Declarative Shadow DOM

Declarative Shadow DOM is a standard web platform feature, which has been supported in Chrome from version 90. Note that the specification for this feature changed in 2023 (including a rename of shadowroot to shadowrootmode), and the most up to date standardized versions of all parts of the feature landed in Chrome version 124.

Browser Support

  • Chrome: 111.
  • Edge: 111.
  • Firefox: 123.
  • Safari: 16.4.

Source

Shadow DOM is one of the three Web Components standards, rounded out by HTML templates and Custom Elements. Shadow DOM provides a way to scope CSS styles to a specific DOM subtree and isolate that subtree from the rest of the document. The <slot> element gives us a way to control where the children of a Custom Element should be inserted within its Shadow Tree. These features combined enable a system for building self-contained, reusable components that integrate seamlessly into existing applications just like a built-in HTML element.

Until now, the only way to use Shadow DOM was to construct a shadow root using JavaScript:

const host = document.getElementById('host');
const shadowRoot = host.attachShadow({mode: 'open'});
shadowRoot.innerHTML = '<h1>Hello Shadow DOM</h1>';

An imperative API like this works fine for client-side rendering: the same JavaScript modules that define our Custom Elements also create their Shadow Roots and set their content. However, many web applications need to render content server-side or to static HTML at build time. This can be an important part of delivering a reasonable experience to visitors who may not be capable of running JavaScript.

The justifications for Server-Side Rendering (SSR) vary from project to project. Some websites must provide fully functional server-rendered HTML in order to meet accessibility guidelines, others choose to deliver a baseline no-JavaScript experience as a way to ensure good performance on slow connections or devices.

Historically, it has been difficult to use Shadow DOM in combination with Server-Side Rendering because there was no built-in way to express Shadow Roots in the server-generated HTML. There are also performance implications when attaching Shadow Roots to DOM elements that have already been rendered without them. This can cause layout shifting after the page has loaded, or temporarily show a flash of unstyled content ("FOUC") while loading the Shadow Root's stylesheets.

Declarative Shadow DOM (DSD) removes this limitation, bringing Shadow DOM to the server.

How to build a Declarative Shadow Root

A Declarative Shadow Root is a <template> element with a shadowrootmode attribute:

<host-element>
  <template shadowrootmode="open">
    <slot></slot>
  </template>
  <h2>Light content</h2>
</host-element>

A template element with the shadowrootmode attribute is detected by the HTML parser and immediately applied as the shadow root of its parent element. Loading the pure HTML markup from the above sample results in the following DOM tree:

<host-element>
  #shadow-root (open)
  <slot>
    ↳
    <h2>Light content</h2>
  </slot>
</host-element>

This code sample is following the Chrome DevTools Elements panel's conventions for displaying Shadow DOM content. For example, the character represents slotted Light DOM content.

This gives us the benefits of Shadow DOM's encapsulation and slot projection in static HTML. No JavaScript is needed to produce the entire tree, including the Shadow Root.

Component hydration

Declarative Shadow DOM can be used on its own as a way to encapsulate styles or customize child placement, but it's most powerful when used with Custom Elements. Components built using Custom Elements get automatically upgraded from static HTML. With the introduction of Declarative Shadow DOM, it's now possible for a Custom Element to have a shadow root before it gets upgraded.

A Custom Element being upgraded from HTML that includes a Declarative Shadow Root will already have that shadow root attached. This means the element will have a shadowRoot property already available when it is instantiated, without your code explicitly creating one. It's best to check this.shadowRoot for any existing shadow root in your element's constructor. If there is already a value, the HTML for this component includes a Declarative Shadow Root. If the value is null, there was no Declarative Shadow Root present in the HTML or the browser doesn't support Declarative Shadow DOM.

<menu-toggle>
  <template shadowrootmode="open">
    <button>
      <slot></slot>
    </button>
  </template>
  Open Menu
</menu-toggle>
<script>
  class MenuToggle extends HTMLElement {
    constructor() {
      super();

      // Detect whether we have SSR content already:
      if (this.shadowRoot) {
        // A Declarative Shadow Root exists!
        // wire up event listeners, references, etc.:
        const button = this.shadowRoot.firstElementChild;
        button.addEventListener('click', toggle);
      } else {
        // A Declarative Shadow Root doesn't exist.
        // Create a new shadow root and populate it:
        const shadow = this.attachShadow({mode: 'open'});
        shadow.innerHTML = `<button><slot></slot></button>`;
        shadow.firstChild.addEventListener('click', toggle);
      }
    }
  }

  customElements.define('menu-toggle', MenuToggle);
</script>

Custom Elements have been around for a while, and until now there was no reason to check for an existing shadow root before creating one using attachShadow(). Declarative Shadow DOM includes a small change that allows existing components to work despite this: calling the attachShadow() method on an element with an existing Declarative Shadow Root will not throw an error. Instead, the Declarative Shadow Root is emptied and returned. This allows older components not built for Declarative Shadow DOM to continue working, since declarative roots are preserved until an imperative replacement is created.

For newly-created Custom Elements, a new ElementInternals.shadowRoot property provides an explicit way to get a reference to an element's existing Declarative Shadow Root, both open and closed. This can be used to check for and use any Declarative Shadow Root, while still falling back to attachShadow() in cases where one was not provided.

class MenuToggle extends HTMLElement {
  constructor() {
    super();

    const internals = this.attachInternals();

    // check for a Declarative Shadow Root:
    let shadow = internals.shadowRoot;

    if (!shadow) {
      // there wasn't one. create a new Shadow Root:
      shadow = this.attachShadow({
        mode: 'open'
      });
      shadow.innerHTML = `<button><slot></slot></button>`;
    }

    // in either case, wire up our event listener:
    shadow.firstChild.addEventListener('click', toggle);
  }
}

customElements.define('menu-toggle', MenuToggle);

One shadow per root

A Declarative Shadow Root is only associated with its parent element. This means shadow roots are always colocated with their associated element. This design decision ensures shadow roots are streamable like the rest of an HTML document. It's also convenient for authoring and generation, since adding a shadow root to an element does not require maintaining a registry of existing shadow roots.

The tradeoff of associating shadow roots with their parent element is that it is not possible for multiple elements to be initialized from the same Declarative Shadow Root <template>. However, this is unlikely to matter in most cases where Declarative Shadow DOM is used, since the contents of each shadow root are seldom identical. While server-rendered HTML often contains repeated element structures, their content generally differs–for example, slight variations in text, or attributes. Because the contents of a serialized Declarative Shadow Root are entirely static, upgrading multiple elements from a single Declarative Shadow Root would only work if the elements happened to be identical. Finally, the impact of repeated similar shadow roots on network transfer size is relatively small due to the effects of compression.

In the future, it might be possible to revisit shared shadow roots. If the DOM gains support for built-in templating, Declarative Shadow Roots could be treated as templates that are instantiated in order to construct the shadow root for a given element. The current Declarative Shadow DOM design allows for this possibility to exist in the future by limiting shadow root association to a single element.

Streaming is cool

Associating Declarative Shadow Roots directly with their parent element simplifies the process of upgrading and attaching them to that element. Declarative Shadow Roots are detected during HTML parsing, and attached immediately when their opening <template> tag is encountered. Parsed HTML within the <template> is parsed directly into the shadow root, so it can be "streamed": rendered as it is received.

<div id="el">
  <script>
    el.shadowRoot; // null
  </script>

  <template shadowrootmode="open">
    <!-- shadow realm -->
  </template>

  <script>
    el.shadowRoot; // ShadowRoot
  </script>
</div>

Parser-only

Declarative Shadow DOM is a feature of the HTML parser. This means that a Declarative Shadow Root will only be parsed and attached for <template> tags with a shadowrootmode attribute that are present during HTML parsing. In other words, Declarative Shadow Roots can be constructed during initial HTML parsing:

<some-element>
  <template shadowrootmode="open">
    shadow root content for some-element
  </template>
</some-element>

Setting the shadowrootmode attribute of a <template> element does nothing, and the template remains an ordinary template element:

const div = document.createElement('div');
const template = document.createElement('template');
template.setAttribute('shadowrootmode', 'open'); // this does nothing
div.appendChild(template);
div.shadowRoot; // null

To avoid some important security considerations, Declarative Shadow Roots also can't be created using fragment parsing APIs like innerHTML or insertAdjacentHTML(). The only way to parse HTML with Declarative Shadow Roots applied is to use setHTMLUnsafe() or parseHTMLUnsafe():

<script>
  const html = `
    <div>
      <template shadowrootmode="open"></template>
    </div>
  `;
  const div = document.createElement('div');
  div.innerHTML = html; // No shadow root here
  div.setHTMLUnsafe(html); // Shadow roots included
  const newDocument = Document.parseHTMLUnsafe(html); // Also here
</script>

Server-rendering with style

Inline and external stylesheets are fully supported inside Declarative Shadow Roots using the standard <style> and <link> tags:

<nineties-button>
  <template shadowrootmode="open">
    <style>
      button {
        color: seagreen;
      }
    </style>
    <link rel="stylesheet" href="/comicsans.css" />
    <button>
      <slot></slot>
    </button>
  </template>
  I'm Blue
</nineties-button>

Styles specified this way are also highly optimized: if the same style sheet is present in multiple Declarative Shadow Roots, it is only loaded and parsed once. The browser uses a single backing CSSStyleSheet that is shared by all of the shadow roots, eliminating duplicate memory overhead.

Constructable Stylesheets are not supported in Declarative Shadow DOM. This is because, at present, there is no way to serialize constructable stylesheets in HTML, and no way to refer to them when populating adoptedStyleSheets.

How to avoid the flash of unstyled content

One potential issue in browsers that don't yet support Declarative Shadow DOM is avoiding "flash of unstyled content" (FOUC), where the raw contents are shown for Custom Elements that have not yet been upgraded. Prior to Declarative Shadow DOM, one common technique for avoiding FOUC was to apply a display:none style rule to Custom Elements that haven't been loaded yet, since these have not had their shadow root attached and populated. In this way, content is not displayed until it is "ready":

<style>
  x-foo:not(:defined) > * {
    display: none;
  }
</style>

With the introduction of Declarative Shadow DOM, Custom Elements can be rendered or authored in HTML such that their shadow content is in-place and ready before the client-side component implementation is loaded:

<x-foo>
  <template shadowrootmode="open">
    <style>h2 { color: blue; }</style>
    <h2>shadow content</h2>
  </template>
</x-foo>

In this case, the display:none "FOUC" rule would prevent the declarative shadow root's content from showing. However, removing that rule would cause browsers without Declarative Shadow DOM support to show incorrect or unstyled content until the Declarative Shadow DOM polyfill loads and converts the shadow root template into a real shadow root.

Fortunately, this can be solved in CSS by modifying the FOUC style rule. In browsers that support Declarative Shadow DOM, the <template shadowrootmode> element is immediately converted into a shadow root, leaving no <template> element in the DOM tree. Browsers that don't support Declarative Shadow DOM preserve the <template> element, which we can use to prevent FOUC:

<style>
  x-foo:not(:defined) > template[shadowrootmode] ~ *  {
    display: none;
  }
</style>

Instead of hiding the not-yet-defined Custom Element, the revised "FOUC" rule hides its children when they follow a <template shadowrootmode> element. Once the Custom Element is defined, the rule no longer matches. The rule is ignored in browsers that support Declarative Shadow DOM because the <template shadowrootmode> child is removed during HTML parsing.

Feature detection and browser support

Declarative Shadow DOM has been available since Chrome 90 and Edge 91, but it used an older non-standard attribute called shadowroot instead of the standardized shadowrootmode attribute. The newer shadowrootmode attribute and streaming behavior is available in Chrome 111 and Edge 111.

As a new web platform API, Declarative Shadow DOM doesn't yet have widespread support across all browsers. Browser support can be detected by checking for the existence of a shadowRootMode property on the prototype of HTMLTemplateElement:

function supportsDeclarativeShadowDOM() {
  return HTMLTemplateElement.prototype.hasOwnProperty('shadowRootMode');
}

Polyfill

Building a simplified polyfill for Declarative Shadow DOM is relatively straightforward, since a polyfill doesn't need to perfectly replicate the timing semantics or parser-only characteristics that a browser implementation concerns itself with. To polyfill Declarative Shadow DOM, we can scan the DOM to find all <template shadowrootmode> elements, then convert them to attached Shadow Roots on their parent element. This process can be done once the document is ready, or triggered by more specific events like Custom Element lifecycles.

(function attachShadowRoots(root) {
  if (supportsDeclarativeShadowDOM()) {
    // Declarative Shadow DOM is supported, no need to polyfill.
    return;
  }
  root.querySelectorAll("template[shadowrootmode]").forEach(template => {
    const mode = template.getAttribute("shadowrootmode");
    const shadowRoot = template.parentNode.attachShadow({ mode });

    shadowRoot.appendChild(template.content);
    template.remove();
    attachShadowRoots(shadowRoot);
  });
})(document);

Further reading