs of the components are the same in the old and new content, because the element is being settled when the component loader tries to mount it. In that case, put your component inside another container. For example:
<div id="my-carousel" data-component="carousel" hx-history-preserve>
<div class="swiper">
<div class="swiper-wrapper">
<div class="swiper-slide">Slide 1</div>
<div class="swiper-slide">Slide 2</div>
<div class="swiper-slide">Slide 3</div>
</div>
<div class="swiper-pagination"></div>
</div>
</div>
Asynchronous Alpine components can be loaded anywhere in your markup. Create Alpine components in framework/components/alpine
. See components/alpine/message.js
for an example.
In start.js
:
AsyncAlpine.data("message", () => import("../components/alpine/message.js"));
In your html:
<div
ax-load="visible"
x-data="message('Component loaded with Async Alpine using the `visible` strategy')"
x-ignore>
</div>
For instructions see Async Alpine.
Vue components are loaded on demand in content swapped by htmx, such as <main>
. Create components in framework/components/vue
, and attach to elements with data-vue-component="MyComponent"
. Determine the loading strategy for the component with data-load=""
, and pass props via the data-options=""
attribute (which accepts any valid JSON string).
No initialisation step is required for Vue components, they are loaded and mounted automatically on demand as individual Vue application instances.
See components/vue/LocationMap.js
for an example.
<div
id="map-london"
data-vue-component="LocationMap"
data-load="visible"
data-options='{
"latitude": "51.509865",
"longitude": "-0.118092",
"caption": "A map of London"
}'>
</div>
For more, see Vue SFCs
Loading strategies allow you to load components asynchronously on demand instead of up-front, freeing up the main thread and speeding up page rendering. Alpine components use the ax-load
attribute to specify the strategy, whereas vanilla JS and vue components use the data-load
attribute.
The default strategy if not specified. If the component is present in the page on initial load, or in content swapped into the dom by htmx, it will be loaded and mounted immediately.
Vanilla JS components and Vue components can listen for an event on document.body
to be triggered before they are loaded. Pass the event name in parentheses.
<div id="my-thing-1" data-component="myThing" data-load="event (htmx:validation:validate)"></div>
Alpine async components have their own implementation of Event - see: https://async-alpine.dev/docs/strategies/#event.
Uses requestIdleCallback
(where supported) to load when the main thread is less busy. Where requestIdleCallback
isn’t supported (Safari) we use an arbitrary 200ms delay to allow the main thread to clear.
Best used for components that aren’t critical to the initial paint/load.
<div id="my-thing-1" data-component="myThing" data-load="idle"></div>
The component will be loaded when the provided media query evaluates as true.
<div id="my-thing-1" data-component="myThing" data-load="media (max-width: 820px)"></div>
Vanilla JS components and Vue components can subscribe to a PubSubJS
topic; when the topic is published the component will be loaded.
Async Alpine components do not support Subscribe
.
<div id="my-thing-1" data-component="myThing" data-load="subscribe (video.button.clicked)"></div>
Uses IntersectionObserver to only load when the component is in view, similar to lazy-loading images. Optionally, custom root margins can be provided in parentheses.
<div id="my-thing-1" data-component="myThing" data-load="visible (100px 100px 100px 100px)"></div>
Strategies can be combined by separating with a pipe |, allowing for advanced and complex code splitting. All strategies must resolve to trigger loading of the component.
<div id="my-thing-1" data-component="myThing" data-load="idle | visible | media (min-width: 1024px)"></div>
Local component classes must extend framework/baseComponent.js
and have mount()
and unmount()
methods. See components/local/share.js
for an example. A component would typically map to one element and manipulate the markup within it. Use publish/subscribe topics to orchestrate multiple component instances.
Use this method to initialise your component.
Use this method to remove any references to elements in the DOM so that the browser can perform garbage collection and release memory.
Remove any event listeners and observers that you created. The framework automatically tracks event listeners added to elements and provides a convenience function clearEventListeners()
that can clean things up for you.
<div id="my-thing-1" data-component="myThing" data-options='{"message":"Hello!"}'></div>
components/local/myThing.js
:
import BaseComponent from '../../framework/baseComponent';
export default class MyThing extends BaseComponent {
thing;
thingObserver;
constructor(elm) {
super(elm);
// default options here are merged with those set on the element
// with data-options='{"option1":"value1"}'
this.options = {
message: "Hi, I'm thing",
};
this.mount();
}
mount() {
// setup and mount your component instance
this.thing = document.querySelector(this.elm); // [data-component="thing"]
// do amazing things...
this.thing.addEventListener("click", (e) => {
e.preventDefault();
console.log(this.options.message); // "Hello!"
});
this.thingObserver = new IntersectionObserver(...);
}
unmount() {
if (this.mounted) {
// remove any event listeners you created
this.thing.clearEventListeners();
// remove any observers you connected
this.thingObserver.disconnect();
this.thingObserver = null;
// unset any references to DOM nodes
this.thing = null;
}
}
}
For communication between components, the kit comes with PubSubJS, a topic-based publish/subscribe library.
Example use:
import PubSub from 'pubsub-js';
// subscribe to 'video.play'
let topic = 'video.play';
let subscriber = PubSub.subscribe(topic, (msg, id) => {
if (id !== player.plyId) {
player.pause();
}
});
player.on('play', event => {
this.videoMount.classList.add('is-playing');
// pause any other videos mounted on the page that are playing
PubSub.publish(topic, player.plyId);
});
Be sure to unsubscribe to topics in unmount()
:
// unsubscribe
PubSub.unsubscribe(subscriber);
Inspired by: