INFO
This is a fork of react-live with the following changes:
- Added Typescript support
- Ability to pass
transformOptions
to Sucrase - Ability to pass
Context
prop to use in LiveProvider
Above changes are released with name @aliemir/react-live
on npm with version 4.0.0
.
React Live
A flexible playground for live editing React code
React Live brings you the ability to render React components with editable source code and live preview.
The library is structured modularly and lets you style and compose its components freely.
Usage
Install it with npm install react-live
or yarn add react-live
and try out this piece of JSX:
import {
LiveProvider,
LiveEditor,
LiveError,
LivePreview
} from 'react-live'
<LiveProvider code="<strong>Hello World!</strong>">
<LiveEditor />
<LiveError />
<LivePreview />
</LiveProvider>
Demo
https://react-live.netlify.com/
FAQ
How does it work?
It takes your code and transpiles it with Sucrase, while the code is displayed using use-editable
and the code is highlighted using prism-react-renderer
.
The transpiled code is then rendered in the preview component (LivePreview
), which does a fake mount if the code
is a React component.
Prior to v3.0.0
, earlier versions of the library used different internals. We recommend using the latest version you can.
Version | Supported React version | Editor | Transpiler |
---|
v3.x.x | v17.x.x | use-editable | Sucrase |
v2.x.x | v16.x.x | react-simple-code-editor | Bublé |
Please see also the related Formidable libraries:-
What code can I use?
The code can be one of the following things:
- React elements, e.g.
<strong>Hello World!</strong>
- React pure functional components, e.g.
() => <strong>Hello World!</strong>
- React functional components with Hooks
- React component classes
If you enable the noInline
prop on your LiveProvider
, you’ll be able to write imperative code,
and render one of the above things by calling render
.
How does the scope work?
The scope
prop on the LiveProvider
accepts additional globals. By default it injects React
only, which
means that the user can use it in their code like this:
class Example extends React.Component {
render() {
return <strong>Hello World!</strong>
}
}
But you can of course pass more things to the scope. They will be available as variables in the code. Here's an example using styled components:
import styled from 'styled-components';
const headerProps = { text: 'I\'m styled!' };
const scope = {styled, headerProps};
const code = `
const Header = styled.div\`
color: palevioletred;
font-size: 18px;
\`
render(<Header>{headerProps.text}</Header>)
`
<LiveProvider code={code} scope={scope} noInline={true}>
<LiveEditor />
<LiveError />
<LivePreview />
</LiveProvider>
Here's an example using a custom component <MyButton />
. This component lives in a different directory. It gets passed into the scope wrapped in an Object. Note that since we are not using render()
in the code snippet we let noInline
stay equal to the default of false
:
import { MyButton } from './components/MyButton';
const scope = { MyButton };
const code = `
<MyButton />
`
<LiveProvider code={code} scope={scope}>
<LiveEditor />
<LiveError />
<LivePreview />
</LiveProvider>
Using Hooks
React Live supports using Hooks, but you may need to be mindful of the scope. As mentioned above, only React is injected into scope by default.
This means that while you may be used to destructuring useState
when importing React, to use hooks provided by React in React Live you will either need to stick to using React.useState
or alternately you can set the scope up so that useState
is provided separately.
() => {
const [likes, increaseLikes] = React.useState(0);
return (
<>
<p>
{`${likes} likes`}
</p>
<button onClick={() => increaseLikes(likes + 1)}>Like</button>
</>
);
}
What bundle size can I expect?
Our reported bundle size badges don't give you the full picture of
the kind of sizes you will get in a production app. The minified
bundles we publish exclude some dependencies that we depend
on.
In an actual app when you use react-live
you will also be bundling
Sucrase for transpilation.
API
<LiveProvider />
This component provides the context
for all the other ones. It also transpiles the user’s code!
It supports these props, while passing any others through to the children
:
Name | PropType | Description |
---|
code | PropTypes.string | The code that should be rendered, apart from the user’s edits |
scope | PropTypes.object | Accepts custom globals that the code can use |
noInline | PropTypes.bool | Doesn’t evaluate and mount the inline code (Default: false ). Note: when using noInline whatever code you write must be a single expression (function, class component or some jsx ) that can be returned immediately. If you'd like to render multiple components, use noInline={true} |
transformCode | PropTypes.func | Accepts and returns the code to be transpiled, affording an opportunity to first transform it |
language | PropTypes.string | What language you're writing for correct syntax highlighting. (Default: jsx ) |
disabled | PropTypes.bool | Disable editing on the <LiveEditor /> (Default: false ) |
theme | PropTypes.object | A prism-react-renderer theme object. See more here |
All subsequent components must be rendered inside a provider, since they communicate
using one.
The noInline
option kicks the Provider into a different mode, where you can write imperative-style
code and nothing gets evaluated and mounted automatically. Your example will need to call render
with valid JSX elements.
<LiveEditor />
This component renders the editor that displays the code. It is a wrapper around react-simple-code-editor
and the code highlighted using prism-react-renderer
.
Name | PropType | Description |
---|
style | PropTypes.object | Allows overriding default styles on the LiveEditor component. |
<LiveError />
This component renders any error that occur while executing the code, or transpiling it.
It passes through any props to a pre
.
Note: Right now when the component unmounts, when there’s no error to be shown.
<LivePreview />
This component renders the actual component that the code generates inside an error boundary.
Name | PropType | Description |
---|
Component | PropTypes.node | Element that wraps the generated code. (Default: div ) |
withLive
The withLive
method creates a higher-order component, that injects the live-editing props provided
by LiveProvider
into a component.
Using this HOC allows you to add new components to react-live, or replace the default ones, with a new
desired behavior.
The component wrapped with withLive
gets injected the following props:
Name | PropType | Description |
---|
code | PropTypes.string | Reflects the code that is passed in as the code prop |
error | PropTypes.string | An error that the code has thrown when it was previewed |
onError | PropTypes.func | A callback that, when called, changes the error to what's passed as the first argument |
onChange | PropTypes.func | A callback that accepts new code and transpiles it |
element | React.Element | The result of the transpiled code that is previewed |
Note: The code prop doesn't reflect the up-to-date code, but the code
prop, that is passed to the LiveProvider
.
FAQ
I want to use experimental feature x but Sucrase doesn't support it! Can I use babel instead?
react-live
doesn't currently support configuring the transpiler and it ships with Sucrase. The current workaround for using some experimental features Sucrase
doesn't support would be to use the transformCode
prop on LiveProvider
to transform your code with babel
alongside Sucrase
.
There are multiple options when it comes to live, editable React component environments. Formidable actually has two first class projects to help you out: component-playground
and react-live
. Let's briefly look at the libraries, use cases, and factors that might help in deciding which is right for you.
Here's a high-level decision tree:
- If you want fast and easy setup and integration, then
component-playground
may be the ticket! - If you want a smaller bundle, SSR, and more flexibility, then
react-live
is for you!
Here are the various factors at play:
- Build:
component-playground
uses babel-standalone
, react-live
uses Sucrase
. - Bundle size:
component-playground
has a larger bundle, but uses a more familiar editor setup. react-live
is smaller, but more customized editor around prism
. - Ease vs. flexibility:
react-live
is more modular/customizable, while component-playground
is easier/faster to set up. - Extra features:
component-playground
supports raw evaluation and pretty-printed output out-of-the-box, while react-live
does not. - Error handling:
component-playground
might have more predictable error handling than react-live
in some cases (due to react-dom
).
Maintenance Status
Active: Formidable is actively working on this project, and we expect to continue for work for the foreseeable future. Bug reports, feature requests and pull requests are welcome.