@mycolorway/custom-elements
v1.2.4
Published
HTML Custom Elements Polyfill
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Custom Elements (v1) Polyfill
A polyfill for the custom elements v1 spec.
Using
Standalone script tag
Include a script tag at the beginning of your page, before any code that manipulates the DOM. The custom-elements.min.js can be loaded from a CDN:
<script src="https://unpkg.com/@webcomponents/custom-elements"></script>
Or you can build it yourself and then load it:
<script src="custom-elements.min.js"></script>
Via npm:
If you're using npm, webpack, or similar tools, this package can be installed and imported:
npm install @webcomponents/custom-elements
// Do this import before any code that manipulates the DOM.
import '@webcomponents/custom-elements'
Via the webcomponents polyfill
Alternatively, you can use this polyfill via the webcomponentjs polyfills.
Developing
- Install and build
npm install
npm run build
(Or, npm i && gulp
, if gulp is installed globally.)
- Test
npm run test
(Or, wct
, if installed
globally.)
Custom element reactions in the DOM and HTML specs
API which might trigger custom element reactions in the DOM
and HTML specifications are marked with the
CEReactions
extended attribute.
Known Bugs and Limitations
adoptedCallback
is not supported.- Changing an attribute of a customizable (but uncustomized) element will not cause that element to upgrade.
- Only DOM API is patched. Notably, this excludes API from the HTML spec marked
with the
CEReactions
extended attribute.- Unpatched API from the DOM spec:
- Setters on
Element
forid
,className
, andslot
. DOMTokenList
(element.classList
)NamedNodeMap
(element.attributes
)Attr
(element.attributes.getNamedItem('attr-name')
)
- Setters on
- Unpatched API from the DOM spec:
- The custom element reactions stack
is not implemented.
- Typically, DOM operations patched in this polyfill gather the list of elements to which a given callback would apply and then iterate that list, calling the callback on each element. This mechanism breaks down if an element's callback performs another DOM operation that manipulates an area of the tree that was captured in the outer operation's list of elements. When this happens, the callbacks from the inner DOM operation will be called before those of the outer DOM operation (typically, depending on the patch implementation), as opposed to a spec-compliant implementation where the callbacks are always run in the order they were inserted into each particular element's reaction queue.
- Custom elements created by the UA's parser are customized as if they were
upgraded, rather than constructed.
- These elements are only learned about after they have been constructed, and typically after their descendants have been constructed. When these elements are constructed, their children are visible and editable even though they would not yet exist and manipulating them would throw in a spec-compliant implementation of custom elements!
- The requirements for custom element constructors
are not enforced.
- These requirements are not generally enforcable in user script because of
the ability to use the
new
operator on a custom element constructor. This means there is no way to know when a call to a constructor has begun or finished.
- These requirements are not generally enforcable in user script because of
the ability to use the
- Methods of the
ParentNode
andChildNode
interfaces do not supportDocumentFragment
s as arguments. - Your custom element constructor's prototype must have a property named
constructor
which is that constructor.- By default, for every constructable function
F
,F.prototype.constructor === F
. If you replace the prototype of your constructorF
, you must make sure thatF.prototype.constructor === F
remains true. Otherwise, the polyfill will not be able to create or upgrade your custom elements.
- By default, for every constructable function
- The
:defined
CSS pseudo-class is not supported.
ES5 vs ES2015
The custom elements v1 spec is not compatible with ES5 style classes. This means
ES2015 code compiled to ES5 will not work with a native implementation of Custom
Elements.[0] While it's possible to force the custom elements polyfill to be
used to workaround this issue (by setting (customElements.forcePolyfill = true;
before loading the polyfill), you will not be using the UA's native
implementation in that case.
Since this is not ideal, we've provided an alternative: native-shim.js. Loading this shim minimally augments the native implementation to be compatible with ES5 code. We are also working on some future refinements to this approach that will improve the implementation and automatically detect if it's needed.
[0] The spec requires that an element call the HTMLElement
constructor.
Typically an ES5 style class would do something like HTMLElement.call(this)
to
emulate super()
. However, HTMLElement
must be called as a constructor and
not as a plain function, i.e. with Reflect.construct(HTMLElement, [], MyCEConstructor)
,
or it will throw.
Parser-created elements in the main document
By default, the polyfill uses a MutationObserver
to learn about and upgrade
elements in the main document as they are parsed. This MutationObserver
is
attached to document
synchronously when the script is run.
- If you attach a
MutationObserver
earlier before loading the polyfill, that mutation observer will not see upgraded custom elements. - If you move a node with descendants that have not yet been inserted by the parser out of the main document, those nodes will not be noticed or upgraded (until another action would trigger an upgrade).
Note: Using polyfillWrapFlushCallback
disconnects this MutationObserver
.
customElements.polyfillWrapFlushCallback
tl;dr: The polyfill gets slower as the size of your page and number of custom
element definitons increases. You can use polyfillWrapFlushCallback
to prevent
redundant work.
To avoid a potential memory leak, the polyfill does not maintain a list of upgrade
candidates. This means that calling customElements.define
causes a synchronous,
full-document walk to search for elements with localName
s matching the new
definition. Given that this operation is potentially expensive and, if your page
loads many custom element definitions before using any of them, highly redundant,
an extra method is added to the CustomElementRegistry
prototype -
polyfillWrapFlushCallback
.
polyfillWrapFlushCallback
allows you to block the synchronous, full-document
upgrade attempts made when calling define
and perform them later. Call
polyfillWrapFlushCallback
with a function; the next time customElements.define
is called and a full-document upgrade would happen, your function will be called
instead. The only argument to your function is another function which, when
called, will run the full-document upgrade attempt.
For example, if you wanted to delay upgrades until the document's ready state
was 'complete'
, you could use the following:
customElements.polyfillWrapFlushCallback(function(flush) {
if (document.readyState === 'complete') {
// If the document is already complete, flush synchronously.
flush();
} else {
// Otherwise, wait until it is complete.
document.addEventListener('readystatechange', function() {
if (document.readyState === 'complete') {
flush();
}
});
}
});
Once your wrapper function is called (because the polyfill wants to upgrade the document), it will not be called again until you have triggered the full-document upgrade attempt. If multiple definitions are registered before you trigger upgrades, all of those definitions will apply when you trigger upgrades - don't call the provided function multiple times.
Promises returned by customElements.whenDefined
will not resolve until a
full-document upgrade attempt has been performed after the given local name
has been defined.
let flush;
customElements.polyfillWrapFlushCallback(f => flush = f);
const p = customElements.whenDefined('c-e', () => console.log('c-e defined'));
customElements.define('c-e', class extends HTMLElement {});
// `p` is not yet resolved; `flush` is now a function.
flush(); // Resolves `p`.
You can't remove a callback given to polyfillWrapFlushCallback
. If the
condition your callback was intended to wait on is no longer important, your
callback should call the given function synchronously. (See the
document.readyState
example above.)
Calling polyfillWrapFlushCallback
disconnects the MutationObserver
watching
the main document. This means that you must delay until at least
document.readyState !== 'loading'
to be sure that all elements in the main
document are found (subject to exceptions mentioned in the section above).
You can call polyfillWrapFlushCallback
multiple times, each function given
will automatically wrap and delay any previous wrappers:
customElements.polyfillWrapFlushCallback(function(flush) {
console.log('added first');
flush();
});
customElements.polyfillWrapFlushCallback(function(flush) {
console.log('added second');
setTimeout(() => flush(), 1000);
});
customElements.define('c-e', class extends HTMLElement {});
// 'added second'
// ~1s delay
// 'added first'
// The document is walked to attempt upgrades.