Yew is a modern Rust framework inspired by Elm and React for creating multi-threaded frontend apps with WebAssembly.
The framework supports multi-threading & concurrency out of the box. It uses Web Workers API to spawn actors (agents) in separate threads and uses a local scheduler attached to a thread for concurrent tasks.
Check out a live demo powered by yew-wasm-pack-template
This framework is designed to be compiled into modern browsers' runtimes: wasm, asm.js, emscripten.
Yew implements strict application state management based on message passing and updates:
src/main.rs
use yew::{html, Component, ComponentLink, Html, ShouldRender};
struct Model {
link: ComponentLink<Self>,
}
enum Msg {
DoIt,
}
impl Component for Model {
// Some details omitted. Explore the examples to see more.
type Message = Msg;
type Properties = ();
fn create(_: Self::Properties, link: ComponentLink<Self>) -> Self {
Model { link }
}
fn update(&mut self, msg: Self::Message) -> ShouldRender {
match msg {
Msg::DoIt => {
// Update your model on events
true
}
}
}
fn view(&self) -> Html {
let onclick = self.link.callback(|_| Msg::DoIt);
html! {
// Render your model here
<button onclick=onclick>{ "Click me!" }</button>
}
}
}
fn main() {
yew::start_app::<Model>();
}
Predictable mutability and lifetimes (thanks Rust!) make it possible to reuse a single instance of the model without a need to create a fresh one on every update. It also helps to reduce memory allocations.
Feel free to put pure Rust code into HTML tags with all the compiler and borrow checker's benefits.
html! {
<section class="todoapp">
<header class="header">
<h1>{ "todos" }</h1>
{ view_input(&model) }
</header>
<section class="main">
<input class="toggle-all"
type="checkbox"
checked=model.is_all_completed()
onclick=|_| Msg::ToggleAll />
{ view_entries(&model) }
</section>
</section>
}
Every Component
can spawn an agent and attach to it.
Agents can coordinate global state, spawn long-running tasks, and offload tasks to a web worker.
They run independently of components, but hook nicely into their update mechanism.
use yew::worker::*;
struct Worker {
link: AgentLink<Worker>,
}
#[derive(Serialize, Deserialize, Debug)]
pub enum Request {
Question(String),
}
#[derive(Serialize, Deserialize, Debug)]
pub enum Response {
Answer(String),
}
impl Agent for Worker {
// Available:
// - `Job` (one per bridge on the main thread)
// - `Context` (shared in the main thread)
// - `Private` (one per bridge in a separate thread)
// - `Public` (shared in a separate thread)
type Reach = Context; // Spawn only one instance on the main thread (all components can share this agent)
type Message = Msg;
type Input = Request;
type Output = Response;
// Create an instance with a link to the agent.
fn create(link: AgentLink<Self>) -> Self {
Worker { link }
}
// Handle inner messages (from callbacks)
fn update(&mut self, msg: Self::Message) { /* ... */ }
// Handle incoming messages from components of other agents.
fn handle_input(&mut self, msg: Self::Input, who: HandlerId) {
match msg {
Request::Question(_) => {
self.link.respond(who, Response::Answer("That's cool!".into()));
},
}
}
}
Build the bridge to an instance of this agent. It spawns a worker automatically or reuses an existing one, depending on the type of the agent:
struct Model {
context: Box<Bridge<context::Worker>>,
}
enum Msg {
ContextMsg(context::Response),
}
impl Component for Model {
type Message = Msg;
type Properties = ();
fn create(_: Self::Properties, link: ComponentLink<Self>) -> Self {
let callback = link.callback(|_| Msg::ContextMsg);
// `Worker::bridge` spawns an instance if no one is available
let context = context::Worker::bridge(callback); // Connected! :tada:
Model { context }
}
}
You can use as many agents as you want. For example you could separate all interactions with a server to a separate thread (a real OS thread because Web Workers map to the native threads).
REMEMBER! Not every API is available for every environment. For example you can't use
StorageService
from a separate thread. It won't work withPublic
orPrivate
agents, only withJob
andContext
ones.
Yew supports components! You could create a new one by implementing a Component
trait
and including it directly into the html!
template:
html! {
<nav class="menu">
<MyButton title="First Button" />
<MyButton title="Second Button "/>
<MyList name="Grocery List">
<MyListItem text="Apples" />
</MyList>
</nav>
}
Components live in an Angular-like scopes with parent-to-child (properties) and child-to-parent (events) interaction.
Properties are also pure Rust types with strict type-checking during the compilation.
// my_button.rs
#[derive(Clone, Properties, PartialEq)]
pub struct Properties {
pub hidden: bool,
#[props(required)]
pub color: Color,
#[props(required)]
pub onclick: Callback<()>,
}
// confirm_dialog.rs
html! {
<div class="confirm-dialog">
<MyButton onclick=|_| DialogMsg::Cancel color=Color::Red hidden=true />
<MyButton onclick=|_| DialogMsg::Submit color=Color::Blue />
</div>
}
Yew supports fragments: elements without a parent which can be attached to one somewhere else.
html! {
<>
<tr><td>{ "Row" }</td></tr>
<tr><td>{ "Row" }</td></tr>
<tr><td>{ "Row" }</td></tr>
</>
}
Yew uses its own virtual-dom implementation. It updates the browser's DOM with tiny patches when properties of elements have changed. Every component can be interacted with using its (Scope
) to pass messages and trigger updates.
The ShouldRender
returns the value which informs the loop when the component should be re-rendered:
fn update(&mut self, msg: Self::Message) -> ShouldRender {
match msg {
Msg::UpdateValue(value) => {
self.value = value;
true
}
Msg::Ignore => {
false
}
}
}
Using ShouldRender
is more effective than comparing the model after every update because not every change to the model
causes an update to the view. It allows the framework to only compare parts of the model essential to rendering the view.
Use single-line or multi-line Rust comments inside html-templates.
html! {
<section>
/* Write some ideas
* in multiline comments
*/
<p>{ "and tags can be placed between comments!" }</p>
// <li>{ "or single-line comments" }</li>
</section>
}
Use external crates and put values from them into the template:
extern crate chrono;
use chrono::prelude::*;
impl Renderable for Model {
fn render(&self) -> Html {
html! {
<p>{ Local::now() }</p>
}
}
}
Some crates don't support the
wasm32-unknown-unknown
target yet.
Yew has implemented pluggable services that allow you to call external APIs, such as: JavaScript alerts, timeout, storage, fetches and websockets. It's a handy alternative to subscriptions.
Implemented:
IntervalService
RenderService
ResizeService
TimeoutService
StorageService
DialogService
ConsoleService
FetchService
WebSocketService
KeyboardService
use yew::services::{ConsoleService, TimeoutService};
struct Model {
link: ComponentLink<Model>,
console: ConsoleService,
timeout: TimeoutService,
}
impl Component for Model {
fn update(&mut self, msg: Self::Message) -> ShouldRender {
match msg {
Msg::Fire => {
let timeout = self.link.callback(|_| Msg::Timeout);
self.timeout.spawn(Duration::from_secs(5), timeout);
}
Msg::Timeout => {
self.console.log("Timeout!");
}
}
}
}
Can't find an essential service? Want to use a library from npm
?
You can wrap JavaScript
libraries using stdweb
and create
your own service implementation. Here's an example below of how to wrap the
ccxt library:
pub struct CcxtService(Option<Value>);
impl CcxtService {
pub fn new() -> Self {
let lib = js! {
return ccxt;
};
CcxtService(Some(lib))
}
pub fn exchanges(&mut self) -> Vec<String> {
let lib = self.0.as_ref().expect("ccxt library object lost");
let v: Value = js! {
var ccxt = @{lib};
console.log(ccxt.exchanges);
return ccxt.exchanges;
};
let v: Vec<String> = v.try_into().expect("can't extract exchanges");
v
}
// Wrap more methods here!
}
Yew allows for serialization (store/send and restore/receive) formats.
Implemented: JSON
, TOML
, YAML
, MSGPACK
, CBOR
.
In development: BSON
, XML
.
use yew::format::Json;
#[derive(Serialize, Deserialize)]
struct Client {
first_name: String,
last_name: String,
}
struct Model {
local_storage: StorageService,
clients: Vec<Client>,
}
impl Component for Model {
fn update(&mut self, msg: Self::Message) -> ShouldRender {
Msg::Store => {
// Stores it, but in JSON format/layout
self.local_storage.store(KEY, Json(&model.clients));
}
Msg::Restore => {
// Tries to read and destructure it as JSON formatted data
if let Json(Ok(clients)) = self.local_storage.restore(KEY) {
model.clients = clients;
}
}
}
}
Only JSON
is available by default but you can activate the rest through features in
your project's Cargo.toml
:
[dependencies]
yew = { git = "https://github.com/yewstack/yew", features = ["toml", "yaml", "msgpack", "cbor"] }
Clone or download this repository.
Install cargo-web
This is an optional tool that simplifies deploying web applications:
cargo install cargo-web
Add
--force
option to ensure you install the latest version.
cargo web build
# without cargo-web, only the wasm32-unknown-unknown target is supported
cargo build --target wasm32-unknown-unknown
For the tests to work one have to ensure that wasm-bindgen-cli
is installed.
Instructions
Additionally a webdriver must be installed locally and configured to be on the
PATH
. Currently supports geckodriver
, chromedriver
, and safaridriver
,
although more driver support may be added! You can download these at:
- geckodriver - https://github.com/mozilla/geckodriver/releases
- chromedriver - http://chromedriver.chromium.org/downloads
- safaridriver - should be preinstalled on OSX
./ci/run_tests.sh
There are many examples that show how the framework works: counter, crm, custom_components, dashboard, fragments, game_of_life, mount_point, npm_and_rest, timer, todomvc, two_apps.
To start an example enter its directory and start it with cargo-web:
cargo web start
To run an optimised build instead of a debug build use:
cargo web start --release
This will use the wasm32-unknown-unknown
target by default, which is Rust's native WebAssembly target.
The Emscripten-based wasm32-unknown-emscripten
and asmjs-unknown-emscripten
targets are also supported
if you tell the cargo-web
to build for them using the --target
parameter.
This project exists thanks to all the people who contribute. [Contribute].
Become a financial contributor and help us sustain our community. [Contribute]
Support this project with your organization. Your logo will show up here with a link to your website. [Contribute]