source: trip-planner-front/node_modules/@angular/cdk/__ivy_ngcc__/fesm2015/a11y.js

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1import * as i2 from '@angular/common';
2import { DOCUMENT } from '@angular/common';
3import * as i0 from '@angular/core';
4import { Injectable, Inject, QueryList, NgZone, Directive, ElementRef, Input, InjectionToken, Optional, EventEmitter, Output, NgModule } from '@angular/core';
5import { Subject, Subscription, BehaviorSubject, of } from 'rxjs';
6import { hasModifierKey, A, Z, ZERO, NINE, END, HOME, LEFT_ARROW, RIGHT_ARROW, UP_ARROW, DOWN_ARROW, TAB, ALT, CONTROL, MAC_META, META, SHIFT } from '@angular/cdk/keycodes';
7import { tap, debounceTime, filter, map, take, skip, distinctUntilChanged, takeUntil } from 'rxjs/operators';
8import { coerceBooleanProperty, coerceElement } from '@angular/cdk/coercion';
9import * as i1 from '@angular/cdk/platform';
10import { Platform, _getFocusedElementPierceShadowDom, normalizePassiveListenerOptions, _getEventTarget, _getShadowRoot, PlatformModule } from '@angular/cdk/platform';
11import { ContentObserver, ObserversModule } from '@angular/cdk/observers';
12
13/**
14 * @license
15 * Copyright Google LLC All Rights Reserved.
16 *
17 * Use of this source code is governed by an MIT-style license that can be
18 * found in the LICENSE file at https://angular.io/license
19 */
20/** IDs are delimited by an empty space, as per the spec. */
21import * as ɵngcc0 from '@angular/core';
22import * as ɵngcc1 from '@angular/cdk/platform';
23import * as ɵngcc2 from '@angular/cdk/observers';
24const ID_DELIMITER = ' ';
25/**
26 * Adds the given ID to the specified ARIA attribute on an element.
27 * Used for attributes such as aria-labelledby, aria-owns, etc.
28 */
29function addAriaReferencedId(el, attr, id) {
30 const ids = getAriaReferenceIds(el, attr);
31 if (ids.some(existingId => existingId.trim() == id.trim())) {
32 return;
33 }
34 ids.push(id.trim());
35 el.setAttribute(attr, ids.join(ID_DELIMITER));
36}
37/**
38 * Removes the given ID from the specified ARIA attribute on an element.
39 * Used for attributes such as aria-labelledby, aria-owns, etc.
40 */
41function removeAriaReferencedId(el, attr, id) {
42 const ids = getAriaReferenceIds(el, attr);
43 const filteredIds = ids.filter(val => val != id.trim());
44 if (filteredIds.length) {
45 el.setAttribute(attr, filteredIds.join(ID_DELIMITER));
46 }
47 else {
48 el.removeAttribute(attr);
49 }
50}
51/**
52 * Gets the list of IDs referenced by the given ARIA attribute on an element.
53 * Used for attributes such as aria-labelledby, aria-owns, etc.
54 */
55function getAriaReferenceIds(el, attr) {
56 // Get string array of all individual ids (whitespace delimited) in the attribute value
57 return (el.getAttribute(attr) || '').match(/\S+/g) || [];
58}
59
60/**
61 * @license
62 * Copyright Google LLC All Rights Reserved.
63 *
64 * Use of this source code is governed by an MIT-style license that can be
65 * found in the LICENSE file at https://angular.io/license
66 */
67/** ID used for the body container where all messages are appended. */
68const MESSAGES_CONTAINER_ID = 'cdk-describedby-message-container';
69/** ID prefix used for each created message element. */
70const CDK_DESCRIBEDBY_ID_PREFIX = 'cdk-describedby-message';
71/** Attribute given to each host element that is described by a message element. */
72const CDK_DESCRIBEDBY_HOST_ATTRIBUTE = 'cdk-describedby-host';
73/** Global incremental identifier for each registered message element. */
74let nextId = 0;
75/** Global map of all registered message elements that have been placed into the document. */
76const messageRegistry = new Map();
77/** Container for all registered messages. */
78let messagesContainer = null;
79/**
80 * Utility that creates visually hidden elements with a message content. Useful for elements that
81 * want to use aria-describedby to further describe themselves without adding additional visual
82 * content.
83 */
84class AriaDescriber {
85 constructor(_document) {
86 this._document = _document;
87 }
88 describe(hostElement, message, role) {
89 if (!this._canBeDescribed(hostElement, message)) {
90 return;
91 }
92 const key = getKey(message, role);
93 if (typeof message !== 'string') {
94 // We need to ensure that the element has an ID.
95 setMessageId(message);
96 messageRegistry.set(key, { messageElement: message, referenceCount: 0 });
97 }
98 else if (!messageRegistry.has(key)) {
99 this._createMessageElement(message, role);
100 }
101 if (!this._isElementDescribedByMessage(hostElement, key)) {
102 this._addMessageReference(hostElement, key);
103 }
104 }
105 removeDescription(hostElement, message, role) {
106 if (!message || !this._isElementNode(hostElement)) {
107 return;
108 }
109 const key = getKey(message, role);
110 if (this._isElementDescribedByMessage(hostElement, key)) {
111 this._removeMessageReference(hostElement, key);
112 }
113 // If the message is a string, it means that it's one that we created for the
114 // consumer so we can remove it safely, otherwise we should leave it in place.
115 if (typeof message === 'string') {
116 const registeredMessage = messageRegistry.get(key);
117 if (registeredMessage && registeredMessage.referenceCount === 0) {
118 this._deleteMessageElement(key);
119 }
120 }
121 if (messagesContainer && messagesContainer.childNodes.length === 0) {
122 this._deleteMessagesContainer();
123 }
124 }
125 /** Unregisters all created message elements and removes the message container. */
126 ngOnDestroy() {
127 const describedElements = this._document.querySelectorAll(`[${CDK_DESCRIBEDBY_HOST_ATTRIBUTE}]`);
128 for (let i = 0; i < describedElements.length; i++) {
129 this._removeCdkDescribedByReferenceIds(describedElements[i]);
130 describedElements[i].removeAttribute(CDK_DESCRIBEDBY_HOST_ATTRIBUTE);
131 }
132 if (messagesContainer) {
133 this._deleteMessagesContainer();
134 }
135 messageRegistry.clear();
136 }
137 /**
138 * Creates a new element in the visually hidden message container element with the message
139 * as its content and adds it to the message registry.
140 */
141 _createMessageElement(message, role) {
142 const messageElement = this._document.createElement('div');
143 setMessageId(messageElement);
144 messageElement.textContent = message;
145 if (role) {
146 messageElement.setAttribute('role', role);
147 }
148 this._createMessagesContainer();
149 messagesContainer.appendChild(messageElement);
150 messageRegistry.set(getKey(message, role), { messageElement, referenceCount: 0 });
151 }
152 /** Deletes the message element from the global messages container. */
153 _deleteMessageElement(key) {
154 const registeredMessage = messageRegistry.get(key);
155 const messageElement = registeredMessage && registeredMessage.messageElement;
156 if (messagesContainer && messageElement) {
157 messagesContainer.removeChild(messageElement);
158 }
159 messageRegistry.delete(key);
160 }
161 /** Creates the global container for all aria-describedby messages. */
162 _createMessagesContainer() {
163 if (!messagesContainer) {
164 const preExistingContainer = this._document.getElementById(MESSAGES_CONTAINER_ID);
165 // When going from the server to the client, we may end up in a situation where there's
166 // already a container on the page, but we don't have a reference to it. Clear the
167 // old container so we don't get duplicates. Doing this, instead of emptying the previous
168 // container, should be slightly faster.
169 if (preExistingContainer && preExistingContainer.parentNode) {
170 preExistingContainer.parentNode.removeChild(preExistingContainer);
171 }
172 messagesContainer = this._document.createElement('div');
173 messagesContainer.id = MESSAGES_CONTAINER_ID;
174 // We add `visibility: hidden` in order to prevent text in this container from
175 // being searchable by the browser's Ctrl + F functionality.
176 // Screen-readers will still read the description for elements with aria-describedby even
177 // when the description element is not visible.
178 messagesContainer.style.visibility = 'hidden';
179 // Even though we use `visibility: hidden`, we still apply `cdk-visually-hidden` so that
180 // the description element doesn't impact page layout.
181 messagesContainer.classList.add('cdk-visually-hidden');
182 this._document.body.appendChild(messagesContainer);
183 }
184 }
185 /** Deletes the global messages container. */
186 _deleteMessagesContainer() {
187 if (messagesContainer && messagesContainer.parentNode) {
188 messagesContainer.parentNode.removeChild(messagesContainer);
189 messagesContainer = null;
190 }
191 }
192 /** Removes all cdk-describedby messages that are hosted through the element. */
193 _removeCdkDescribedByReferenceIds(element) {
194 // Remove all aria-describedby reference IDs that are prefixed by CDK_DESCRIBEDBY_ID_PREFIX
195 const originalReferenceIds = getAriaReferenceIds(element, 'aria-describedby')
196 .filter(id => id.indexOf(CDK_DESCRIBEDBY_ID_PREFIX) != 0);
197 element.setAttribute('aria-describedby', originalReferenceIds.join(' '));
198 }
199 /**
200 * Adds a message reference to the element using aria-describedby and increments the registered
201 * message's reference count.
202 */
203 _addMessageReference(element, key) {
204 const registeredMessage = messageRegistry.get(key);
205 // Add the aria-describedby reference and set the
206 // describedby_host attribute to mark the element.
207 addAriaReferencedId(element, 'aria-describedby', registeredMessage.messageElement.id);
208 element.setAttribute(CDK_DESCRIBEDBY_HOST_ATTRIBUTE, '');
209 registeredMessage.referenceCount++;
210 }
211 /**
212 * Removes a message reference from the element using aria-describedby
213 * and decrements the registered message's reference count.
214 */
215 _removeMessageReference(element, key) {
216 const registeredMessage = messageRegistry.get(key);
217 registeredMessage.referenceCount--;
218 removeAriaReferencedId(element, 'aria-describedby', registeredMessage.messageElement.id);
219 element.removeAttribute(CDK_DESCRIBEDBY_HOST_ATTRIBUTE);
220 }
221 /** Returns true if the element has been described by the provided message ID. */
222 _isElementDescribedByMessage(element, key) {
223 const referenceIds = getAriaReferenceIds(element, 'aria-describedby');
224 const registeredMessage = messageRegistry.get(key);
225 const messageId = registeredMessage && registeredMessage.messageElement.id;
226 return !!messageId && referenceIds.indexOf(messageId) != -1;
227 }
228 /** Determines whether a message can be described on a particular element. */
229 _canBeDescribed(element, message) {
230 if (!this._isElementNode(element)) {
231 return false;
232 }
233 if (message && typeof message === 'object') {
234 // We'd have to make some assumptions about the description element's text, if the consumer
235 // passed in an element. Assume that if an element is passed in, the consumer has verified
236 // that it can be used as a description.
237 return true;
238 }
239 const trimmedMessage = message == null ? '' : `${message}`.trim();
240 const ariaLabel = element.getAttribute('aria-label');
241 // We shouldn't set descriptions if they're exactly the same as the `aria-label` of the
242 // element, because screen readers will end up reading out the same text twice in a row.
243 return trimmedMessage ? (!ariaLabel || ariaLabel.trim() !== trimmedMessage) : false;
244 }
245 /** Checks whether a node is an Element node. */
246 _isElementNode(element) {
247 return element.nodeType === this._document.ELEMENT_NODE;
248 }
249}
250AriaDescriber.ɵfac = function AriaDescriber_Factory(t) { return new (t || AriaDescriber)(ɵngcc0.ɵɵinject(DOCUMENT)); };
251AriaDescriber.ɵprov = i0.ɵɵdefineInjectable({ factory: function AriaDescriber_Factory() { return new AriaDescriber(i0.ɵɵinject(i2.DOCUMENT)); }, token: AriaDescriber, providedIn: "root" });
252AriaDescriber.ctorParameters = () => [
253 { type: undefined, decorators: [{ type: Inject, args: [DOCUMENT,] }] }
254];
255(function () { (typeof ngDevMode === "undefined" || ngDevMode) && ɵngcc0.ɵsetClassMetadata(AriaDescriber, [{
256 type: Injectable,
257 args: [{ providedIn: 'root' }]
258 }], function () { return [{ type: undefined, decorators: [{
259 type: Inject,
260 args: [DOCUMENT]
261 }] }]; }, null); })();
262/** Gets a key that can be used to look messages up in the registry. */
263function getKey(message, role) {
264 return typeof message === 'string' ? `${role || ''}/${message}` : message;
265}
266/** Assigns a unique ID to an element, if it doesn't have one already. */
267function setMessageId(element) {
268 if (!element.id) {
269 element.id = `${CDK_DESCRIBEDBY_ID_PREFIX}-${nextId++}`;
270 }
271}
272
273/**
274 * @license
275 * Copyright Google LLC All Rights Reserved.
276 *
277 * Use of this source code is governed by an MIT-style license that can be
278 * found in the LICENSE file at https://angular.io/license
279 */
280/**
281 * This class manages keyboard events for selectable lists. If you pass it a query list
282 * of items, it will set the active item correctly when arrow events occur.
283 */
284class ListKeyManager {
285 constructor(_items) {
286 this._items = _items;
287 this._activeItemIndex = -1;
288 this._activeItem = null;
289 this._wrap = false;
290 this._letterKeyStream = new Subject();
291 this._typeaheadSubscription = Subscription.EMPTY;
292 this._vertical = true;
293 this._allowedModifierKeys = [];
294 this._homeAndEnd = false;
295 /**
296 * Predicate function that can be used to check whether an item should be skipped
297 * by the key manager. By default, disabled items are skipped.
298 */
299 this._skipPredicateFn = (item) => item.disabled;
300 // Buffer for the letters that the user has pressed when the typeahead option is turned on.
301 this._pressedLetters = [];
302 /**
303 * Stream that emits any time the TAB key is pressed, so components can react
304 * when focus is shifted off of the list.
305 */
306 this.tabOut = new Subject();
307 /** Stream that emits whenever the active item of the list manager changes. */
308 this.change = new Subject();
309 // We allow for the items to be an array because, in some cases, the consumer may
310 // not have access to a QueryList of the items they want to manage (e.g. when the
311 // items aren't being collected via `ViewChildren` or `ContentChildren`).
312 if (_items instanceof QueryList) {
313 _items.changes.subscribe((newItems) => {
314 if (this._activeItem) {
315 const itemArray = newItems.toArray();
316 const newIndex = itemArray.indexOf(this._activeItem);
317 if (newIndex > -1 && newIndex !== this._activeItemIndex) {
318 this._activeItemIndex = newIndex;
319 }
320 }
321 });
322 }
323 }
324 /**
325 * Sets the predicate function that determines which items should be skipped by the
326 * list key manager.
327 * @param predicate Function that determines whether the given item should be skipped.
328 */
329 skipPredicate(predicate) {
330 this._skipPredicateFn = predicate;
331 return this;
332 }
333 /**
334 * Configures wrapping mode, which determines whether the active item will wrap to
335 * the other end of list when there are no more items in the given direction.
336 * @param shouldWrap Whether the list should wrap when reaching the end.
337 */
338 withWrap(shouldWrap = true) {
339 this._wrap = shouldWrap;
340 return this;
341 }
342 /**
343 * Configures whether the key manager should be able to move the selection vertically.
344 * @param enabled Whether vertical selection should be enabled.
345 */
346 withVerticalOrientation(enabled = true) {
347 this._vertical = enabled;
348 return this;
349 }
350 /**
351 * Configures the key manager to move the selection horizontally.
352 * Passing in `null` will disable horizontal movement.
353 * @param direction Direction in which the selection can be moved.
354 */
355 withHorizontalOrientation(direction) {
356 this._horizontal = direction;
357 return this;
358 }
359 /**
360 * Modifier keys which are allowed to be held down and whose default actions will be prevented
361 * as the user is pressing the arrow keys. Defaults to not allowing any modifier keys.
362 */
363 withAllowedModifierKeys(keys) {
364 this._allowedModifierKeys = keys;
365 return this;
366 }
367 /**
368 * Turns on typeahead mode which allows users to set the active item by typing.
369 * @param debounceInterval Time to wait after the last keystroke before setting the active item.
370 */
371 withTypeAhead(debounceInterval = 200) {
372 if ((typeof ngDevMode === 'undefined' || ngDevMode) && (this._items.length &&
373 this._items.some(item => typeof item.getLabel !== 'function'))) {
374 throw Error('ListKeyManager items in typeahead mode must implement the `getLabel` method.');
375 }
376 this._typeaheadSubscription.unsubscribe();
377 // Debounce the presses of non-navigational keys, collect the ones that correspond to letters
378 // and convert those letters back into a string. Afterwards find the first item that starts
379 // with that string and select it.
380 this._typeaheadSubscription = this._letterKeyStream.pipe(tap(letter => this._pressedLetters.push(letter)), debounceTime(debounceInterval), filter(() => this._pressedLetters.length > 0), map(() => this._pressedLetters.join(''))).subscribe(inputString => {
381 const items = this._getItemsArray();
382 // Start at 1 because we want to start searching at the item immediately
383 // following the current active item.
384 for (let i = 1; i < items.length + 1; i++) {
385 const index = (this._activeItemIndex + i) % items.length;
386 const item = items[index];
387 if (!this._skipPredicateFn(item) &&
388 item.getLabel().toUpperCase().trim().indexOf(inputString) === 0) {
389 this.setActiveItem(index);
390 break;
391 }
392 }
393 this._pressedLetters = [];
394 });
395 return this;
396 }
397 /**
398 * Configures the key manager to activate the first and last items
399 * respectively when the Home or End key is pressed.
400 * @param enabled Whether pressing the Home or End key activates the first/last item.
401 */
402 withHomeAndEnd(enabled = true) {
403 this._homeAndEnd = enabled;
404 return this;
405 }
406 setActiveItem(item) {
407 const previousActiveItem = this._activeItem;
408 this.updateActiveItem(item);
409 if (this._activeItem !== previousActiveItem) {
410 this.change.next(this._activeItemIndex);
411 }
412 }
413 /**
414 * Sets the active item depending on the key event passed in.
415 * @param event Keyboard event to be used for determining which element should be active.
416 */
417 onKeydown(event) {
418 const keyCode = event.keyCode;
419 const modifiers = ['altKey', 'ctrlKey', 'metaKey', 'shiftKey'];
420 const isModifierAllowed = modifiers.every(modifier => {
421 return !event[modifier] || this._allowedModifierKeys.indexOf(modifier) > -1;
422 });
423 switch (keyCode) {
424 case TAB:
425 this.tabOut.next();
426 return;
427 case DOWN_ARROW:
428 if (this._vertical && isModifierAllowed) {
429 this.setNextItemActive();
430 break;
431 }
432 else {
433 return;
434 }
435 case UP_ARROW:
436 if (this._vertical && isModifierAllowed) {
437 this.setPreviousItemActive();
438 break;
439 }
440 else {
441 return;
442 }
443 case RIGHT_ARROW:
444 if (this._horizontal && isModifierAllowed) {
445 this._horizontal === 'rtl' ? this.setPreviousItemActive() : this.setNextItemActive();
446 break;
447 }
448 else {
449 return;
450 }
451 case LEFT_ARROW:
452 if (this._horizontal && isModifierAllowed) {
453 this._horizontal === 'rtl' ? this.setNextItemActive() : this.setPreviousItemActive();
454 break;
455 }
456 else {
457 return;
458 }
459 case HOME:
460 if (this._homeAndEnd && isModifierAllowed) {
461 this.setFirstItemActive();
462 break;
463 }
464 else {
465 return;
466 }
467 case END:
468 if (this._homeAndEnd && isModifierAllowed) {
469 this.setLastItemActive();
470 break;
471 }
472 else {
473 return;
474 }
475 default:
476 if (isModifierAllowed || hasModifierKey(event, 'shiftKey')) {
477 // Attempt to use the `event.key` which also maps it to the user's keyboard language,
478 // otherwise fall back to resolving alphanumeric characters via the keyCode.
479 if (event.key && event.key.length === 1) {
480 this._letterKeyStream.next(event.key.toLocaleUpperCase());
481 }
482 else if ((keyCode >= A && keyCode <= Z) || (keyCode >= ZERO && keyCode <= NINE)) {
483 this._letterKeyStream.next(String.fromCharCode(keyCode));
484 }
485 }
486 // Note that we return here, in order to avoid preventing
487 // the default action of non-navigational keys.
488 return;
489 }
490 this._pressedLetters = [];
491 event.preventDefault();
492 }
493 /** Index of the currently active item. */
494 get activeItemIndex() {
495 return this._activeItemIndex;
496 }
497 /** The active item. */
498 get activeItem() {
499 return this._activeItem;
500 }
501 /** Gets whether the user is currently typing into the manager using the typeahead feature. */
502 isTyping() {
503 return this._pressedLetters.length > 0;
504 }
505 /** Sets the active item to the first enabled item in the list. */
506 setFirstItemActive() {
507 this._setActiveItemByIndex(0, 1);
508 }
509 /** Sets the active item to the last enabled item in the list. */
510 setLastItemActive() {
511 this._setActiveItemByIndex(this._items.length - 1, -1);
512 }
513 /** Sets the active item to the next enabled item in the list. */
514 setNextItemActive() {
515 this._activeItemIndex < 0 ? this.setFirstItemActive() : this._setActiveItemByDelta(1);
516 }
517 /** Sets the active item to a previous enabled item in the list. */
518 setPreviousItemActive() {
519 this._activeItemIndex < 0 && this._wrap ? this.setLastItemActive()
520 : this._setActiveItemByDelta(-1);
521 }
522 updateActiveItem(item) {
523 const itemArray = this._getItemsArray();
524 const index = typeof item === 'number' ? item : itemArray.indexOf(item);
525 const activeItem = itemArray[index];
526 // Explicitly check for `null` and `undefined` because other falsy values are valid.
527 this._activeItem = activeItem == null ? null : activeItem;
528 this._activeItemIndex = index;
529 }
530 /**
531 * This method sets the active item, given a list of items and the delta between the
532 * currently active item and the new active item. It will calculate differently
533 * depending on whether wrap mode is turned on.
534 */
535 _setActiveItemByDelta(delta) {
536 this._wrap ? this._setActiveInWrapMode(delta) : this._setActiveInDefaultMode(delta);
537 }
538 /**
539 * Sets the active item properly given "wrap" mode. In other words, it will continue to move
540 * down the list until it finds an item that is not disabled, and it will wrap if it
541 * encounters either end of the list.
542 */
543 _setActiveInWrapMode(delta) {
544 const items = this._getItemsArray();
545 for (let i = 1; i <= items.length; i++) {
546 const index = (this._activeItemIndex + (delta * i) + items.length) % items.length;
547 const item = items[index];
548 if (!this._skipPredicateFn(item)) {
549 this.setActiveItem(index);
550 return;
551 }
552 }
553 }
554 /**
555 * Sets the active item properly given the default mode. In other words, it will
556 * continue to move down the list until it finds an item that is not disabled. If
557 * it encounters either end of the list, it will stop and not wrap.
558 */
559 _setActiveInDefaultMode(delta) {
560 this._setActiveItemByIndex(this._activeItemIndex + delta, delta);
561 }
562 /**
563 * Sets the active item to the first enabled item starting at the index specified. If the
564 * item is disabled, it will move in the fallbackDelta direction until it either
565 * finds an enabled item or encounters the end of the list.
566 */
567 _setActiveItemByIndex(index, fallbackDelta) {
568 const items = this._getItemsArray();
569 if (!items[index]) {
570 return;
571 }
572 while (this._skipPredicateFn(items[index])) {
573 index += fallbackDelta;
574 if (!items[index]) {
575 return;
576 }
577 }
578 this.setActiveItem(index);
579 }
580 /** Returns the items as an array. */
581 _getItemsArray() {
582 return this._items instanceof QueryList ? this._items.toArray() : this._items;
583 }
584}
585
586/**
587 * @license
588 * Copyright Google LLC All Rights Reserved.
589 *
590 * Use of this source code is governed by an MIT-style license that can be
591 * found in the LICENSE file at https://angular.io/license
592 */
593class ActiveDescendantKeyManager extends ListKeyManager {
594 setActiveItem(index) {
595 if (this.activeItem) {
596 this.activeItem.setInactiveStyles();
597 }
598 super.setActiveItem(index);
599 if (this.activeItem) {
600 this.activeItem.setActiveStyles();
601 }
602 }
603}
604
605/**
606 * @license
607 * Copyright Google LLC All Rights Reserved.
608 *
609 * Use of this source code is governed by an MIT-style license that can be
610 * found in the LICENSE file at https://angular.io/license
611 */
612class FocusKeyManager extends ListKeyManager {
613 constructor() {
614 super(...arguments);
615 this._origin = 'program';
616 }
617 /**
618 * Sets the focus origin that will be passed in to the items for any subsequent `focus` calls.
619 * @param origin Focus origin to be used when focusing items.
620 */
621 setFocusOrigin(origin) {
622 this._origin = origin;
623 return this;
624 }
625 setActiveItem(item) {
626 super.setActiveItem(item);
627 if (this.activeItem) {
628 this.activeItem.focus(this._origin);
629 }
630 }
631}
632
633/**
634 * @license
635 * Copyright Google LLC All Rights Reserved.
636 *
637 * Use of this source code is governed by an MIT-style license that can be
638 * found in the LICENSE file at https://angular.io/license
639 */
640/**
641 * Configuration for the isFocusable method.
642 */
643class IsFocusableConfig {
644 constructor() {
645 /**
646 * Whether to count an element as focusable even if it is not currently visible.
647 */
648 this.ignoreVisibility = false;
649 }
650}
651// The InteractivityChecker leans heavily on the ally.js accessibility utilities.
652// Methods like `isTabbable` are only covering specific edge-cases for the browsers which are
653// supported.
654/**
655 * Utility for checking the interactivity of an element, such as whether is is focusable or
656 * tabbable.
657 */
658class InteractivityChecker {
659 constructor(_platform) {
660 this._platform = _platform;
661 }
662 /**
663 * Gets whether an element is disabled.
664 *
665 * @param element Element to be checked.
666 * @returns Whether the element is disabled.
667 */
668 isDisabled(element) {
669 // This does not capture some cases, such as a non-form control with a disabled attribute or
670 // a form control inside of a disabled form, but should capture the most common cases.
671 return element.hasAttribute('disabled');
672 }
673 /**
674 * Gets whether an element is visible for the purposes of interactivity.
675 *
676 * This will capture states like `display: none` and `visibility: hidden`, but not things like
677 * being clipped by an `overflow: hidden` parent or being outside the viewport.
678 *
679 * @returns Whether the element is visible.
680 */
681 isVisible(element) {
682 return hasGeometry(element) && getComputedStyle(element).visibility === 'visible';
683 }
684 /**
685 * Gets whether an element can be reached via Tab key.
686 * Assumes that the element has already been checked with isFocusable.
687 *
688 * @param element Element to be checked.
689 * @returns Whether the element is tabbable.
690 */
691 isTabbable(element) {
692 // Nothing is tabbable on the server 😎
693 if (!this._platform.isBrowser) {
694 return false;
695 }
696 const frameElement = getFrameElement(getWindow(element));
697 if (frameElement) {
698 // Frame elements inherit their tabindex onto all child elements.
699 if (getTabIndexValue(frameElement) === -1) {
700 return false;
701 }
702 // Browsers disable tabbing to an element inside of an invisible frame.
703 if (!this.isVisible(frameElement)) {
704 return false;
705 }
706 }
707 let nodeName = element.nodeName.toLowerCase();
708 let tabIndexValue = getTabIndexValue(element);
709 if (element.hasAttribute('contenteditable')) {
710 return tabIndexValue !== -1;
711 }
712 if (nodeName === 'iframe' || nodeName === 'object') {
713 // The frame or object's content may be tabbable depending on the content, but it's
714 // not possibly to reliably detect the content of the frames. We always consider such
715 // elements as non-tabbable.
716 return false;
717 }
718 // In iOS, the browser only considers some specific elements as tabbable.
719 if (this._platform.WEBKIT && this._platform.IOS && !isPotentiallyTabbableIOS(element)) {
720 return false;
721 }
722 if (nodeName === 'audio') {
723 // Audio elements without controls enabled are never tabbable, regardless
724 // of the tabindex attribute explicitly being set.
725 if (!element.hasAttribute('controls')) {
726 return false;
727 }
728 // Audio elements with controls are by default tabbable unless the
729 // tabindex attribute is set to `-1` explicitly.
730 return tabIndexValue !== -1;
731 }
732 if (nodeName === 'video') {
733 // For all video elements, if the tabindex attribute is set to `-1`, the video
734 // is not tabbable. Note: We cannot rely on the default `HTMLElement.tabIndex`
735 // property as that one is set to `-1` in Chrome, Edge and Safari v13.1. The
736 // tabindex attribute is the source of truth here.
737 if (tabIndexValue === -1) {
738 return false;
739 }
740 // If the tabindex is explicitly set, and not `-1` (as per check before), the
741 // video element is always tabbable (regardless of whether it has controls or not).
742 if (tabIndexValue !== null) {
743 return true;
744 }
745 // Otherwise (when no explicit tabindex is set), a video is only tabbable if it
746 // has controls enabled. Firefox is special as videos are always tabbable regardless
747 // of whether there are controls or not.
748 return this._platform.FIREFOX || element.hasAttribute('controls');
749 }
750 return element.tabIndex >= 0;
751 }
752 /**
753 * Gets whether an element can be focused by the user.
754 *
755 * @param element Element to be checked.
756 * @param config The config object with options to customize this method's behavior
757 * @returns Whether the element is focusable.
758 */
759 isFocusable(element, config) {
760 // Perform checks in order of left to most expensive.
761 // Again, naive approach that does not capture many edge cases and browser quirks.
762 return isPotentiallyFocusable(element) && !this.isDisabled(element) &&
763 ((config === null || config === void 0 ? void 0 : config.ignoreVisibility) || this.isVisible(element));
764 }
765}
766InteractivityChecker.ɵfac = function InteractivityChecker_Factory(t) { return new (t || InteractivityChecker)(ɵngcc0.ɵɵinject(ɵngcc1.Platform)); };
767InteractivityChecker.ɵprov = i0.ɵɵdefineInjectable({ factory: function InteractivityChecker_Factory() { return new InteractivityChecker(i0.ɵɵinject(i1.Platform)); }, token: InteractivityChecker, providedIn: "root" });
768InteractivityChecker.ctorParameters = () => [
769 { type: Platform }
770];
771(function () { (typeof ngDevMode === "undefined" || ngDevMode) && ɵngcc0.ɵsetClassMetadata(InteractivityChecker, [{
772 type: Injectable,
773 args: [{ providedIn: 'root' }]
774 }], function () { return [{ type: ɵngcc1.Platform }]; }, null); })();
775/**
776 * Returns the frame element from a window object. Since browsers like MS Edge throw errors if
777 * the frameElement property is being accessed from a different host address, this property
778 * should be accessed carefully.
779 */
780function getFrameElement(window) {
781 try {
782 return window.frameElement;
783 }
784 catch (_a) {
785 return null;
786 }
787}
788/** Checks whether the specified element has any geometry / rectangles. */
789function hasGeometry(element) {
790 // Use logic from jQuery to check for an invisible element.
791 // See https://github.com/jquery/jquery/blob/master/src/css/hiddenVisibleSelectors.js#L12
792 return !!(element.offsetWidth || element.offsetHeight ||
793 (typeof element.getClientRects === 'function' && element.getClientRects().length));
794}
795/** Gets whether an element's */
796function isNativeFormElement(element) {
797 let nodeName = element.nodeName.toLowerCase();
798 return nodeName === 'input' ||
799 nodeName === 'select' ||
800 nodeName === 'button' ||
801 nodeName === 'textarea';
802}
803/** Gets whether an element is an `<input type="hidden">`. */
804function isHiddenInput(element) {
805 return isInputElement(element) && element.type == 'hidden';
806}
807/** Gets whether an element is an anchor that has an href attribute. */
808function isAnchorWithHref(element) {
809 return isAnchorElement(element) && element.hasAttribute('href');
810}
811/** Gets whether an element is an input element. */
812function isInputElement(element) {
813 return element.nodeName.toLowerCase() == 'input';
814}
815/** Gets whether an element is an anchor element. */
816function isAnchorElement(element) {
817 return element.nodeName.toLowerCase() == 'a';
818}
819/** Gets whether an element has a valid tabindex. */
820function hasValidTabIndex(element) {
821 if (!element.hasAttribute('tabindex') || element.tabIndex === undefined) {
822 return false;
823 }
824 let tabIndex = element.getAttribute('tabindex');
825 // IE11 parses tabindex="" as the value "-32768"
826 if (tabIndex == '-32768') {
827 return false;
828 }
829 return !!(tabIndex && !isNaN(parseInt(tabIndex, 10)));
830}
831/**
832 * Returns the parsed tabindex from the element attributes instead of returning the
833 * evaluated tabindex from the browsers defaults.
834 */
835function getTabIndexValue(element) {
836 if (!hasValidTabIndex(element)) {
837 return null;
838 }
839 // See browser issue in Gecko https://bugzilla.mozilla.org/show_bug.cgi?id=1128054
840 const tabIndex = parseInt(element.getAttribute('tabindex') || '', 10);
841 return isNaN(tabIndex) ? -1 : tabIndex;
842}
843/** Checks whether the specified element is potentially tabbable on iOS */
844function isPotentiallyTabbableIOS(element) {
845 let nodeName = element.nodeName.toLowerCase();
846 let inputType = nodeName === 'input' && element.type;
847 return inputType === 'text'
848 || inputType === 'password'
849 || nodeName === 'select'
850 || nodeName === 'textarea';
851}
852/**
853 * Gets whether an element is potentially focusable without taking current visible/disabled state
854 * into account.
855 */
856function isPotentiallyFocusable(element) {
857 // Inputs are potentially focusable *unless* they're type="hidden".
858 if (isHiddenInput(element)) {
859 return false;
860 }
861 return isNativeFormElement(element) ||
862 isAnchorWithHref(element) ||
863 element.hasAttribute('contenteditable') ||
864 hasValidTabIndex(element);
865}
866/** Gets the parent window of a DOM node with regards of being inside of an iframe. */
867function getWindow(node) {
868 // ownerDocument is null if `node` itself *is* a document.
869 return node.ownerDocument && node.ownerDocument.defaultView || window;
870}
871
872/**
873 * @license
874 * Copyright Google LLC All Rights Reserved.
875 *
876 * Use of this source code is governed by an MIT-style license that can be
877 * found in the LICENSE file at https://angular.io/license
878 */
879/**
880 * Class that allows for trapping focus within a DOM element.
881 *
882 * This class currently uses a relatively simple approach to focus trapping.
883 * It assumes that the tab order is the same as DOM order, which is not necessarily true.
884 * Things like `tabIndex > 0`, flex `order`, and shadow roots can cause the two to be misaligned.
885 *
886 * @deprecated Use `ConfigurableFocusTrap` instead.
887 * @breaking-change 11.0.0
888 */
889class FocusTrap {
890 constructor(_element, _checker, _ngZone, _document, deferAnchors = false) {
891 this._element = _element;
892 this._checker = _checker;
893 this._ngZone = _ngZone;
894 this._document = _document;
895 this._hasAttached = false;
896 // Event listeners for the anchors. Need to be regular functions so that we can unbind them later.
897 this.startAnchorListener = () => this.focusLastTabbableElement();
898 this.endAnchorListener = () => this.focusFirstTabbableElement();
899 this._enabled = true;
900 if (!deferAnchors) {
901 this.attachAnchors();
902 }
903 }
904 /** Whether the focus trap is active. */
905 get enabled() { return this._enabled; }
906 set enabled(value) {
907 this._enabled = value;
908 if (this._startAnchor && this._endAnchor) {
909 this._toggleAnchorTabIndex(value, this._startAnchor);
910 this._toggleAnchorTabIndex(value, this._endAnchor);
911 }
912 }
913 /** Destroys the focus trap by cleaning up the anchors. */
914 destroy() {
915 const startAnchor = this._startAnchor;
916 const endAnchor = this._endAnchor;
917 if (startAnchor) {
918 startAnchor.removeEventListener('focus', this.startAnchorListener);
919 if (startAnchor.parentNode) {
920 startAnchor.parentNode.removeChild(startAnchor);
921 }
922 }
923 if (endAnchor) {
924 endAnchor.removeEventListener('focus', this.endAnchorListener);
925 if (endAnchor.parentNode) {
926 endAnchor.parentNode.removeChild(endAnchor);
927 }
928 }
929 this._startAnchor = this._endAnchor = null;
930 this._hasAttached = false;
931 }
932 /**
933 * Inserts the anchors into the DOM. This is usually done automatically
934 * in the constructor, but can be deferred for cases like directives with `*ngIf`.
935 * @returns Whether the focus trap managed to attach successfully. This may not be the case
936 * if the target element isn't currently in the DOM.
937 */
938 attachAnchors() {
939 // If we're not on the browser, there can be no focus to trap.
940 if (this._hasAttached) {
941 return true;
942 }
943 this._ngZone.runOutsideAngular(() => {
944 if (!this._startAnchor) {
945 this._startAnchor = this._createAnchor();
946 this._startAnchor.addEventListener('focus', this.startAnchorListener);
947 }
948 if (!this._endAnchor) {
949 this._endAnchor = this._createAnchor();
950 this._endAnchor.addEventListener('focus', this.endAnchorListener);
951 }
952 });
953 if (this._element.parentNode) {
954 this._element.parentNode.insertBefore(this._startAnchor, this._element);
955 this._element.parentNode.insertBefore(this._endAnchor, this._element.nextSibling);
956 this._hasAttached = true;
957 }
958 return this._hasAttached;
959 }
960 /**
961 * Waits for the zone to stabilize, then either focuses the first element that the
962 * user specified, or the first tabbable element.
963 * @returns Returns a promise that resolves with a boolean, depending
964 * on whether focus was moved successfully.
965 */
966 focusInitialElementWhenReady(options) {
967 return new Promise(resolve => {
968 this._executeOnStable(() => resolve(this.focusInitialElement(options)));
969 });
970 }
971 /**
972 * Waits for the zone to stabilize, then focuses
973 * the first tabbable element within the focus trap region.
974 * @returns Returns a promise that resolves with a boolean, depending
975 * on whether focus was moved successfully.
976 */
977 focusFirstTabbableElementWhenReady(options) {
978 return new Promise(resolve => {
979 this._executeOnStable(() => resolve(this.focusFirstTabbableElement(options)));
980 });
981 }
982 /**
983 * Waits for the zone to stabilize, then focuses
984 * the last tabbable element within the focus trap region.
985 * @returns Returns a promise that resolves with a boolean, depending
986 * on whether focus was moved successfully.
987 */
988 focusLastTabbableElementWhenReady(options) {
989 return new Promise(resolve => {
990 this._executeOnStable(() => resolve(this.focusLastTabbableElement(options)));
991 });
992 }
993 /**
994 * Get the specified boundary element of the trapped region.
995 * @param bound The boundary to get (start or end of trapped region).
996 * @returns The boundary element.
997 */
998 _getRegionBoundary(bound) {
999 // Contains the deprecated version of selector, for temporary backwards comparability.
1000 let markers = this._element.querySelectorAll(`[cdk-focus-region-${bound}], ` +
1001 `[cdkFocusRegion${bound}], ` +
1002 `[cdk-focus-${bound}]`);
1003 for (let i = 0; i < markers.length; i++) {
1004 // @breaking-change 8.0.0
1005 if (markers[i].hasAttribute(`cdk-focus-${bound}`)) {
1006 console.warn(`Found use of deprecated attribute 'cdk-focus-${bound}', ` +
1007 `use 'cdkFocusRegion${bound}' instead. The deprecated ` +
1008 `attribute will be removed in 8.0.0.`, markers[i]);
1009 }
1010 else if (markers[i].hasAttribute(`cdk-focus-region-${bound}`)) {
1011 console.warn(`Found use of deprecated attribute 'cdk-focus-region-${bound}', ` +
1012 `use 'cdkFocusRegion${bound}' instead. The deprecated attribute ` +
1013 `will be removed in 8.0.0.`, markers[i]);
1014 }
1015 }
1016 if (bound == 'start') {
1017 return markers.length ? markers[0] : this._getFirstTabbableElement(this._element);
1018 }
1019 return markers.length ?
1020 markers[markers.length - 1] : this._getLastTabbableElement(this._element);
1021 }
1022 /**
1023 * Focuses the element that should be focused when the focus trap is initialized.
1024 * @returns Whether focus was moved successfully.
1025 */
1026 focusInitialElement(options) {
1027 // Contains the deprecated version of selector, for temporary backwards comparability.
1028 const redirectToElement = this._element.querySelector(`[cdk-focus-initial], ` +
1029 `[cdkFocusInitial]`);
1030 if (redirectToElement) {
1031 // @breaking-change 8.0.0
1032 if (redirectToElement.hasAttribute(`cdk-focus-initial`)) {
1033 console.warn(`Found use of deprecated attribute 'cdk-focus-initial', ` +
1034 `use 'cdkFocusInitial' instead. The deprecated attribute ` +
1035 `will be removed in 8.0.0`, redirectToElement);
1036 }
1037 // Warn the consumer if the element they've pointed to
1038 // isn't focusable, when not in production mode.
1039 if ((typeof ngDevMode === 'undefined' || ngDevMode) &&
1040 !this._checker.isFocusable(redirectToElement)) {
1041 console.warn(`Element matching '[cdkFocusInitial]' is not focusable.`, redirectToElement);
1042 }
1043 if (!this._checker.isFocusable(redirectToElement)) {
1044 const focusableChild = this._getFirstTabbableElement(redirectToElement);
1045 focusableChild === null || focusableChild === void 0 ? void 0 : focusableChild.focus(options);
1046 return !!focusableChild;
1047 }
1048 redirectToElement.focus(options);
1049 return true;
1050 }
1051 return this.focusFirstTabbableElement(options);
1052 }
1053 /**
1054 * Focuses the first tabbable element within the focus trap region.
1055 * @returns Whether focus was moved successfully.
1056 */
1057 focusFirstTabbableElement(options) {
1058 const redirectToElement = this._getRegionBoundary('start');
1059 if (redirectToElement) {
1060 redirectToElement.focus(options);
1061 }
1062 return !!redirectToElement;
1063 }
1064 /**
1065 * Focuses the last tabbable element within the focus trap region.
1066 * @returns Whether focus was moved successfully.
1067 */
1068 focusLastTabbableElement(options) {
1069 const redirectToElement = this._getRegionBoundary('end');
1070 if (redirectToElement) {
1071 redirectToElement.focus(options);
1072 }
1073 return !!redirectToElement;
1074 }
1075 /**
1076 * Checks whether the focus trap has successfully been attached.
1077 */
1078 hasAttached() {
1079 return this._hasAttached;
1080 }
1081 /** Get the first tabbable element from a DOM subtree (inclusive). */
1082 _getFirstTabbableElement(root) {
1083 if (this._checker.isFocusable(root) && this._checker.isTabbable(root)) {
1084 return root;
1085 }
1086 // Iterate in DOM order. Note that IE doesn't have `children` for SVG so we fall
1087 // back to `childNodes` which includes text nodes, comments etc.
1088 let children = root.children || root.childNodes;
1089 for (let i = 0; i < children.length; i++) {
1090 let tabbableChild = children[i].nodeType === this._document.ELEMENT_NODE ?
1091 this._getFirstTabbableElement(children[i]) :
1092 null;
1093 if (tabbableChild) {
1094 return tabbableChild;
1095 }
1096 }
1097 return null;
1098 }
1099 /** Get the last tabbable element from a DOM subtree (inclusive). */
1100 _getLastTabbableElement(root) {
1101 if (this._checker.isFocusable(root) && this._checker.isTabbable(root)) {
1102 return root;
1103 }
1104 // Iterate in reverse DOM order.
1105 let children = root.children || root.childNodes;
1106 for (let i = children.length - 1; i >= 0; i--) {
1107 let tabbableChild = children[i].nodeType === this._document.ELEMENT_NODE ?
1108 this._getLastTabbableElement(children[i]) :
1109 null;
1110 if (tabbableChild) {
1111 return tabbableChild;
1112 }
1113 }
1114 return null;
1115 }
1116 /** Creates an anchor element. */
1117 _createAnchor() {
1118 const anchor = this._document.createElement('div');
1119 this._toggleAnchorTabIndex(this._enabled, anchor);
1120 anchor.classList.add('cdk-visually-hidden');
1121 anchor.classList.add('cdk-focus-trap-anchor');
1122 anchor.setAttribute('aria-hidden', 'true');
1123 return anchor;
1124 }
1125 /**
1126 * Toggles the `tabindex` of an anchor, based on the enabled state of the focus trap.
1127 * @param isEnabled Whether the focus trap is enabled.
1128 * @param anchor Anchor on which to toggle the tabindex.
1129 */
1130 _toggleAnchorTabIndex(isEnabled, anchor) {
1131 // Remove the tabindex completely, rather than setting it to -1, because if the
1132 // element has a tabindex, the user might still hit it when navigating with the arrow keys.
1133 isEnabled ? anchor.setAttribute('tabindex', '0') : anchor.removeAttribute('tabindex');
1134 }
1135 /**
1136 * Toggles the`tabindex` of both anchors to either trap Tab focus or allow it to escape.
1137 * @param enabled: Whether the anchors should trap Tab.
1138 */
1139 toggleAnchors(enabled) {
1140 if (this._startAnchor && this._endAnchor) {
1141 this._toggleAnchorTabIndex(enabled, this._startAnchor);
1142 this._toggleAnchorTabIndex(enabled, this._endAnchor);
1143 }
1144 }
1145 /** Executes a function when the zone is stable. */
1146 _executeOnStable(fn) {
1147 if (this._ngZone.isStable) {
1148 fn();
1149 }
1150 else {
1151 this._ngZone.onStable.pipe(take(1)).subscribe(fn);
1152 }
1153 }
1154}
1155/**
1156 * Factory that allows easy instantiation of focus traps.
1157 * @deprecated Use `ConfigurableFocusTrapFactory` instead.
1158 * @breaking-change 11.0.0
1159 */
1160class FocusTrapFactory {
1161 constructor(_checker, _ngZone, _document) {
1162 this._checker = _checker;
1163 this._ngZone = _ngZone;
1164 this._document = _document;
1165 }
1166 /**
1167 * Creates a focus-trapped region around the given element.
1168 * @param element The element around which focus will be trapped.
1169 * @param deferCaptureElements Defers the creation of focus-capturing elements to be done
1170 * manually by the user.
1171 * @returns The created focus trap instance.
1172 */
1173 create(element, deferCaptureElements = false) {
1174 return new FocusTrap(element, this._checker, this._ngZone, this._document, deferCaptureElements);
1175 }
1176}
1177FocusTrapFactory.ɵfac = function FocusTrapFactory_Factory(t) { return new (t || FocusTrapFactory)(ɵngcc0.ɵɵinject(InteractivityChecker), ɵngcc0.ɵɵinject(ɵngcc0.NgZone), ɵngcc0.ɵɵinject(DOCUMENT)); };
1178FocusTrapFactory.ɵprov = i0.ɵɵdefineInjectable({ factory: function FocusTrapFactory_Factory() { return new FocusTrapFactory(i0.ɵɵinject(InteractivityChecker), i0.ɵɵinject(i0.NgZone), i0.ɵɵinject(i2.DOCUMENT)); }, token: FocusTrapFactory, providedIn: "root" });
1179FocusTrapFactory.ctorParameters = () => [
1180 { type: InteractivityChecker },
1181 { type: NgZone },
1182 { type: undefined, decorators: [{ type: Inject, args: [DOCUMENT,] }] }
1183];
1184(function () { (typeof ngDevMode === "undefined" || ngDevMode) && ɵngcc0.ɵsetClassMetadata(FocusTrapFactory, [{
1185 type: Injectable,
1186 args: [{ providedIn: 'root' }]
1187 }], function () { return [{ type: InteractivityChecker }, { type: ɵngcc0.NgZone }, { type: undefined, decorators: [{
1188 type: Inject,
1189 args: [DOCUMENT]
1190 }] }]; }, null); })();
1191/** Directive for trapping focus within a region. */
1192class CdkTrapFocus {
1193 constructor(_elementRef, _focusTrapFactory,
1194 /**
1195 * @deprecated No longer being used. To be removed.
1196 * @breaking-change 13.0.0
1197 */
1198 _document) {
1199 this._elementRef = _elementRef;
1200 this._focusTrapFactory = _focusTrapFactory;
1201 /** Previously focused element to restore focus to upon destroy when using autoCapture. */
1202 this._previouslyFocusedElement = null;
1203 this.focusTrap = this._focusTrapFactory.create(this._elementRef.nativeElement, true);
1204 }
1205 /** Whether the focus trap is active. */
1206 get enabled() { return this.focusTrap.enabled; }
1207 set enabled(value) { this.focusTrap.enabled = coerceBooleanProperty(value); }
1208 /**
1209 * Whether the directive should automatically move focus into the trapped region upon
1210 * initialization and return focus to the previous activeElement upon destruction.
1211 */
1212 get autoCapture() { return this._autoCapture; }
1213 set autoCapture(value) { this._autoCapture = coerceBooleanProperty(value); }
1214 ngOnDestroy() {
1215 this.focusTrap.destroy();
1216 // If we stored a previously focused element when using autoCapture, return focus to that
1217 // element now that the trapped region is being destroyed.
1218 if (this._previouslyFocusedElement) {
1219 this._previouslyFocusedElement.focus();
1220 this._previouslyFocusedElement = null;
1221 }
1222 }
1223 ngAfterContentInit() {
1224 this.focusTrap.attachAnchors();
1225 if (this.autoCapture) {
1226 this._captureFocus();
1227 }
1228 }
1229 ngDoCheck() {
1230 if (!this.focusTrap.hasAttached()) {
1231 this.focusTrap.attachAnchors();
1232 }
1233 }
1234 ngOnChanges(changes) {
1235 const autoCaptureChange = changes['autoCapture'];
1236 if (autoCaptureChange && !autoCaptureChange.firstChange && this.autoCapture &&
1237 this.focusTrap.hasAttached()) {
1238 this._captureFocus();
1239 }
1240 }
1241 _captureFocus() {
1242 this._previouslyFocusedElement = _getFocusedElementPierceShadowDom();
1243 this.focusTrap.focusInitialElementWhenReady();
1244 }
1245}
1246CdkTrapFocus.ɵfac = function CdkTrapFocus_Factory(t) { return new (t || CdkTrapFocus)(ɵngcc0.ɵɵdirectiveInject(ɵngcc0.ElementRef), ɵngcc0.ɵɵdirectiveInject(FocusTrapFactory), ɵngcc0.ɵɵdirectiveInject(DOCUMENT)); };
1247CdkTrapFocus.ɵdir = /*@__PURE__*/ ɵngcc0.ɵɵdefineDirective({ type: CdkTrapFocus, selectors: [["", "cdkTrapFocus", ""]], inputs: { enabled: ["cdkTrapFocus", "enabled"], autoCapture: ["cdkTrapFocusAutoCapture", "autoCapture"] }, exportAs: ["cdkTrapFocus"], features: [ɵngcc0.ɵɵNgOnChangesFeature] });
1248CdkTrapFocus.ctorParameters = () => [
1249 { type: ElementRef },
1250 { type: FocusTrapFactory },
1251 { type: undefined, decorators: [{ type: Inject, args: [DOCUMENT,] }] }
1252];
1253CdkTrapFocus.propDecorators = {
1254 enabled: [{ type: Input, args: ['cdkTrapFocus',] }],
1255 autoCapture: [{ type: Input, args: ['cdkTrapFocusAutoCapture',] }]
1256};
1257(function () { (typeof ngDevMode === "undefined" || ngDevMode) && ɵngcc0.ɵsetClassMetadata(CdkTrapFocus, [{
1258 type: Directive,
1259 args: [{
1260 selector: '[cdkTrapFocus]',
1261 exportAs: 'cdkTrapFocus'
1262 }]
1263 }], function () { return [{ type: ɵngcc0.ElementRef }, { type: FocusTrapFactory }, { type: undefined, decorators: [{
1264 type: Inject,
1265 args: [DOCUMENT]
1266 }] }]; }, { enabled: [{
1267 type: Input,
1268 args: ['cdkTrapFocus']
1269 }], autoCapture: [{
1270 type: Input,
1271 args: ['cdkTrapFocusAutoCapture']
1272 }] }); })();
1273
1274/**
1275 * @license
1276 * Copyright Google LLC All Rights Reserved.
1277 *
1278 * Use of this source code is governed by an MIT-style license that can be
1279 * found in the LICENSE file at https://angular.io/license
1280 */
1281/**
1282 * Class that allows for trapping focus within a DOM element.
1283 *
1284 * This class uses a strategy pattern that determines how it traps focus.
1285 * See FocusTrapInertStrategy.
1286 */
1287class ConfigurableFocusTrap extends FocusTrap {
1288 constructor(_element, _checker, _ngZone, _document, _focusTrapManager, _inertStrategy, config) {
1289 super(_element, _checker, _ngZone, _document, config.defer);
1290 this._focusTrapManager = _focusTrapManager;
1291 this._inertStrategy = _inertStrategy;
1292 this._focusTrapManager.register(this);
1293 }
1294 /** Whether the FocusTrap is enabled. */
1295 get enabled() { return this._enabled; }
1296 set enabled(value) {
1297 this._enabled = value;
1298 if (this._enabled) {
1299 this._focusTrapManager.register(this);
1300 }
1301 else {
1302 this._focusTrapManager.deregister(this);
1303 }
1304 }
1305 /** Notifies the FocusTrapManager that this FocusTrap will be destroyed. */
1306 destroy() {
1307 this._focusTrapManager.deregister(this);
1308 super.destroy();
1309 }
1310 /** @docs-private Implemented as part of ManagedFocusTrap. */
1311 _enable() {
1312 this._inertStrategy.preventFocus(this);
1313 this.toggleAnchors(true);
1314 }
1315 /** @docs-private Implemented as part of ManagedFocusTrap. */
1316 _disable() {
1317 this._inertStrategy.allowFocus(this);
1318 this.toggleAnchors(false);
1319 }
1320}
1321
1322/**
1323 * @license
1324 * Copyright Google LLC All Rights Reserved.
1325 *
1326 * Use of this source code is governed by an MIT-style license that can be
1327 * found in the LICENSE file at https://angular.io/license
1328 */
1329
1330/**
1331 * @license
1332 * Copyright Google LLC All Rights Reserved.
1333 *
1334 * Use of this source code is governed by an MIT-style license that can be
1335 * found in the LICENSE file at https://angular.io/license
1336 */
1337/** The injection token used to specify the inert strategy. */
1338const FOCUS_TRAP_INERT_STRATEGY = new InjectionToken('FOCUS_TRAP_INERT_STRATEGY');
1339
1340/**
1341 * @license
1342 * Copyright Google LLC All Rights Reserved.
1343 *
1344 * Use of this source code is governed by an MIT-style license that can be
1345 * found in the LICENSE file at https://angular.io/license
1346 */
1347/** IE 11 compatible closest implementation that is able to start from non-Element Nodes. */
1348function closest(element, selector) {
1349 if (!(element instanceof Node)) {
1350 return null;
1351 }
1352 let curr = element;
1353 while (curr != null && !(curr instanceof Element)) {
1354 curr = curr.parentNode;
1355 }
1356 return curr && (hasNativeClosest ?
1357 curr.closest(selector) : polyfillClosest(curr, selector));
1358}
1359/** Polyfill for browsers without Element.closest. */
1360function polyfillClosest(element, selector) {
1361 let curr = element;
1362 while (curr != null && !(curr instanceof Element && matches(curr, selector))) {
1363 curr = curr.parentNode;
1364 }
1365 return (curr || null);
1366}
1367const hasNativeClosest = typeof Element != 'undefined' && !!Element.prototype.closest;
1368/** IE 11 compatible matches implementation. */
1369function matches(element, selector) {
1370 return element.matches ?
1371 element.matches(selector) :
1372 element['msMatchesSelector'](selector);
1373}
1374
1375/**
1376 * @license
1377 * Copyright Google LLC All Rights Reserved.
1378 *
1379 * Use of this source code is governed by an MIT-style license that can be
1380 * found in the LICENSE file at https://angular.io/license
1381 */
1382/**
1383 * Lightweight FocusTrapInertStrategy that adds a document focus event
1384 * listener to redirect focus back inside the FocusTrap.
1385 */
1386class EventListenerFocusTrapInertStrategy {
1387 constructor() {
1388 /** Focus event handler. */
1389 this._listener = null;
1390 }
1391 /** Adds a document event listener that keeps focus inside the FocusTrap. */
1392 preventFocus(focusTrap) {
1393 // Ensure there's only one listener per document
1394 if (this._listener) {
1395 focusTrap._document.removeEventListener('focus', this._listener, true);
1396 }
1397 this._listener = (e) => this._trapFocus(focusTrap, e);
1398 focusTrap._ngZone.runOutsideAngular(() => {
1399 focusTrap._document.addEventListener('focus', this._listener, true);
1400 });
1401 }
1402 /** Removes the event listener added in preventFocus. */
1403 allowFocus(focusTrap) {
1404 if (!this._listener) {
1405 return;
1406 }
1407 focusTrap._document.removeEventListener('focus', this._listener, true);
1408 this._listener = null;
1409 }
1410 /**
1411 * Refocuses the first element in the FocusTrap if the focus event target was outside
1412 * the FocusTrap.
1413 *
1414 * This is an event listener callback. The event listener is added in runOutsideAngular,
1415 * so all this code runs outside Angular as well.
1416 */
1417 _trapFocus(focusTrap, event) {
1418 const target = event.target;
1419 const focusTrapRoot = focusTrap._element;
1420 // Don't refocus if target was in an overlay, because the overlay might be associated
1421 // with an element inside the FocusTrap, ex. mat-select.
1422 if (!focusTrapRoot.contains(target) && closest(target, 'div.cdk-overlay-pane') === null) {
1423 // Some legacy FocusTrap usages have logic that focuses some element on the page
1424 // just before FocusTrap is destroyed. For backwards compatibility, wait
1425 // to be sure FocusTrap is still enabled before refocusing.
1426 setTimeout(() => {
1427 // Check whether focus wasn't put back into the focus trap while the timeout was pending.
1428 if (focusTrap.enabled && !focusTrapRoot.contains(focusTrap._document.activeElement)) {
1429 focusTrap.focusFirstTabbableElement();
1430 }
1431 });
1432 }
1433 }
1434}
1435
1436/**
1437 * @license
1438 * Copyright Google LLC All Rights Reserved.
1439 *
1440 * Use of this source code is governed by an MIT-style license that can be
1441 * found in the LICENSE file at https://angular.io/license
1442 */
1443/** Injectable that ensures only the most recently enabled FocusTrap is active. */
1444class FocusTrapManager {
1445 constructor() {
1446 // A stack of the FocusTraps on the page. Only the FocusTrap at the
1447 // top of the stack is active.
1448 this._focusTrapStack = [];
1449 }
1450 /**
1451 * Disables the FocusTrap at the top of the stack, and then pushes
1452 * the new FocusTrap onto the stack.
1453 */
1454 register(focusTrap) {
1455 // Dedupe focusTraps that register multiple times.
1456 this._focusTrapStack = this._focusTrapStack.filter((ft) => ft !== focusTrap);
1457 let stack = this._focusTrapStack;
1458 if (stack.length) {
1459 stack[stack.length - 1]._disable();
1460 }
1461 stack.push(focusTrap);
1462 focusTrap._enable();
1463 }
1464 /**
1465 * Removes the FocusTrap from the stack, and activates the
1466 * FocusTrap that is the new top of the stack.
1467 */
1468 deregister(focusTrap) {
1469 focusTrap._disable();
1470 const stack = this._focusTrapStack;
1471 const i = stack.indexOf(focusTrap);
1472 if (i !== -1) {
1473 stack.splice(i, 1);
1474 if (stack.length) {
1475 stack[stack.length - 1]._enable();
1476 }
1477 }
1478 }
1479}
1480FocusTrapManager.ɵfac = function FocusTrapManager_Factory(t) { return new (t || FocusTrapManager)(); };
1481FocusTrapManager.ɵprov = i0.ɵɵdefineInjectable({ factory: function FocusTrapManager_Factory() { return new FocusTrapManager(); }, token: FocusTrapManager, providedIn: "root" });
1482(function () { (typeof ngDevMode === "undefined" || ngDevMode) && ɵngcc0.ɵsetClassMetadata(FocusTrapManager, [{
1483 type: Injectable,
1484 args: [{ providedIn: 'root' }]
1485 }], function () { return []; }, null); })();
1486
1487/**
1488 * @license
1489 * Copyright Google LLC All Rights Reserved.
1490 *
1491 * Use of this source code is governed by an MIT-style license that can be
1492 * found in the LICENSE file at https://angular.io/license
1493 */
1494/** Factory that allows easy instantiation of configurable focus traps. */
1495class ConfigurableFocusTrapFactory {
1496 constructor(_checker, _ngZone, _focusTrapManager, _document, _inertStrategy) {
1497 this._checker = _checker;
1498 this._ngZone = _ngZone;
1499 this._focusTrapManager = _focusTrapManager;
1500 this._document = _document;
1501 // TODO split up the strategies into different modules, similar to DateAdapter.
1502 this._inertStrategy = _inertStrategy || new EventListenerFocusTrapInertStrategy();
1503 }
1504 create(element, config = { defer: false }) {
1505 let configObject;
1506 if (typeof config === 'boolean') {
1507 configObject = { defer: config };
1508 }
1509 else {
1510 configObject = config;
1511 }
1512 return new ConfigurableFocusTrap(element, this._checker, this._ngZone, this._document, this._focusTrapManager, this._inertStrategy, configObject);
1513 }
1514}
1515ConfigurableFocusTrapFactory.ɵfac = function ConfigurableFocusTrapFactory_Factory(t) { return new (t || ConfigurableFocusTrapFactory)(ɵngcc0.ɵɵinject(InteractivityChecker), ɵngcc0.ɵɵinject(ɵngcc0.NgZone), ɵngcc0.ɵɵinject(FocusTrapManager), ɵngcc0.ɵɵinject(DOCUMENT), ɵngcc0.ɵɵinject(FOCUS_TRAP_INERT_STRATEGY, 8)); };
1516ConfigurableFocusTrapFactory.ɵprov = i0.ɵɵdefineInjectable({ factory: function ConfigurableFocusTrapFactory_Factory() { return new ConfigurableFocusTrapFactory(i0.ɵɵinject(InteractivityChecker), i0.ɵɵinject(i0.NgZone), i0.ɵɵinject(FocusTrapManager), i0.ɵɵinject(i2.DOCUMENT), i0.ɵɵinject(FOCUS_TRAP_INERT_STRATEGY, 8)); }, token: ConfigurableFocusTrapFactory, providedIn: "root" });
1517ConfigurableFocusTrapFactory.ctorParameters = () => [
1518 { type: InteractivityChecker },
1519 { type: NgZone },
1520 { type: FocusTrapManager },
1521 { type: undefined, decorators: [{ type: Inject, args: [DOCUMENT,] }] },
1522 { type: undefined, decorators: [{ type: Optional }, { type: Inject, args: [FOCUS_TRAP_INERT_STRATEGY,] }] }
1523];
1524(function () { (typeof ngDevMode === "undefined" || ngDevMode) && ɵngcc0.ɵsetClassMetadata(ConfigurableFocusTrapFactory, [{
1525 type: Injectable,
1526 args: [{ providedIn: 'root' }]
1527 }], function () { return [{ type: InteractivityChecker }, { type: ɵngcc0.NgZone }, { type: FocusTrapManager }, { type: undefined, decorators: [{
1528 type: Inject,
1529 args: [DOCUMENT]
1530 }] }, { type: undefined, decorators: [{
1531 type: Optional
1532 }, {
1533 type: Inject,
1534 args: [FOCUS_TRAP_INERT_STRATEGY]
1535 }] }]; }, null); })();
1536
1537/**
1538 * @license
1539 * Copyright Google LLC All Rights Reserved.
1540 *
1541 * Use of this source code is governed by an MIT-style license that can be
1542 * found in the LICENSE file at https://angular.io/license
1543 */
1544/** Gets whether an event could be a faked `mousedown` event dispatched by a screen reader. */
1545function isFakeMousedownFromScreenReader(event) {
1546 // Some screen readers will dispatch a fake `mousedown` event when pressing enter or space on
1547 // a clickable element. We can distinguish these events when both `offsetX` and `offsetY` are
1548 // zero. Note that there's an edge case where the user could click the 0x0 spot of the screen
1549 // themselves, but that is unlikely to contain interaction elements. Historially we used to check
1550 // `event.buttons === 0`, however that no longer works on recent versions of NVDA.
1551 return event.offsetX === 0 && event.offsetY === 0;
1552}
1553/** Gets whether an event could be a faked `touchstart` event dispatched by a screen reader. */
1554function isFakeTouchstartFromScreenReader(event) {
1555 const touch = (event.touches && event.touches[0]) ||
1556 (event.changedTouches && event.changedTouches[0]);
1557 // A fake `touchstart` can be distinguished from a real one by looking at the `identifier`
1558 // which is typically >= 0 on a real device versus -1 from a screen reader. Just to be safe,
1559 // we can also look at `radiusX` and `radiusY`. This behavior was observed against a Windows 10
1560 // device with a touch screen running NVDA v2020.4 and Firefox 85 or Chrome 88.
1561 return !!touch && touch.identifier === -1 && (touch.radiusX == null || touch.radiusX === 1) &&
1562 (touch.radiusY == null || touch.radiusY === 1);
1563}
1564
1565/**
1566 * @license
1567 * Copyright Google LLC All Rights Reserved.
1568 *
1569 * Use of this source code is governed by an MIT-style license that can be
1570 * found in the LICENSE file at https://angular.io/license
1571 */
1572/**
1573 * Injectable options for the InputModalityDetector. These are shallowly merged with the default
1574 * options.
1575 */
1576const INPUT_MODALITY_DETECTOR_OPTIONS = new InjectionToken('cdk-input-modality-detector-options');
1577/**
1578 * Default options for the InputModalityDetector.
1579 *
1580 * Modifier keys are ignored by default (i.e. when pressed won't cause the service to detect
1581 * keyboard input modality) for two reasons:
1582 *
1583 * 1. Modifier keys are commonly used with mouse to perform actions such as 'right click' or 'open
1584 * in new tab', and are thus less representative of actual keyboard interaction.
1585 * 2. VoiceOver triggers some keyboard events when linearly navigating with Control + Option (but
1586 * confusingly not with Caps Lock). Thus, to have parity with other screen readers, we ignore
1587 * these keys so as to not update the input modality.
1588 *
1589 * Note that we do not by default ignore the right Meta key on Safari because it has the same key
1590 * code as the ContextMenu key on other browsers. When we switch to using event.key, we can
1591 * distinguish between the two.
1592 */
1593const INPUT_MODALITY_DETECTOR_DEFAULT_OPTIONS = {
1594 ignoreKeys: [ALT, CONTROL, MAC_META, META, SHIFT],
1595};
1596/**
1597 * The amount of time needed to pass after a touchstart event in order for a subsequent mousedown
1598 * event to be attributed as mouse and not touch.
1599 *
1600 * This is the value used by AngularJS Material. Through trial and error (on iPhone 6S) they found
1601 * that a value of around 650ms seems appropriate.
1602 */
1603const TOUCH_BUFFER_MS = 650;
1604/**
1605 * Event listener options that enable capturing and also mark the listener as passive if the browser
1606 * supports it.
1607 */
1608const modalityEventListenerOptions = normalizePassiveListenerOptions({
1609 passive: true,
1610 capture: true,
1611});
1612/**
1613 * Service that detects the user's input modality.
1614 *
1615 * This service does not update the input modality when a user navigates with a screen reader
1616 * (e.g. linear navigation with VoiceOver, object navigation / browse mode with NVDA, virtual PC
1617 * cursor mode with JAWS). This is in part due to technical limitations (i.e. keyboard events do not
1618 * fire as expected in these modes) but is also arguably the correct behavior. Navigating with a
1619 * screen reader is akin to visually scanning a page, and should not be interpreted as actual user
1620 * input interaction.
1621 *
1622 * When a user is not navigating but *interacting* with a screen reader, this service attempts to
1623 * update the input modality to keyboard, but in general this service's behavior is largely
1624 * undefined.
1625 */
1626class InputModalityDetector {
1627 constructor(_platform, ngZone, document, options) {
1628 this._platform = _platform;
1629 /**
1630 * The most recently detected input modality event target. Is null if no input modality has been
1631 * detected or if the associated event target is null for some unknown reason.
1632 */
1633 this._mostRecentTarget = null;
1634 /** The underlying BehaviorSubject that emits whenever an input modality is detected. */
1635 this._modality = new BehaviorSubject(null);
1636 /**
1637 * The timestamp of the last touch input modality. Used to determine whether mousedown events
1638 * should be attributed to mouse or touch.
1639 */
1640 this._lastTouchMs = 0;
1641 /**
1642 * Handles keydown events. Must be an arrow function in order to preserve the context when it gets
1643 * bound.
1644 */
1645 this._onKeydown = (event) => {
1646 var _a, _b;
1647 // If this is one of the keys we should ignore, then ignore it and don't update the input
1648 // modality to keyboard.
1649 if ((_b = (_a = this._options) === null || _a === void 0 ? void 0 : _a.ignoreKeys) === null || _b === void 0 ? void 0 : _b.some(keyCode => keyCode === event.keyCode)) {
1650 return;
1651 }
1652 this._modality.next('keyboard');
1653 this._mostRecentTarget = _getEventTarget(event);
1654 };
1655 /**
1656 * Handles mousedown events. Must be an arrow function in order to preserve the context when it
1657 * gets bound.
1658 */
1659 this._onMousedown = (event) => {
1660 // Touches trigger both touch and mouse events, so we need to distinguish between mouse events
1661 // that were triggered via mouse vs touch. To do so, check if the mouse event occurs closely
1662 // after the previous touch event.
1663 if (Date.now() - this._lastTouchMs < TOUCH_BUFFER_MS) {
1664 return;
1665 }
1666 // Fake mousedown events are fired by some screen readers when controls are activated by the
1667 // screen reader. Attribute them to keyboard input modality.
1668 this._modality.next(isFakeMousedownFromScreenReader(event) ? 'keyboard' : 'mouse');
1669 this._mostRecentTarget = _getEventTarget(event);
1670 };
1671 /**
1672 * Handles touchstart events. Must be an arrow function in order to preserve the context when it
1673 * gets bound.
1674 */
1675 this._onTouchstart = (event) => {
1676 // Same scenario as mentioned in _onMousedown, but on touch screen devices, fake touchstart
1677 // events are fired. Again, attribute to keyboard input modality.
1678 if (isFakeTouchstartFromScreenReader(event)) {
1679 this._modality.next('keyboard');
1680 return;
1681 }
1682 // Store the timestamp of this touch event, as it's used to distinguish between mouse events
1683 // triggered via mouse vs touch.
1684 this._lastTouchMs = Date.now();
1685 this._modality.next('touch');
1686 this._mostRecentTarget = _getEventTarget(event);
1687 };
1688 this._options = Object.assign(Object.assign({}, INPUT_MODALITY_DETECTOR_DEFAULT_OPTIONS), options);
1689 // Skip the first emission as it's null.
1690 this.modalityDetected = this._modality.pipe(skip(1));
1691 this.modalityChanged = this.modalityDetected.pipe(distinctUntilChanged());
1692 // If we're not in a browser, this service should do nothing, as there's no relevant input
1693 // modality to detect.
1694 if (_platform.isBrowser) {
1695 ngZone.runOutsideAngular(() => {
1696 document.addEventListener('keydown', this._onKeydown, modalityEventListenerOptions);
1697 document.addEventListener('mousedown', this._onMousedown, modalityEventListenerOptions);
1698 document.addEventListener('touchstart', this._onTouchstart, modalityEventListenerOptions);
1699 });
1700 }
1701 }
1702 /** The most recently detected input modality. */
1703 get mostRecentModality() {
1704 return this._modality.value;
1705 }
1706 ngOnDestroy() {
1707 this._modality.complete();
1708 if (this._platform.isBrowser) {
1709 document.removeEventListener('keydown', this._onKeydown, modalityEventListenerOptions);
1710 document.removeEventListener('mousedown', this._onMousedown, modalityEventListenerOptions);
1711 document.removeEventListener('touchstart', this._onTouchstart, modalityEventListenerOptions);
1712 }
1713 }
1714}
1715InputModalityDetector.ɵfac = function InputModalityDetector_Factory(t) { return new (t || InputModalityDetector)(ɵngcc0.ɵɵinject(ɵngcc1.Platform), ɵngcc0.ɵɵinject(ɵngcc0.NgZone), ɵngcc0.ɵɵinject(DOCUMENT), ɵngcc0.ɵɵinject(INPUT_MODALITY_DETECTOR_OPTIONS, 8)); };
1716InputModalityDetector.ɵprov = i0.ɵɵdefineInjectable({ factory: function InputModalityDetector_Factory() { return new InputModalityDetector(i0.ɵɵinject(i1.Platform), i0.ɵɵinject(i0.NgZone), i0.ɵɵinject(i2.DOCUMENT), i0.ɵɵinject(INPUT_MODALITY_DETECTOR_OPTIONS, 8)); }, token: InputModalityDetector, providedIn: "root" });
1717InputModalityDetector.ctorParameters = () => [
1718 { type: Platform },
1719 { type: NgZone },
1720 { type: Document, decorators: [{ type: Inject, args: [DOCUMENT,] }] },
1721 { type: undefined, decorators: [{ type: Optional }, { type: Inject, args: [INPUT_MODALITY_DETECTOR_OPTIONS,] }] }
1722];
1723(function () { (typeof ngDevMode === "undefined" || ngDevMode) && ɵngcc0.ɵsetClassMetadata(InputModalityDetector, [{
1724 type: Injectable,
1725 args: [{ providedIn: 'root' }]
1726 }], function () { return [{ type: ɵngcc1.Platform }, { type: ɵngcc0.NgZone }, { type: Document, decorators: [{
1727 type: Inject,
1728 args: [DOCUMENT]
1729 }] }, { type: undefined, decorators: [{
1730 type: Optional
1731 }, {
1732 type: Inject,
1733 args: [INPUT_MODALITY_DETECTOR_OPTIONS]
1734 }] }]; }, null); })();
1735
1736/**
1737 * @license
1738 * Copyright Google LLC All Rights Reserved.
1739 *
1740 * Use of this source code is governed by an MIT-style license that can be
1741 * found in the LICENSE file at https://angular.io/license
1742 */
1743const LIVE_ANNOUNCER_ELEMENT_TOKEN = new InjectionToken('liveAnnouncerElement', {
1744 providedIn: 'root',
1745 factory: LIVE_ANNOUNCER_ELEMENT_TOKEN_FACTORY,
1746});
1747/** @docs-private */
1748function LIVE_ANNOUNCER_ELEMENT_TOKEN_FACTORY() {
1749 return null;
1750}
1751/** Injection token that can be used to configure the default options for the LiveAnnouncer. */
1752const LIVE_ANNOUNCER_DEFAULT_OPTIONS = new InjectionToken('LIVE_ANNOUNCER_DEFAULT_OPTIONS');
1753
1754/**
1755 * @license
1756 * Copyright Google LLC All Rights Reserved.
1757 *
1758 * Use of this source code is governed by an MIT-style license that can be
1759 * found in the LICENSE file at https://angular.io/license
1760 */
1761class LiveAnnouncer {
1762 constructor(elementToken, _ngZone, _document, _defaultOptions) {
1763 this._ngZone = _ngZone;
1764 this._defaultOptions = _defaultOptions;
1765 // We inject the live element and document as `any` because the constructor signature cannot
1766 // reference browser globals (HTMLElement, Document) on non-browser environments, since having
1767 // a class decorator causes TypeScript to preserve the constructor signature types.
1768 this._document = _document;
1769 this._liveElement = elementToken || this._createLiveElement();
1770 }
1771 announce(message, ...args) {
1772 const defaultOptions = this._defaultOptions;
1773 let politeness;
1774 let duration;
1775 if (args.length === 1 && typeof args[0] === 'number') {
1776 duration = args[0];
1777 }
1778 else {
1779 [politeness, duration] = args;
1780 }
1781 this.clear();
1782 clearTimeout(this._previousTimeout);
1783 if (!politeness) {
1784 politeness =
1785 (defaultOptions && defaultOptions.politeness) ? defaultOptions.politeness : 'polite';
1786 }
1787 if (duration == null && defaultOptions) {
1788 duration = defaultOptions.duration;
1789 }
1790 // TODO: ensure changing the politeness works on all environments we support.
1791 this._liveElement.setAttribute('aria-live', politeness);
1792 // This 100ms timeout is necessary for some browser + screen-reader combinations:
1793 // - Both JAWS and NVDA over IE11 will not announce anything without a non-zero timeout.
1794 // - With Chrome and IE11 with NVDA or JAWS, a repeated (identical) message won't be read a
1795 // second time without clearing and then using a non-zero delay.
1796 // (using JAWS 17 at time of this writing).
1797 return this._ngZone.runOutsideAngular(() => {
1798 return new Promise(resolve => {
1799 clearTimeout(this._previousTimeout);
1800 this._previousTimeout = setTimeout(() => {
1801 this._liveElement.textContent = message;
1802 resolve();
1803 if (typeof duration === 'number') {
1804 this._previousTimeout = setTimeout(() => this.clear(), duration);
1805 }
1806 }, 100);
1807 });
1808 });
1809 }
1810 /**
1811 * Clears the current text from the announcer element. Can be used to prevent
1812 * screen readers from reading the text out again while the user is going
1813 * through the page landmarks.
1814 */
1815 clear() {
1816 if (this._liveElement) {
1817 this._liveElement.textContent = '';
1818 }
1819 }
1820 ngOnDestroy() {
1821 clearTimeout(this._previousTimeout);
1822 if (this._liveElement && this._liveElement.parentNode) {
1823 this._liveElement.parentNode.removeChild(this._liveElement);
1824 this._liveElement = null;
1825 }
1826 }
1827 _createLiveElement() {
1828 const elementClass = 'cdk-live-announcer-element';
1829 const previousElements = this._document.getElementsByClassName(elementClass);
1830 const liveEl = this._document.createElement('div');
1831 // Remove any old containers. This can happen when coming in from a server-side-rendered page.
1832 for (let i = 0; i < previousElements.length; i++) {
1833 previousElements[i].parentNode.removeChild(previousElements[i]);
1834 }
1835 liveEl.classList.add(elementClass);
1836 liveEl.classList.add('cdk-visually-hidden');
1837 liveEl.setAttribute('aria-atomic', 'true');
1838 liveEl.setAttribute('aria-live', 'polite');
1839 this._document.body.appendChild(liveEl);
1840 return liveEl;
1841 }
1842}
1843LiveAnnouncer.ɵfac = function LiveAnnouncer_Factory(t) { return new (t || LiveAnnouncer)(ɵngcc0.ɵɵinject(LIVE_ANNOUNCER_ELEMENT_TOKEN, 8), ɵngcc0.ɵɵinject(ɵngcc0.NgZone), ɵngcc0.ɵɵinject(DOCUMENT), ɵngcc0.ɵɵinject(LIVE_ANNOUNCER_DEFAULT_OPTIONS, 8)); };
1844LiveAnnouncer.ɵprov = i0.ɵɵdefineInjectable({ factory: function LiveAnnouncer_Factory() { return new LiveAnnouncer(i0.ɵɵinject(LIVE_ANNOUNCER_ELEMENT_TOKEN, 8), i0.ɵɵinject(i0.NgZone), i0.ɵɵinject(i2.DOCUMENT), i0.ɵɵinject(LIVE_ANNOUNCER_DEFAULT_OPTIONS, 8)); }, token: LiveAnnouncer, providedIn: "root" });
1845LiveAnnouncer.ctorParameters = () => [
1846 { type: undefined, decorators: [{ type: Optional }, { type: Inject, args: [LIVE_ANNOUNCER_ELEMENT_TOKEN,] }] },
1847 { type: NgZone },
1848 { type: undefined, decorators: [{ type: Inject, args: [DOCUMENT,] }] },
1849 { type: undefined, decorators: [{ type: Optional }, { type: Inject, args: [LIVE_ANNOUNCER_DEFAULT_OPTIONS,] }] }
1850];
1851(function () { (typeof ngDevMode === "undefined" || ngDevMode) && ɵngcc0.ɵsetClassMetadata(LiveAnnouncer, [{
1852 type: Injectable,
1853 args: [{ providedIn: 'root' }]
1854 }], function () { return [{ type: undefined, decorators: [{
1855 type: Optional
1856 }, {
1857 type: Inject,
1858 args: [LIVE_ANNOUNCER_ELEMENT_TOKEN]
1859 }] }, { type: ɵngcc0.NgZone }, { type: undefined, decorators: [{
1860 type: Inject,
1861 args: [DOCUMENT]
1862 }] }, { type: undefined, decorators: [{
1863 type: Optional
1864 }, {
1865 type: Inject,
1866 args: [LIVE_ANNOUNCER_DEFAULT_OPTIONS]
1867 }] }]; }, null); })();
1868/**
1869 * A directive that works similarly to aria-live, but uses the LiveAnnouncer to ensure compatibility
1870 * with a wider range of browsers and screen readers.
1871 */
1872class CdkAriaLive {
1873 constructor(_elementRef, _liveAnnouncer, _contentObserver, _ngZone) {
1874 this._elementRef = _elementRef;
1875 this._liveAnnouncer = _liveAnnouncer;
1876 this._contentObserver = _contentObserver;
1877 this._ngZone = _ngZone;
1878 this._politeness = 'polite';
1879 }
1880 /** The aria-live politeness level to use when announcing messages. */
1881 get politeness() { return this._politeness; }
1882 set politeness(value) {
1883 this._politeness = value === 'off' || value === 'assertive' ? value : 'polite';
1884 if (this._politeness === 'off') {
1885 if (this._subscription) {
1886 this._subscription.unsubscribe();
1887 this._subscription = null;
1888 }
1889 }
1890 else if (!this._subscription) {
1891 this._subscription = this._ngZone.runOutsideAngular(() => {
1892 return this._contentObserver
1893 .observe(this._elementRef)
1894 .subscribe(() => {
1895 // Note that we use textContent here, rather than innerText, in order to avoid a reflow.
1896 const elementText = this._elementRef.nativeElement.textContent;
1897 // The `MutationObserver` fires also for attribute
1898 // changes which we don't want to announce.
1899 if (elementText !== this._previousAnnouncedText) {
1900 this._liveAnnouncer.announce(elementText, this._politeness);
1901 this._previousAnnouncedText = elementText;
1902 }
1903 });
1904 });
1905 }
1906 }
1907 ngOnDestroy() {
1908 if (this._subscription) {
1909 this._subscription.unsubscribe();
1910 }
1911 }
1912}
1913CdkAriaLive.ɵfac = function CdkAriaLive_Factory(t) { return new (t || CdkAriaLive)(ɵngcc0.ɵɵdirectiveInject(ɵngcc0.ElementRef), ɵngcc0.ɵɵdirectiveInject(LiveAnnouncer), ɵngcc0.ɵɵdirectiveInject(ɵngcc2.ContentObserver), ɵngcc0.ɵɵdirectiveInject(ɵngcc0.NgZone)); };
1914CdkAriaLive.ɵdir = /*@__PURE__*/ ɵngcc0.ɵɵdefineDirective({ type: CdkAriaLive, selectors: [["", "cdkAriaLive", ""]], inputs: { politeness: ["cdkAriaLive", "politeness"] }, exportAs: ["cdkAriaLive"] });
1915CdkAriaLive.ctorParameters = () => [
1916 { type: ElementRef },
1917 { type: LiveAnnouncer },
1918 { type: ContentObserver },
1919 { type: NgZone }
1920];
1921CdkAriaLive.propDecorators = {
1922 politeness: [{ type: Input, args: ['cdkAriaLive',] }]
1923};
1924(function () { (typeof ngDevMode === "undefined" || ngDevMode) && ɵngcc0.ɵsetClassMetadata(CdkAriaLive, [{
1925 type: Directive,
1926 args: [{
1927 selector: '[cdkAriaLive]',
1928 exportAs: 'cdkAriaLive'
1929 }]
1930 }], function () { return [{ type: ɵngcc0.ElementRef }, { type: LiveAnnouncer }, { type: ɵngcc2.ContentObserver }, { type: ɵngcc0.NgZone }]; }, { politeness: [{
1931 type: Input,
1932 args: ['cdkAriaLive']
1933 }] }); })();
1934
1935/**
1936 * @license
1937 * Copyright Google LLC All Rights Reserved.
1938 *
1939 * Use of this source code is governed by an MIT-style license that can be
1940 * found in the LICENSE file at https://angular.io/license
1941 */
1942/** InjectionToken for FocusMonitorOptions. */
1943const FOCUS_MONITOR_DEFAULT_OPTIONS = new InjectionToken('cdk-focus-monitor-default-options');
1944/**
1945 * Event listener options that enable capturing and also
1946 * mark the listener as passive if the browser supports it.
1947 */
1948const captureEventListenerOptions = normalizePassiveListenerOptions({
1949 passive: true,
1950 capture: true
1951});
1952/** Monitors mouse and keyboard events to determine the cause of focus events. */
1953class FocusMonitor {
1954 constructor(_ngZone, _platform, _inputModalityDetector,
1955 /** @breaking-change 11.0.0 make document required */
1956 document, options) {
1957 this._ngZone = _ngZone;
1958 this._platform = _platform;
1959 this._inputModalityDetector = _inputModalityDetector;
1960 /** The focus origin that the next focus event is a result of. */
1961 this._origin = null;
1962 /** Whether the window has just been focused. */
1963 this._windowFocused = false;
1964 /**
1965 * Whether the origin was determined via a touch interaction. Necessary as properly attributing
1966 * focus events to touch interactions requires special logic.
1967 */
1968 this._originFromTouchInteraction = false;
1969 /** Map of elements being monitored to their info. */
1970 this._elementInfo = new Map();
1971 /** The number of elements currently being monitored. */
1972 this._monitoredElementCount = 0;
1973 /**
1974 * Keeps track of the root nodes to which we've currently bound a focus/blur handler,
1975 * as well as the number of monitored elements that they contain. We have to treat focus/blur
1976 * handlers differently from the rest of the events, because the browser won't emit events
1977 * to the document when focus moves inside of a shadow root.
1978 */
1979 this._rootNodeFocusListenerCount = new Map();
1980 /**
1981 * Event listener for `focus` events on the window.
1982 * Needs to be an arrow function in order to preserve the context when it gets bound.
1983 */
1984 this._windowFocusListener = () => {
1985 // Make a note of when the window regains focus, so we can
1986 // restore the origin info for the focused element.
1987 this._windowFocused = true;
1988 this._windowFocusTimeoutId = setTimeout(() => this._windowFocused = false);
1989 };
1990 /** Subject for stopping our InputModalityDetector subscription. */
1991 this._stopInputModalityDetector = new Subject();
1992 /**
1993 * Event listener for `focus` and 'blur' events on the document.
1994 * Needs to be an arrow function in order to preserve the context when it gets bound.
1995 */
1996 this._rootNodeFocusAndBlurListener = (event) => {
1997 const target = _getEventTarget(event);
1998 const handler = event.type === 'focus' ? this._onFocus : this._onBlur;
1999 // We need to walk up the ancestor chain in order to support `checkChildren`.
2000 for (let element = target; element; element = element.parentElement) {
2001 handler.call(this, event, element);
2002 }
2003 };
2004 this._document = document;
2005 this._detectionMode = (options === null || options === void 0 ? void 0 : options.detectionMode) || 0 /* IMMEDIATE */;
2006 }
2007 monitor(element, checkChildren = false) {
2008 const nativeElement = coerceElement(element);
2009 // Do nothing if we're not on the browser platform or the passed in node isn't an element.
2010 if (!this._platform.isBrowser || nativeElement.nodeType !== 1) {
2011 return of(null);
2012 }
2013 // If the element is inside the shadow DOM, we need to bind our focus/blur listeners to
2014 // the shadow root, rather than the `document`, because the browser won't emit focus events
2015 // to the `document`, if focus is moving within the same shadow root.
2016 const rootNode = _getShadowRoot(nativeElement) || this._getDocument();
2017 const cachedInfo = this._elementInfo.get(nativeElement);
2018 // Check if we're already monitoring this element.
2019 if (cachedInfo) {
2020 if (checkChildren) {
2021 // TODO(COMP-318): this can be problematic, because it'll turn all non-checkChildren
2022 // observers into ones that behave as if `checkChildren` was turned on. We need a more
2023 // robust solution.
2024 cachedInfo.checkChildren = true;
2025 }
2026 return cachedInfo.subject;
2027 }
2028 // Create monitored element info.
2029 const info = {
2030 checkChildren: checkChildren,
2031 subject: new Subject(),
2032 rootNode
2033 };
2034 this._elementInfo.set(nativeElement, info);
2035 this._registerGlobalListeners(info);
2036 return info.subject;
2037 }
2038 stopMonitoring(element) {
2039 const nativeElement = coerceElement(element);
2040 const elementInfo = this._elementInfo.get(nativeElement);
2041 if (elementInfo) {
2042 elementInfo.subject.complete();
2043 this._setClasses(nativeElement);
2044 this._elementInfo.delete(nativeElement);
2045 this._removeGlobalListeners(elementInfo);
2046 }
2047 }
2048 focusVia(element, origin, options) {
2049 const nativeElement = coerceElement(element);
2050 const focusedElement = this._getDocument().activeElement;
2051 // If the element is focused already, calling `focus` again won't trigger the event listener
2052 // which means that the focus classes won't be updated. If that's the case, update the classes
2053 // directly without waiting for an event.
2054 if (nativeElement === focusedElement) {
2055 this._getClosestElementsInfo(nativeElement)
2056 .forEach(([currentElement, info]) => this._originChanged(currentElement, origin, info));
2057 }
2058 else {
2059 this._setOrigin(origin);
2060 // `focus` isn't available on the server
2061 if (typeof nativeElement.focus === 'function') {
2062 nativeElement.focus(options);
2063 }
2064 }
2065 }
2066 ngOnDestroy() {
2067 this._elementInfo.forEach((_info, element) => this.stopMonitoring(element));
2068 }
2069 /** Access injected document if available or fallback to global document reference */
2070 _getDocument() {
2071 return this._document || document;
2072 }
2073 /** Use defaultView of injected document if available or fallback to global window reference */
2074 _getWindow() {
2075 const doc = this._getDocument();
2076 return doc.defaultView || window;
2077 }
2078 _toggleClass(element, className, shouldSet) {
2079 if (shouldSet) {
2080 element.classList.add(className);
2081 }
2082 else {
2083 element.classList.remove(className);
2084 }
2085 }
2086 _getFocusOrigin(focusEventTarget) {
2087 if (this._origin) {
2088 // If the origin was realized via a touch interaction, we need to perform additional checks
2089 // to determine whether the focus origin should be attributed to touch or program.
2090 if (this._originFromTouchInteraction) {
2091 return this._shouldBeAttributedToTouch(focusEventTarget) ? 'touch' : 'program';
2092 }
2093 else {
2094 return this._origin;
2095 }
2096 }
2097 // If the window has just regained focus, we can restore the most recent origin from before the
2098 // window blurred. Otherwise, we've reached the point where we can't identify the source of the
2099 // focus. This typically means one of two things happened:
2100 //
2101 // 1) The element was programmatically focused, or
2102 // 2) The element was focused via screen reader navigation (which generally doesn't fire
2103 // events).
2104 //
2105 // Because we can't distinguish between these two cases, we default to setting `program`.
2106 return (this._windowFocused && this._lastFocusOrigin) ? this._lastFocusOrigin : 'program';
2107 }
2108 /**
2109 * Returns whether the focus event should be attributed to touch. Recall that in IMMEDIATE mode, a
2110 * touch origin isn't immediately reset at the next tick (see _setOrigin). This means that when we
2111 * handle a focus event following a touch interaction, we need to determine whether (1) the focus
2112 * event was directly caused by the touch interaction or (2) the focus event was caused by a
2113 * subsequent programmatic focus call triggered by the touch interaction.
2114 * @param focusEventTarget The target of the focus event under examination.
2115 */
2116 _shouldBeAttributedToTouch(focusEventTarget) {
2117 // Please note that this check is not perfect. Consider the following edge case:
2118 //
2119 // <div #parent tabindex="0">
2120 // <div #child tabindex="0" (click)="#parent.focus()"></div>
2121 // </div>
2122 //
2123 // Suppose there is a FocusMonitor in IMMEDIATE mode attached to #parent. When the user touches
2124 // #child, #parent is programmatically focused. This code will attribute the focus to touch
2125 // instead of program. This is a relatively minor edge-case that can be worked around by using
2126 // focusVia(parent, 'program') to focus #parent.
2127 return (this._detectionMode === 1 /* EVENTUAL */) ||
2128 !!(focusEventTarget === null || focusEventTarget === void 0 ? void 0 : focusEventTarget.contains(this._inputModalityDetector._mostRecentTarget));
2129 }
2130 /**
2131 * Sets the focus classes on the element based on the given focus origin.
2132 * @param element The element to update the classes on.
2133 * @param origin The focus origin.
2134 */
2135 _setClasses(element, origin) {
2136 this._toggleClass(element, 'cdk-focused', !!origin);
2137 this._toggleClass(element, 'cdk-touch-focused', origin === 'touch');
2138 this._toggleClass(element, 'cdk-keyboard-focused', origin === 'keyboard');
2139 this._toggleClass(element, 'cdk-mouse-focused', origin === 'mouse');
2140 this._toggleClass(element, 'cdk-program-focused', origin === 'program');
2141 }
2142 /**
2143 * Updates the focus origin. If we're using immediate detection mode, we schedule an async
2144 * function to clear the origin at the end of a timeout. The duration of the timeout depends on
2145 * the origin being set.
2146 * @param origin The origin to set.
2147 * @param isFromInteraction Whether we are setting the origin from an interaction event.
2148 */
2149 _setOrigin(origin, isFromInteraction = false) {
2150 this._ngZone.runOutsideAngular(() => {
2151 this._origin = origin;
2152 this._originFromTouchInteraction = (origin === 'touch') && isFromInteraction;
2153 // If we're in IMMEDIATE mode, reset the origin at the next tick (or in `TOUCH_BUFFER_MS` ms
2154 // for a touch event). We reset the origin at the next tick because Firefox focuses one tick
2155 // after the interaction event. We wait `TOUCH_BUFFER_MS` ms before resetting the origin for
2156 // a touch event because when a touch event is fired, the associated focus event isn't yet in
2157 // the event queue. Before doing so, clear any pending timeouts.
2158 if (this._detectionMode === 0 /* IMMEDIATE */) {
2159 clearTimeout(this._originTimeoutId);
2160 const ms = this._originFromTouchInteraction ? TOUCH_BUFFER_MS : 1;
2161 this._originTimeoutId = setTimeout(() => this._origin = null, ms);
2162 }
2163 });
2164 }
2165 /**
2166 * Handles focus events on a registered element.
2167 * @param event The focus event.
2168 * @param element The monitored element.
2169 */
2170 _onFocus(event, element) {
2171 // NOTE(mmalerba): We currently set the classes based on the focus origin of the most recent
2172 // focus event affecting the monitored element. If we want to use the origin of the first event
2173 // instead we should check for the cdk-focused class here and return if the element already has
2174 // it. (This only matters for elements that have includesChildren = true).
2175 // If we are not counting child-element-focus as focused, make sure that the event target is the
2176 // monitored element itself.
2177 const elementInfo = this._elementInfo.get(element);
2178 const focusEventTarget = _getEventTarget(event);
2179 if (!elementInfo || (!elementInfo.checkChildren && element !== focusEventTarget)) {
2180 return;
2181 }
2182 this._originChanged(element, this._getFocusOrigin(focusEventTarget), elementInfo);
2183 }
2184 /**
2185 * Handles blur events on a registered element.
2186 * @param event The blur event.
2187 * @param element The monitored element.
2188 */
2189 _onBlur(event, element) {
2190 // If we are counting child-element-focus as focused, make sure that we aren't just blurring in
2191 // order to focus another child of the monitored element.
2192 const elementInfo = this._elementInfo.get(element);
2193 if (!elementInfo || (elementInfo.checkChildren && event.relatedTarget instanceof Node &&
2194 element.contains(event.relatedTarget))) {
2195 return;
2196 }
2197 this._setClasses(element);
2198 this._emitOrigin(elementInfo.subject, null);
2199 }
2200 _emitOrigin(subject, origin) {
2201 this._ngZone.run(() => subject.next(origin));
2202 }
2203 _registerGlobalListeners(elementInfo) {
2204 if (!this._platform.isBrowser) {
2205 return;
2206 }
2207 const rootNode = elementInfo.rootNode;
2208 const rootNodeFocusListeners = this._rootNodeFocusListenerCount.get(rootNode) || 0;
2209 if (!rootNodeFocusListeners) {
2210 this._ngZone.runOutsideAngular(() => {
2211 rootNode.addEventListener('focus', this._rootNodeFocusAndBlurListener, captureEventListenerOptions);
2212 rootNode.addEventListener('blur', this._rootNodeFocusAndBlurListener, captureEventListenerOptions);
2213 });
2214 }
2215 this._rootNodeFocusListenerCount.set(rootNode, rootNodeFocusListeners + 1);
2216 // Register global listeners when first element is monitored.
2217 if (++this._monitoredElementCount === 1) {
2218 // Note: we listen to events in the capture phase so we
2219 // can detect them even if the user stops propagation.
2220 this._ngZone.runOutsideAngular(() => {
2221 const window = this._getWindow();
2222 window.addEventListener('focus', this._windowFocusListener);
2223 });
2224 // The InputModalityDetector is also just a collection of global listeners.
2225 this._inputModalityDetector.modalityDetected
2226 .pipe(takeUntil(this._stopInputModalityDetector))
2227 .subscribe(modality => { this._setOrigin(modality, true /* isFromInteraction */); });
2228 }
2229 }
2230 _removeGlobalListeners(elementInfo) {
2231 const rootNode = elementInfo.rootNode;
2232 if (this._rootNodeFocusListenerCount.has(rootNode)) {
2233 const rootNodeFocusListeners = this._rootNodeFocusListenerCount.get(rootNode);
2234 if (rootNodeFocusListeners > 1) {
2235 this._rootNodeFocusListenerCount.set(rootNode, rootNodeFocusListeners - 1);
2236 }
2237 else {
2238 rootNode.removeEventListener('focus', this._rootNodeFocusAndBlurListener, captureEventListenerOptions);
2239 rootNode.removeEventListener('blur', this._rootNodeFocusAndBlurListener, captureEventListenerOptions);
2240 this._rootNodeFocusListenerCount.delete(rootNode);
2241 }
2242 }
2243 // Unregister global listeners when last element is unmonitored.
2244 if (!--this._monitoredElementCount) {
2245 const window = this._getWindow();
2246 window.removeEventListener('focus', this._windowFocusListener);
2247 // Equivalently, stop our InputModalityDetector subscription.
2248 this._stopInputModalityDetector.next();
2249 // Clear timeouts for all potentially pending timeouts to prevent the leaks.
2250 clearTimeout(this._windowFocusTimeoutId);
2251 clearTimeout(this._originTimeoutId);
2252 }
2253 }
2254 /** Updates all the state on an element once its focus origin has changed. */
2255 _originChanged(element, origin, elementInfo) {
2256 this._setClasses(element, origin);
2257 this._emitOrigin(elementInfo.subject, origin);
2258 this._lastFocusOrigin = origin;
2259 }
2260 /**
2261 * Collects the `MonitoredElementInfo` of a particular element and
2262 * all of its ancestors that have enabled `checkChildren`.
2263 * @param element Element from which to start the search.
2264 */
2265 _getClosestElementsInfo(element) {
2266 const results = [];
2267 this._elementInfo.forEach((info, currentElement) => {
2268 if (currentElement === element || (info.checkChildren && currentElement.contains(element))) {
2269 results.push([currentElement, info]);
2270 }
2271 });
2272 return results;
2273 }
2274}
2275FocusMonitor.ɵfac = function FocusMonitor_Factory(t) { return new (t || FocusMonitor)(ɵngcc0.ɵɵinject(ɵngcc0.NgZone), ɵngcc0.ɵɵinject(ɵngcc1.Platform), ɵngcc0.ɵɵinject(InputModalityDetector), ɵngcc0.ɵɵinject(DOCUMENT, 8), ɵngcc0.ɵɵinject(FOCUS_MONITOR_DEFAULT_OPTIONS, 8)); };
2276FocusMonitor.ɵprov = i0.ɵɵdefineInjectable({ factory: function FocusMonitor_Factory() { return new FocusMonitor(i0.ɵɵinject(i0.NgZone), i0.ɵɵinject(i1.Platform), i0.ɵɵinject(InputModalityDetector), i0.ɵɵinject(i2.DOCUMENT, 8), i0.ɵɵinject(FOCUS_MONITOR_DEFAULT_OPTIONS, 8)); }, token: FocusMonitor, providedIn: "root" });
2277FocusMonitor.ctorParameters = () => [
2278 { type: NgZone },
2279 { type: Platform },
2280 { type: InputModalityDetector },
2281 { type: undefined, decorators: [{ type: Optional }, { type: Inject, args: [DOCUMENT,] }] },
2282 { type: undefined, decorators: [{ type: Optional }, { type: Inject, args: [FOCUS_MONITOR_DEFAULT_OPTIONS,] }] }
2283];
2284(function () { (typeof ngDevMode === "undefined" || ngDevMode) && ɵngcc0.ɵsetClassMetadata(FocusMonitor, [{
2285 type: Injectable,
2286 args: [{ providedIn: 'root' }]
2287 }], function () { return [{ type: ɵngcc0.NgZone }, { type: ɵngcc1.Platform }, { type: InputModalityDetector }, { type: undefined, decorators: [{
2288 type: Optional
2289 }, {
2290 type: Inject,
2291 args: [DOCUMENT]
2292 }] }, { type: undefined, decorators: [{
2293 type: Optional
2294 }, {
2295 type: Inject,
2296 args: [FOCUS_MONITOR_DEFAULT_OPTIONS]
2297 }] }]; }, null); })();
2298/**
2299 * Directive that determines how a particular element was focused (via keyboard, mouse, touch, or
2300 * programmatically) and adds corresponding classes to the element.
2301 *
2302 * There are two variants of this directive:
2303 * 1) cdkMonitorElementFocus: does not consider an element to be focused if one of its children is
2304 * focused.
2305 * 2) cdkMonitorSubtreeFocus: considers an element focused if it or any of its children are focused.
2306 */
2307class CdkMonitorFocus {
2308 constructor(_elementRef, _focusMonitor) {
2309 this._elementRef = _elementRef;
2310 this._focusMonitor = _focusMonitor;
2311 this.cdkFocusChange = new EventEmitter();
2312 }
2313 ngAfterViewInit() {
2314 const element = this._elementRef.nativeElement;
2315 this._monitorSubscription = this._focusMonitor.monitor(element, element.nodeType === 1 && element.hasAttribute('cdkMonitorSubtreeFocus'))
2316 .subscribe(origin => this.cdkFocusChange.emit(origin));
2317 }
2318 ngOnDestroy() {
2319 this._focusMonitor.stopMonitoring(this._elementRef);
2320 if (this._monitorSubscription) {
2321 this._monitorSubscription.unsubscribe();
2322 }
2323 }
2324}
2325CdkMonitorFocus.ɵfac = function CdkMonitorFocus_Factory(t) { return new (t || CdkMonitorFocus)(ɵngcc0.ɵɵdirectiveInject(ɵngcc0.ElementRef), ɵngcc0.ɵɵdirectiveInject(FocusMonitor)); };
2326CdkMonitorFocus.ɵdir = /*@__PURE__*/ ɵngcc0.ɵɵdefineDirective({ type: CdkMonitorFocus, selectors: [["", "cdkMonitorElementFocus", ""], ["", "cdkMonitorSubtreeFocus", ""]], outputs: { cdkFocusChange: "cdkFocusChange" } });
2327CdkMonitorFocus.ctorParameters = () => [
2328 { type: ElementRef },
2329 { type: FocusMonitor }
2330];
2331CdkMonitorFocus.propDecorators = {
2332 cdkFocusChange: [{ type: Output }]
2333};
2334(function () { (typeof ngDevMode === "undefined" || ngDevMode) && ɵngcc0.ɵsetClassMetadata(CdkMonitorFocus, [{
2335 type: Directive,
2336 args: [{
2337 selector: '[cdkMonitorElementFocus], [cdkMonitorSubtreeFocus]'
2338 }]
2339 }], function () { return [{ type: ɵngcc0.ElementRef }, { type: FocusMonitor }]; }, { cdkFocusChange: [{
2340 type: Output
2341 }] }); })();
2342
2343/**
2344 * @license
2345 * Copyright Google LLC All Rights Reserved.
2346 *
2347 * Use of this source code is governed by an MIT-style license that can be
2348 * found in the LICENSE file at https://angular.io/license
2349 */
2350/** CSS class applied to the document body when in black-on-white high-contrast mode. */
2351const BLACK_ON_WHITE_CSS_CLASS = 'cdk-high-contrast-black-on-white';
2352/** CSS class applied to the document body when in white-on-black high-contrast mode. */
2353const WHITE_ON_BLACK_CSS_CLASS = 'cdk-high-contrast-white-on-black';
2354/** CSS class applied to the document body when in high-contrast mode. */
2355const HIGH_CONTRAST_MODE_ACTIVE_CSS_CLASS = 'cdk-high-contrast-active';
2356/**
2357 * Service to determine whether the browser is currently in a high-contrast-mode environment.
2358 *
2359 * Microsoft Windows supports an accessibility feature called "High Contrast Mode". This mode
2360 * changes the appearance of all applications, including web applications, to dramatically increase
2361 * contrast.
2362 *
2363 * IE, Edge, and Firefox currently support this mode. Chrome does not support Windows High Contrast
2364 * Mode. This service does not detect high-contrast mode as added by the Chrome "High Contrast"
2365 * browser extension.
2366 */
2367class HighContrastModeDetector {
2368 constructor(_platform, document) {
2369 this._platform = _platform;
2370 this._document = document;
2371 }
2372 /** Gets the current high-contrast-mode for the page. */
2373 getHighContrastMode() {
2374 if (!this._platform.isBrowser) {
2375 return 0 /* NONE */;
2376 }
2377 // Create a test element with an arbitrary background-color that is neither black nor
2378 // white; high-contrast mode will coerce the color to either black or white. Also ensure that
2379 // appending the test element to the DOM does not affect layout by absolutely positioning it
2380 const testElement = this._document.createElement('div');
2381 testElement.style.backgroundColor = 'rgb(1,2,3)';
2382 testElement.style.position = 'absolute';
2383 this._document.body.appendChild(testElement);
2384 // Get the computed style for the background color, collapsing spaces to normalize between
2385 // browsers. Once we get this color, we no longer need the test element. Access the `window`
2386 // via the document so we can fake it in tests. Note that we have extra null checks, because
2387 // this logic will likely run during app bootstrap and throwing can break the entire app.
2388 const documentWindow = this._document.defaultView || window;
2389 const computedStyle = (documentWindow && documentWindow.getComputedStyle) ?
2390 documentWindow.getComputedStyle(testElement) : null;
2391 const computedColor = (computedStyle && computedStyle.backgroundColor || '').replace(/ /g, '');
2392 this._document.body.removeChild(testElement);
2393 switch (computedColor) {
2394 case 'rgb(0,0,0)': return 2 /* WHITE_ON_BLACK */;
2395 case 'rgb(255,255,255)': return 1 /* BLACK_ON_WHITE */;
2396 }
2397 return 0 /* NONE */;
2398 }
2399 /** Applies CSS classes indicating high-contrast mode to document body (browser-only). */
2400 _applyBodyHighContrastModeCssClasses() {
2401 if (!this._hasCheckedHighContrastMode && this._platform.isBrowser && this._document.body) {
2402 const bodyClasses = this._document.body.classList;
2403 // IE11 doesn't support `classList` operations with multiple arguments
2404 bodyClasses.remove(HIGH_CONTRAST_MODE_ACTIVE_CSS_CLASS);
2405 bodyClasses.remove(BLACK_ON_WHITE_CSS_CLASS);
2406 bodyClasses.remove(WHITE_ON_BLACK_CSS_CLASS);
2407 this._hasCheckedHighContrastMode = true;
2408 const mode = this.getHighContrastMode();
2409 if (mode === 1 /* BLACK_ON_WHITE */) {
2410 bodyClasses.add(HIGH_CONTRAST_MODE_ACTIVE_CSS_CLASS);
2411 bodyClasses.add(BLACK_ON_WHITE_CSS_CLASS);
2412 }
2413 else if (mode === 2 /* WHITE_ON_BLACK */) {
2414 bodyClasses.add(HIGH_CONTRAST_MODE_ACTIVE_CSS_CLASS);
2415 bodyClasses.add(WHITE_ON_BLACK_CSS_CLASS);
2416 }
2417 }
2418 }
2419}
2420HighContrastModeDetector.ɵfac = function HighContrastModeDetector_Factory(t) { return new (t || HighContrastModeDetector)(ɵngcc0.ɵɵinject(ɵngcc1.Platform), ɵngcc0.ɵɵinject(DOCUMENT)); };
2421HighContrastModeDetector.ɵprov = i0.ɵɵdefineInjectable({ factory: function HighContrastModeDetector_Factory() { return new HighContrastModeDetector(i0.ɵɵinject(i1.Platform), i0.ɵɵinject(i2.DOCUMENT)); }, token: HighContrastModeDetector, providedIn: "root" });
2422HighContrastModeDetector.ctorParameters = () => [
2423 { type: Platform },
2424 { type: undefined, decorators: [{ type: Inject, args: [DOCUMENT,] }] }
2425];
2426(function () { (typeof ngDevMode === "undefined" || ngDevMode) && ɵngcc0.ɵsetClassMetadata(HighContrastModeDetector, [{
2427 type: Injectable,
2428 args: [{ providedIn: 'root' }]
2429 }], function () { return [{ type: ɵngcc1.Platform }, { type: undefined, decorators: [{
2430 type: Inject,
2431 args: [DOCUMENT]
2432 }] }]; }, null); })();
2433
2434/**
2435 * @license
2436 * Copyright Google LLC All Rights Reserved.
2437 *
2438 * Use of this source code is governed by an MIT-style license that can be
2439 * found in the LICENSE file at https://angular.io/license
2440 */
2441class A11yModule {
2442 constructor(highContrastModeDetector) {
2443 highContrastModeDetector._applyBodyHighContrastModeCssClasses();
2444 }
2445}
2446A11yModule.ɵfac = function A11yModule_Factory(t) { return new (t || A11yModule)(ɵngcc0.ɵɵinject(HighContrastModeDetector)); };
2447A11yModule.ɵmod = /*@__PURE__*/ ɵngcc0.ɵɵdefineNgModule({ type: A11yModule });
2448A11yModule.ɵinj = /*@__PURE__*/ ɵngcc0.ɵɵdefineInjector({ imports: [[PlatformModule, ObserversModule]] });
2449A11yModule.ctorParameters = () => [
2450 { type: HighContrastModeDetector }
2451];
2452(function () { (typeof ngDevMode === "undefined" || ngDevMode) && ɵngcc0.ɵsetClassMetadata(A11yModule, [{
2453 type: NgModule,
2454 args: [{
2455 imports: [PlatformModule, ObserversModule],
2456 declarations: [CdkAriaLive, CdkTrapFocus, CdkMonitorFocus],
2457 exports: [CdkAriaLive, CdkTrapFocus, CdkMonitorFocus]
2458 }]
2459 }], function () { return [{ type: HighContrastModeDetector }]; }, null); })();
2460(function () { (typeof ngJitMode === "undefined" || ngJitMode) && ɵngcc0.ɵɵsetNgModuleScope(A11yModule, { declarations: function () { return [CdkAriaLive, CdkTrapFocus, CdkMonitorFocus]; }, imports: function () { return [PlatformModule, ObserversModule]; }, exports: function () { return [CdkAriaLive, CdkTrapFocus, CdkMonitorFocus]; } }); })();
2461
2462/**
2463 * @license
2464 * Copyright Google LLC All Rights Reserved.
2465 *
2466 * Use of this source code is governed by an MIT-style license that can be
2467 * found in the LICENSE file at https://angular.io/license
2468 */
2469
2470/**
2471 * Generated bundle index. Do not edit.
2472 */
2473
2474export { A11yModule, ActiveDescendantKeyManager, AriaDescriber, CDK_DESCRIBEDBY_HOST_ATTRIBUTE, CDK_DESCRIBEDBY_ID_PREFIX, CdkAriaLive, CdkMonitorFocus, CdkTrapFocus, ConfigurableFocusTrap, ConfigurableFocusTrapFactory, EventListenerFocusTrapInertStrategy, FOCUS_MONITOR_DEFAULT_OPTIONS, FOCUS_TRAP_INERT_STRATEGY, FocusKeyManager, FocusMonitor, FocusTrap, FocusTrapFactory, HighContrastModeDetector, INPUT_MODALITY_DETECTOR_DEFAULT_OPTIONS, INPUT_MODALITY_DETECTOR_OPTIONS, InputModalityDetector, InteractivityChecker, IsFocusableConfig, LIVE_ANNOUNCER_DEFAULT_OPTIONS, LIVE_ANNOUNCER_ELEMENT_TOKEN, LIVE_ANNOUNCER_ELEMENT_TOKEN_FACTORY, ListKeyManager, LiveAnnouncer, MESSAGES_CONTAINER_ID, isFakeMousedownFromScreenReader, isFakeTouchstartFromScreenReader, FocusTrapManager as ɵangular_material_src_cdk_a11y_a11y_a };
2475
2476//# sourceMappingURL=a11y.js.map
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