Svelte For Beginners

Published Dec 16, 2021

Table of Contents

Learning Svelte

The best way to learn Svelte is to go through the Svelte tutorial which is great but also contains information overload if you just want to get started writing Svelte. Iā€™m going to show you everything you should know for the majority of things youā€™re going to build.

Iā€™m not going to assume your knowledge and try to explain everything along the way so if youā€™re new to JavaScript frameworks or Svelte you should learn a lot.

You can watch the Svelte For Beginners playlist on YouTube.

What is Svelte?

Writing Svelte feels like writing regular HTML, CSS, and JavaScript.

Svelte is a JavaScript framework created by Rich Harris that aims to solve the problem of abundance of JavaScript on the web while delivering a delightful developer and user experience.

Svelte is compiled meaning itā€™s more of a language than a traditional JavaScript framework so itā€™s not constrained by limitations of JavaScript. Because of that it can deliver the best developer experience and ship less code because the framework melts away when you ship code and youā€™re only left with generated JavaScript. Thatā€™s a couple of kilobytes compared to something like React that has to ship the entire runtime or library to work.

Svelte doesnā€™t have to concern itself with the bundle size of the framework so it can have features such as animations built-in because only what you use gets bundled.

Svelte is comparable to React and Vue for building single page applications where your entire application lives inside one element but if you want a framework with more opinions how to write applications with routing and server-side rendering thereā€™s SvelteKit thatā€™s comparable to Remix and Next.js for React or Nuxt.js for Vue.

The Single File Component

To appreciate Svelteā€™s simplicity weā€™re going to start with a simple counter example using regular HTML and JavaScript. If you want to code along open a new Codepen project.

Example.html
<p></p>
<button onclick="increment()">Click</button>

<script>
  let count = 0

  function increment() {
    count += 1
    updateUI()
  }

  function updateUI() {
    let counterElement = document.querySelector('p')
    counterElement.innerText = `
			Clicked ${count} ${count === 1 ? 'time' : 'times'}
		`
  }

  updateUI()
</script>

Ponder for a second how amazing it is that this is valid HTML in the first place and doesnā€™t break things because how browsers are so smart.

You would write similar code like this but query elements once at the top since querying counterElement each time you update the user interface is wasteful. These are easy mistakes to make and could cause severe performance issues and unexpected bugs in your software.

I love JavaScript but every time you get into updating and keeping track of your data and updates to the DOM (Document Object Model) it drains your enthusiasm and starts feeling like a chore. This is where JavaScript frameworks come in.

I encourage you to code along and open the Svelte REPL so you can start building muscle memory and type things out when learning instead of copying but I leave that choice up to you.

This is the same example in Svelte.

App.svelte
<script>
  let count = 0

  function increment() {
    count += 1
  }
</script>

<p>Clicked {count} {count === 1 ? 'time' : 'times'}</p>
<button on:click={increment}>Click</button>

Svelte is a superset of HTML meaning itā€™s like actual HTML and JavaScript but with superpowers.

Svelte lets you write code in a declarative way meaning you donā€™t have to query elements and worry about keeping the state of your application in sync with the user interface.

Svelte treats App.svelte as a single file component. The <script> tag is where you write JavaScript. Thereā€™s a <style> tag for CSS and the rest is treated as HTML. The Svelte compiler takes this special App.svelte file and processes each part separately before compiling it into regular HTML, CSS, and JavaScript.

Inside the Svelte template you can use JavaScript expressions like {count * 2} and see the output directly. This should be familiar if you ever used a templating language or a JavaScript framework like Angular and Vue.

Letā€™s add some styles at the bottom of App.svelte.

App.svelte
<style>
  p {
    color: teal;
  }
</style>

In Svelte styles are scoped to the component by default meaning any styles used in the component arenā€™t going to affect other components or parts of your site.

You never have to worry about changing CSS unless itā€™s global. You can make a style global inside a component by using the global modifier :global(p) and if you want to affect only nested components use .element :global(p).

If you look at the CSS output in the Svelte REPL you can see Svelte generated p.svelte-omwhvp {color: teal } so itā€™s impossible for your styles to clash.

If you want Sass support you can just add lang="scss" attribute in the <style> tag. You can do the same with the lang="ts" attribute in the <script> tag to enable TypeScript support. Unfortunately the Svelte REPL doesnā€™t support it so youā€™re going to have to trust me it works in a real project.

Reactivity

Reactivity is Svelteā€™s superpower. If youā€™re unfamiliar reactivity is how you keep your DOM in sync with your application state.

When youā€™re developing an application you want a change in your application state like adding a song to a playlist be reflected immediately in the DOM and re-render what changed.

You would have to write all this boilerplate code to update the user interface before you even start developing your application and thatā€™s what JavaScript frameworks like Svelte do for us so you donā€™t have to think about it.

Svelteā€™s reactivity is based on assignments. To change state and trigger a re-render you assign a value to a variable you declared and itā€™s going to update. We have already done this.

App.svelte
<script>
	let count = 0

	function increment() {
	  count = count + 1
	}
</script>

Because we need to assign a value for Svelte to pick it up methods like push wonā€™t trigger an update until we reassign it. We can avoid doing the extra step by using the JavaScript spread operator ... to keep existing items and add the new item.

App.svelte
<script>
  let list = ['React', 'Vue']

  function handleClick() {
    // doesn't update
    list.push('Svelte')
    // until you assign it
    list = list
    // so it's easier doing this
    list = [...list, 'Svelte']
  }
</script>

<p>{list}</p>
<button on:click={handleClick}>Click</button>

Sometimes you need to change a value based on other values. This is referred to as a computed property.

Svelte has reactive declarations using the $: syntax which is valid JavaScript label syntax that Svelte stole for itself.

Using the $: syntax is saying ā€œre-run this code whenever any of the referenced values changeā€.

App.svelte
<script>
	// state
	let items = [1, 2, 3, 4]

	// computed
	$: amount = items.length

	function addItem() {
		items = [...items, items.length + 1]
	}
</script>

<p>The amount is {amount}</p>
<button on:click={addItem}>Add item</button>

Think about it as giving Svelte dependencies to watch and rerun the code when the value changes because in $: albumLength = getAlbumLength(album) on the right album is the referenced value.

App.svelte
<script>
	// state
	let album = [
		{ track: 'Track 1', length: 180 },
		{ track: 'Track 2', length: 240 },
		{ track: 'Track 3', length: 280 },
	]

	// computed
	$: albumLength = getAlbumLength(album)

	function getAlbumLength(album) {
		let lengthSeconds = album.reduce(
			(totalLength, currentValue) => {
			return totalLength + currentValue.length
		}, 0)

		let [minutes, seconds] =
		(lengthSeconds / 60)
		.toFixed(2)
		.toString()
		.split('.')

		return { minutes, seconds }
	}

	function addTrack() {
		album = [...album, { track: 'Track 4', length: 420 }]
	}
</script>

<p>
	Album length is {albumLength.minutes} minutes and
	{albumLength.seconds} seconds.
</p>
<button on:click={addTrack}>Add track</button>

One of the cool things you can do is log a value whenever it changes so itā€™s easy to see whatā€™s going on.

App.svelte
<script>
	let count = 0
	$: console.log(count)
</script>

<button on:click={() => count += 1}>Click</button>

You can have reactive blocks.

App.svelte
<script>
	let count = 0

	$: {
		console.log(`The count is ${count}`)

		if (count >= 4) {
			console.log('Restarting count.')
			count = 0
		}
	}
</script>

<button on:click={() => count += 1}>Click</button>

Ignore the weird syntax highlighting because there isnā€™t an extension for .svelte files so itā€™s treated like .html which can be fixed by using quotes on:click="{() => count += 1}". Your editor is going to support the syntax if you use the Svelte for VS Code extension.

Logic

Since HTML canā€™t express logic such as conditionals and loops you would have to write something like this using JavaScript.

Example.html
<div id="app"></div>

<script>
  let appElement = document.querySelector('#app')

  let user = {
	  loggedIn: false
	}

	function toggle() {
	  user.loggedIn = !user.loggedIn
		updateUI()
	}

	function updateUI() {
    let html

	  if (user.loggedIn) {
		  html = `<button>Log out</button>`
		}

		if (!user.loggedIn) {
		  html = `<button>Log in</button>`
		}

	  appElement.innerHTML = html
    appElement.querySelector('button').onclick = toggle
	}

  updateUI()
</script>

It doesnā€™t look bad but I think we can do better. This is the same example using an #if block in Svelte.

App.svelte
<script>
	let user = {
		loggedIn: false
	}

	function toggle() {
		user.loggedIn = !user.loggedIn
	}
</script>

{#if user.loggedIn}
  <button on:click={toggle}>Log out</button>
{/if}

{#if !user.loggedIn}
  <button on:click={toggle}>Log in</button>
{/if}

Awesome, right? I want to emphasize how close Svelte is to HTML and I hope youā€™re excited about it.

Thereā€™s more logic blocks like #if, #each, #await, and #key for you to play around with.

This is using JavaScript to loop over a list of items and render them.

Example.html
<div id="app"></div>

<script>
  let appElement = document.querySelector('#app')

	let todos = [
		{ id: 1, text: 'Todo 1', completed: true },
		{ id: 2, text: 'Todo 2', completed: false },
		{ id: 3, text: 'Todo 3', completed: false },
		{ id: 4, text: 'Todo 4', completed: false },
	]

	let todosHtml = ''

	for (let todo of todos) {
    let checked = todo.completed ? 'checked' : null

	  todosHtml += `
      <li data-id=${todo.id}>
		    <input ${checked} type="checkbox" />
		    <span>${todo.text}</span>
	    </li>
		`
	}

	appElement.innerHTML = `<ul>${todosHtml}</ul>`
</script>

The same example using #each in Svelte.

App.svelte
<script>
	let todos = [
		{ id: 1, text: 'Todo 1', completed: true },
		{ id: 2, text: 'Todo 2', completed: false },
		{ id: 3, text: 'Todo 3', completed: false },
		{ id: 4, text: 'Todo 4', completed: false },
	]
</script>

<ul>
{#each todos as todo}
  <li>
		<input checked={todo.completed} type="checkbox" />
		<span>{todo.text}</span>
	</li>
{/each}
</ul>

You can destructure values from the item youā€™re iterating over, get the index, and provide a key so Svelte can keep track of changes. Avoid using the index as the key because itā€™s not guaranteed to be unique so use a unique value instead.

App.svelte
<ul>
{#each todos as {id, text, completed}, index (id)}
  <li>
		<input checked={completed} type="checkbox" />
		<span>{text}</span>
	</li>
{/each}
</ul>

If youā€™re fetching data on the client this is how it would look using JavaScript.

Example.html
<div id="app"></div>

<script>
  let appElement = document.querySelector('#app')

  async function fetchPokemon(pokemonName) {
    let url = `https://pokeapi.co/api/v2/pokemon/`
    let response = await fetch(`${url}${pokemonName}`)
    let { name, sprites } = await response.json()

    return {
      name,
      image: sprites['front_default']
    }
  }

  async function renderUI() {
    let { name, image } = await fetchPokemon('pikachu')

    appElement.innerHTML = `
      <h1>${name}</h1>
      <img src=${image} alt=${name} />
    `
  }

  renderUI()
</script>

In Svelte you can easily resolve a promise using the #await block but you can also resolve the promise in the <script> tag if you want .

App.svelte
<script>
  async function fetchPokemon(pokemonName) {
    let url = `https://pokeapi.co/api/v2/pokemon/`
    let response = await fetch(`${url}${pokemonName}`)
    let { name, sprites } = await response.json()

		 return {
      name,
      image: sprites['front_default']
    }
  }
</script>

{#await fetchPokemon('pikachu')}
	<p>Fetching Pokemon...</p>
{:then pokemon}
	<h1>{pokemon.name}</h1>
	<img src={pokemon.image} alt={pokemon.name} />
{:catch error}
	<p>Something went wrong: {error.message}</p>
{/await}

In the JavaScript example we didnā€™t even add checks for scenarios where the promise could be pending, fulfilled, or rejected and just hope it works. šŸ˜¬ Using Svelte you donā€™t have to think about it.

Events

If youā€™re new to JavaScript frameworks you might be confused by the use of inline event handlers because so far everyone told you to avoid doing so in JavaScript. Thatā€™s for a good reason because of separation of concerns to have our markup, styles, and logic separate which makes it easy to change and maintain.

Using a modern JavaScript framework all our concerns are in one place using components and writing declarative code and the framework doing the heavy DOM lifting and under the hood performance optimization.

If you want to know about all the Svelte events you wonā€™t find them in the Svelte documentation because itā€™s just JavaScript so you can look at the MDN documentation for event listing. Under the generic Element you can find the event listener dblclick when someone performs a double click or mousemove when the user moves the mouse.

This is an example of an event listener in JavaScript.

Example.html
<style>
  html,
  body {
    width: 100%;
    height: 100%;
    margin: 0;
  }

  div {
    height: 100%;
  }
</style>

<div id="app"></div>

<script>
  let appElement = document.querySelector('#app')

  let mouse = { x: 0, y: 0 }

  function handleMouseMove(event) {
    mouse.x = event.clientX
    mouse.y = event.clientY
    updateUI()
  }

  function updateUI() {
    appElement.innerHTML = `
      The mouse position is ${mouse.x} x ${mouse.y}
    `
  }

  appElement.addEventListener('mousemove', handleMouseMove)
</script>

In Svelte you use the on: directive to listen to DOM events.

App.svelte
<script>
	let mouse = { x: 0, y: 0 }

	function handleMouseMove(event) {
		mouse.x = event.clientX
		mouse.y = event.clientY
	}
</script>

<div on:mousemove={handleMouseMove}>
	The mouse position is {mouse.x} x {mouse.y}
</div>

<style>
	div {
		height: 100vh;
	}
</style>

Svelte sends the event alongside your function if you do on:mousemove={handleMouseMove} but if you do it inline you have to pass it yourself on:mousemove={(event) => handleMouseMove(event)}.

Svelte has special modifiers for DOM events such as preventDefault. You can find a complete list under element directives and you can chain special modifiers together.

App.svelte
<script>
	function handleSubmit() {
		console.log('Submit')
	}
</script>

<form on:submit|preventDefault={handleSubmit}>
	<input type="text" />
	<button type="submit">Submit</button>
</form>

Using preventDefault which is short for event.preventDefault() prevents the default behavior such as the form submitting causing a page reload because we want to control it using JavaScript on the client.

Bindings

Data binding is keeping your application state and user interface synchronized.

Svelte supports data binding using the bind: directive.

Often you have a value that other parts depend on for example if you had a text search input and want to filter a list of items whenever the user types a search query.

You can implement data binding in JavaScript but itā€™s not part of the language so you often get the value from the event. This is true for other JavaScript frameworks like React that use a synthetic event system and doesnā€™t have data binding.

Filtering a list of items using JavaScript.

Example.html
<input type="text" />
<ul></ul>

<script>
  let list = ['React', 'Vue', 'Svelte']
  let filteredList = []

  let inputElement = document.querySelector('input')
  let listElement = document.querySelector('ul')

  function filterList(event) {
    let searchQuery = event.target.value
    filteredList = list.filter(item => {
      return item
              .toLowerCase()
              .includes(searchQuery.toLowerCase())
    })
    updateUI()
  }

  function updateUI() {
    listElement.innerHTML = filteredList.map(item =>
			`<li>${item}</li>`).join('')
  }

  inputElement.addEventListener('input', filterList)
</script>

Instead of using event.target.value which we could also do in Svelte we can bind the value of the text input field to searchQuery instead.

App.svelte
<script>
 	let list = ['React', 'Vue', 'Svelte']
  let filteredList = []
	let searchQuery = ''

	function filterList() {
    filteredList = list.filter(item => {
      return item
              .toLowerCase()
              .includes(searchQuery.toLowerCase())
    })
  }
</script>

<input
	on:input={filterList}
	bind:value={searchQuery}
	type="text"
/>

<ul>
{#each filteredList as item}
  <li>{item}</li>
{/each}
</ul>

You can have text, numeric, checkbox, group and textarea among other bindings. Instead of overwhelming you with examples you lack context for to find useful right now you can learn more about bindings in the Svelte documentation or by following the Svelte tutorial when you encounter it in your project.

Components

Components are the primary reason of using any modern JavaScript framework because it lets you organize code and have your concerns in one place.

If you ever used classes you can think of components as new instances of a class that can be used as a blueprint to have its own independent state.

Itā€™s easy to get carried away with components so in general donā€™t look for what to turn into a component but write everything inside a single file until it becomes hard to manage and you start noticing repeating parts.

You might have an <Artist /> component:

  • <Artist /> components gets passed the artistName property
  • <Album /> component has albumTitle and albumTracks property passed to <AlbumTrack />
  • <AlbumTrack /> component has track and length properties but also a playing state

The filename can be whatever but a capitalised tag such as <Artist /> indicates to Svelte that something is a component. You import another Svelte component using the import Component as './Component' syntax.

Pretend that artists is some data we fetched as a JSON response from the Spotify API.

App.svelte
<script>
	import Artist from './Artist.svelte'
	import Album from './Album.svelte'

	let artists = [
		{
			name: 'Fleetwood Mac',
			albums: [
				{
					name: 'Tango in the Night',
					year: 1987,
					tracks: [
						{ title: 'Big Love', length: '3:37' },
						{ title: 'Seven Wonders', length: '3:38' },
						{ title: 'Everywhere', length: '3:48' },
						{ title: 'Caroline', length: '3:50' },
						{ title: 'Tango in the Night', length: '3:56' },
						{ title: 'Mystified', length: '3:08' },
					],
				},
			],
		},
	]
</script>

{#each artists as artist}
  <Artist artistName={artist.name} />
  {#each artist.albums as album}
		<Album
			albumTitle={album.name}
			albumTracks={album.tracks}
		/>
  {/each}
{/each}

The <Artist /> component takes an artistName prop. To define something as a prop thatā€™s passed in to your component you use the export let prop syntax. You can define multiple props on the same line such as export let prop1, prop2.

Artist.svelte
<script>
	export let artistName
</script>

<h1>{artistName}</h1>

The <Album /> component imports <AlbumTrack /> and loops over the tracks. The {...track} syntax is just spreading the track props which is equivalent to title={title} length={length}. If your props share the same name as the value you can do {title} {length}.

Album.svelte
<script>
	import AlbumTrack from './AlbumTrack.svelte'

	export let albumTitle
	export let albumTracks

	let playing

	function setPlaying(track) {
		playing = track
	}
</script>

<h2>{albumTitle}</h2>

<ul>
  {#each albumTracks as track}
    <AlbumTrack {setPlaying} {playing} {...track} />
  {/each}
</ul>

Weā€™re passing setPlaying to the child component so we can set the currently playing song and check if currentlyPlaying is equal to the current track.

The <AlbumTrack /> component applies a .playing style using the class: directive based on what song is playing which is shorter than using a ternary inside an expression class={playing === title ? 'playing' : ''}.

AlbumTrack.svelte
<script>
	export let setPlaying
	export let playing
  export let title
	export let length
</script>

<li class:playing={playing === title}>
	<button on:click={() => setPlaying(title)}>ā–¶ļø</button>
  <span>{title}</span>
	<span>šŸ•’ļø {length}</span>
</li>

<style>
	.playing {
		color: teal;
	}
</style>

We can also use a reactive statement $: playing = playing === title for playing and since it matches the class name we want to apply we can simplify the code and write class:playing.

AlbumTrack.svelte
<script>
	export let setPlaying
	export let playing
  export let title
	export let length

	$: playing = playing === title
</script>

<li class:playing>
	<button on:click={() => setPlaying(title)}>ā–¶ļø</button>
  <span>{title}</span>
	<span>šŸ•’ļø {length}</span>
</li>

<style>
	.playing {
		color: teal;
	}
</style>

Slots

In Svelte we can use slots to compose components meaning our components can contain other components and elements to be more reusable like regular HTML.

Example.html
<button>
	<span>Child</span>
</button>

The <slot> element lets us do that with components. If youā€™re familiar with React this is similar to the children prop and Vue also has slots. We can provide a fallback if no content is provided.

Button.svelte
<button>
  <slot>Placeholder</slot>
</button>

<style>
	button {
		color: teal;
	}
</style>
App.svelte
<script>
	import Button from './Button.svelte'
</script>

<Button>
  <span>Child</span>
</Button>

<Button />

You can use named slots for more control over the placement of elements. If you want multiple elements going into the same slot use the <svelte:fragment> element as the wrapper.

Button.svelte
<button>
	<slot name="icon"></slot>
	<slot name="text"></slot>
</button>
App.svelte
<script>
	import Button from './Button.svelte'
</script>

<Button>
  <span slot="icon">āž•</span>
	<span slot="text">Add</span>
</Button>

<Button>
  <span slot="icon">šŸ’©</span>
	<span slot="text">Delete</span>
</Button>

You might be asking when youā€™d use slots over regular components and the answer might be not often and thatā€™s fine.

Hereā€™s an example of slots and composition used in a real-world scenario in Svelte Cubed thatā€™s a wrapper around Three.js so you write less code because itā€™s more declarative:

Example.svelte
<script>
	import * as SC from 'svelte-cubed';
	import * as THREE from 'three';
</script>

<SC.Canvas>
	<SC.Mesh geometry={new THREE.BoxGeometry()} />
	<SC.PerspectiveCamera position={[1, 1, 3]} />
</SC.Canvas>

This is only a couple of lines of code compared to the equivalent Three.js code which has more than 20 lines of code and itā€™s harder to read.

Thereā€™s a lot more you can do with slot props but I encourage you to read the slots documentation because slots deserve their separate post.

Transitions

Animations in Svelte are first-class so you donā€™t have to reach for an animation library unless you want to. To use transitions you can import blur, fly, slide, scale, draw and crossfade from svelte/transition.

To use a transition use transition:fade. You can specify parameters such as delay, duration, easing for fade. To learn what they are for each transition consult the documentation.

App.svelte
<script>
	import { fade } from 'svelte/transition'

	let showFade = false

	function toggleFade() {
		showFade = !showFade
	}
</script>

<button on:click={toggleFade}>Wax poetic</button>

{#if showFade}
	<blockquote transition:fade={{delay: 250, duration: 300}}>
		Memories fade, but friends are forever
	</blockquote>
{/if}

You can specify a enter animation with in:fade and exit animation with out:fade but youā€™re not limited to one transition.

In Svelte you can define custom animations such as this typewriter effect, use spring and tweened motion and make smooth transitions between elements using flip animations.

Svelte Store

Passing data from parent to child component is described as data flowing top to bottom but Svelte lets you reverse the flow using bindings, event forwarding and the context API which you donā€™t have to know right now because passing props is fine in most cases where you donā€™t have deeply nested components.

However, one feature youā€™re going to use all the time is the Svelte store which is Svelteā€™s answer to global state management. You would reach for a store if you have information that is required by multiple unrelated components such as the logged in user or theme.

The Svelte store is just an object you can subscribe to for updates when the store value changes and set and update values. You can have writable stores to read and write to, readable stores if you donā€™t want values to be set from the outside and derived stores if you want to use values from multiple stores.

(If youā€™re trying this out in the Svelte REPL itā€™s not obvious how to change the file extension but if you just type the file name such as stores.js itā€™s going to change it.)

stores.js
import { writable } from 'svelte/store'

export let message = writable('Hello šŸ‘‹')

You can use the reactive $message syntax to access the value. This also subscribes and unsubscribes to the store for you.

Alert.svelte
<script>
	import { message } from './stores.js'

	function updateStore() {
		$message = 'Bye šŸ‘‹'
	}
</script>

<p>{$message}</p>
<button on:click={updateStore}>Click</button>

You can create your own stores by implementing the store contract. It must contain a subscribe method thatā€™s going to be a subscription function and return a unsubscribe function and it may include a set method to update the value.

Hereā€™s an example of a writable local storage store you can use to set and update a value in local storage.

localStorageStore.js
import { writable } from 'svelte/store'

export function localStorageStore(key, initial) {
  if (!localStorage.getItem(key)) {
    localStorage.setItem(key, JSON.stringify(initial))
  }

  let saved = JSON.parse(localStorage.getItem(key))
  let { subscribe, set, update } = writable(saved)

  return {
    subscribe,
    set: (value) => {
      localStorage.setItem(key, JSON.stringify(value))
      return set(value)
    },
    update
  }
}
App.svelte
<script>
import { localStorageStore } from './localStorageStore.js'

let message = localStorageStore('message', 'Hello šŸ‘‹')

$message = 'Bye šŸ‘‹'
</script>

{$message}

The Svelte store is incredibly powerful and deserves an entire post so I encourage you to go through the Svelte tutorial and consult the documentation to learn more.

Further Reading

Join me in the next post where we take what we learned to build a Svelte todo app with animations and persistent storage šŸ˜.

Youā€™re ready to build some Svelte apps! šŸ‘ When you get more comfortable or encounter problems that require these solutions then you should learn and reach for them:

Conclusion

Svelte is amazing for building all kinds of things and delivers a great developer and user experience.

I hope what stuck most is learning the concepts behind JavaScript frameworks because if you understand JavaScript you can learn any JavaScript framework and be productive quicker.

Thanks for reading! šŸ„ļø

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