A virtual DOM library with focus on simplicity, modularity, powerful features and performance.
- Introduction
- Features
- Inline example
- Examples
- Core documentation
- Modules documentation
- Helpers
- Virtual Node documentation
- Structuring applications
Virtual DOM is awesome. It allows us to express our application's view as a function of its state. But existing solutions were way way too bloated, too slow, lacked features, had an API biased towards OOP and/or lacked features I needed.
Snabbdom consists of an extremely simple, performant and extensible core that is only ≈ 200 SLOC. It offers a modular architecture with rich functionality for extensions through custom modules. To keep the core simple, all non-essential functionality is delegated to modules.
You can mold Snabbdom into whatever you desire! Pick, choose and customize the functionality you want. Alternatively you can just use the default extensions and get a virtual DOM library with high performance, small size and all the features listed below.
- Core features
- About 200 SLOC – you could easily read through the entire core and fully understand how it works.
- Extendable through modules.
- A rich set of hooks available, both per vnode and globally for modules, to hook into any part of the diff and patch process.
- Splendid performance. Snabbdom is among the fastest virtual DOM libraries in the Virtual DOM Benchmark.
- Patch function with a function signature equivelant to a reduce/scan function. Allows for easier integration with a FRP library.
- Features in modules
h
function for easily creating virtual DOM nodes.- SVG just works with the
h
helper. - Features for doing complex CSS animations.
- Powerful event listener functionality.
- Thunks to optimize the diff and patch process even further.
- JSX support thanks to snabbdom-jsx. There is also a Babel plugin babel-snabbdom-jsx.
- Server-side HTML output provided by snabbdom-to-html.
- Compact virtual DOM creation with snabbdom-helpers.
var snabbdom = require('snabbdom');
var patch = snabbdom.init([ // Init patch function with choosen modules
require('snabbdom/modules/class'), // makes it easy to toggle classes
require('snabbdom/modules/props'), // for setting properties on DOM elements
require('snabbdom/modules/style'), // handles styling on elements with support for animations
require('snabbdom/modules/eventlisteners'), // attaches event listeners
]);
var h = require('snabbdom/h'); // helper function for creating vnodes
var vnode = h('div#container.two.classes', {on: {click: someFn}}, [
h('span', {style: {fontWeight: 'bold'}}, 'This is bold'),
' and this is just normal text',
h('a', {props: {href: '/foo'}}, 'I\'ll take you places!')
]);
var container = document.getElementById('container');
// Patch into empty DOM element – this modifies the DOM as a side effect
patch(container, vnode);
var newVnode = h('div#container.two.classes', {on: {click: anotherEventHandler}}, [
h('span', {style: {fontWeight: 'normal', fontStyle: 'italic'}}, 'This is now italic type'),
' and this is still just normal text',
h('a', {props: {href: '/bar'}}, 'I\'ll take you places!')
]);
// Second `patch` invocation
patch(vnode, newVnode); // Snabbdom efficiently updates the old view to the new state
The core of Snabbdom provides only the most essential functionality. It is designed to be as simple as possible while still being fast and extendable.
The core exposes only one single function snabbdom.init
. This init
takes a list of modules and returns a patch
function that uses the
specified set of modules.
var patch = snabbdom.init([
require('snabbdom/modules/class'),
require('snabbdom/modules/style'),
]);
The patch
function returned by init
takes two arguments. The first
is a DOM element or a vnode representing the current view. The second
is a vnode representing the new, updated view.
If a DOM element with a parent is passed, newVnode
will be turned
into a DOM node, and the passed element will be replaced by the
created DOM node. If an old vnode is passed, Snabbdom will effeciently
modify it to match the description in the new vnode.
Any old vnode passed must be the resulting vnode from a previous call
to patch
. This is necessary since Snabbdom stores information in the
vnode. This makes it possible to implement a simpler and more
performant architecture. This also avoids the creation of a new old
vnode tree.
patch(oldVnode, newVnode);
It is recommended that you use snabbdom/h
to create vnodes. h
accepts a
tag/selector as a string, an optional data object and an optional string or
array of children.
var h = require('snabbdom/h');
var vnode = h('div', {style: {color: '#000'}}, [
h('h1', 'Headline'),
h('p', 'A paragraph'),
]);
Hooks are a way to hook into the lifecycle of DOM nodes. Snabbdom offers a rich selection of hooks. Hooks are used both by modules to extend Snabbdom, and in normal code for executing arbitrary code at desired points in the life of a virtual node.
Name | Triggered when | Arguments to callback |
---|---|---|
pre |
the patch process begins | none |
init |
a vnode has been added | vnode |
create |
a DOM element has been created based on a vnode | emptyVnode, vnode |
insert |
an element has been inserted into the DOM | vnode |
prepatch |
an element is about to be patched | oldVnode, vnode |
update |
an element is being updated | oldVnode, vnode |
postpatch |
an element has been patched | oldVnode, vnode |
destroy |
an element is directly or indirectly being removed | vnode |
remove |
an element is directly being removed from the DOM | vnode, removeCallback |
post |
the patch process is done | none |
The following hooks are available for modules: pre
, create
,
update
, destroy
, remove
, post
.
The following hooks are available in the hook
property of individual
elements: init
, create
, insert
, prepatch
, update
,
postpatch
, destroy
, remove
.
To use hooks, pass them as an object to hook
field of the data
object argument.
h('div.row', {
key: movie.rank,
hook: {
insert: (vnode) => { movie.elmHeight = vnode.elm.offsetHeight; }
}
});
This hook is invoked during the patch process when a new virtual node has been found. The hook is called before Snabbdom has processed the node in any way. I.e., before it has created a DOM node based on the vnode.
This hook is invoked once the DOM element for a vnode has been inserted into the document and the rest of the patch cycle is done. This means that you can do DOM measurements (like using getBoundingClientRect in this hook safely, knowing that no elements will be changed afterwards that could affect the position of the inserted elements.
Allows you to hook into the removal of an element. The hook is called
once a vnode is to be removed from the DOM. The handling function
receives both the vnode and a callback. You can control and delay the
removal with the callback. The callback should be invoked once the
hook is done doing its business, and the element will only be removed
once all remove
hooks have invoked their callback.
The hook is only triggered when an element is to be removed from its
parent – not if it is the child of an element that is removed. For
that, see the destroy
hook.
This hook is invoked on a virtual node when its DOM element is removed from the DOM or if its parent is being removed from the DOM.
To see the difference between this hook and the remove
hook,
consider an example.
var vnode1 = h('div', [h('div', [h('span', 'Hello')])]);
var vnode2 = h('div', []);
patch(container, vnode1);
patch(vnode1, vnode2);
Here destroy
is triggered for both the inner div
element and the
span
element it contains. remove
, on the other hand, is only
triggered on the div
element because it is the only element being
detached from its parent.
You can, for instance, use remove
to trigger an animation when an
element is being removed and use the destroy
hook to additionally
animate the disappearance of the removed element's children.
Modules works by registering global listeners for hooks. A module is simply a dictionary mapping hook names to functions.
var myModule = {
create: function(oldVnode, vnode) {
// invoked whenever a new virtual node is created
},
update: function(oldVnode, vnode) {
// invoked whenever a virtual node is updated
}
};
With this mechanism you can easily augument the behaviour of Snabbdom. For demonstration, take a look at the implementations of the default modules.
This describes the core modules. All modules are optional.
The class module provides an easy way to dynamically toggle classes on
elements. It expects an object in the class
data property. The
object should map class names to booleans that indicates whether or
not the class should stay or go on the vnode.
h('a', {class: {active: true, selected: false}}, 'Toggle');
Allows you to set properties on DOM elements.
h('a', {props: {href: '/foo'}}, 'Go to Foo');
Same as props, but set attributes instead of properties on DOM elements.
h('a', {attrs: {href: '/foo'}}, 'Go to Foo');
Attributes are added and updated using setAttribute
. In case of an
attribute that had been previously added/set and is no longer present
in the attrs
object, it is removed from the DOM element's attribute
list using removeAttribute
.
In the case of boolean attributes (e.g. disabled
, hidden
,
selected
...), the meaning doesn't depend on the attribute value
(true
or false
) but depends instead on the presence/absence of the
attribute itself in the DOM element. Those attributes are handled
differently by the module: if a boolean attribute is set to a
falsy value
(0
, -0
, null
, false
,NaN
, undefined
, or the empty string
(""
)), then the attribute will be removed from the attribute list of
the DOM element.
The style module is for making your HTML look slick and animate smoothly. At its core it allows you to set CSS properties on elements.
h('span', {
style: {border: '1px solid #bada55', color: '#c0ffee', fontWeight: 'bold'}
}, 'Say my name, and every colour illuminates');
Note that the style module does not remove style attributes if they are removed as properties from the style object. To remove a style, you should instead set it to the empty string.
h('div', {
style: {position: shouldFollow ? 'fixed' : ''}
}, 'I, I follow, I follow you');
You can specify properties as being delayed. Whenever these properties change, the change is not applied until after the next frame.
h('span', {
style: {opacity: '0', transition: 'opacity 1s', delayed: {opacity: '1'}}
}, 'Imma fade right in!');
This makes it easy to declaratively animate the entry of elements.
Styles set in the remove
property will take effect once the element
is about to be removed from the DOM. The applied styles should be
animated with CSS transitions. Only once all the styles are done
animating will the element be removed from the DOM.
h('span', {
style: {opacity: '1', transition: 'opacity 1s',
remove: {opacity: '0'}}
}, 'It\'s better to fade out than to burn away');
This makes it easy to declaratively animate the removal of elements.
h('span', {
style: {opacity: '1', transition: 'opacity 1s',
destroy: {opacity: '0'}}
}, 'It\'s better to fade out than to burn away');
The event listeners module gives powerful capabilities for attaching event listeners.
You can attach a function to an event on a vnode by supplying an
object at on
with a property corresponding to the name of the event
you want to listen to. The function will be called when the event
happens and will be passed the event object that belongs to it.
function clickHandler(ev) { console.log('got clicked'); }
h('div', {on: {click: clickHandler}});
Very often, however, you're not really interested in the event object itself. Often you have some data associated with the element that triggers an event and you want that data passed along instead.
Consider a counter application with three buttons, one to increment the counter by 1, one to increment the counter by 2 and one to increment the counter by 3. You don't really care exactly which button was pressed. Instead you're interested in what number was associated with the clicked button. The event listeners module allows one to express that by supplying an array at the named event property. The first element in the array should be a function that will be invoked with the value in the second element once the event occurs.
function clickHandler(number) { console.log('button ' + number + ' was clicked!'); }
h('div', [
h('a', {on: {click: [clickHandler, 1]}}),
h('a', {on: {click: [clickHandler, 2]}}),
h('a', {on: {click: [clickHandler, 3]}}),
]);
Snabbdom allows swapping event handlers between renders. This happens without actually touching the event handlers attached to the DOM.
Note, however, that you should be careful when sharing event handlers between vnodes, because of the technique this module uses to avoid re-binding event handlers to the DOM. (And in general, sharing data between vnodes is not guaranteed to work, because modules are allowed to mutate the given data).
In particular, you should not do something like this:
// Does not work
var sharedHandler = {
change: function(e){ console.log('you chose: ' + e.target.value); }
};
h('div', [
h('input', {props: {type: 'radio', name: 'test', value: '0'},
on: sharedHandler}),
h('input', {props: {type: 'radio', name: 'test', value: '1'},
on: sharedHandler}),
h('input', {props: {type: 'radio', name: 'test', value: '2'},
on: sharedHandler})
]);
For many such cases, you can use array-based handlers instead (described above).
Alternatively, simply make sure each node is passed unique on
values:
// Works
var sharedHandler = function(e){ console.log('you chose: ' + e.target.value); };
h('div', [
h('input', {props: {type: 'radio', name: 'test', value: '0'},
on: {change: sharedHandler}}),
h('input', {props: {type: 'radio', name: 'test', value: '1'},
on: {change: sharedHandler}}),
h('input', {props: {type: 'radio', name: 'test', value: '2'},
on: {change: sharedHandler}})
]);
SVG just works when using the h
function for creating virtual
nodes. SVG elements are automatially created with the appropriate
namespaces.
var vnode = h('div', [
h('svg', {attrs: {width: 100, height: 100}}, [
h('circle', {attrs: {cx: 50, cy: 50, r: 40, stroke: 'green', 'stroke-width': 4, fill: 'yellow'}})
])
]);
See also the SVG example and the SVG Carousel example.
Due to a bug in certain browsers like IE 11 and below and UC Browser, SVG Objects in these browsers do not support classlist property. Hence, the classes module (which uses classlist property internally) will not work for these browsers.
Also, using snabbdom/h to create an element by passing a className along with the element type will not work as className property is read-only for SVG elements.
You can add classes to SVG elements for both of these cases by using the attributes module as shown below:-
h('text', {
attrs: {
x: xPos,
y: yPos,
dy: "5",
class: 'text_class'
}},
text
);
The thunk
function takes a selector, a key for identifying a thunk,
a function that returns a vnode and a variable amount of state
parameters. If invoked, the render function will recieve the state
arguments.
thunk(selector, key, renderFn, [stateArguments])
The key
is optional. It should be supplied when the selector
is
not unique among the thunks siblings. This ensures that the thunk is
always matched correctly when diffing.
Thunks are an optimization strategy that can be used when one is dealing with immutable data.
Consider a simple function for creating a virtual node based on a number.
function numberView(n) {
return h('div', 'Number is: ' + n);
}
The view depends only on n
. This means that if n
is unchanged,
then creating the virtual DOM node and patching it against the old
vnode is wasteful. To avoid the overhead we can use the thunk
helper
function.
function render(state) {
return thunk('num', numberView, state.number);
}
Instead of actually invoking the numberView
function this will only
place a dummy vnode in the virtual tree. When Snabbdom patches this
dummy vnode against a previous vnode, it will compare the value of
n
. If n
is unchanged it will simply reuse the old vnode. This
avoids recreating the number view and the diff process altogether.
The view function here is only an example. In practice thunks are only relevant if you are rendering a complicated view that takes significant computational time to generate.
Properties
The .sel
property of a virtual node is the CSS selector passed to
h()
during creation. For example: h('div#container', {}, [...])
will create a a virtual node which has div#container
as
its .sel
property.
The .data
property of a virtual node is the place to add information
for modules to access and manipulate the
real DOM element when it is created; Add styles, CSS classes,
attributes, etc.
The data object is the (optional) second parameter to h()
For example h('div', {props: {className: 'container'}}, [...])
will produce a virtual node with
{
"props": {
className: "container"
}
}
as its .data
object.
The .children
property of a virtual node is the third (optional)
parameter to h()
during creation. .children
is
simply an Array of virtual nodes that should be added as children of
the parent DOM node upon creation.
For example h('div', {}, [ h('h1', {}, 'Hello, World') ])
will
create a virtual node with
[
{
sel: 'h1',
data: {},
children: undefined,
text: 'Hello, World',
elm: Element,
key: undefined,
}
]
as its .children
property.
The .text
property is created when a virtual node is created with
only a single child that possesses text and only requires
document.createTextNode()
to be used.
For example: h('h1', {}, 'Hello')
will create a virtual node with
Hello
as its .text
property.
The .elm
property of a virtual node is a pointer to the real DOM
node created by snabbdom. This property is very useful to do
calculations in hooks as well as
modules.
The .key
property is created when a key is provided inside of your
.data
object. The .key
property is used to keep
pointers to DOM nodes that existed previously to avoid recreating them
if it is unnecessary. This is very useful for things like list
reordering. A key must be either a string or a number to allow for
proper lookup as it is stored internally as a key/value pair inside of
an object, where .key
is the key and the value is the
.elm
property created.
For example: h('div', {key: 1}, [])
will create a virtual node
object with a .key
property with the value of 1
.
Snabbdom is a low-level virtual DOM library. It is unopinionated with regards to how you should structure your application.
Here are some approaches to building applications with Snabbdom.
- functional-frontend-architecture – a repository containing several example applications that demonstrates an architecture that uses Snabbdom.
- Motorcycle.js – is a variant of the functional and reactive Javascript framework Cycle.js that uses Snabbdom.
Be sure to share it if you're building an application in another way using Snabbdom.