Skip to main content
Version: v4.16

Reactive Data

Rindo components update when props or state on a component change.

Rendering methods​

When props or state change on a component, the render() method is scheduled to run.

The Watch Decorator (@Watch())​

@Watch() is a decorator that is applied to a method of a Rindo component. The decorator accepts a single argument, the name of a class member that is decorated with @Prop() or @State(), or a host attribute. A method decorated with @Watch() will automatically run when its associated class member or attribute changes.

// We import Prop & State to show how `@Watch()` can be used on
// class members decorated with either `@Prop()` or `@State()`
import { Component, Prop, State, Watch } from '@rindo/core';

@Component({
tag: 'loading-indicator',
})
export class LoadingIndicator {
// We decorate a class member with @Prop() so that we
// can apply @Watch()
@Prop() activated: boolean;
// We decorate a class member with @State() so that we
// can apply @Watch()
@State() busy: boolean;

// Apply @Watch() for the component's `activated` member.
// Whenever `activated` changes, this method will fire.
@Watch('activated')
watchPropHandler(newValue: boolean, oldValue: boolean) {
console.log('The old value of activated is: ', oldValue);
console.log('The new value of activated is: ', newValue);
}

// Apply @Watch() for the component's `busy` member.
// Whenever `busy` changes, this method will fire.
@Watch('busy')
watchStateHandler(newValue: boolean, oldValue: boolean) {
console.log('The old value of busy is: ', oldValue);
console.log('The new value of busy is: ', newValue);
}

@Watch('activated')
@Watch('busy')
watchMultiple(newValue: boolean, oldValue: boolean, propName: string) {
console.log(`The new value of ${propName} is: `, newValue);
}
}

In the example above, there are two @Watch() decorators. One decorates watchPropHandler, which will fire when the class member activated changes. The other decorates watchStateHandler, which will fire when the class member busy changes.

When fired, the decorated method will receive the old and new values of the prop/state. This is useful for validation or the handling of side effects.

info

The @Watch() decorator does not fire when a component initially loads.

Watching Native HTML Attributes​

Rindo's @Watch() decorator also allows you to watch native HTML attributes on the constructed host element. Simply include the attribute name as the argument to the decorator (this is case-sensitive):

@Watch('aria-label')
onAriaLabelChange(newVal: string, oldVal: string) {
console.log('Label changed:', newVal, oldVal);
}
note

Since native attributes are not @Prop() or State() members of the Rindo component, they will not automatically trigger a re-render when changed. If you wish to re-render a component in this instance, you can leverage the forceUpdate() method:

import { Component, forceUpdate, h } from '@rindo/core';

@Watch('aria-label')
onAriaLabelChange() {
forceUpdate(this); // Forces a re-render
}

Handling Arrays and Objects​

When Rindo checks if a class member decorated with @Prop() or @State() has changed, it checks if the reference to the class member has changed. When a class member is an object or array, and is marked with @Prop() or @State, in-place mutation of an existing entity will not cause @Watch() to fire, as it does not change the reference to the class member.

Updating Arrays​

For arrays, the standard mutable array operations such as push() and unshift() won't trigger a component update. These functions will change the content of the array, but won't change the reference to the array itself.

In order to make changes to an array, non-mutable array operators should be used. Non-mutable array operators return a copy of a new array that can be detected in a performant manner. These include map() and filter(), and the spread operator syntax. The value returned by map(), filter(), etc., should be assigned to the @Prop() or @State() class member being watched.

For example, to push a new item to an array, create a new array with the existing values and the new value at the end:

import { Component, State, Watch, h } from '@rindo/core';

@Component({
tag: 'rand-numbers',
})
export class RandomNumbers {
// We decorate a class member with @State() so that we
// can apply @Watch(). This will hold a list of randomly
// generated numbers
@State() randNumbers: number[] = [];

private timer: NodeJS.Timer;

// Apply @Watch() for the component's `randNumbers` member.
// Whenever `randNumbers` changes, this method will fire.
@Watch('randNumbers')
watchStateHandler(newValue: number[], oldValue: number[]) {
console.log('The old value of randNumbers is: ', oldValue);
console.log('The new value of randNumbers is: ', newValue);
}

connectedCallback() {
this.timer = setInterval(() => {
// generate a random whole number
const newVal = Math.ceil(Math.random() * 100);

/**
* This does not create a new array. When rindo
* attempts to see if any Watched members have changed,
* it sees the reference to its `randNumbers` State is
* the same, and will not trigger `@Watch` or a re-render
*/
// this.randNumbers.push(newVal)

/**
* Using the spread operator, on the other hand, does
* create a new array. `randNumbers` is reassigned
* using the value returned by the spread operator.
* The reference to `randNumbers` has changed, which
* will trigger `@Watch` and a re-render
*/
this.randNumbers = [...this.randNumbers, newVal];
}, 1000);
}

disconnectedCallback() {
if (this.timer) {
clearInterval(this.timer);
}
}

render() {
return (
<div>
randNumbers contains:
<ol>
{this.randNumbers.map((num) => (
<li>{num}</li>
))}
</ol>
</div>
);
}
}

Updating an object​

The spread operator should be used to update objects. As with arrays, mutating an object will not trigger a view update in Rindo. However, using the spread operator and assigning its return value to the @Prop() or @State() class member being watched will. Below is an example:

import { Component, State, Watch, h } from '@rindo/core';

export type NumberContainer = {
val: number;
};

@Component({
tag: 'rand-numbers',
})
export class RandomNumbers {
// We decorate a class member with @State() so that we
// can apply @Watch(). This will hold a randomly generated
// number.
@State() numberContainer: NumberContainer = { val: 0 };

private timer: NodeJS.Timer;

// Apply @Watch() for the component's `numberContainer` member.
// Whenever `numberContainer` changes, this method will fire.
@Watch('numberContainer')
watchStateHandler(newValue: NumberContainer, oldValue: NumberContainer) {
console.log('The old value of numberContainer is: ', oldValue);
console.log('The new value of numberContainer is: ', newValue);
}

connectedCallback() {
this.timer = setInterval(() => {
// generate a random whole number
const newVal = Math.ceil(Math.random() * 100);

/**
* This does not create a new object. When rindo
* attempts to see if any Watched members have changed,
* it sees the reference to its `numberContainer` State is
* the same, and will not trigger `@Watch` or are-render
*/
// this.numberContainer.val = newVal;

/**
* Using the spread operator, on the other hand, does
* create a new object. `numberContainer` is reassigned
* using the value returned by the spread operator.
* The reference to `numberContainer` has changed, which
* will trigger `@Watch` and a re-render
*/
this.numberContainer = { ...this.numberContainer, val: newVal };
}, 1000);
}

disconnectedCallback() {
if (this.timer) {
clearInterval(this.timer);
}
}

render() {
return <div>numberContainer contains: {this.numberContainer.val}</div>;
}
}