CustomStateSet

CustomStateSet.size

Returns the number of values in the CustomStateSet.

CustomStateSet.add()

Adds a value to the set.

CustomStateSet.clear()

Removes all elements from the CustomStateSet object.

CustomStateSet.delete()

Removes one value from the CustomStateSet object.

CustomStateSet.entries()

Returns a new iterator with the values for each element in the CustomStateSet in insertion order.

CustomStateSet.forEach()

Executes a provided function for each value in the CustomStateSet object.

CustomStateSet.has()

Returns a Boolean asserting whether an element is present with the given value.

CustomStateSet.keys()

An alias for CustomStateSet.values().

CustomStateSet.values()

Returns a new iterator object that yields the values for each element in the CustomStateSet object in insertion order.

Built in HTML elements can have different states, such as "enabled" and "disabled, "checked" and "unchecked", "initial", "loading" and "ready". Some of these states are public and can be set or queried using properties/attributes, while others are effectively internal, and cannot be directly set. Whether external or internal, element states can generally be selected and styled using CSS pseudo-classes as selectors.

The CustomStateSet allows developers to add and delete states for autonomous custom elements (but not elements derived from built-in elements). These states can then be used as custom state pseudo-class selectors in a similar way to the pseudo-classes for built-in elements.

To make the CustomStateSet available, a custom element must first call HTMLElement.attachInternals() in order to attach an ElementInternals object. CustomStateSet is then returned by ElementInternals.states. Note that ElementInternals cannot be attached to a custom element based on a built-in element, so this feature only works for autonomous custom elements (see github.com/whatwg/html/issues/5166).

The CustomStateSet instance is a Set-like object that can hold an ordered set of state values. Each value is a custom identifier. Identifiers can be added to the set or deleted. If an identifier is present in the set the particular state is true, while if it is removed the state is false.

Custom elements that have states with more than two values can represent them with multiple boolean states, only one of which is true (present in the CustomStateSet) at a time.

The states can be used within the custom element but are not directly accessible outside of the custom component.

You can select a custom element that is in a specific state using the :state() custom state pseudo-class. The format of this pseudo-class is :state(mystatename), where mystatename is the state as defined in the element. The custom state pseudo-class matches the custom element only if the state is true (i.e., if mystatename is present in the CustomStateSet).

For example, the following CSS matches a labeled-checkbox custom element when the element's CustomStateSet contains the checked state, and applies a solid border to the checkbox:

labeled-checkbox:state(checked) {
  border: solid;
}

CSS can also be used to match a custom state within a custom element's shadow DOM by specifying :state() within the :host() pseudo-class function.

Additionally, the :state() pseudo-class can be used after the ::part() pseudo-element to match the shadow parts of a custom element that are in a particular state.

This example, which is adapted from the specification, demonstrates a custom checkbox element that has an internal "checked" state. This is mapped to the checked custom state, allowing styling to be applied using the :state(checked) custom state pseudo class.

JavaScript

First we define our class LabeledCheckbox which extends from HTMLElement. In the constructor we call the super() method, add a listener for the click event, and call this.attachInternals() to attach an ElementInternals object.

Most of the rest of the "work" is then left to connectedCallback(), which is invoked when a custom element is added to the page. The content of the element is defined using a <style> element to be the text [] or [x] followed by a label. What's noteworthy here is that the custom state pseudo class is used to select the text to display: :host(:state(checked)). After the example below, we'll cover what's happening in the snippet in more detail.

class LabeledCheckbox extends HTMLElement {
  constructor() {
    super();
    this._boundOnClick = this._onClick.bind(this);
    this.addEventListener("click", this._boundOnClick);

    // Attach an ElementInternals to get states property
    this._internals = this.attachInternals();
  }

  connectedCallback() {
    const shadowRoot = this.attachShadow({ mode: "open" });
    shadowRoot.innerHTML = `<style>
        :host {
          display: block;
        }
       :host::before {
         content: '[ ]';
         white-space: pre;
         font-family: monospace;
       }
       :host(:state(checked))::before { content: '[x]'; }
       </style>
       <slot>Label</slot>`;
  }

  get checked() {
    return this._internals.states.has("checked");
  }

  set checked(flag) {
    if (flag) {
      this._internals.states.add("checked");
    } else {
      this._internals.states.delete("checked");
    }
  }

  _onClick(event) {
    // Toggle the 'checked' property when the element is clicked
    this.checked = !this.checked;
  }
}

In the LabeledCheckbox class:

• In the get checked() and set checked() we use ElementInternals.states to get the CustomStateSet.
• The set checked(flag) method adds the "checked" identifier to the CustomStateSet if the flag is set and delete the identifier if the flag is false.
• The get checked() method just checks whether the checked property is defined in the set.
• The property value is toggled when the element is clicked.

We then call the define() method on the object returned by Window.customElements in order to register the custom element:

customElements.define("labeled-checkbox", LabeledCheckbox);

HTML

After registering the custom element we can use the element in HTML as shown:

<labeled-checkbox>You need to check this</labeled-checkbox>

CSS

Finally we use the :state(checked) custom state pseudo class to select CSS for when the box is checked.

labeled-checkbox {
  border: dashed red;
}
labeled-checkbox:state(checked) {
  border: solid;
}

Result

Click the element to see a different border being applied as the checkbox checked state is toggled.

This example, which is adapted from the specification, demonstrates that custom states can be used to target the shadow parts of a custom element for styling. Shadow parts are sections of the shadow tree that are intentionally exposed to pages that use the custom element.

The example creates a <question-box> custom element that displays a question prompt along with a checkbox labeled "Yes". The element uses the <labeled-checkbox> defined in the previous example for the checkbox.

JavaScript

class LabeledCheckbox extends HTMLElement {
  constructor() {
    super();
    this._boundOnClick = this._onClick.bind(this);
    this.addEventListener("click", this._boundOnClick);
    // Attach an ElementInternals to get states property
    this._internals = this.attachInternals();
  }

  connectedCallback() {
    const shadowRoot = this.attachShadow({ mode: "open" });
    shadowRoot.innerHTML = `<style>
        :host {
          display: block;
        }
       :host::before {
         content: '[ ]';
         white-space: pre;
         font-family: monospace;
       }
       :host(:state(checked))::before { content: '[x]'; }
       </style>
       <slot>Label</slot>`;
  }

  get checked() {
    return this._internals.states.has("checked");
  }

  set checked(flag) {
    if (flag) {
      this._internals.states.add("checked");
    } else {
      this._internals.states.delete("checked");
    }
  }

  _onClick(event) {
    // Toggle the 'checked' property when the element is clicked
    this.checked = !this.checked;
  }
}

customElements.define("labeled-checkbox", LabeledCheckbox);

First, we define the custom element class QuestionBox, which extends HTMLElement. As always, the constructor first calls the super() method. Next, we attach a shadow DOM tree to the custom element by calling attachShadow().

class QuestionBox extends HTMLElement {
  constructor() {
    super();
    const shadowRoot = this.attachShadow({ mode: "open" });
    shadowRoot.innerHTML = `<div><slot>Question</slot></div>
       <labeled-checkbox part='checkbox'>Yes</labeled-checkbox>`;
  }
}

The content of the shadow root is set using innerHTML. This defines a <slot> element that contains the default prompt text "Question" for the element. We then define a <labeled-checkbox> custom element with the default text "Yes". This checkbox is exposed as a shadow part of the question box with the name checkbox using the part attribute.

Note that the code and styling for the <labeled-checkbox> element are exactly the same as in the previous example, and are therefore not repeated here.

Next, we call the define() method on the object returned by Window.customElements to register the custom element with the name question-box:

customElements.define("question-box", QuestionBox);

HTML

After registering the custom element, we can use the element in HTML as shown below.

<!-- Question box with default prompt "Question" -->
<question-box></question-box>

<!-- Question box with custom prompt "Continue?" -->
<question-box>Continue?</question-box>

CSS

The first block of CSS matches the exposed shadow part named checkbox using the ::part() selector, styling it to be red by default.

question-box::part(checkbox) {
  color: red;
}

The second block follows ::part() with :state(), in order to match checkbox parts that are in the checked state:

question-box::part(checkbox):state(checked) {
  color: green;
}

Result

Click either of the checkboxes to see the color change from red to green when the checked state toggles.

This example shows how to handle the case where the custom element has an internal property with multiple possible value.

The custom element in this case has a state property with allowed values: "loading", "interactive" and "complete". To make this work, we map each value to its custom state and create code to ensure that only the identifier corresponding to the internal state is set. You can see this in the implementation of the set state() method: we set the internal state, add the identifier for the matching custom state to CustomStateSet, and remove the identifiers associated with all the other values.

Most of the remaining code is similar to the example that demonstrates a single boolean state (we show different text for each state as the user toggles through them).

JavaScript

class ManyStateElement extends HTMLElement {
  constructor() {
    super();
    this._boundOnClick = this._onClick.bind(this);
    this.addEventListener("click", this._boundOnClick);
    // Attach an ElementInternals to get states property
    this._internals = this.attachInternals();
  }

  connectedCallback() {
    this.state = "loading";

    const shadowRoot = this.attachShadow({ mode: "open" });
    shadowRoot.innerHTML = `<style>
        :host {
          display: block;
          font-family: monospace;
        }
       :host::before { content: '[ unknown ]'; white-space: pre; }
       :host(:state(loading))::before { content: '[ loading ]' }
       :host(:state(interactive))::before { content: '[ interactive ]' }
       :host(:state(complete))::before { content: '[ complete ]' }
       </style>
       <slot>Click me</slot>`;
  }

  get state() {
    return this._state;
  }

  set state(stateName) {
    // Set internal state to passed value
    // Add identifier matching state and delete others
    if (stateName == "loading") {
      this._state = "loading";
      this._internals.states.add("loading");
      this._internals.states.delete("interactive");
      this._internals.states.delete("complete");
    } else if (stateName == "interactive") {
      this._state = "interactive";
      this._internals.states.delete("loading");
      this._internals.states.add("interactive");
      this._internals.states.delete("complete");
    } else if (stateName == "complete") {
      this._state = "complete";
      this._internals.states.delete("loading");
      this._internals.states.delete("interactive");
      this._internals.states.add("complete");
    }
  }

  _onClick(event) {
    // Cycle the state when element clicked
    if (this.state === "loading") {
      this.state = "interactive";
    } else if (this.state === "interactive") {
      this.state = "complete";
    } else if (this.state === "complete") {
      this.state = "loading";
    }
  }
}

customElements.define("many-state-element", ManyStateElement);

HTML

After registering the new element we add it to the HTML. This is similar to the example that demonstrates a single boolean state, except we don't specify a value and use the default value from the slot (<slot>Click me</slot>).

<many-state-element></many-state-element>

CSS

In the CSS we use the three custom state pseudo classes to select CSS for each of the internal state values: :state(loading), :state(interactive), :state(complete). Note that the custom element code ensures that only one of these custom states can be defined at a time.

many-state-element:state(loading) {
  border: dotted grey;
}
many-state-element:state(interactive) {
  border: dashed blue;
}
many-state-element:state(complete) {
  border: solid green;
}

Results

Click the element to see a different border being applied as the state changes.

Previously custom elements with custom states were selected using a <dashed-ident> instead of the :state() function. Browsers that don't support :state(), including versions of Chrome, will throw an error when supplied with an ident that is not prefixed with the double dash. If support for these browsers is required, either use a try...catch block to support both syntaxes, or use a <dashed-ident> as the state's value and select it with both the :--mystate and :state(--mystate) CSS selector.

Setting the state to a name without the two dashes will cause an error in some versions of Chrome, catching this error and providing the <dashed-ident> alternative allows both to be selected for in CSS.

JavaScript

class CompatibleStateElement extends HTMLElement {
  constructor() {
    super();
    this._internals = this.attachInternals();
  }

  connectedCallback() {
    // The double dash is required in browsers with the
    // legacy syntax, not supplying it will throw
    try {
      this._internals.states.add("loaded");
    } catch {
      this._internals.states.add("--loaded");
    }
  }
}

CSS

compatible-state-element:is(:--loaded, :state(loaded)) {
  border: solid green;
}

An alternative solution can be to use the <dashed-ident> within JavaScript. The downside to this approach is that the dashes must be included when using the CSS :state() syntax.

JavaScript

class CompatibleStateElement extends HTMLElement {
  constructor() {
    super();
    this._internals = this.attachInternals();
  }
  connectedCallback() {
    // The double dash is required in browsers with the
    // legacy syntax, but works with the modern syntax
    this._internals.states.add("--loaded");
  }
}

CSS

compatible-state-element:is(:--loaded, :state(--loaded)) {
  border: solid green;
}

Using custom elements