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Transforms Babel/JSX into Snabbdom Virtual DOM
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examples added select attribute Nov 20, 2015
.babelrc added selector attribute Nov 20, 2015
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jsx.d.ts Add simple Typescript definition files Sep 22, 2017
package.json 0.4.2 Sep 22, 2017
snabbdom-jsx.d.ts Add Typescript return types Sep 22, 2017
snabbdom-jsx.js Add dataset namespace Aug 19, 2016
test.js added selector attribute Nov 20, 2015

npm version

Write Snabbdom virtual DOM with Babel's JSX.

Snabbdom is a small Virtual DOM library. Unlike React, it's not a full View framework, it just focuses on the core virtual DOM problem : construct virtual DOM trees (virtual nodes) and patch the real DOM with them. it's entirely up to you to decide when those operations will happen. The main benefit is that you can adopt whatever architectural UI pattern you like in your application.

Babel is a JavaScript compiler that converts modern JavaScript (ES2015 and beyond) into compatible JavaScript (ES5) code. A nice feature of Babel is that it supports React JSX syntax and in the same time allows you to take the result of this JSX (attributes + body) and do whatever you like with it. Snabbdom-jsx transforms this JSX data into Snabbdom virtual nodes.


  • Transforms Babel JSX templates into Snabbdom virtual nodes
  • Straightforward mapping from JSX attributes to Snabbdom data attributes using namespaces
  • JSX Components are simple functions (attributes, children) => vnode. No more messy classes.



npm install snabbdom-jsx

Hello example (see the complete example here)

/** @jsx html */

import { html } from 'snabbdom-jsx';

const patch = snabbdom.init([...]);

const vnode = <div>Hello JSX</div>

patch(document.getElementById('placeholder'), vnode);

The /** @jsx html */ pragma at the top tells Babel to use the html function instead of the React.createElement default. The html function takes arguments passed from Babel and generates virtual nodes as expected by Snabbdom's patch function.

Mapping JSX attributes

A quick reminder: in snabbdom, most of the functionality like toggling classes, styles and setting properties on DOM elements is delegated to separate modules.

For example

const myInput = h('input', {
  props: { type: 'text' }       // handled by the props module
  on: { change: someCallback }, // handled by the eventlisteners module
  class: { class1: isEnabled }  // handled by the class module

Each module handles a portion of the data attributes (the 2nd parameter to h). And each portion is stored inside a namespace, for example, event attributes are placed inside the on namespace, class attributes inside the class namespace and so on.

By default all attributes listed in the JSX element are placed inside the props namespace.

<input type="text" />

Is equivalent to

h('input', { props: { type: 'text' } })

To attach event listeners, we use the on- prefix

<button on-click={ callback } />

// is equivalent to

h('button', { on: { click: callback } })

This is a generic rule to map a JSX attribute to a specific module, you need to prefix the attribute with pref- where pref is the namespace used by the module in Snabbdom. As in the example above, all attributes with the on- prefix (i.e. event listeners) will be placed inside the the on namespace. This gives us a simple and extensible pattern to support other custom modules.

Another example using the class namespace



// is equivalent to

h('div', {
  class: { visible: isVisible, enabled: isEnabled }
}, [...])

But you can also specify an unique object the same way as in the h function, this is useful when you have a dynamic object

  style={ ({fontWeight: 'bold', color: 'red'}) }>


// is equivalent to

h('div', {
  style: {fontWeight: 'bold', color: 'red'}
}, [...])

You can mix both styles, the result will be a merge of all attributes

  class={ ({visible: isVisible}) }


Id and static classes (sel attribute)

In Snabbdom you can create an element using a css-like syntax

h('div#id.class1.class2', ...)

This will set the element id add the class names to its classList property. Unlike classes specified in the class namespace, those are static classes meaning they will not be re-updated during patch operations.

In JSX you can use the selector attribute to set the element's id and add static classes

<div selector="#id.class1.class2" />

You can also specify static classes via the classNames property

<div classNames="class1 class2" />

You can also provide an array to classNames instead of a string

const classes = ['class1', 'class2'];
<div classNames={classes} />

it's important to remember to not pass dynamic values to selector or classNames. As this can lead to some unexpected issues. If you want to set dynamic classes, use the class module instead.

JSX Components

In React/JSX you can create components and use them inside other components

var HelloMessage = React.createClass({
  render: function() {
    return <div>Hello {}</div>;

React.render(<HelloMessage name="John" />, mountNode);

Instead of classes, Snabbdom-jsx components are simple functions of type
(attributes, children) => vnode.

//HelloMessage : (attrs, body) -> vnode
const HelloMessage = ({name}) =>
  <div on-click={ _ => alert('Hi ' + name) }>

var vnode = <HelloMessage name="Yassine" />

As in React, note that all components must start with a capital letter, while regular HTML tags start with lower case letters. This the way Babel also distinguish component invocation from simple tag creation.

Perhaps of less obvious utility, but instead of a function, a component can also be an object with a view or render function. I added this in order to support nesting in UI patterns; especially in the Elm architecture, where a component is an object with a view (or render) function (among others)

for example you can have a Task component

Task.view = ({task}) => ...
Task.update = ...

and use it inside a Todos component like this

import Task from './task'

Todos.view = ({todos}) => =>
                              <Task todo={todo} key={} />)

As illustrated above, you can also add a key attribute directly to a Component. It will be copied inside the resulting vnode

If you're wondering how Components would fit in a large application, you can look into the todomvc example. The application is implemented using the Elm architecture. For more information see React-less Virtual DOM with Snabbdom : functions everywhere!

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