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A Babel plugin for SolidJS that allows you to destructure component props without losing reactivity.

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orenelbaum/babel-plugin-solid-undestructure

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babel-plugin-solid-undestructure

This Babel plugin allows you to destructure your props in your Solid components without losing reactivity.

The plugin will "un-destructure" your props at build time, so the code you pass into the Solid compiler will not have destructured props at runtime. Instead the props will be accessed the normal way with props.someProp.

Note
This plugin is compatible with Solid 1.6 and is likely to work with every version of Solid 1.x.

Usage with examples:

// Use the `Component` type to mark components that will be transformed by the plugin
import type { Component } from 'solid-js'
const MyComp: Component<...> = ({ a, b, c }) => {a; b; c;};

//  ↓ ↓ ↓ ↓ ↓ ↓ ↓ ↓  The above code will compile to
import type { Component } from 'solid-js'
const MyComp: Component<...> = props => {props.a; props.b; props.c;}



// Also works with the `ParentComponent` type
import type { ParentComponent } from 'solid-js'
const MyComp: ParentComponent<...> = ({ a, b, c }) => {a; b; c;};

//  ↓ ↓ ↓ ↓ ↓ ↓ ↓ ↓
import type { ParentComponent } from 'solid-js'
const MyComp: ParentComponent<...> = props => {props.a; props.b; props.c;}



// You can use a compile time function instead of using the `Component` type (needed for vanilla JS)
import { component } from 'undestructure-macros'
const MyComp = component(({ a, b, c }) => {a; b; c;})

//  ↓ ↓ ↓ ↓ ↓ ↓ ↓ ↓
const MyComp = props => {props.a; props.b; props.c;}



// Default props using `mergeProps`
import type { Component } from 'solid-js'
const MyComp: Component<...> = (
  { a = 1, b = 2, c = 3 } = defaultProps
) => {a; b; c;}

//  ↓ ↓ ↓ ↓ ↓ ↓ ↓ ↓
import { type Component, mergeProps } from 'solid-js'
const MyComp: Component<...> = props => {
  props = mergeProps(defaultProps, { a: 1, b: 2, c: 3 }, props);
  props.a; props.b; props.c;
}



// Rename props
import type { Component } from 'solid-js'
const MyComp: Component<...> = ({ a: d, b: e, c: f }) => {d; e; f;}

//  ↓ ↓ ↓ ↓ ↓ ↓ ↓ ↓
import { type Component, mergeProps } from 'solid-js'
const MyComp: Component<...> = props => {props.a; props.b; props.c;}



// Rest element destructuring using `splitProps`
import type { Component } from 'solid-js'
const MyComp: Component<...> = ({ a, b, c, ...other }) => {a; b; c; other;}

//  ↓ ↓ ↓ ↓ ↓ ↓ ↓ ↓
import { type Component, splitProps } from 'solid-js'
const MyComp: Component<...> = props => {
  let other;
  [props, other] = splitProps(props, ["a", "b", "c"]);
  props.a; props.b; props.c; other;
}



// You can nest components
import type { Component } from 'solid-js'
const Parent: Component<...> = ({ a, b }) => {
  const Child: Component<...> = ({ c, d }) => {
    a; b; c; d;
  }
}

//  ↓ ↓ ↓ ↓ ↓ ↓ ↓ ↓
import type { Component } from 'solid-js'
const Parent: Component<...> = props1 => {
  const Child: Component<...> = props2 => {
    props1.a; props1.b; props2.c; props2.d;
  }
}

See also undestructure-example (or Open in Stackblitz).

Component Type Annotation

When this option is enabled (it is enabled by default), the plugin transforms all arrow function components which are part of a variable declaration with a Component type annotation.

The type annotation must be a direct reference to the Solid Component type import, or an annotation of the form Solid.Component where Solid is a reference to the default import of Solid.

In both cases you can use the 'import as' syntax.

Examples:

import type { Component } from 'solid-js'

const MyComponent: Component = // ...
import Solid from 'solid-js'

const MyComponent: Solid.Component = // ...
import type { Component as ComponentAlias } from 'solid-js'

const MyComponent: ComponentAlias = // ...

This example won't work:

import type { Component } from 'solid-js'

type ComponentAlias = Component

const MyComponent: ComponentAlias = // ...

In this last example, MyComponent won't be transformed.

Compile Time Function Annotation (Needed for Vanilla JS)

This option can be used if you are using vanilla JS or you don't want to rely on types to manipulate runtime behavior like the type annotation does. When this option is enabled (it is enabled by default), the plugin transforms all component that are wrapped in the component compile-time function provided by this plugin.

The component compile-time function must be a direct reference to the component named export from undestructure-macros

You can also use the 'import as' syntax.

Examples:

import { component } from 'undestructure-macros'

const MyComponent = component(/* your component goes here. */)
import { component as c } from 'undestructure-macros'

const MyComponent = c(/* your component goes here. */)

This example won't work:

import { component } from 'undestructure-macros'

const c = component

const MyComponent = c(/* your component goes here. */)

In this last example, MyComponent won't be transformed.

Installation and Configuring Vite

Install the plugin and the macro placeholder package with

npm i -D babel-plugin-solid-undestructure undestructure-macros

In your Vite config, import undestructurePlugin from babel-plugin-solid-undestructure

import { undestructurePlugin } from "babel-plugin-solid-undestructure"

TS with Type Annotation Support

If your'e working with TypeScript code and you want to use the Component type annotation, add this to the top of the plugin list in your Vite config:

...undestructurePlugin("ts")

With this configuration you can use both the Component type and the component compile time function to annotate components.

TS or Vanilla JS, No Type Annotation Support

In your Vite config, find the your vite-plugin-solid initialization (in the default Solid template it will be imported as solidPlugin).

The first argument this initialization function takes, is the options object.

Add this field to the initializer options:

babel: {
	plugins: [undestructurePlugin("vanilla-js")]
} 

With this configuration you can use both the Component type and the component compile time function to annotate components.

Roadmap

  • Support for ParentComponent type annotation
  • A pragma to annotate components

Features Under Consideration

  • Nested destructuring
  • Destructure CTF (probably not but maybe)

If you want a feature to be added to this plugin, whether it's on this list or not, please open a feature request or tell me in this discussion.

Other Cool Plugins for Solid:

Development

The project is written in TypeScript and I think that it's relatively well documented and written in a way that makes it easy to understand as long as you're familiar with Babel plugins. If you're not, Babel plugins are much more straight forward than they look, I recommend playing a bit with AST Explorer to get a feel for how they work, and you can also take a look at the Babel plugin handbook.

It's recommended to use pnpm for development.

Get started with:

pnpm i

You can test your changes either by adding a test or by using the playground. A test should be added for every new feature anyway, but you can use the playground if you don't want to start by writing a test, you can also skip writing a test altogether, in this case I'll add a test myself.

For working with the playground and the tests, if you're on VSCode I recommend installing the extension es6-string-javascript which will highlight JS code inside template literals using a pragma, this way:

/*javascript*/`code goes here`

The playground is a file called playground.cjs. To work with the playground just go to the file and edit the code in the src variable. Your can run the playground with:

pnpm run playground

Writing a test is a bit trickier since uvu doesn't support snapshots and I'm too lazy to set it up in a better way. So I won't document the process right now, I'll just mention that you can run the tests with:

pnpm run test

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A Babel plugin for SolidJS that allows you to destructure component props without losing reactivity.

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