Alpine.js offers you the reactive and declarative nature of big frameworks like Vue or React at a much lower cost.

You get to keep your DOM, and sprinkle in behavior as you see fit.

Think of it like Tailwind for JavaScript.

Note: This tool's syntax is almost entirely borrowed from Vue (and by extension Angular). I am forever grateful for the gift they are to the web.

From CDN: Add the following script to the end of your <head> section.

<script src="https://cdn.jsdelivr.net/gh/alpinejs/[email protected]/dist/alpine.js" defer></script>

That's it. It will initialize itself.

From NPM: Install the package from NPM.

npm i alpinejs

Include it in your script.

import 'alpinejs'

For IE11 support Use the following script instead.

<script src="https://cdn.jsdelivr.net/gh/alpinejs/[email protected]/dist/alpine-ie11.js" defer></script>

Dropdown/Modal

<div x-data="{ open: false }">
    <button @click="open = true">Open Dropdown</button>

    <ul
        x-show="open"
        @click.away="open = false"
    >
        Dropdown Body
    </ul>
</div>

Tabs

<div x-data="{ tab: 'foo' }">
    <button :class="{ 'active': tab === 'foo' }" @click="tab = 'foo'">Foo</button>
    <button :class="{ 'active': tab === 'bar' }" @click="tab = 'bar'">Bar</button>

    <div x-show="tab === 'foo'">Tab Foo</div>
    <div x-show="tab === 'bar'">Tab Bar</div>
</div>

You can even use it for non-trivial things: Pre-fetching a dropdown's HTML content on hover

<div x-data="{ open: false }">
    <button
        @mouseenter.once="
            fetch('/dropdown-partial.html')
                .then(response => response.text())
                .then(html => { $refs.dropdown.innerHTML = html })
        "
        @click="open = true"
    >Show Dropdown</button>

    <div x-ref="dropdown" x-show="open" @click.away="open = false">
        Loading Spinner...
    </div>
</div>

There are 13 directives available to you:

And 5 magic properties:

Example: <div x-data="{ foo: 'bar' }">...</div>

Structure: <div x-data="[JSON data object]">...</div>

x-data declares a new component scope. It tells the framework to initialize a new component with the following data object.

Think of it like the data property of a Vue component.

Extract Component Logic

You can extract data (and behavior) into reusable functions:

<div x-data="dropdown()">
    <button x-on:click="open()">Open</button>

    <div x-show="isOpen()" x-on:click.away="close()">
        // Dropdown
    </div>
</div>

<script>
    function dropdown() {
        return {
            show: false,
            open() { this.show = true },
            close() { this.show = false },
            isOpen() { return this.show === true },
        }
    }
</script>

You can also mix-in multiple data objects using object destructuring:

<div x-data="{...dropdown(), ...tabs()}">

Example: <div x-data="{ foo: 'bar' }" x-init="foo = 'baz'"></div>

Structure: <div x-data="..." x-init="[expression]"></div>

x-init runs an expression when a component is initialized.

If you wish to run code AFTER Alpine has made its initial updates to the DOM (something like a mounted() hook in VueJS), you can return a callback from x-init, and it will be run after:

x-init="return () => { // we have access to the post-dom-initialization state here // }"

Example: <div x-show="open"></div>

Structure: <div x-show="[expression]"></div>

x-show toggles the display: none; style on the element depending if the expression resolves to true or false.

x-show.transition

x-show.transition is a convenience API for making your x-shows more pleasant using CSS transitions.

<div x-show.transition="open">
    These contents will be transitioned in and out.
</div>

Note: All of these transition modifiers can be used in conjunction with each other. This is possible (although rediculous lol): x-show.transition.in.duration.100ms.origin.top.right.opacity.scale.85.out.duration.200ms.origin.bottom.left.opacity.scale.95

Note: x-show will wait for any children to finish transitioning out. If you want to bypass this behavior, add the .immediate modifer:

<div x-show.immediate="open">
    <div x-show.transition="open">
</div>

Note: You are free to use the shorter ":" syntax: :type="..."

Example: <input x-bind:type="inputType">

Structure: <input x-bind:[attribute]="[expression]">

x-bind sets the value of an attribute to the result of a JavaScript expression. The expression has access to all the keys of the component's data object, and will update every-time its data is updated.

Note: attribute bindings ONLY update when their dependencies update. The framework is smart enough to observe data changes and detect which bindings care about them.

x-bind for class attributes

x-bind behaves a little differently when binding to the class attribute.

For classes, you pass in an object who's keys are class names, and values are boolean expressions to determine if those class names are applied or not.

For example: <div x-bind:class="{ 'hidden': foo }"></div>

In this example, the "hidden" class will only be applied when the value of the foo data attribute is true.

x-bind for boolean attributes

x-bind supports boolean attributes in the same way that value attributes, using a variable as the condition or any JavaScript expression that resolves to true or false.

For example: <button x-bind:disabled="myVar">Click me</button>

This will add or remove the disabled attribute when myVar is true or false respectively.

The following boolean attributes are currently supported: disabled, readonly, required, checked, hidden, selected, open.

Note: You are free to use the shorter "@" syntax: @click="..."

Example: <button x-on:click="foo = 'bar'"></button>

Structure: <button x-on:[event]="[expression]"></button>

x-on attaches an event listener to the element it's declared on. When that event is emitted, the JavaScript expression set as its value is executed.

If any data is modified in the expression, other element attributes "bound" to this data, will be updated.

keydown modifiers

Example: <input type="text" x-on:keydown.escape="open = false">

You can specify specific keys to listen for using keydown modifiers appended to the x-on:keydown directive. Note that the modifiers are kebab-cased versions of Event.key values.

Examples: enter, escape, arrow-up, arrow-down

Note: You can also listen for system-modifier key combinations like: x-on:keydown.cmd.enter="foo"

.away modifier

Example: <div x-on:click.away="showModal = false"></div>

When the .away modifier is present, the event handler will only be executed when the event originates from a source other than itself, or its children.

This is useful for hiding dropdowns and modals when a user clicks away from them.

.prevent modifier Example: <input type="checkbox" x-on:click.prevent>

Adding .prevent to an event listener will call preventDefault on the triggered event. In the above example, this means the checkbox wouldn't actually get checked when a user clicks on it.

.stop modifier Example: <div x-on:click="foo = 'bar'"><button x-on:click.stop></button></div>

Adding .stop to an event listener will call stopPropagation on the triggered event. In the above example, this means the "click" event won't bubble from the button to the outer <div>. Or in other words, when a user clicks the button, foo won't be set to 'bar'.

.window modifier Example: <div x-on:resize.window="isOpen = window.outerWidth > 768 ? false : open"></div>

Adding .window to an event listener will install the listener on the global window object instead of the DOM node on which it is declared. This is useful for when you want to modify component state when something changes with the window, like the resize event. In this example, when the window grows larger than 768 pixels wide, we will close the modal/dropdown, otherwise maintain the same state.

Note: You can also use the .document modifier to attach listeners to document instead of window

.once modifier Example: <button x-on:mouseenter.once="fetchSomething()"></button>

Adding the .once modifier to an event listener will ensure that the listener will only be handled once. This is useful for things you only want to do once, like fetching HTML partials and such.

Example: <input type="text" x-model="foo">

Structure: <input type="text" x-model="[data item]">

x-model adds "two-way data binding" to an element. In other words, the value of the input element will be kept in sync with the value of the data item of the component.

Note: x-model is smart enough to detect changes on text inputs, checkboxes, radio buttons, textareas, selects, and multiple selects. It should behave how Vue would in those scenarios.

Example: <span x-text="foo"></span>

Structure: <span x-text="[expression]"

x-text works similarly to x-bind, except instead of updating the value of an attribute, it will update the innerText of an element.

Example: <span x-html="foo"></span>

Structure: <span x-html="[expression]"

x-html works similarly to x-bind, except instead of updating the value of an attribute, it will update the innerHTML of an element.

Example: <div x-ref="foo"></div><button x-on:click="$refs.foo.innerText = 'bar'"></button>

Structure: <div x-ref="[ref name]"></div><button x-on:click="$refs.[ref name].innerText = 'bar'"></button>

x-ref provides a convenient way to retrieve raw DOM elements out of your component. By setting an x-ref attribute on an element, you are making it available to all event handlers inside an object called $refs.

This is a helpful alternative to setting ids and using document.querySelector all over the place.

Example: <template x-if="true"><div>Some Element</div></template>

Structure: <template x-if="[expression]"><div>Some Element</div></template>

For cases where x-show isn't sufficient (x-show sets an element to display: none if it's false), x-if can be used to actually remove an element completely from the DOM.

It's important that x-if is used on a <template></template> tag because Alpine doesn't use a virtual DOM. This implementation allows Alpine to stay rugged and use the real DOM to work its magic.

Note: x-if must have a single element root inside the <template></template> tag.

Example:

<template x-for="item in items" :key="item">
    <div x-text="item"></div>
</template>

x-for is available for cases when you want to create new DOM nodes for each item in an array. This should appear similar to v-for in Vue, with one exception of needing to exist on a template tag, and not a regular DOM element.

Note: the :key binding is optional, but HIGHLY recommended.

Example:

<div
    x-show="open"
    x-transition:enter="transition ease-out duration-300"
    x-transition:enter-start="opacity-0 transform scale-90"
    x-transition:enter-end="opacity-100 transform scale-100"
    x-transition:leave="transition ease-in duration-300"
    x-transition:leave-start="opacity-100 transform scale-100"
    x-transition:leave-end="opacity-0 transform scale-90"
>...</div>

<template x-if="open">
    <div
        x-transition:enter="transition ease-out duration-300"
        x-transition:enter-start="opacity-0 transform scale-90"
        x-transition:enter-end="opacity-100 transform scale-100"
        x-transition:leave="transition ease-in duration-300"
        x-transition:leave-start="opacity-100 transform scale-100"
        x-transition:leave-end="opacity-0 transform scale-90"
    >...</div>
</template>

Alpine offers 6 different transition directives for applying classes to various stages of an element's transition between "hidden" and "shown" states. These directives work both with x-show AND x-if.

These behave exactly like VueJs's transition directives, except they have different, more sensible names:

Example: <div x-data="{}" x-cloak></div>

x-cloak attributes are removed from elements when Alpine initializes. This is useful for hiding pre-initialized DOM. It's typical to add the following global style for this to work:

<style>
    [x-cloak] { display: none; }
</style>

Example:

<div x-data>
    <button @click="$el.innerHTML = 'foo'">Replace me with "foo"</button>
</div>

$el is a magic property that can be used to retrieve the root component DOM node.

Example:

<span x-ref="foo"></span>

<button x-on:click="$refs.foo.innerText = 'bar'"></button>

$refs is a magic property that can be used to retrieve DOM elements marked with x-ref inside the component. This is useful when you need to manually manipulate DOM elements.

Example:

<input x-on:input="alert($event.target.value)">

$event is a magic property that can be used within an event listener to retrieve the native browser "Event" object.

Example:

<div @custom-event="console.log($event.detail.foo)">
    <button @click="$dispatch('custom-event', { foo: 'bar' })">
    <!-- When clicked, will console.log "bar" -->
</div>

$dispatch is a shortcut for creating a CustomEvent and dispatching it using .dispatchEvent() internally. There are lots of good use cases for passing data around and between components using custom events. Read here for more information on the underlying CustomEvent system in browsers.

You will notice that any data passed as the second parameter to $dispatch('some-event', { some: 'data' }), becomes available through the new events "detail" property: $event.detail.some. Attaching custom event data to the .detail property is standard practice for CustomEvents in browsers. Read here for more info.

You can also use $dispatch() to trigger data updates for x-model bindings. For example:

<div x-data="{ foo: 'bar' }">
    <span x-model="foo">
        <button @click="$dispatch('input', 'baz')">
        <!-- After the button is clicked, `x-model` will catch the bubbling "input" event, and update foo to "baz". -->
    </span>
</div>

Example:

<div x-data="{ fruit: 'apple' }">
    <button
        x-on:click="
            fruit = 'pear';
            $nextTick(() => { console.log($event.target.innerText) });
        "
        x-text="fruit"
    ></button>
</div>

$nextTick is a magic property that allows you to only execute a given expression AFTER Alpine has made its reactive DOM updates. This is useful for times you want to interact with the DOM state AFTER it's reflected any data updates you've made.

Copyright © 2019-2020 Caleb Porzio and contributors

Licensed under the MIT license, see LICENSE.md for details.