State
'State' is a general term that refers to the values and objects that are stored on a class or an instance of a class for use now or in the future.
Like a regular TypeScript class, a Rindo component may have one or more internal class members for holding value(s)
that make up the component's state. Rindo allows developers to optionally mark class members holding some part of the
class's state with the @State()
decorator to trigger a rerender when the state changes.
The State Decorator (@State
)​
Rindo provides a decorator to trigger a rerender when certain class members change. A component's class members that
should trigger a rerender must be decorated using Rindo's @State()
decorator, like so:
// First, we import State from '@rindo/core'
import { Component, State, h } from '@rindo/core';
@Component({
tag: 'current-time',
})
export class CurrentTime {
// Second, we decorate a class member with @State()
// When `currentTime` changes, a rerender will be
// triggered
@State() currentTime: number = Date.now();
render() {
// Within the component's class, its members are
// accessed via `this`. This allows us to render
// the value stored in `currentTime`
const time = new Date(this.currentTime).toLocaleTimeString();
return <span>{time}</span>;
}
}
In the example above, @State()
is placed before (decorates) the currentTime
class member, which is a number. This
marks currentTime
so that any time its value changes, the component rerenders.
However, the example above doesn't demonstrate the real power of using @State
. @State
members are meant to only be
updated within a class, which the example above never does after the initial assignment of currentTime
. This means
that our current-time
component will never rerender! We fix that in the example below to update current-time
every
1000 milliseconds (1 second):
import { Component, State, h } from '@rindo/core';
@Component({
tag: 'current-time',
})
export class CurrentTime {
timer: number;
// `currentTime` is decorated with `@State()`,
// as we need to trigger a rerender when its
// value changes to show the latest time
@State() currentTime: number = Date.now();
connectedCallback() {
this.timer = window.setInterval(() => {
// the assignment to `this.currentTime`
// will trigger a re-render
this.currentTime = Date.now();
}, 1000);
}
disconnectedCallback() {
window.clearInterval(this.timer);
}
render() {
const time = new Date(this.currentTime).toLocaleTimeString();
return <span>{time}</span>;
}
}
The example above makes use of the connectedCallback() lifecycle method
to set currentTime
to the value of Date.now()
every 1000 milliseconds (or, every one second). Because the value of
currentTime
changes every second, Rindo calls the render
function on current-time
, which pretty-prints the
current time.
The example above also makes use of the
disconnectedCallback() lifecycle method to properly clean up the timer
that was created using setInterval
in connectedCallback()
. This isn't necessary for using @State
, but is a general
good practice when using setInterval
.
When to Use @State()
?​
@State()
should be used for all class members that should trigger a rerender when they change. However, not all
internal state might need to be decorated with @State()
. If you know for sure that the value will either not change or
that it does not need to trigger a re-rendering, @State()
is not necessary. It is considered a 'best practice' to
only use @State()
when absolutely necessary. Revisiting our current-time
component:
import { Component, State, h } from '@rindo/core';
@Component({
tag: 'current-time',
})
export class CurrentTime {
// `timer` is not decorated with `@State()`, as
// we do not wish to trigger a rerender when its
// value changes
timer: number;
// `currentTime` is decorated with `@State()`,
// as we need to trigger a rerender when its
// value changes to show the latest time
@State() currentTime: number = Date.now();
connectedCallback() {
// the assignment to `this.timer` will not
// trigger a re-render
this.timer = window.setInterval(() => {
// the assignment to `this.currentTime`
// will trigger a re-render
this.currentTime = Date.now();
}, 1000);
}
disconnectedCallback() {
window.clearInterval(this.timer);
}
render() {
const time = new Date(this.currentTime).toLocaleTimeString();
return <span>{time}</span>;
}
}
Examples​
Using @State()
with @Listen()
​
This example makes use of @State
and @Listen
decorators. We define a class member
called isOpen
and decorate it with @State()
. With the use of @Listen()
, we respond to click events toggling the
value of isOpen
.
import { Component, Listen, State, h } from '@rindo/core';
@Component({
tag: 'my-toggle-button',
})
export class MyToggleButton {
// `isOpen` is decorated with `@State()`,
// changes to it will trigger a rerender
@State() isOpen: boolean = true;
@Listen('click', { capture: true })
handleClick() {
// whenever a click event occurs on
// the component, update `isOpen`,
// triggering the rerender
this.isOpen = !this.isOpen;
}
render() {
return <button>{this.isOpen ? 'Open' : 'Closed'}</button>;
}
}
Complex Types​
For more advanced use cases, @State()
can be used with a complex type. In the example below, we print a list of Item
entries. Although we start with zero Item
s initially, we use the same pattern as we did before to add a new Item
to
ItemList
's items
array once every 2000 milliseconds (2 seconds). Every time a new entry is added to items
, a
rerender occurs:
import { Component, State, h } from '@rindo/core';
// a user defined, complex type describing an 'Item'
type Item = {
id: number;
description: string;
};
@Component({
tag: 'item-list',
})
export class ItemList {
// `timer` is not decorated with `@State()`, as
// we do not wish to trigger a rerender when its
// value changes
timer: number;
// `items` will trigger a rerender if
// the value assigned to the variable changes
@State() items: Item[] = [];
connectedCallback() {
// the assignment to `this.timer` will not
// trigger a re-render
this.timer = window.setInterval(() => {
const newTodo: Item = {
description: 'Item',
id: this.items.length + 1,
};
// the assignment to `this.items` will
// trigger a re-render. the assignment
// using '=' is important here, as we
// need that to make sure the rerender
// occurs
this.items = [...this.items, newTodo];
}, 2000);
}
disconnectedCallback() {
window.clearInterval(this.timer);
}
render() {
return (
<div>
<h1>To-Do List</h1>
<ul>
{this.items.map((todo) => (
<li>
{todo.description} #{todo.id}
</li>
))}
</ul>
</div>
);
}
}
It's important to note that it's the reassignment of this.items
that is causing the rerender in connectedCallback()
:
this.items = [...this.items, newTodo];
Mutating the existing reference to this.items
like in the examples below will not cause a rerender, as Rindo will
not know that the contents of the array has changed:
// updating `items` either of these ways will not
// cause a rerender
this.items.push(newTodo);
this.items[this.items.length - 1] = newTodo;
Similar to the examples above, this code sample makes use of the
connectedCallback() lifecycle method to create a new Item
and add
it to items
every 2000 milliseconds (every two seconds). The example above also makes use of the
disconnectedCallback() lifecycle method to properly clean up the timer
that was created using setInterval
in connectedCallback()
.