Warp/node_modules/tabbable/src/index.js

// NOTE: separate `:not()` selectors has broader browser support than the newer
//  `:not([inert], [inert] *)` (Feb 2023)
// CAREFUL: JSDom does not support `:not([inert] *)` as a selector; using it causes
//  the entire query to fail, resulting in no nodes found, which will break a lot
//  of things... so we have to rely on JS to identify nodes inside an inert container
const candidateSelectors = [
  'input:not([inert])',
  'select:not([inert])',
  'textarea:not([inert])',
  'a[href]:not([inert])',
  'button:not([inert])',
  '[tabindex]:not(slot):not([inert])',
  'audio[controls]:not([inert])',
  'video[controls]:not([inert])',
  '[contenteditable]:not([contenteditable="false"]):not([inert])',
  'details>summary:first-of-type:not([inert])',
  'details:not([inert])',
];
const candidateSelector = /* #__PURE__ */ candidateSelectors.join(',');

const NoElement = typeof Element === 'undefined';

const matches = NoElement
  ? function () {}
  : Element.prototype.matches ||
    Element.prototype.msMatchesSelector ||
    Element.prototype.webkitMatchesSelector;

const getRootNode =
  !NoElement && Element.prototype.getRootNode
    ? (element) => element?.getRootNode?.()
    : (element) => element?.ownerDocument;

/**
 * Determines if a node is inert or in an inert ancestor.
 * @param {Element} [node]
 * @param {boolean} [lookUp] If true and `node` is not inert, looks up at ancestors to
 *  see if any of them are inert. If false, only `node` itself is considered.
 * @returns {boolean} True if inert itself or by way of being in an inert ancestor.
 *  False if `node` is falsy.
 */
const isInert = function (node, lookUp = true) {
  // CAREFUL: JSDom does not support inert at all, so we can't use the `HTMLElement.inert`
  //  JS API property; we have to check the attribute, which can either be empty or 'true';
  //  if it's `null` (not specified) or 'false', it's an active element
  const inertAtt = node?.getAttribute?.('inert');
  const inert = inertAtt === '' || inertAtt === 'true';

  // NOTE: this could also be handled with `node.matches('[inert], :is([inert] *)')`
  //  if it weren't for `matches()` not being a function on shadow roots; the following
  //  code works for any kind of node
  // CAREFUL: JSDom does not appear to support certain selectors like `:not([inert] *)`
  //  so it likely would not support `:is([inert] *)` either...
  const result = inert || (lookUp && node && isInert(node.parentNode)); // recursive

  return result;
};

/**
 * Determines if a node's content is editable.
 * @param {Element} [node]
 * @returns True if it's content-editable; false if it's not or `node` is falsy.
 */
const isContentEditable = function (node) {
  // CAREFUL: JSDom does not support the `HTMLElement.isContentEditable` API so we have
  //  to use the attribute directly to check for this, which can either be empty or 'true';
  //  if it's `null` (not specified) or 'false', it's a non-editable element
  const attValue = node?.getAttribute?.('contenteditable');
  return attValue === '' || attValue === 'true';
};

/**
 * @param {Element} el container to check in
 * @param {boolean} includeContainer add container to check
 * @param {(node: Element) => boolean} filter filter candidates
 * @returns {Element[]}
 */
const getCandidates = function (el, includeContainer, filter) {
  // even if `includeContainer=false`, we still have to check it for inertness because
  //  if it's inert, all its children are inert
  if (isInert(el)) {
    return [];
  }

  let candidates = Array.prototype.slice.apply(
    el.querySelectorAll(candidateSelector)
  );
  if (includeContainer && matches.call(el, candidateSelector)) {
    candidates.unshift(el);
  }
  candidates = candidates.filter(filter);
  return candidates;
};

/**
 * @callback GetShadowRoot
 * @param {Element} element to check for shadow root
 * @returns {ShadowRoot|boolean} ShadowRoot if available or boolean indicating if a shadowRoot is attached but not available.
 */

/**
 * @callback ShadowRootFilter
 * @param {Element} shadowHostNode the element which contains shadow content
 * @returns {boolean} true if a shadow root could potentially contain valid candidates.
 */

/**
 * @typedef {Object} CandidateScope
 * @property {Element} scopeParent contains inner candidates
 * @property {Element[]} candidates list of candidates found in the scope parent
 */

/**
 * @typedef {Object} IterativeOptions
 * @property {GetShadowRoot|boolean} getShadowRoot true if shadow support is enabled; falsy if not;
 *  if a function, implies shadow support is enabled and either returns the shadow root of an element
 *  or a boolean stating if it has an undisclosed shadow root
 * @property {(node: Element) => boolean} filter filter candidates
 * @property {boolean} flatten if true then result will flatten any CandidateScope into the returned list
 * @property {ShadowRootFilter} shadowRootFilter filter shadow roots;
 */

/**
 * @param {Element[]} elements list of element containers to match candidates from
 * @param {boolean} includeContainer add container list to check
 * @param {IterativeOptions} options
 * @returns {Array.<Element|CandidateScope>}
 */
const getCandidatesIteratively = function (
  elements,
  includeContainer,
  options
) {
  const candidates = [];
  const elementsToCheck = Array.from(elements);
  while (elementsToCheck.length) {
    const element = elementsToCheck.shift();
    if (isInert(element, false)) {
      // no need to look up since we're drilling down
      // anything inside this container will also be inert
      continue;
    }

    if (element.tagName === 'SLOT') {
      // add shadow dom slot scope (slot itself cannot be focusable)
      const assigned = element.assignedElements();
      const content = assigned.length ? assigned : element.children;
      const nestedCandidates = getCandidatesIteratively(content, true, options);
      if (options.flatten) {
        candidates.push(...nestedCandidates);
      } else {
        candidates.push({
          scopeParent: element,
          candidates: nestedCandidates,
        });
      }
    } else {
      // check candidate element
      const validCandidate = matches.call(element, candidateSelector);
      if (
        validCandidate &&
        options.filter(element) &&
        (includeContainer || !elements.includes(element))
      ) {
        candidates.push(element);
      }

      // iterate over shadow content if possible
      const shadowRoot =
        element.shadowRoot ||
        // check for an undisclosed shadow
        (typeof options.getShadowRoot === 'function' &&
          options.getShadowRoot(element));

      // no inert look up because we're already drilling down and checking for inertness
      //  on the way down, so all containers to this root node should have already been
      //  vetted as non-inert
      const validShadowRoot =
        !isInert(shadowRoot, false) &&
        (!options.shadowRootFilter || options.shadowRootFilter(element));

      if (shadowRoot && validShadowRoot) {
        // add shadow dom scope IIF a shadow root node was given; otherwise, an undisclosed
        //  shadow exists, so look at light dom children as fallback BUT create a scope for any
        //  child candidates found because they're likely slotted elements (elements that are
        //  children of the web component element (which has the shadow), in the light dom, but
        //  slotted somewhere _inside_ the undisclosed shadow) -- the scope is created below,
        //  _after_ we return from this recursive call
        const nestedCandidates = getCandidatesIteratively(
          shadowRoot === true ? element.children : shadowRoot.children,
          true,
          options
        );

        if (options.flatten) {
          candidates.push(...nestedCandidates);
        } else {
          candidates.push({
            scopeParent: element,
            candidates: nestedCandidates,
          });
        }
      } else {
        // there's not shadow so just dig into the element's (light dom) children
        //  __without__ giving the element special scope treatment
        elementsToCheck.unshift(...element.children);
      }
    }
  }
  return candidates;
};

/**
 * @private
 * Determines if the node has an explicitly specified `tabindex` attribute.
 * @param {HTMLElement} node
 * @returns {boolean} True if so; false if not.
 */
const hasTabIndex = function (node) {
  return !isNaN(parseInt(node.getAttribute('tabindex'), 10));
};

/**
 * Determine the tab index of a given node.
 * @param {HTMLElement} node
 * @returns {number} Tab order (negative, 0, or positive number).
 * @throws {Error} If `node` is falsy.
 */
const getTabIndex = function (node) {
  if (!node) {
    throw new Error('No node provided');
  }

  if (node.tabIndex < 0) {
    // in Chrome, <details/>, <audio controls/> and <video controls/> elements get a default
    // `tabIndex` of -1 when the 'tabindex' attribute isn't specified in the DOM,
    // yet they are still part of the regular tab order; in FF, they get a default
    // `tabIndex` of 0; since Chrome still puts those elements in the regular tab
    // order, consider their tab index to be 0.
    // Also browsers do not return `tabIndex` correctly for contentEditable nodes;
    // so if they don't have a tabindex attribute specifically set, assume it's 0.
    if (
      (/^(AUDIO|VIDEO|DETAILS)$/.test(node.tagName) ||
        isContentEditable(node)) &&
      !hasTabIndex(node)
    ) {
      return 0;
    }
  }

  return node.tabIndex;
};

/**
 * Determine the tab index of a given node __for sort order purposes__.
 * @param {HTMLElement} node
 * @param {boolean} [isScope] True for a custom element with shadow root or slot that, by default,
 *  has tabIndex -1, but needs to be sorted by document order in order for its content to be
 *  inserted into the correct sort position.
 * @returns {number} Tab order (negative, 0, or positive number).
 */
const getSortOrderTabIndex = function (node, isScope) {
  const tabIndex = getTabIndex(node);

  if (tabIndex < 0 && isScope && !hasTabIndex(node)) {
    return 0;
  }

  return tabIndex;
};

const sortOrderedTabbables = function (a, b) {
  return a.tabIndex === b.tabIndex
    ? a.documentOrder - b.documentOrder
    : a.tabIndex - b.tabIndex;
};

const isInput = function (node) {
  return node.tagName === 'INPUT';
};

const isHiddenInput = function (node) {
  return isInput(node) && node.type === 'hidden';
};

const isDetailsWithSummary = function (node) {
  const r =
    node.tagName === 'DETAILS' &&
    Array.prototype.slice
      .apply(node.children)
      .some((child) => child.tagName === 'SUMMARY');
  return r;
};

const getCheckedRadio = function (nodes, form) {
  for (let i = 0; i < nodes.length; i++) {
    if (nodes[i].checked && nodes[i].form === form) {
      return nodes[i];
    }
  }
};

const isTabbableRadio = function (node) {
  if (!node.name) {
    return true;
  }
  const radioScope = node.form || getRootNode(node);
  const queryRadios = function (name) {
    return radioScope.querySelectorAll(
      'input[type="radio"][name="' + name + '"]'
    );
  };

  let radioSet;
  if (
    typeof window !== 'undefined' &&
    typeof window.CSS !== 'undefined' &&
    typeof window.CSS.escape === 'function'
  ) {
    radioSet = queryRadios(window.CSS.escape(node.name));
  } else {
    try {
      radioSet = queryRadios(node.name);
    } catch (err) {
      // eslint-disable-next-line no-console
      console.error(
        'Looks like you have a radio button with a name attribute containing invalid CSS selector characters and need the CSS.escape polyfill: %s',
        err.message
      );
      return false;
    }
  }

  const checked = getCheckedRadio(radioSet, node.form);
  return !checked || checked === node;
};

const isRadio = function (node) {
  return isInput(node) && node.type === 'radio';
};

const isNonTabbableRadio = function (node) {
  return isRadio(node) && !isTabbableRadio(node);
};

// determines if a node is ultimately attached to the window's document
const isNodeAttached = function (node) {
  // The root node is the shadow root if the node is in a shadow DOM; some document otherwise
  //  (but NOT _the_ document; see second 'If' comment below for more).
  // If rootNode is shadow root, it'll have a host, which is the element to which the shadow
  //  is attached, and the one we need to check if it's in the document or not (because the
  //  shadow, and all nodes it contains, is never considered in the document since shadows
  //  behave like self-contained DOMs; but if the shadow's HOST, which is part of the document,
  //  is hidden, or is not in the document itself but is detached, it will affect the shadow's
  //  visibility, including all the nodes it contains). The host could be any normal node,
  //  or a custom element (i.e. web component). Either way, that's the one that is considered
  //  part of the document, not the shadow root, nor any of its children (i.e. the node being
  //  tested).
  // To further complicate things, we have to look all the way up until we find a shadow HOST
  //  that is attached (or find none) because the node might be in nested shadows...
  // If rootNode is not a shadow root, it won't have a host, and so rootNode should be the
  //  document (per the docs) and while it's a Document-type object, that document does not
  //  appear to be the same as the node's `ownerDocument` for some reason, so it's safer
  //  to ignore the rootNode at this point, and use `node.ownerDocument`. Otherwise,
  //  using `rootNode.contains(node)` will _always_ be true we'll get false-positives when
  //  node is actually detached.
  // NOTE: If `nodeRootHost` or `node` happens to be the `document` itself (which is possible
  //  if a tabbable/focusable node was quickly added to the DOM, focused, and then removed
  //  from the DOM as in https://github.com/focus-trap/focus-trap-react/issues/905), then
  //  `ownerDocument` will be `null`, hence the optional chaining on it.
  let nodeRoot = node && getRootNode(node);
  let nodeRootHost = nodeRoot?.host;

  // in some cases, a detached node will return itself as the root instead of a document or
  //  shadow root object, in which case, we shouldn't try to look further up the host chain
  let attached = false;
  if (nodeRoot && nodeRoot !== node) {
    attached = !!(
      nodeRootHost?.ownerDocument?.contains(nodeRootHost) ||
      node?.ownerDocument?.contains(node)
    );

    while (!attached && nodeRootHost) {
      // since it's not attached and we have a root host, the node MUST be in a nested shadow DOM,
      //  which means we need to get the host's host and check if that parent host is contained
      //  in (i.e. attached to) the document
      nodeRoot = getRootNode(nodeRootHost);
      nodeRootHost = nodeRoot?.host;
      attached = !!nodeRootHost?.ownerDocument?.contains(nodeRootHost);
    }
  }

  return attached;
};

const isZeroArea = function (node) {
  const { width, height } = node.getBoundingClientRect();
  return width === 0 && height === 0;
};
const isHidden = function (node, { displayCheck, getShadowRoot }) {
  // NOTE: visibility will be `undefined` if node is detached from the document
  //  (see notes about this further down), which means we will consider it visible
  //  (this is legacy behavior from a very long way back)
  // NOTE: we check this regardless of `displayCheck="none"` because this is a
  //  _visibility_ check, not a _display_ check
  if (getComputedStyle(node).visibility === 'hidden') {
    return true;
  }

  const isDirectSummary = matches.call(node, 'details>summary:first-of-type');
  const nodeUnderDetails = isDirectSummary ? node.parentElement : node;
  if (matches.call(nodeUnderDetails, 'details:not([open]) *')) {
    return true;
  }

  if (
    !displayCheck ||
    displayCheck === 'full' ||
    displayCheck === 'legacy-full'
  ) {
    if (typeof getShadowRoot === 'function') {
      // figure out if we should consider the node to be in an undisclosed shadow and use the
      //  'non-zero-area' fallback
      const originalNode = node;
      while (node) {
        const parentElement = node.parentElement;
        const rootNode = getRootNode(node);
        if (
          parentElement &&
          !parentElement.shadowRoot &&
          getShadowRoot(parentElement) === true // check if there's an undisclosed shadow
        ) {
          // node has an undisclosed shadow which means we can only treat it as a black box, so we
          //  fall back to a non-zero-area test
          return isZeroArea(node);
        } else if (node.assignedSlot) {
          // iterate up slot
          node = node.assignedSlot;
        } else if (!parentElement && rootNode !== node.ownerDocument) {
          // cross shadow boundary
          node = rootNode.host;
        } else {
          // iterate up normal dom
          node = parentElement;
        }
      }

      node = originalNode;
    }
    // else, `getShadowRoot` might be true, but all that does is enable shadow DOM support
    //  (i.e. it does not also presume that all nodes might have undisclosed shadows); or
    //  it might be a falsy value, which means shadow DOM support is disabled

    // Since we didn't find it sitting in an undisclosed shadow (or shadows are disabled)
    //  now we can just test to see if it would normally be visible or not, provided it's
    //  attached to the main document.
    // NOTE: We must consider case where node is inside a shadow DOM and given directly to
    //  `isTabbable()` or `isFocusable()` -- regardless of `getShadowRoot` option setting.

    if (isNodeAttached(node)) {
      // this works wherever the node is: if there's at least one client rect, it's
      //  somehow displayed; it also covers the CSS 'display: contents' case where the
      //  node itself is hidden in place of its contents; and there's no need to search
      //  up the hierarchy either
      return !node.getClientRects().length;
    }

    // Else, the node isn't attached to the document, which means the `getClientRects()`
    //  API will __always__ return zero rects (this can happen, for example, if React
    //  is used to render nodes onto a detached tree, as confirmed in this thread:
    //  https://github.com/facebook/react/issues/9117#issuecomment-284228870)
    //
    // It also means that even window.getComputedStyle(node).display will return `undefined`
    //  because styles are only computed for nodes that are in the document.
    //
    // NOTE: THIS HAS BEEN THE CASE FOR YEARS. It is not new, nor is it caused by tabbable
    //  somehow. Though it was never stated officially, anyone who has ever used tabbable
    //  APIs on nodes in detached containers has actually implicitly used tabbable in what
    //  was later (as of v5.2.0 on Apr 9, 2021) called `displayCheck="none"` mode -- essentially
    //  considering __everything__ to be visible because of the innability to determine styles.
    //
    // v6.0.0: As of this major release, the default 'full' option __no longer treats detached
    //  nodes as visible with the 'none' fallback.__
    if (displayCheck !== 'legacy-full') {
      return true; // hidden
    }
    // else, fallback to 'none' mode and consider the node visible
  } else if (displayCheck === 'non-zero-area') {
    // NOTE: Even though this tests that the node's client rect is non-zero to determine
    //  whether it's displayed, and that a detached node will __always__ have a zero-area
    //  client rect, we don't special-case for whether the node is attached or not. In
    //  this mode, we do want to consider nodes that have a zero area to be hidden at all
    //  times, and that includes attached or not.
    return isZeroArea(node);
  }

  // visible, as far as we can tell, or per current `displayCheck=none` mode, we assume
  //  it's visible
  return false;
};

// form fields (nested) inside a disabled fieldset are not focusable/tabbable
//  unless they are in the _first_ <legend> element of the top-most disabled
//  fieldset
const isDisabledFromFieldset = function (node) {
  if (/^(INPUT|BUTTON|SELECT|TEXTAREA)$/.test(node.tagName)) {
    let parentNode = node.parentElement;
    // check if `node` is contained in a disabled <fieldset>
    while (parentNode) {
      if (parentNode.tagName === 'FIELDSET' && parentNode.disabled) {
        // look for the first <legend> among the children of the disabled <fieldset>
        for (let i = 0; i < parentNode.children.length; i++) {
          const child = parentNode.children.item(i);
          // when the first <legend> (in document order) is found
          if (child.tagName === 'LEGEND') {
            // if its parent <fieldset> is not nested in another disabled <fieldset>,
            // return whether `node` is a descendant of its first <legend>
            return matches.call(parentNode, 'fieldset[disabled] *')
              ? true
              : !child.contains(node);
          }
        }
        // the disabled <fieldset> containing `node` has no <legend>
        return true;
      }
      parentNode = parentNode.parentElement;
    }
  }

  // else, node's tabbable/focusable state should not be affected by a fieldset's
  //  enabled/disabled state
  return false;
};

const isNodeMatchingSelectorFocusable = function (options, node) {
  if (
    node.disabled ||
    // we must do an inert look up to filter out any elements inside an inert ancestor
    //  because we're limited in the type of selectors we can use in JSDom (see related
    //  note related to `candidateSelectors`)
    isInert(node) ||
    isHiddenInput(node) ||
    isHidden(node, options) ||
    // For a details element with a summary, the summary element gets the focus
    isDetailsWithSummary(node) ||
    isDisabledFromFieldset(node)
  ) {
    return false;
  }
  return true;
};

const isNodeMatchingSelectorTabbable = function (options, node) {
  if (
    isNonTabbableRadio(node) ||
    getTabIndex(node) < 0 ||
    !isNodeMatchingSelectorFocusable(options, node)
  ) {
    return false;
  }
  return true;
};

const isValidShadowRootTabbable = function (shadowHostNode) {
  const tabIndex = parseInt(shadowHostNode.getAttribute('tabindex'), 10);
  if (isNaN(tabIndex) || tabIndex >= 0) {
    return true;
  }
  // If a custom element has an explicit negative tabindex,
  // browsers will not allow tab targeting said element's children.
  return false;
};

/**
 * @param {Array.<Element|CandidateScope>} candidates
 * @returns Element[]
 */
const sortByOrder = function (candidates) {
  const regularTabbables = [];
  const orderedTabbables = [];
  candidates.forEach(function (item, i) {
    const isScope = !!item.scopeParent;
    const element = isScope ? item.scopeParent : item;
    const candidateTabindex = getSortOrderTabIndex(element, isScope);
    const elements = isScope ? sortByOrder(item.candidates) : element;
    if (candidateTabindex === 0) {
      isScope
        ? regularTabbables.push(...elements)
        : regularTabbables.push(element);
    } else {
      orderedTabbables.push({
        documentOrder: i,
        tabIndex: candidateTabindex,
        item: item,
        isScope: isScope,
        content: elements,
      });
    }
  });

  return orderedTabbables
    .sort(sortOrderedTabbables)
    .reduce((acc, sortable) => {
      sortable.isScope
        ? acc.push(...sortable.content)
        : acc.push(sortable.content);
      return acc;
    }, [])
    .concat(regularTabbables);
};

const tabbable = function (container, options) {
  options = options || {};

  let candidates;
  if (options.getShadowRoot) {
    candidates = getCandidatesIteratively(
      [container],
      options.includeContainer,
      {
        filter: isNodeMatchingSelectorTabbable.bind(null, options),
        flatten: false,
        getShadowRoot: options.getShadowRoot,
        shadowRootFilter: isValidShadowRootTabbable,
      }
    );
  } else {
    candidates = getCandidates(
      container,
      options.includeContainer,
      isNodeMatchingSelectorTabbable.bind(null, options)
    );
  }
  return sortByOrder(candidates);
};

const focusable = function (container, options) {
  options = options || {};

  let candidates;
  if (options.getShadowRoot) {
    candidates = getCandidatesIteratively(
      [container],
      options.includeContainer,
      {
        filter: isNodeMatchingSelectorFocusable.bind(null, options),
        flatten: true,
        getShadowRoot: options.getShadowRoot,
      }
    );
  } else {
    candidates = getCandidates(
      container,
      options.includeContainer,
      isNodeMatchingSelectorFocusable.bind(null, options)
    );
  }

  return candidates;
};

const isTabbable = function (node, options) {
  options = options || {};
  if (!node) {
    throw new Error('No node provided');
  }
  if (matches.call(node, candidateSelector) === false) {
    return false;
  }
  return isNodeMatchingSelectorTabbable(options, node);
};

const focusableCandidateSelector = /* #__PURE__ */ candidateSelectors
  .concat('iframe')
  .join(',');

const isFocusable = function (node, options) {
  options = options || {};
  if (!node) {
    throw new Error('No node provided');
  }
  if (matches.call(node, focusableCandidateSelector) === false) {
    return false;
  }
  return isNodeMatchingSelectorFocusable(options, node);
};

export { tabbable, focusable, isTabbable, isFocusable, getTabIndex };