Crates.io | yew-state |
lib.rs | yew-state |
version | 0.5.2 |
source | src |
created_at | 2020-07-13 07:21:34.663771 |
updated_at | 2021-04-11 03:14:09.973483 |
description | No longer maintained. Please use Yewdux instead. |
homepage | |
repository | https://github.com/intendednull/yew-state |
max_upload_size | |
id | 264629 |
size | 50,043 |
yew-state will no longer receive updates. Please use Yewdux instead.
State management in Yew can become complex, especially when many components need mutable access to shared state. This crate simplifies that access (comparable to context hooks in React) so you can spend less time writing boilerplate!
Install this package from your terminal:
$ cargo install cargo-edit
$ cargo add yew-state
Or add it to your project's Cargo.toml
:
[dependencies]
yew-state = "^0.4"
Give your components shared state by adding SharedHandle
properties and wrapping them in
SharedStateComponent
.
use yew::prelude::*;
use yew_state::{SharedHandle, SharedStateComponent};
use yewtil::NeqAssign;
type Handle = SharedHandle<u64>;
enum Msg {
Reset,
}
struct Model {
handle: Handle,
link: ComponentLink<Self>,
}
impl Component for Model {
type Properties = Handle;
type Message = Msg;
fn create(handle: Self::Properties, link: ComponentLink<Self>) -> Self {
Self { handle, link }
}
fn update(&mut self, msg: Self::Message) -> ShouldRender {
match msg {
Msg::Reset => {
// Reset count to 0.
self.handle.reduce(|count| *count = 0);
// Don't render yet, receive changes in `change`.
false
}
}
}
fn change(&mut self, handle: Self::Properties) -> ShouldRender {
// Receive new state here.
self.handle.neq_assign(handle)
}
fn view(&self) -> Html {
// Increment count by 1.
let incr = self.handle.reduce_callback(|count| *count += 1);
// Emit message to reset count.
let reset = self.link.callback(|_| Msg::Reset);
html! {
<>
<button onclick=incr>{ self.handle.state() }</button>
<button onclick=reset>{"Reset"}</button>
</>
}
}
}
type App = SharedStateComponent<Model>;
StateView
components are a convenient way to write quick and simple access to shared state. At the
cost of a little control, they require almost no boilerplate:
use yew::prelude::*;
use yew_state::{component, SharedHandle, StateView};
fn view_counter() -> Html {
type Handle = SharedHandle<u64>;
let view = component::view(|handle: &Handle| {
// Increment count by 1.
let incr = handle.reduce_callback(|count| *count += 1);
// Reset count to 0.
let reset = handle.reduce_callback(|count| *count = 0);
html! {
<>
<button onclick=incr>{ handle.state() }</button>
<button onclick=reset>{"Reset"}</button>
</>
}
});
html! {
<StateView<Handle> view=view />
}
}
Shared state is accessed through state handles (SharedHandle
or StorageHandle
), which are
managed by the component wrapper SharedStateComponent
. This wrapper takes care of all the boring
message passing for sending and receiving updates to state. Updated state is then passed to your
component like any other properties, handled in Component::change
.
Add the following to your component to give it shared state (other details omitted):
use yew::prelude::*;
use yew_state::{SharedHandle, SharedStateComponent};
#[derive(Default, Clone)]
struct MyState {
// ..
}
struct Model {
handle: SharedHandle<MyState>,
}
impl Component for Model {
type Properties = SharedHandle<MyState>;
// ..
}
type MyComponent = SharedStateComponent<Model>;
state
provides a reference to current state:
let state: &MyState = self.handle.state();
reduce
lets you mutate shared state directly:
// SharedHandle<UserState>
self.handle.reduce(move |user| *user = new_user);
reduce_callback
allows modifying shared state from a callback:
// SharedHandle<usize>
let onclick = self.handle.reduce_callback(|state| *state += 1);
html! {
<button onclick=onclick>{"+1"}</button>
}
reduce_callback_with
provides the fired event as well:
// SharedHandle<UserState>
let oninput = self
.handle
.reduce_callback_with(|user, i: InputData| user.name = i.value);
html! {
<input type="text" placeholder="Enter your name" oninput=oninput />
}
reduce_callback_once
and reduce_callback_once_with
are also provided for Callback::Once
variants.
StateView
supports a couple other hooks in addition to view
which allow a little more control
over component behavior: rendered
and change
.
use yew::prelude::*;
use yew_state::{component, SharedHandle, StateView};
fn view_counter() -> Html {
type Handle = SharedHandle<usize>;
// Display counter button.
let view = component::view(|handle: &Handle| {
let onclick = handle.reduce_callback(|count| *count += 1);
html! {
<button onclick=onclick>{ handle.state() }</button>
}
});
// Magically set count to 1 for example.
let rendered = component::rendered(|handle: &Handle, first_render| {
if first_render {
handle.reduce(|count| *count = 1);
}
});
// Reset count to 0 if greater than 10.
let change = component::change(|old: &Handle, new: &Handle| -> ShouldRender {
if *new.state() > 10 {
new.reduce(|count| *count = 0);
}
old != new
});
html! {
<StateView<Handle, SCOPE> view=view rendered=rendered change=change />
}
}
State handles derive Properties
for convenience, but they can also be used from your own
properties. Just implement SharedState
:
#[derive(Clone, Properties)]
pub struct Props {
#[prop_or_default]
handle: SharedHandle<AppState>,
}
impl SharedState for Props {
type Handle = SharedHandle<AppState>;
fn handle(&mut self) -> &mut Self::Handle {
&mut self.handle
}
}
TODO: Add derive macro for SharedState
To make state persistent use a StorageHandle
. This requires your state to also implement
Serialize
, Deserialize
, and Storable
.
use serde::{Serialize, Deserialize};
use yew_state::{Storable, Area};
#[derive(Clone, Default, Serialize, Deserialize)]
struct T;
impl Storable for T {
fn area() -> Area {
Area::Session // Default is Area::Local
}
}
Now your state won't be lost on refresh or if the user navigates away.
TODO: Add derive macro for Storable
By default all components use the same scope. Components only share state with other components that have the same scope; changes to shared state in one scope do not affect components in a different one.
To change a component's scope simply give it a different scope type:
struct MyScope;
type MyComponent = SharedStateComponent<MyModel, MyScope>;
To customize state management for your app, you can define your own StateHandler
. This behaves
similarly to an agent, and lets your components create their own bridge for message passing (without
a component wrapper and handle).
There are two examples demonstrating how state handlers are used. examples/handler_bridge
shows a
simple bridge that talks directly to your state handler. examples/service_bridge
also talks to
your state handler, as well as its parent StateService. This is useful when you want to receive
updates to state (basically what the component wrapper does for you).
This example demonstrates how two counters with different scopes can be incremented independently.
use yew::prelude::*;
use yew_state::{component, SharedHandle, StateView};
struct FooScope;
struct BarScope;
fn view_counter<SCOPE: 'static>() -> Html {
type Handle = SharedHandle<usize>;
let view = component::view(|handle: &Handle| {
let onclick = handle.reduce_callback(|count| *count += 1);
html! {
<button onclick=onclick>{ handle.state() }</button>
}
});
html! {
<StateView<Handle, SCOPE> view=view />
}
}
struct App;
impl Component for App {
type Message = ();
type Properties = ();
fn create(_props: Self::Properties, _link: ComponentLink<Self>) -> Self {
Self
}
fn update(&mut self, _msg: Self::Message) -> ShouldRender {
false
}
fn change(&mut self, _props: Self::Properties) -> ShouldRender {
false
}
fn view(&self) -> Html {
html! {
<>
<h1>{"FooScope"}</h1>
{ view_counter::<FooScope>() }
<h1>{"BarScope"}</h1>
{ view_counter::<BarScope>() }
</>
}
}
}
We use a clone on write pattern to make changes to shared state. This lets components decide when to
receive changes in Component::change
. If you need to share state that is expensive to clone, be
sure to wrap it in an Rc
!
It helps to break up your app state so components only share what they need. This way components aren't
notified of changes that they don't care about. For example layout components might share a
LayoutState
that can be updated without affecting your other components every time the layout
changes.
For sanity's sake try to only modify shared state from a few components. As your app grows in complexity it can become increasingly difficult to keep track of which components are mutating state.
Consider our quickstart example with a slight modification:
fn view_counter() -> Html {
type Handle = SharedHandle<u64>;
let view = component::view(|handle: &Handle| {
// Increment count by 1 right away.
// THIS WILL NEVER STOP COUNTING!
handle.reduce(|count| *count += 1);
// Increment count by 1.
let incr = handle.reduce_callback(|count| *count += 1);
// Reset count to 0.
let reset = handle.reduce_callback(|count| *count = 0);
html! {
<>
<button onclick=incr>{ handle.state() }</button>
<button onclick=reset>{"Reset"}</button>
</>
}
});
html! {
<StateView<Handle> view=view />
}
}
This will compile, but as soon as view_counter
is rendered your app will freeze as the counter
infinitely increments itself.
The above example can be fixed like so:
if *handle.state() == 0 {
handle.reduce(|count| *count += 1);
}
This is a simple example but it can happen many different ways. If your app is freezing, chances are you've got a component caught in a render loop.