domvm
v3.4.14
Published
DOM ViewModel - A thin, fast, dependency-free vdom view layer
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A thin, fast, dependency-free vdom view layer (MIT Licensed)
Introduction
domvm is a flexible, pure-js view layer for building high performance web applications. Like jQuery, it'll happily fit into any existing codebase without introducing new tooling or requiring major architectural changes.
- It's zero-dependency and requires no compilation or tooling; one
<script>
tag is all that's needed. - It's small: ~6k gz, fast: just 20% slower vs painfully imperative vanilla DOM code. 2x faster SSR vs React v16.
- Its entire, practical API can be mastered in under 1 hour by both, OO graybeards and FRP hipsters. Obvious explicit behavior, debuggable plain JS templates, optional statefulness and interchangable imperative/declarative components.
- It's well-suited for building simple widgets and complex, fault-tolerant applications.
- Supports down to IE11 with a tiny Promise shim.
To use domvm you should be comfortable with JavaScript and the DOM; the following code should be fairly self-explanatory:
var el = domvm.defineElement,
cv = domvm.createView;
var HelloView = {
render: function(vm, data) {
return el("h1", {style: "color: red;"}, "Hello " + data.name);
}
};
var data = {name: "Leon"};
var vm = cv(HelloView, data).mount(document.body);
Demo Playground
Documentation
- What domvm Is Not
- Builds
- Changelog
- Tests
- Installation
- DEVMODE
- Templates
- Views
- Parents & Roots
- Sub-views vs Sub-templates
- Event Listeners
- Autoredraw
- Streams
- Refs & Data
- Keys & DOM Recycling
- Hello World++
- Emit System
- Lifecycle Hooks
- Third-party Integration
- Extending ViewModel & VNode
- createContext
- Isomorphism & SSR
- Optimizations
- WIP: https://github.com/domvm/domvm/issues/156
What domvm Is Not
As a view layer, domvm does not include some things you would find in a larger framework. This gives you the freedom to choose libs you already know or prefer for common tasks. domvm provides a small, common surface for integration of routers, streams and immutable libs. Some minimalist libs that work well:
- Routing: domvm-router, riot/route, rlite, navigo
- Ajax/fetch/XHR: xr, alite
- Streams: flyd, xstream
- Immutable stores: Freezer, MobX
- Vendor prefixing: cssprefix, prefixfree
- CSS-in-JS: linaria, stylis.js, j2c, emotion, oh boy...
Many /demos are examples of how to use these libs in your apps.
Builds
domvm comes in several builds of increasing size and features. The nano
build is a good starting point and is sufficient for most cases.
Changelog
Changes between versions are documented in Releases.
Tests
- Tests run in a browser: https://domvm.github.io/domvm/test/
- Coverage reports are generated via
npm run covtest && npm run covreport
- Current coverage is 85% - 90%
Installation
Browser
<script src="dist/nano/domvm.nano.iife.min.js"></script>
Node
var domvm = require("domvm"); // the "full" build
DEVMODE
If you're new to domvm, the dev build is recommended for development & learning to avoid common mistakes; watch the console for warnings and advice.
There are a couple config options:
domvm.DEVMODE.mutations = false
will disable DOM mutation logging.domvm.DEVMODE.warnings = false
will disable all warnings.domvm.DEVMODE.verbose = false
will suppress the explanations, but still leave the error names & object info.domvm.DEVMODE.UNKEYED_INPUT = false
will disable only these warnings. The full list can be found in devmode.js.
Due to the runtime nature of DEVMODE heuristics, some warnings may be false positives (where the observed behavior is intentional). If you feel an error message can be improved, open an issue!
While not DEVMODE-specific, you may find it useful to toggle always-sychronous redraw during testing and benchmarks:
domvm.cfg({
syncRedraw: true
});
Templates
Most of your domvm code will consist of templates for creating virtual-dom trees, which in turn are used to render and redraw the DOM. domvm exposes several factory functions to get this done. Commonly this is called hyperscript.
For convenience, we'll alias each factory function with a short variable:
var el = domvm.defineElement,
tx = domvm.defineText,
cm = domvm.defineComment,
sv = domvm.defineSvgElement,
vw = domvm.defineView,
iv = domvm.injectView,
ie = domvm.injectElement,
cv = domvm.createView;
Using defineText
is not required since domvm will convert all numbers and strings into defineText
vnodes automatically.
Below is a dense reference of most template semantics.
el("p", "Hello") // plain tags
el("textarea[rows=10]#foo.bar.baz", "Hello") // attr, id & class shorthands
el(".kitty", "Hello") // "div" can be omitted from tags
el("input", {type: "checkbox", checked: true}) // boolean attrs
el("input", {type: "checkbox", ".checked": true}) // set property instead of attr
el("button", {onclick: myFn}, "Hello") // event handlers
el("button", {onclick: [myFn, arg1, arg2]}, "Hello") // parameterized
el("p", {style: "font-size: 10pt;"}, "Hello") // style can be a string
el("p", {style: {fontSize: "10pt"}}, "Hello") // or an object (camelCase only)
el("div", {style: {width: 35}}, "Hello") // "px" will be added when needed
el("h1", [ // attrs object is optional
el("em", "Important!"),
"foo", 123, // plain values
ie(myElement), // inject existing DOM nodes
el("br"), // void tags without content
"", [], null, undefined, false, // these will be auto-removed
NaN, true, {}, Infinity, // these will be coerced to strings
[ // nested arrays will get flattened
el(".foo", {class: "bar"}, [ // short & attr class get merged: .foo.bar
"Baz",
el("hr"),
])
],
])
el("#ui", [
vw(NavBarView, navbar), // sub-view w/data
vw(PanelView, panel, "panelA"), // sub-view w/data & key
iv(someOtherVM, newData), // injected external ViewModel
])
// special _* props
el("p", {_key: "myParag"}, "Some text") // keyed nodes
el("p", {_data: {foo: 123}}, "Some text") // per-node data (faster than attr)
el("p", {_ref: "myParag"}, "Some text") // named refs (vm.refs.myParag)
el("p", {_ref: "pets.james"}, "Some text") // namespaced (vm.refs.pets.james)
el("p", {_hooks: {willRemove: ...}}, "Some text") // lifecycle hooks
el("div", {_flags: ...}, "Some text") // optimization flags
Spread children
micro
+ builds additionally provide two factories for defining child elements using a ...children
spread rather than an explicit array.
var el = domvm.defineElementSpread,
sv = domvm.defineSvgElementSpread;
el("ul",
el("li", 1),
el("li", 2),
el("li", 3)
);
JSX
While not all of domvm's features can be accommodated by JSX syntax, it's possible to cover a fairly large subset via a defineElementSpread
pragma.
Please refer to demos and examples in the JSX wiki.
Views
What React calls "components", domvm calls "views".
A view definition can be a plain object or a named closure (for isolated working scope, internal view state or helper functions).
The closure must return a template-generating render
function or an object containing the same:
var el = domvm.defineElement;
function MyView(vm) { // named view closure
return function() { // render()
return el("div", "Hello World!"); // template
};
}
function YourView(vm) {
return {
render: function() {
return el("div", "Hello World!");
}
};
}
var SomeView = {
init: function(vm) {
// ...
},
render: function() {
return el("div", "Hello World!");
}
};
Views can accept external data
to render (à la React's props
):
function MyView(vm) {
return function(vm, data) {
return el("div", "Hello " + data.firstName + "!");
};
}
vm
is this views's ViewModel
; it's the created instance of MyView
and serves the same purpose as this
within an ES6 React component.
The vm
provides the control surface/API to this view and can expose a user-defined API for external view manipulation.
Rendering a view to the DOM is called mounting. To mount a top-level view, we create it from a view definition:
var data = {
firstName: "Leon"
};
var vm = cv(MyView, data);
vm.mount(document.body); // appends into target
By default, .mount(container)
will append the view into the container. Alternatively, to use an existing placeholder element:
var placeholder = document.getElementById("widget");
vm.mount(placeholder, true); // empties & assimilates placeholder
When your data changes, you can request to redraw the view, optionally passing a boolean sync
flag to force a synchronous redraw.
vm.redraw(sync);
If you need to replace a view's data (as with immutable structures), you should use vm.update
, which will also redraw.
vm.update(newData, sync);
Views can be nested either declaratively or by injecting an already-initialized view:
var el = domvm.defineElement,
vw = domvm.defineView,
iv = domvm.injectView;
function ViewA(vm) {
return function(vm, dataA) {
return el("div", [
el("strong", dataA.test),
vw(ViewB, dataA.dataB), // implicit/declarative view
iv(data.viewC), // injected explicit view
]);
};
}
function ViewB(vm) {
return function(vm, dataB) {
return el("em", dataB.test2);
};
}
function ViewC(vm) {
return function(vm, dataC) {
return el("em", dataC.test3);
};
}
var dataC = {
test3: 789,
};
var dataA = {
test: 123,
dataB: {
test2: 456,
},
viewC: cv(ViewC, dataC),
};
var vmA = cv(ViewA, dataA).mount(document.body);
Notes:
render()
must return a single dom vnode. There is no support yet for views returning fragments/arrays, other views ornull
. These capabilities do not add much value to domvm's API (see Issue #207).
Options
cv
and vw
have four arguments: (view, data, key, opts)
.
The fourth opts
arg can be used to pass in any additional data into the view constructor/init without having to cram it into data
.
Several reserved options are handled automatically by domvm that correspond to existing vm.cfg({...})
options (documented in other sections):
init
(same as using{init:...}
in views defs)diff
hooks
onevent
onemit
This can simplify sub-view internals when externally-defined opts are passed in, avoiding some boilerplate inside views, eg. vm.cfg({hooks: opts.hooks})
.
ES6/ES2015 Classes
Class views are not supported because domvm avoids use of this
in its public APIs. To keep all functions pure, each is invoked with a vm
argument. Not only does this compress better, but also avoids much ambiguity. Everything that can be done with classes can be done better with domvm's plain object views, ES6 modules, Object.assign()
and/or Object.create()
. See #194 & #147 for more details.
TODO: create Wiki page showing ES6 class equivalents:
- extend via ES6 module import &
Object.assign({}, base, current)
- super() via ES6 module import and passing vm instance
- invoking additional "methods" via
vm.view.*
from handlers or view closure
Parents & Roots
You can access any view's parent view via vm.parent()
and the great granddaddy of any view hierarchy via vm.root()
shortcut.
So, logically, to redraw the entire UI tree from any subview, invoke vm.root().redraw()
.
For traversing the vtree, there's also vm.body()
which gets the next level of descendant views (not necessarily direct children).
vnode.body
and vnode.parent
complete the picture.
Sub-views vs Sub-templates
A core benefit of template composition is code reusability (DRY, component architecture). In domvm composition can be realized using either sub-views or sub-templates, often interchangeably. Sub-templates should generally be preferred over sub-views for the purposes of code reuse, keeping in mind that like sub-views, normal vnodes:
- Can be keyed to prevent undesirable DOM reuse
- Can subscribe to numerous lifecycle hooks
- Can hold data, which can then be accessed from event handlers
Sub-views carry a bit of performance overhead and should be used when the following are needed:
- Large building blocks
- Complex private state
- Numerous specific helper functions
- Isolated redraw (as a perf optimization)
- Synchronized redraw of disjoint views
As an example, the distinction can be discussed in terms of the calendar demo. Its implementation is a single monolithic view with internal sub-template generating functions. Some may prefer to split up the months into a sub-view called MonthView, which would bring the total view count to 13. Others may be tempted to split each day into a DayView, but this would be a mistake as it would create 504 + 12 + 1 views, each incuring a slight performance hit for no reason. On the other hand, if you have a full-page month view with 31 days and multiple interactive events in the day cells, then 31 sub-views are well-justified.
The general advice is, restrict your views to complex, building-block-level, stateful components and use sub-template generators for readability and DRY purposes; a button should not be a view.
Event Listeners
Basic listeners are bound directly and are defined by plain functions. Like vanilla DOM, they receive only the event as an argument. If you need high performance such as mousemove
, drag
, scroll
or other events, use basic listeners.
function filter(e) {
// ...
}
el("input", {oninput: filter});
Parameterized listeners are defined using arrays and executed by a single, document-level, capturing proxy handler. They:
- Can pass through additional args and receive
(...args, e, node, vm, data)
- Will invoke global and vm-level
onevent
callbacks - Will call
e.preventDefault()
&e.stopPropagation()
iffalse
is returned
function cellClick(foo, bar, e, node, vm, data) {}
el("td", {onclick: [cellClick, "foo", "bar"]}, "moo");
View-level and global onevent
callbacks:
// global
domvm.cfg({
onevent: function(e, node, vm, data, args) {
// ...
}
});
// vm-level
vm.cfg({
onevent: function(e, node, vm, data, args) {
// ...
}
});
Autoredraw
Is calling vm.redraw()
everywhere a nuisance to you?
There's an easy way to implement autoredraw yourself via a global or vm-level onevent
which fires after all parameterized event listeners.
The onevent demo demonstrates a basic full app autoredraw:
domvm.cfg({
onevent: function(e, node, vm, data, args) {
vm.root().redraw();
}
});
You can get as creative as you want, including adding your own semantics to prevent redraw on a case-by-case basis by setting and checking for e.redraw = false
.
Or maybe having a Promise piggyback on e.redraw = new Promise(...)
that will resolve upon deep data being fetched.
You can maybe implement filtering by event type so that a flood of mousemove
events, doesnt result in a redraw flood. Etc..
Streams
Another way to implement view reactivity and autoredraw is by using streams. By providing streams to your templates rather than values, views will autoredraw whenever streams change. domvm does not provide its own stream implementation but instead exposes a simple adapter to plug in your favorite stream lib.
domvm's templates support streams in the following contexts:
- view data:
vw(MyView, dataStream...)
andcv(MyView, dataStream...)
- simple body:
el("#total", cartTotalStream)
- attr value:
el("input[type=checkbox]", {checked: checkedStream})
- css value:
el("div", {style: {background: colorStream}})
A stream adapter for flyd looks like this:
domvm.cfg({
stream: {
val: function(v, accum) {
if (flyd.isStream(v)) {
accum.push(v);
return v();
}
else
return v;
},
on: function(accum, vm) {
let calls = 0;
const s = flyd.combine(function() {
if (++calls == 2) {
vm.redraw();
s.end(true);
}
}, accum);
return s;
},
off: function(s) {
s.end(true);
}
}
});
val
accepts any value and, if that value is a stream, appends it to the provided accumulator array; then returns the stream's current value, else the original object. called multiple times per redraw.on
accepts the accumulater array (now filled with streams) and returns a dependent stream that will invokevm.redraw()
once and end (ignoring initial stream creation). this can also be implemented via a.drop(1).take(1).map(...)
pattern, if supported by your stream lib (see https://github.com/paldepind/flyd/issues/176#issuecomment-385141469). called once per redraw.off
accepts the dependent stream created byon
and ends it. called once per unmount.
An extensive demo can be found in the streams playground.
Notes:
- Streams must never create, cache or reuse domvm's vnodes (
defineElement()
, etc.) since this will cause memory leaks and major bugs.
Refs & Data
Like React, it's possible to access the live DOM from event listeners, etc via refs
. In addition, domvm's refs can be namespaced:
function View(vm) {
function sayPet(e) {
var vnode = vm.refs.pets.fluffy;
alert(fluffy.el.value);
}
return function() {
return el("form", [
el("button", {onclick: sayPet}, "Say Pet!"),
el("input", {_ref: "pets.fluffy"}),
]);
};
}
VNodes can hold arbitrary data, which obviates the need for slow data-*
attributes and keeps your DOM clean:
function View(vm) {
function clickMe(e, node) {
console.log(node.data.myVal);
}
return function() {
return el("form", [
el("button", {onclick: [clickMe], _data: {myVal: 123}}, "Click!"),
]);
};
}
Notes:
vm.state
& vm.api
are userspace-reserved and initialized to null
.
You may use them to expose view state or view methods as you see fit without fear of collisions with internal domvm properties & methods (present or future).
Keys & DOM Recycling
Like React [and any dom-reusing lib worth its salt], domvm sometimes needs keys to assure you of deterministic DOM recycling - ensuring similar sibling DOM elements are not reused in unpredictable ways during mutation. In contrast to other libs, keys in domvm are more flexible and often already implicit.
- Both vnodes and views may be keyed:
el('div', {_key: "a"})
,vw(MyView, {...}, "a")
- Keys do not need to be strings; they can be numbers, objects or functions
- Not all siblings need to be keyed - just those you need determinism for
- Attrs and special attrs that should be unique anyhow will establish keys:
_key
(explicit)_ref
(must be unique within a view)id
(should already be unique per document)name
orname
+value
for radios and checkboxes (should already be unique per form)
Hello World++
Try it: https://domvm.github.io/domvm/demos/playground/#stepper1
var el = domvm.defineElement; // element VNode creator
function StepperView(vm, stepper) { // view closure (called once during init)
function add(num) {
stepper.value += num;
vm.redraw();
}
function set(e) {
stepper.value = +e.target.value;
}
return function() { // template renderer (called on each redraw)
return el("#stepper", [
el("button", {onclick: [add, -1]}, "-"),
el("input[type=number]", {value: stepper.value, oninput: set}),
el("button", {onclick: [add, +1]}, "+"),
]);
};
}
var stepper = { // some external model/data/state
value: 1
};
var vm = cv(StepperView, stepper); // create ViewModel, passing model
vm.mount(document.body); // mount into document
The above example is simple and decoupled. It provides a UI to modify our stepper object which itself needs no awareness of any visual representation. But what if we want to modify the stepper using an API and still have the UI reflect these changes. For this we need to add some coupling. One way to accomplish this is to beef up our stepper with an API and give it awareness of its view(s) which it will redraw. The end result is a lightly-coupled domain model that:
- Holds state, as needed.
- Exposes an API that can be used programmatically and is UI-consistent.
- Exposes view(s) which utilize the API and can be composed within other views.
It is this fully capable, view-augmented domain model that domvm's author considers a truely reusable "component".
Try it: https://domvm.github.io/domvm/demos/playground/#stepper2
var el = domvm.defineElement;
function Stepper() {
this.value = 1;
this.add = function(num) {
this.value += num;
this.view.redraw();
};
this.set = function(num) {
this.value = +num;
this.view.redraw();
};
this.view = cv(StepperView, this);
}
function StepperView(vm, stepper) {
function add(val) {
stepper.add(val);
}
function set(e) {
stepper.set(e.target.value);
}
return function() {
return el("#stepper", [
el("button", {onclick: [add, -1]}, "-"),
el("input[type=number]", {value: stepper.value, oninput: set}),
el("button", {onclick: [add, +1]}, "+"),
]);
};
}
var stepper = new Stepper();
stepper.view.mount(document.body);
// now let's use the stepper's API to increment
var i = 0;
var it = setInterval(function() {
stepper.add(1);
if (i++ == 20)
clearInterval(it);
}, 250);
Emit System
Emit is similar to DOM events, but works explicitly within the vdom tree and is user-triggerd.
Calling vm.emit(evName, ...args)
on a view will trigger an event that bubbles up through the view hierarchy.
When an emit listener is matched, it is invoked and the bubbling stops.
Like parameterized events, the vm
and data
args reflect the originating view of the event.
// listen
vm.cfg({
onemit: {
myEvent: function(arg1, arg2, vm, data) {
// ... do stuff
}
}
});
// trigger
vm.emit("myEvent", arg1, arg2);
There is also a global emit listener which fires for all emit events.
domvm.cfg({
onemit: {
myEvent: function(arg1, arg2, vm, data) {
// ... do stuff
}
}
});
Lifecycle Hooks
Demo: lifecycle-hooks different hooks animate in/out with different colors.
Node-level
Usage: el("div", {_key: "...", _hooks: {...}}, "Hello")
will
/didInsert(newNode)
- initial insertwill
/didRecycle(oldNode, newNode)
- reuse & patchwill
/didReinsert(newNode)
- detach & movewill
/didRemove(oldNode)
While not required, it is strongly advised that your hook-handling vnodes are uniquely keyed as shown above, to ensure deterministic DOM recycling and hook invocation.
View-level
Usage: vm.cfg({hooks: {willMount: ...}})
or return {render: ..., hooks: {willMount: ...}}
willUpdate(vm, data)
- before views's data is replacedwill
/didRedraw(vm, data)
will
/didMount(vm, data)
- dom insertionwill
/didUnmount(vm, data)
- dom removal
Notes:
did*
hooks fire after a forced DOM repaint.willRemove
&willUnmount
hooks can return a Promise to delay the removal/unmounting allowing you to CSS transition, etc.
Third-Party Integration
Several facilities exist to interoperate with third-party libraries.
Non-interference
First, domvm will not touch attrs that are not specified or managed in your templates. In addition, elements not created by domvm will be ignored by the reconciler, as long as their ancestors continue to remain in the DOM. However, the position of any inserted third-party DOM element amongst its siblings cannot be guaranteed.
will/didInsert Hooks
You can use normal DOM methods to insert elements into elements managed by domvm by using will/didInsert hooks. See the Embed Tweets demo.
injectElement
domvm.injectElement(elem)
allows you to insert any already-created third-party element into a template, deterministically manage its position and fire lifecycle hooks.
innerHTML
You can set the innerHTML of an element created by domvm using a normal .
-prefixed property attribute:
el("div", {".innerHTML": "<p>Foo</p>"});
However, it's strongly recommended for security reasons to use domvm.injectElement()
after parsing the html string via the browser's native DOMParser API.
Extending ViewModel & VNode
If needed, you may extend some of domvm's internal class prototypes in your app to add helper methods, etc. The following are available:
domvm.ViewModel.prototype
domvm.VNode.prototype
createContext
This demo in the playground shows how to implement VNode.prototype.pull()
- a close analog to React's createContext
- a feature designed to alleviate prop drilling without resorting to globals.
Isomorphism & SSR
Like React's renderToString
, domvm can generate html and then hydrate it on the client.
In server
& full
builds, vm.html()
can generate html.
In client
& full
builds, vm.attach(target)
should be used to hydrate the rendered DOM.
var el = domvm.defineElement;
function View() {
function sayHi(e) {
alert("Hi!");
}
return function(vm, data) {
return el("body", {onclick: sayHi}, "Hello " + data.name);
}
}
var data = {name: "Leon"};
// return this generated <body>Hello Leon</body> from the server
var html = cv(View, data).html();
// then hydrate on the client to bind event handlers, etc.
var vm = cv(View, data).attach(document.body);
Notes:
target
must be the DOM element which corresponds to the top-level/root virtual node of the view you're attaching- Whitespace in the generated HTML is significant; indented, formatted or pretty-printed markup will not attach properly
- The HTML parsing spec requires that an implicit
<tbody>
DOM node is created if<tr>
s are nested directly within<table>
. This causes problems when no corresponding<tbody>
is defined in the vtree. Therefore, when attaching tables via SSR, it is necessary to explicitly define<tbody>
vnodes viael("tbody",...)
and avoid creating<tr>
children of<table>
nodes. See Issue #192
Optimizations
Before you continue...
- Recognize that domvm with no optimizations is able to rebuild and diff a full vtree and reconcile a DOM of 3,000 nodes in < 1.5ms. See 0% dbmonster bench.
- Make sure you've read and understood Sub-views vs Sub-templates.
- Ensure you're not manually caching & reusing old vnodes or holding references to them in your app code. They're meant to be discarded by the GC; let them go.
- Profile your code to be certain that domvm is the bottleneck and not something else in your app. e.g. Issue #173.
- When using the DEVMODE build, are the logged DOM operations close to what you expect?
- Are you rendering an enormous DOM that's already difficult for browsers to deal with? Run
document.querySelectorAll("*").length
in the devtools console. Live node counts over 10,000 should be evaluated for refactoring. - Are you calling
vm.redraw()
from unthrottled event listeners such asmousemove
,scroll
,resize
,drag
,touchmove
? - Are you using
requestAnimationFrame()
where appropriate? - Are you using event delegation where appropriate to avoid binding thousands of event listeners?
- Are you properly using CSS3 transforms, transitions and animation to do effects and animations rather than calling
vm.redraw()
at 60fps? - Do thousands of nodes or views have lifecycle hooks?
- Finally, understand that optimizations can only reduce the work needed to regenerate the vtree, diff and reconcile the DOM; the performed DOM operations will always be identical and near-optimal. In the vast majority of cases, the lowest-hanging fruit will be in the above advice.
Still here? You must be a glutton for punishment, hell-bent on rendering enormous grids or tabular data ;) Very well, then...
Isolated Redraw
Let's start with the obvious.
Do you need to redraw everything or just a sub-view?
vm.redraw()
lets you to redraw only specific views.
Flatten Nested Arrays
While domvm will flatten nested arrays in your templates, you may get a small boost by doing it yourself via Array.concat()
before returning your templates from render()
.
Old VTree Reuse
If a view is static or is known to not have changed since the last redraw, render()
can return the existing old vnode to short-circuit the vtree regeneration, diffing and dom reconciliation.
function View(vm) {
return function(vm) {
if (noChanges)
return vm.node;
else
return el("div", "Hello World");
};
}
The mechanism for determining if changes may exist is up to you, including caching old data within the closure and doing diffing on each redraw. Speaking of diffing...
View Change Assessment
Similar to React's shouldComponentUpdate()
, vm.cfg({diff:...})
is able to short-circuit redraw calls.
It provides a caching layer that does shallow comparison before every render()
call and may return an array or object to shallow-compare for changes.
function View(vm) {
vm.cfg({
diff: function(vm, data) {
return [data.foo.bar, data.baz];
}
});
return function(vm, data) {
return el("div", {class: data.baz}, "Hello World, " + data.foo.bar);
};
}
diff
may also return a plain value that's the result of your own DIY comparison, but is most useful for static views where no complex diff is required at all and a simple ===
will suffice.
With a plain-object view, it looks like this:
var StaticView = {
diff: function(vm, data) {
return 0;
},
render: function(vm, data) {},
};
Notes:
If you intend to do a simple diff of an object by its identity, then it's preferable to return it wrapped in an array to avoid domvm also diffing all of its enumerable keys when oldObj !== newObj
.
This is a micro-optimization and will not affect the resulting behavior.
Also, see Issue #148.
VNode Patching
VNodes can be patched on an individual basis, and this can be done without having to patch the children, too. This makes mutating attributes, classes and styles much faster when the children have no changes.
var vDiv = el("div", {class: "foo", style: "color: red;"}, [
el("div", "Mooo")
]);
vDiv.patch({class: "bar", style: "color: blue;"});
DOM patching can also be done via a full vnode rebuild:
function makeDiv(klass) {
return el("div", {class: klass, style: "color: red;"}, [
el("div", "Mooo")
]);
}
var vDiv = makeDiv("foo");
vDiv.patch(makeDiv("bar"));
vnode.patch(vnode|attrs, doRepaint)
can be called with a doRepaint = true
arg to force a DOM update.
This is typically useful in cases when a CSS transition must start from a new state and should not be batched with any followup patch()
calls.
You can see this used in the lifecycle-hooks demo.
Fixed Structures
Let's say you have a bench like dbmonster in this repo.
It's a huge grid that has a fixed structure. No elements are ever inserted, removed or reordered.
In fact, the only mutations that ever happen are textContent
of the cells and patching of attrs like class
, and style
.
There's a lot of work that domvm's DOM reconciler can avoid doing here, but you have to tell it that the structure of the DOM will not change.
This is accomplished with a domvm.FIXED_BODY
vnode flag on all nodes whose body
will never change in shallow structure.
var Table = {
render: function() {
return el("table", {_flags: domvm.FIXED_BODY}, [
el("tr", {_flags: domvm.FIXED_BODY}, [
el("td", {_flags: domvm.FIXED_BODY}, "Hello"),
el("td", {_flags: domvm.FIXED_BODY}, "World"),
])
]);
}
};
This is rather tedious, so there's an easier way to get it done. The fourth argument to defineElement()
is flags
, so we create an additional element factory and use it normally:
function fel(tag, arg1, arg2) {
return domvm.defineElement(tag, arg1, arg2, domvm.FIXED_BODY);
}
var Table = {
render: function() {
return fel("table", [
fel("tr", [
fel("td", "Hello"),
fel("td", "World"),
])
]);
}
};
Fully-Keyed Lists
In domvm, the term "list", implies that child elements are shallow-homogenous (the same views or elements with the same DOM tags).
domvm does not require that child arrays are fully-keyed, but if they are, you can slightly simplify domvm's job of matching up the old vtree by only testing keys.
This is done by setting the domvm.KEYED_LIST
vnode flag on the parent.
Lazy Lists
Lazy lists allow for old vtree reuse in the absence of changes at the vnode level without having to refactor into more expensive views that return existing vnodes. This mostly saves on memory allocations. Lazy lists may be created for both, keyed and non-keyed lists. To these lists, you will need:
- A list-item generating function, which you should have anyways as the callback passed to a
Array.map
iterator. OnlydefineElement()
anddefineView()
nodes are currently supported. - For keyed lists, a key-generating function that allows for matching up proper items in the old vtree.
- A
diff
function which allows a lazy list to determine if an item has changed and needs a new vnode generated or can have its vnode reused. - Create a
domvm.list()
iterator/generator using the above. - Provide
{_key: key}
fordefineElement()
vnodes orvw(ItemView, item, key)
fordefineView()
vnodes.
While a bit involved, the resulting code is quite terse and not as daunting as it sounds: https://domvm.github.io/domvm/demos/playground/#lazy-list
Special Attrs
VNodes use attrs
objects to also pass special properties: _key
, _ref
, _hooks
, _data
, _flags
. If you only need to pass one of these special options to a vnode and have not actual attributes to set, you can avoid allocating attrs objects by assigning them directly to the created vnodes.
Instead of creating attrs objects just to set a key:
el("ul", [
el("li", {_key: "foo"}, "hello"),
el("li", {_key: "bar"}, "world"),
])
Create a helper to set the key directly:
function keyed(key, vnode) {
vnode.key = key;
return vnode;
}
el("ul", [
keyed("foo", el("li", "hello")),
keyed("bar", el("li", "world")),
])