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(function (global, factory) { typeof exports === 'object' && typeof module !== 'undefined' ? factory() : typeof define === 'function' && define.amd ? define(factory) : (factory()); }(this, (function () { 'use strict'; /** * Applies the :focus-visible polyfill at the given scope. * A scope in this case is either the top-level Document or a Shadow Root. * * @param {(Document|ShadowRoot)} scope * @see https://github.com/WICG/focus-visible */ function applyFocusVisiblePolyfill(scope) { var hadKeyboardEvent = true; var hadFocusVisibleRecently = false; var hadFocusVisibleRecentlyTimeout = null; var inputTypesAllowlist = { text: true, search: true, url: true, tel: true, email: true, password: true, number: true, date: true, month: true, week: true, time: true, datetime: true, 'datetime-local': true }; /** * Helper function for legacy browsers and iframes which sometimes focus * elements like document, body, and non-interactive SVG. * @param {Element} el */ function isValidFocusTarget(el) { if ( el && el !== document && el.nodeName !== 'HTML' && el.nodeName !== 'BODY' && 'classList' in el && 'contains' in el.classList ) { return true; } return false; } /** * Computes whether the given element should automatically trigger the * `focus-visible` class being added, i.e. whether it should always match * `:focus-visible` when focused. * @param {Element} el * @return {boolean} */ function focusTriggersKeyboardModality(el) { var type = el.type; var tagName = el.tagName; if (tagName === 'INPUT' && inputTypesAllowlist[type] && !el.readOnly) { return true; } if (tagName === 'TEXTAREA' && !el.readOnly) { return true; } if (el.isContentEditable) { return true; } return false; } /** * Add the `focus-visible` class to the given element if it was not added by * the author. * @param {Element} el */ function addFocusVisibleClass(el) { if (el.classList.contains('focus-visible')) { return; } el.classList.add('focus-visible'); el.setAttribute('data-focus-visible-added', ''); } /** * Remove the `focus-visible` class from the given element if it was not * originally added by the author. * @param {Element} el */ function removeFocusVisibleClass(el) { if (!el.hasAttribute('data-focus-visible-added')) { return; } el.classList.remove('focus-visible'); el.removeAttribute('data-focus-visible-added'); } /** * If the most recent user interaction was via the keyboard; * and the key press did not include a meta, alt/option, or control key; * then the modality is keyboard. Otherwise, the modality is not keyboard. * Apply `focus-visible` to any current active element and keep track * of our keyboard modality state with `hadKeyboardEvent`. * @param {KeyboardEvent} e */ function onKeyDown(e) { if (e.metaKey || e.altKey || e.ctrlKey) { return; } if (isValidFocusTarget(scope.activeElement)) { addFocusVisibleClass(scope.activeElement); } hadKeyboardEvent = true; } /** * If at any point a user clicks with a pointing device, ensure that we change * the modality away from keyboard. * This avoids the situation where a user presses a key on an already focused * element, and then clicks on a different element, focusing it with a * pointing device, while we still think we're in keyboard modality. * @param {Event} e */ function onPointerDown(e) { hadKeyboardEvent = false; } /** * On `focus`, add the `focus-visible` class to the target if: * - the target received focus as a result of keyboard navigation, or * - the event target is an element that will likely require interaction * via the keyboard (e.g. a text box) * @param {Event} e */ function onFocus(e) { // Prevent IE from focusing the document or HTML element. if (!isValidFocusTarget(e.target)) { return; } if (hadKeyboardEvent || focusTriggersKeyboardModality(e.target)) { addFocusVisibleClass(e.target); } } /** * On `blur`, remove the `focus-visible` class from the target. * @param {Event} e */ function onBlur(e) { if (!isValidFocusTarget(e.target)) { return; } if ( e.target.classList.contains('focus-visible') || e.target.hasAttribute('data-focus-visible-added') ) { // To detect a tab/window switch, we look for a blur event followed // rapidly by a visibility change. // If we don't see a visibility change within 100ms, it's probably a // regular focus change. hadFocusVisibleRecently = true; window.clearTimeout(hadFocusVisibleRecentlyTimeout); hadFocusVisibleRecentlyTimeout = window.setTimeout(function() { hadFocusVisibleRecently = false; }, 100); removeFocusVisibleClass(e.target); } } /** * If the user changes tabs, keep track of whether or not the previously * focused element had .focus-visible. * @param {Event} e */ function onVisibilityChange(e) { if (document.visibilityState === 'hidden') { // If the tab becomes active again, the browser will handle calling focus // on the element (Safari actually calls it twice). // If this tab change caused a blur on an element with focus-visible, // re-apply the class when the user switches back to the tab. if (hadFocusVisibleRecently) { hadKeyboardEvent = true; } addInitialPointerMoveListeners(); } } /** * Add a group of listeners to detect usage of any pointing devices. * These listeners will be added when the polyfill first loads, and anytime * the window is blurred, so that they are active when the window regains * focus. */ function addInitialPointerMoveListeners() { document.addEventListener('mousemove', onInitialPointerMove); document.addEventListener('mousedown', onInitialPointerMove); document.addEventListener('mouseup', onInitialPointerMove); document.addEventListener('pointermove', onInitialPointerMove); document.addEventListener('pointerdown', onInitialPointerMove); document.addEventListener('pointerup', onInitialPointerMove); document.addEventListener('touchmove', onInitialPointerMove); document.addEventListener('touchstart', onInitialPointerMove); document.addEventListener('touchend', onInitialPointerMove); } function removeInitialPointerMoveListeners() { document.removeEventListener('mousemove', onInitialPointerMove); document.removeEventListener('mousedown', onInitialPointerMove); document.removeEventListener('mouseup', onInitialPointerMove); document.removeEventListener('pointermove', onInitialPointerMove); document.removeEventListener('pointerdown', onInitialPointerMove); document.removeEventListener('pointerup', onInitialPointerMove); document.removeEventListener('touchmove', onInitialPointerMove); document.removeEventListener('touchstart', onInitialPointerMove); document.removeEventListener('touchend', onInitialPointerMove); } /** * When the polfyill first loads, assume the user is in keyboard modality. * If any event is received from a pointing device (e.g. mouse, pointer, * touch), turn off keyboard modality. * This accounts for situations where focus enters the page from the URL bar. * @param {Event} e */ function onInitialPointerMove(e) { // Work around a Safari quirk that fires a mousemove on <html> whenever the // window blurs, even if you're tabbing out of the page. ¯\_(ツ)_/¯ if (e.target.nodeName && e.target.nodeName.toLowerCase() === 'html') { return; } hadKeyboardEvent = false; removeInitialPointerMoveListeners(); } // For some kinds of state, we are interested in changes at the global scope // only. For example, global pointer input, global key presses and global // visibility change should affect the state at every scope: document.addEventListener('keydown', onKeyDown, true); document.addEventListener('mousedown', onPointerDown, true); document.addEventListener('pointerdown', onPointerDown, true); document.addEventListener('touchstart', onPointerDown, true); document.addEventListener('visibilitychange', onVisibilityChange, true); addInitialPointerMoveListeners(); // For focus and blur, we specifically care about state changes in the local // scope. This is because focus / blur events that originate from within a // shadow root are not re-dispatched from the host element if it was already // the active element in its own scope: scope.addEventListener('focus', onFocus, true); scope.addEventListener('blur', onBlur, true); // We detect that a node is a ShadowRoot by ensuring that it is a // DocumentFragment and also has a host property. This check covers native // implementation and polyfill implementation transparently. If we only cared // about the native implementation, we could just check if the scope was // an instance of a ShadowRoot. if (scope.nodeType === Node.DOCUMENT_FRAGMENT_NODE && scope.host) { // Since a ShadowRoot is a special kind of DocumentFragment, it does not // have a root element to add a class to. So, we add this attribute to the // host element instead: scope.host.setAttribute('data-js-focus-visible', ''); } else if (scope.nodeType === Node.DOCUMENT_NODE) { document.documentElement.classList.add('js-focus-visible'); document.documentElement.setAttribute('data-js-focus-visible', ''); } } // It is important to wrap all references to global window and document in // these checks to support server-side rendering use cases // @see https://github.com/WICG/focus-visible/issues/199 if (typeof window !== 'undefined' && typeof document !== 'undefined') { // Make the polyfill helper globally available. This can be used as a signal // to interested libraries that wish to coordinate with the polyfill for e.g., // applying the polyfill to a shadow root: window.applyFocusVisiblePolyfill = applyFocusVisiblePolyfill; // Notify interested libraries of the polyfill's presence, in case the // polyfill was loaded lazily: var event; try { event = new CustomEvent('focus-visible-polyfill-ready'); } catch (error) { // IE11 does not support using CustomEvent as a constructor directly: event = document.createEvent('CustomEvent'); event.initCustomEvent('focus-visible-polyfill-ready', false, false, {}); } window.dispatchEvent(event); } if (typeof document !== 'undefined') { // Apply the polyfill to the global document, so that no JavaScript // coordination is required to use the polyfill in the top-level document: applyFocusVisiblePolyfill(document); } })));