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LiveSvelte

GitHub Hex.pm

Svelte inside Phoenix LiveView with seamless end-to-end reactivity

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FeaturesResourcesDemoInstallationUsageDeployment

Features

  • End-To-End Reactivity with LiveView
  • 🔋 Server-Side Rendered (SSR) Svelte
  • 🪄 Sigil as an Alternative LiveView DSL
  • Svelte Preprocessing Support with svelte-preprocess
  • 🦄 Tailwind Support
  • 💀 Dead View Support
  • 🤏 live_json Support
  • 🦥 Slot Interoperability (Experimental)

Resources

Demo

For a full intro and demo check out the YouTube introduction

/examples/advanced_chat

225778578-98ac2197-0b6d-4aa2-9c7f-76c096c9b75c.webm

Svelte handles the look and feel of the chat, while LiveView takes care of syncing. E2E reactivity to the Svelte component so we don't really need to fetch anything! The 'login' to enter your name is a simple LiveView form. Hybrid!

/examples/breaking_news

221381302-c9ff31fb-77a0-44f2-8c79-1a1a6b7e5893.webm

News items are synced with the server while the speed is only client side.

Why LiveSvelte

Phoenix LiveView enables rich, real-time user experiences with server-rendered HTML. It works by communicating any state changes through a websocket and updating the DOM in realtime. You can get a really good user experience without ever needing to write any client side code.

LiveSvelte builds on top of Phoenix LiveView to allow for easy client side state management while still allowing for communication over the websocket.

Reasons why you'd use LiveSvelte

  • You have (complex) local state
  • You want to take full advantage of Javascript's ecosystem
  • You want to take advantage of Svelte's animations
  • You want scoped CSS
  • You like Svelte and its DX :)

Requirements

For Server-Side Rendering (SSR) to work you need node (version 19 or later) installed in your environment.

Make sure you have it installed in production too. You might be using node in the build step, but it might actually not be installed in your production environment.

You can make sure you have node installed by running node --version in your project directory.

If you don't want SSR, you can disable it by not setting NodeJS.Supervisor in application.ex. More on that in the SSR section of this document.

Installation

If you're updating from an older version, make sure to check the CHANGELOG.md for breaking changes.

  1. Add live_svelte to your list of dependencies in mix.exs:
defp deps do
  [
    {:live_svelte, "~> 0.13.0"}
  ]
end
  1. Adjust the setup and assets.deploy aliases in mix.exs:
defp aliases do
  [
    setup: ["deps.get", "ecto.setup", "cmd --cd assets npm install"],
    ...,
    "assets.deploy": ["tailwind default --minify", "cmd --cd assets node build.js --deploy", "phx.digest"]
  ]
end

Note: tailwind default --minify is only required in the assets.deploy alias if you're using Tailwind. If you are not using Tailwind, you can remove it from the list.

  1. Run the following in your terminal
mix deps.get
mix live_svelte.setup
  1. Add import LiveSvelte in html_helpers/0 inside /lib/<app_name>_web.ex like so:
# /lib/<app_name>_web.ex

defp html_helpers do
  quote do

    # ...

    import LiveSvelte  # <-- Add this line

    # ...

  end
end
  1. For tailwind support, add "./svelte/**/*.svelte" to content in the tailwind.config.js file
...
content: [
  ...
  "./svelte/**/*.svelte"
],
...
  1. Finally, remove the esbuild configuration from config/config.exs and remove the dependency from the deps function in your mix.exs, and you are done!

What did we do?

Phoenix's default configuration of esbuild (via the Elixir wrapper) does not allow you to use esbuild plugins. The standard Elixir esbuild package works great for simple projects with Phoenix hooks, but to use LiveSvelte we need a more complex setup.

To use plugins, Phoenix recommends replacing the default build system with a build script. So, in setup, we go from using the standard esbuild package to using esbuild directly as a node_module.

As a result, you'll notice some related changes:

  • A bunch of files get created in /assets.
  • There are some code changes in /lib.
  • We no longer use the standard Elixir esbuild watcher, as we created a new watcher that does the same thing.

The setup process commented out some lines of code, like configuration in dev.exs. It's safe to delete commented-out code if you desire.

Usage

Svelte components need to go into the assets/svelte directory

Attributes:

  • name: Specify the Svelte component
  • props (Optional): Provide the props you want to use that should be reactive as a map to the props field
  • class (Optional): Provide class to set the class attribute on the root svelte element
  • ssr (Optional): Set ssr to false to disable server-side rendering

e.g. If your component is named assets/svelte/Example.svelte:

def render(assigns) do
  ~H"""
  <.svelte name="Example" props={%{number: @number}} socket={@socket} />
  """
end

If your component is in a directory, for example assets/svelte/some-directory/SomeComponent.svelte you need to include the directory in your name: some-directory/SomeComponent.

The Components Macro

There is also an Elixir macro which checks your assets/svelte folder for any Svelte components, and injects local function defs for those components into the calling module.

This allows for an alternative, more JSX-like authoring experience inside Liveviews.

e.g. in the below example, a Svelte component called Example is available to be called inside the Liveview template:

use LiveSvelte.Components

def render(assigns) do
  ~H"""
  <.Example number={@number} socket={@socket} />
  """
end

Examples

Examples can be found in the /examples and /example_project directories.

Most of the /example_project examples are visible in the YouTube demo video.

I recommend cloning live_svelte and running the example project in /example_project by running the following commands:

git clone https://github.com/woutdp/live_svelte.git
mix assets.build
cd ./live_svelte/example_project
npm install --prefix assets
mix deps.get
mix phx.server

Server should be running on localhost:4000

If you have examples you want to add, feel free to create a PR, I'd be happy to add them.

Create a Svelte component

<script>
    // The number prop is reactive,
    // this means if the server assigns the number, it will update in the frontend
    export let number = 1
    // live contains all exported LiveView methods available to the frontend
    export let live

    function increase() {
        // This pushes the event over the websocket
        // The last parameter is optional. It's a callback for when the event is finished.
        // You could for example set a loading state until the event is finished if it takes a longer time.
        live.pushEvent("set_number", {number: number + 1}, () => {})

        // Note that we actually never set the number in the frontend!
        // We ONLY push the event to the server.
        // This is the E2E reactivity in action!
        // The number will automatically be updated through the LiveView websocket
    }

    function decrease() {
        live.pushEvent("set_number", {number: number - 1}, () => {})
    }
</script>

<p>The number is {number}</p>
<button on:click={increase}>+</button>
<button on:click={decrease}>-</button>

Note: that here we use the pushEvent function, but you could also use phx-click and phx-value-number if you wanted.

The following methods are available on live:

  • pushEvent
  • pushEventTo
  • handleEvent
  • removeHandleEvent
  • upload
  • uploadTo

These need to be run on the client, they can't be run in SSR. Either make sure they're called on an action (e.g. clicking a button) or wrap them with onMount.

More about this in the LiveView documentation on js-interop

Create a LiveView

# `/lib/app_web/live/live_svelte.ex`
defmodule AppWeb.SvelteLive do
  use AppWeb, :live_view

  def render(assigns) do
    ~H"""
    <.svelte name="Example" props={%{number: @number}} socket={@socket} />
    """
  end

  def handle_event("set_number", %{"number" => number}, socket) do
    {:noreply, assign(socket, :number, number)}
  end

  def mount(_params, _session, socket) do
    {:ok, assign(socket, :number, 5)}
  end
end
# `/lib/app_web/router.ex`
import Phoenix.LiveView.Router

scope "/", AppWeb do
  ...
  live "/svelte", SvelteLive
  ...
end

LiveSvelte As An Alternative LiveView DSL

Blogpost on the topic

We can go one step further and use LiveSvelte as an alternative to the standard LiveView DSL. This idea is inspired by Surface UI.

Take a look at the following example:

defmodule ExampleWeb.LiveSigil do
  use ExampleWeb, :live_view

  def render(assigns) do
    ~V"""
    <script>
      export let number = 5
      let other = 1

      $: combined = other + number
    </script>

    <p>This is number: {number}</p>
    <p>This is other: {other}</p>
    <p>This is other + number: {combined}</p>

    <button phx-click="increment">Increment</button>
    <button on:click={() => other += 1}>Increment</button>
    """
  end

  def mount(_params, _session, socket) do
    {:ok, assign(socket, :number, 1)}
  end

  def handle_event("increment", _value, socket) do
    {:noreply, assign(socket, :number, socket.assigns.number + 1)}
  end
end

Use the ~V sigil instead of ~H and your LiveView will be Svelte instead of an HEEx template.

Installation

  1. If it's not already imported inside html_helpers/0, add import LiveSvelte inside the live_view function in your project, this can be found in /lib/<app_name>_web.ex:
def live_view do
  quote do
    use Phoenix.LiveView,
      layout: {ExampleWeb.Layouts, :app}

    import LiveSvelte

    unquote(html_helpers())
  end
end
  1. Ignore build files in your .gitignore. The sigil will create Svelte files that are then picked up by esbuild, these files don't need to be included in your git repo:
# Ignore automatically generated Svelte files by the ~V sigil
/assets/svelte/_build/

Neovim Treesitter Config

To enable syntax highlighting in Neovim with Treesitter, create the following file:

~/.config/nvim/after/queries/elixir/injections.scm

; extends

; Svelte
(sigil
  (sigil_name) @_sigil_name
  (quoted_content) @svelte
(#eq? @_sigil_name "V"))

Also make sure Svelte and Elixir is installed in Treesitter.

Options

Options can be passed in the mount by setting svelte_opts, check the following example:

def mount(_params, _session, socket) do
  {:ok, assign(socket, some_value: 1, svelte_opts: %{ssr: false, class: "example-class"})}
end

LiveView Live Navigation Events

Inside Svelte you can define Live Navigation links. These links navigate from one LiveView to the other without refreshing the page.

For example this can be useful when you have a Svelte store and you want this store state to remain during navigation. Example of Svelte store usage can be found in /examples/store.

push_navigate

<a href="/your-liveview-path" data-phx-link="redirect" data-phx-link-state="push">Redirect</a>

push_patch

<a href="/your-liveview-path" data-phx-link="patch" data-phx-link-state="push">Patch</a>

LiveView JavaScript Interoperability

LiveView allows for a bunch of interoperability which you can read more about here: https://hexdocs.pm/phoenix_live_view/js-interop.html

Preprocessor

To use the preprocessor, install the desired preprocessor.

e.g. Typescript

cd assets && npm install --save-dev typescript

SSR (Server-Side Rendering)

If you're unfamiliar with SSR (Server-Side Rendering), it is a feature of Svelte to... render Svelte on the server. This means on first page load you get to see HTML instead of a blank page. Immediately after the first page load the page is 'hydrated', which is a fancy word for adding reactivity to your component. This happens in the background, you don't notice this step happening.

The way LiveSvelte updates itself through LiveView is by letting Svelte handle all the HTML edits. Usually LiveView would edit the HTML by passing messages through the websocket. In our case we only pass the data we provided in the props attribute to Svelte through the websocket. No HTML is being touched by LiveView, Svelte takes care of that.

Like mentioned, without SSR you'd see a brief flash of un-rendered content. Sometimes you can get away with not rendering Svelte on the server, for example when your Svelte component doesn't do any rendering on first page load and needs to be manually toggled for visibility by the user. Or when it is a component that has no visual component to it like tracking your mouse cursor and sending it back to the server.

In theses cases you can turn off SSR.

Disabling SSR

SSR is enabled by default when you install LiveSvelte. If you don't want to use Server-Side Rendering for Svelte, you have 2 options:

Globally

If you don't want to use SSR on any component you can disable it globally. This will automatically be the case if you don't include the NodeJS supervisor in the application.ex file

Component

To disable SSR on a specific component, set the ssr property to false. Like so:

<.svelte name="Example" ssr={false} />

live_json

LiveSvelte has support for live_json.

By default, LiveSvelte sends your entire json object over the wire through LiveView. This can be expensive if your json object is big and changes frequently.

live_json on the other hand allows you to only send a diff of the json to Svelte. This is very useful the bigger your json objects get.

Counterintuitively, you don't always want to use live_json. Sometimes it's cheaper to send your entire object again. Although diffs are small, they do add a little bit of data to your json. So if your json is relatively small, I'd recommend not using live_json, but it's something to experiment with for your use-case.

Usage

  1. Install live_json

  2. Use live_json in your project with LiveSvelte. For example:

def render(assigns) do
  ~H"""
    <.svelte name="Component" live_json_props={%{my_prop: @ljmy_prop}} socket={@socket} />
  """
end

def mount(_, _, socket) do
  # Get `my_big_json_object` somehow
  {:ok, LiveJson.initialize("my_prop", my_big_json_object)}
end

def handle_info(%Broadcast{event: "update", payload: my_big_json_object}, socket) do
  {:noreply, LiveJson.push_patch(socket, "my_prop", my_big_json_object)}
end

Example

You can find an example here.

Structs and Ecto

We use Jason to serialize any data you pass in the props so it can be handled by Javascript. Jason doesn't know how to handle structs by default, so you need to define it yourself.

Structs

For example, if you have a regular struct like this:

defmodule User do
  defstruct name: "John", age: 27, address: "Main St"
end

You must define @derive

defmodule User do
  @derive Jason.Encoder
  defstruct name: "John", age: 27, address: "Main St"
end

Be careful though, as you might accidentally leak certain fields you don't want the client to access, you can include which fields to serialize:

defmodule User do
  @derive {Jason.Encoder, only: [:name, :age]}
  defstruct name: "John", age: 27, address: "Main St"
end

Ecto

In ecto's case it's important to also omit the __meta__ field as it's not serializable.

Check out the following example:

defmodule Example.Planets.Planet do
  use Ecto.Schema
  import Ecto.Changeset
  @derive {Jason.Encoder, except: [:__meta__]}

  schema "planets" do
    field :diameter, :integer
    field :mass, :integer
    field :name, :string

    timestamps()
  end

  ...
end

Documentation

More documentation on the topic:

Caveats

Slot Interoperability

Slot interoperability is still experimental, so use with caution!

Svelte doesn't have an official way of setting the slot on mounting the Svelte object or updating it on subsequent changes, unlike props. This makes using slots from within Liveview on a Svelte component fragile.

The server side rendered initial Svelte rendering does have support for slots so that should work as expected.

Slots may eventually reach a state where it is stable, any help in getting there is appreciated. If you know a lot about the internals of Svelte your help may be invaluable here!

Any bugs related to this are welcome to be logged, PR's are especially welcome!

"Secret State"

With LiveView, it's easy to keep things secret. Let's say you have a conditional that only renders when something is true, in LiveView there's no way to know what that conditional will show until it is shown, that's because the HTML is sent over the wire.

With LiveSvelte, we're dealing with JSON being sent to Svelte, which in turn takes that JSON data and conditionally renders something, even if we don't set the conditional to true, the Svelte code will contain code on what to show when the conditional turns true.

In a lot of scenarios this is not an issue, but it can be and is something you should be aware of.

LiveSvelte Development

Local Setup

Example Project

You can use /example_project as a way to test live_svelte locally.

Custom Project

You can also use your own project.

Clone live_svelte to the parent directory of the project you want to test it in.

Inside mix.exs

{:live_svelte, path: "../live_svelte"},

Inside assets/package.json

"live_svelte": "file:../../live_svelte",

Building Static Files

Make the changes in /assets/js and run:

mix assets.build

Or run the watcher:

mix assets.build --watch

Releasing

  • Update the version in README.md
  • Update the version in package.json
  • Update the version in mix.exs
  • Update the changelog

Run:

mix hex.publish

Deployment

Deploying a LiveSvelte app is the same as deploying a regular Phoenix app, except that you will need to ensure that nodejs (version 19 or later) is installed in your production environment.

The below guide shows how to deploy a LiveSvelte app to Fly.io, but similar steps can be taken to deploy to other hosting providers. You can find more information on how to deploy a Phoenix app here.

Deploying on Fly.io

The following steps are needed to deploy to Fly.io. This guide assumes that you'll be using Fly Postgres as your database. Further guidance on how to deploy to Fly.io can be found here.

  1. Generate a Dockerfile:
mix phx.gen.release --docker
  1. Modify the generated Dockerfile to install curl, which is used to install nodejs (version 19 or greater), and also add a step to install our npm dependencies:
# ./Dockerfile

...

# install build dependencies
- RUN apt-get update -y && apt-get install -y build-essential git \
+ RUN apt-get update -y && apt-get install -y build-essential git curl \
    && apt-get clean && rm -f /var/lib/apt/lists/*_*

+ # install nodejs for build stage
+ RUN curl -fsSL https://deb.nodesource.com/setup_19.x | bash - && apt-get install -y nodejs

...

COPY assets assets

+ # install all npm packages in assets directory
+ WORKDIR /app/assets
+ RUN npm install

+ # change back to build dir
+ WORKDIR /app

...

# start a new build stage so that the final image will only contain
# the compiled release and other runtime necessities
FROM ${RUNNER_IMAGE}

RUN apt-get update -y && \
-  apt-get install -y libstdc++6 openssl libncurses5 locales ca-certificates \
+  apt-get install -y libstdc++6 openssl libncurses5 locales ca-certificates curl \
   && apt-get clean && rm -f /var/lib/apt/lists/*_*

+ # install nodejs for production environment
+ RUN curl -fsSL https://deb.nodesource.com/setup_19.x | bash - && apt-get install -y nodejs

...

Note: nodejs is installed BOTH in the build stage and in the final image. This is because we need nodejs to install our npm dependencies and also need it when running our app.

  1. Launch your app with the Fly.io CLI:
fly launch
  1. When prompted to tweak settings, choose y:
? Do you want to tweak these settings before proceeding? (y/N) y

This will launch a new window where you can tweak your launch settings. In the database section, choose Fly Postgres and enter a name for your database. You may also want to change your database to the development configuration to avoid extra costs. You can leave the rest of the settings as-is unless you want to change them.

Deployment will continue once you hit confirm.

  1. Once the deployment completes, run the following command to see your deployed app!
fly apps open

Credits

LiveSvelte Projects

Using LiveSvelte in a public project? Let me know and I'll add it to this list!

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