$ npm install markdown-to-jsx
markdown-to-jsx
uses a fork of simple-markdown as its parsing engine and extends it in a number of ways to make your life easier. Notably, this package offers the following additional benefits:
Arbitrary HTML is supported and parsed into the appropriate JSX representation
without dangerouslySetInnerHTML
Any HTML tags rendered by the compiler and/or <Markdown>
component can be overridden to include additional
props or even a different HTML representation entirely.
GFM task list support.
Fenced code blocks with highlight.js support.
All this clocks in at around 5 kB gzipped, which is a fraction of the size of most other React markdown components.
Requires React >= 0.14.
# if you use npm
npm i markdown-to-jsx
# if you use yarn
yarn add markdown-to-jsx
markdown-to-jsx
exports a React component by default for easy JSX composition:
ES6-style usage*:
import Markdown from 'markdown-to-jsx';
import React from 'react';
import {render} from 'react-dom';
render((
<Markdown>
# Hello world!
</Markdown>
), document.body);
/*
renders:
<h1>Hello world!</h1>
*/
* NOTE: JSX does not natively preserve newlines in multiline text. In general, writing markdown directly in JSX is discouraged and it's a better idea to keep your content in separate .md files and require them, perhaps using webpack's raw-loader.
By default, the compiler will try to make an intelligent guess about the content passed and wrap it in a <div>
, <p>
, or <span>
as needed to satisfy the "inline"-ness of the markdown. For instance, this string would be considered "inline":
Hello. _Beautiful_ day isn't it?
But this string would be considered "block" due to the existence of a header tag, which is a block-level HTML element:
# Whaddup?
However, if you really want all input strings to be treated as "block" layout, simply pass options.forceBlock = true
like this:
<Markdown options={{ forceBlock: true }}>
Hello there old chap!
</Markdown>
// or
compiler('Hello there old chap!', { forceBlock: true });
// renders
<p>Hello there old chap!</p>
The inverse is also available by passing options.forceInline = true
:
<Markdown options={{ forceInline: true }}>
# You got it babe!
</Markdown>
// or
compiler('# You got it babe!', { forceInline: true });
// renders
<span># You got it babe!</span>
Pass the options.overrides
prop to the compiler or <Markdown>
component to seamlessly revise the rendered representation of any HTML tag. You can choose to change the component itself, add/change props, or both.
import Markdown from 'markdown-to-jsx';
import React from 'react';
import {render} from 'react-dom';
// surprise, it's a div instead!
const MyParagraph = ({children, ...props}) => (<div {...props}>{children}</div>);
render((
<Markdown
options={{
overrides: {
h1: {
component: MyParagraph,
props: {
className: 'foo',
},
},
},
}}>
# Hello world!
</Markdown>
), document.body);
/*
renders:
<div class="foo">
Hello World
</div>
*/
If you only wish to provide a component override, a simplified syntax is available:
{
overrides: {
h1: MyParagraph,
},
}
Depending on the type of element, there are some props that must be preserved to ensure the markdown is converted as intended. They are:
a
: title
, href
img
: title
, alt
, src
input[type="checkbox"]
: checked
, readonly
(specifically, the one rendered by a GFM task list)ol
: start
td
: style
th
: style
Any conflicts between passed props
and the specific properties above will be resolved in favor of markdown-to-jsx
's code.
One of the most interesting use cases enabled by the HTML syntax processing in markdown-to-jsx
is the ability to use any kind of element, even ones that aren't real HTML tags like React component classes.
By adding an override for the components you plan to use in markdown documents, it's possible to dynamically render almost anything. One possible scenario could be writing documentation:
import Markdown from 'markdown-to-jsx';
import React from 'react';
import {render} from 'react-dom';
import DatePicker from './date-picker';
const md = `
# DatePicker
The DatePicker works by supplying a date to bias towards,
as well as a default timezone.
<DatePicker biasTowardDateTime="2017-12-05T07:39:36.091Z" timezone="UTC+5" />
`;
render((
<Markdown
children={md}
options={{
overrides: {
DatePicker: {
component: DatePicker,
},
},
}} />
), document.body);
markdown-to-jsx
also handles JSX interpolation syntax, but in a minimal way to not introduce a potential attack vector. Interpolations are sent to the component as their raw string, which the consumer can then eval()
or process as desired to their security needs.
In the following case, DatePicker
could simply run parseInt()
on the passed startTime
for example:
import Markdown from 'markdown-to-jsx';
import React from 'react';
import {render} from 'react-dom';
import DatePicker from './date-picker';
const md = `
# DatePicker
The DatePicker works by supplying a date to bias towards,
as well as a default timezone.
<DatePicker
biasTowardDateTime="2017-12-05T07:39:36.091Z"
timezone="UTC+5"
startTime={1514579720511}
/>
`;
render((
<Markdown
children={md}
options={{
overrides: {
DatePicker: {
component: DatePicker,
},
},
}} />
), document.body);
Another possibility is to use something like recompose's withProps()
HOC to create various pregenerated scenarios and then reference them by name in the markdown:
import Markdown from 'markdown-to-jsx';
import React from 'react';
import {render} from 'react-dom';
import withProps from 'recompose/withProps';
import DatePicker from './date-picker';
const DecemberDatePicker = withProps({
range: {
start: new Date('2017-12-01'),
end: new Date('2017-12-31'),
},
timezone: 'UTC+5',
})(DatePicker);
const md = `
# DatePicker
The DatePicker works by supplying a date to bias towards,
as well as a default timezone.
<DatePicker
biasTowardDateTime="2017-12-05T07:39:36.091Z"
timezone="UTC+5"
startTime={1514579720511}
/>
Here's an example of a DatePicker pre-set to only the month of December:
<DecemberDatePicker />
`;
render((
<Markdown
children={md}
options={{
overrides: {
DatePicker,
DecemberDatePicker,
},
}} />
), document.body);
Sometimes, you might want to override the React.createElement
default behavior to hook into the rendering process before the JSX gets rendered. This might be useful to add extra children or modify some props based on runtime conditions. The function mirrors the React.createElement
function, so the params are type, [props], [...children]
:
import Markdown from 'markdown-to-jsx';
import React from 'react';
import {render} from 'react-dom';
const md = `
# Hello world
`;
render((
<Markdown
children={md}
options={{
createElement(type, props, children) {
return (
<div className='parent'>
{React.createElement(type, props, children)}
</div>
);
}
}} />
), document.body);
Many development conveniences are placed behind process.env.NODE_ENV !== "production"
conditionals. When bundling your app, it's a good idea to replace these code snippets such that a minifier (like uglify) can sweep them away and leave a smaller overall bundle.
Here are instructions for some of the popular bundlers:
Everything will work just fine! Simply Alias react
to preact-compat
like you probably already are doing.
If desired, the compiler function is a "named" export on the markdown-to-jsx
module:
import {compiler} from 'markdown-to-jsx';
import React from 'react';
import {render} from 'react-dom';
render(compiler('# Hello world!'), document.body);
/*
renders:
<h1>Hello world!</h1>
*/
It accepts the following arguments:
compiler(markdown: string, options: object?)
See Github Releases.
MIT
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