{"version":3,"sources":["node_modules/@angular/cdk/fesm2022/platform.mjs","node_modules/@angular/cdk/fesm2022/keycodes.mjs","node_modules/@angular/cdk/fesm2022/coercion.mjs","node_modules/@angular/cdk/fesm2022/observers.mjs","node_modules/@angular/cdk/fesm2022/layout.mjs","node_modules/@angular/cdk/fesm2022/a11y.mjs","node_modules/@angular/cdk/fesm2022/bidi.mjs","node_modules/@angular/material/fesm2022/core.mjs","node_modules/@angular/material/fesm2022/button.mjs","node_modules/@angular/cdk/fesm2022/collections.mjs","node_modules/@angular/cdk/fesm2022/scrolling.mjs","node_modules/@angular/cdk/fesm2022/portal.mjs","node_modules/@angular/cdk/fesm2022/overlay.mjs","node_modules/@angular/animations/fesm2022/animations.mjs"],"sourcesContent":["import * as i0 from '@angular/core';\nimport { PLATFORM_ID, Injectable, Inject, NgModule } from '@angular/core';\nimport { isPlatformBrowser } from '@angular/common';\n\n// Whether the current platform supports the V8 Break Iterator. The V8 check\n// is necessary to detect all Blink based browsers.\nlet hasV8BreakIterator;\n// We need a try/catch around the reference to `Intl`, because accessing it in some cases can\n// cause IE to throw. These cases are tied to particular versions of Windows and can happen if\n// the consumer is providing a polyfilled `Map`. See:\n// https://github.com/Microsoft/ChakraCore/issues/3189\n// https://github.com/angular/components/issues/15687\ntry {\n  hasV8BreakIterator = typeof Intl !== 'undefined' && Intl.v8BreakIterator;\n} catch {\n  hasV8BreakIterator = false;\n}\n/**\n * Service to detect the current platform by comparing the userAgent strings and\n * checking browser-specific global properties.\n */\nlet Platform = /*#__PURE__*/(() => {\n  class Platform {\n    constructor(_platformId) {\n      this._platformId = _platformId;\n      // We want to use the Angular platform check because if the Document is shimmed\n      // without the navigator, the following checks will fail. This is preferred because\n      // sometimes the Document may be shimmed without the user's knowledge or intention\n      /** Whether the Angular application is being rendered in the browser. */\n      this.isBrowser = this._platformId ? isPlatformBrowser(this._platformId) : typeof document === 'object' && !!document;\n      /** Whether the current browser is Microsoft Edge. */\n      this.EDGE = this.isBrowser && /(edge)/i.test(navigator.userAgent);\n      /** Whether the current rendering engine is Microsoft Trident. */\n      this.TRIDENT = this.isBrowser && /(msie|trident)/i.test(navigator.userAgent);\n      // EdgeHTML and Trident mock Blink specific things and need to be excluded from this check.\n      /** Whether the current rendering engine is Blink. */\n      this.BLINK = this.isBrowser && !!(window.chrome || hasV8BreakIterator) && typeof CSS !== 'undefined' && !this.EDGE && !this.TRIDENT;\n      // Webkit is part of the userAgent in EdgeHTML, Blink and Trident. Therefore we need to\n      // ensure that Webkit runs standalone and is not used as another engine's base.\n      /** Whether the current rendering engine is WebKit. */\n      this.WEBKIT = this.isBrowser && /AppleWebKit/i.test(navigator.userAgent) && !this.BLINK && !this.EDGE && !this.TRIDENT;\n      /** Whether the current platform is Apple iOS. */\n      this.IOS = this.isBrowser && /iPad|iPhone|iPod/.test(navigator.userAgent) && !('MSStream' in window);\n      // It's difficult to detect the plain Gecko engine, because most of the browsers identify\n      // them self as Gecko-like browsers and modify the userAgent's according to that.\n      // Since we only cover one explicit Firefox case, we can simply check for Firefox\n      // instead of having an unstable check for Gecko.\n      /** Whether the current browser is Firefox. */\n      this.FIREFOX = this.isBrowser && /(firefox|minefield)/i.test(navigator.userAgent);\n      /** Whether the current platform is Android. */\n      // Trident on mobile adds the android platform to the userAgent to trick detections.\n      this.ANDROID = this.isBrowser && /android/i.test(navigator.userAgent) && !this.TRIDENT;\n      // Safari browsers will include the Safari keyword in their userAgent. Some browsers may fake\n      // this and just place the Safari keyword in the userAgent. To be more safe about Safari every\n      // Safari browser should also use Webkit as its layout engine.\n      /** Whether the current browser is Safari. */\n      this.SAFARI = this.isBrowser && /safari/i.test(navigator.userAgent) && this.WEBKIT;\n    }\n    static {\n      this.ɵfac = function Platform_Factory(t) {\n        return new (t || Platform)(i0.ɵɵinject(PLATFORM_ID));\n      };\n    }\n    static {\n      this.ɵprov = /* @__PURE__ */i0.ɵɵdefineInjectable({\n        token: Platform,\n        factory: Platform.ɵfac,\n        providedIn: 'root'\n      });\n    }\n  }\n  return Platform;\n})();\n/*#__PURE__*/(() => {\n  (typeof ngDevMode === \"undefined\" || ngDevMode) && void 0;\n})();\nlet PlatformModule = /*#__PURE__*/(() => {\n  class PlatformModule {\n    static {\n      this.ɵfac = function PlatformModule_Factory(t) {\n        return new (t || PlatformModule)();\n      };\n    }\n    static {\n      this.ɵmod = /* @__PURE__ */i0.ɵɵdefineNgModule({\n        type: PlatformModule\n      });\n    }\n    static {\n      this.ɵinj = /* @__PURE__ */i0.ɵɵdefineInjector({});\n    }\n  }\n  return PlatformModule;\n})();\n/*#__PURE__*/(() => {\n  (typeof ngDevMode === \"undefined\" || ngDevMode) && void 0;\n})();\n\n/** Cached result Set of input types support by the current browser. */\nlet supportedInputTypes;\n/** Types of `<input>` that *might* be supported. */\nconst candidateInputTypes = [\n// `color` must come first. Chrome 56 shows a warning if we change the type to `color` after\n// first changing it to something else:\n// The specified value \"\" does not conform to the required format.\n// The format is \"#rrggbb\" where rr, gg, bb are two-digit hexadecimal numbers.\n'color', 'button', 'checkbox', 'date', 'datetime-local', 'email', 'file', 'hidden', 'image', 'month', 'number', 'password', 'radio', 'range', 'reset', 'search', 'submit', 'tel', 'text', 'time', 'url', 'week'];\n/** @returns The input types supported by this browser. */\nfunction getSupportedInputTypes() {\n  // Result is cached.\n  if (supportedInputTypes) {\n    return supportedInputTypes;\n  }\n  // We can't check if an input type is not supported until we're on the browser, so say that\n  // everything is supported when not on the browser. We don't use `Platform` here since it's\n  // just a helper function and can't inject it.\n  if (typeof document !== 'object' || !document) {\n    supportedInputTypes = new Set(candidateInputTypes);\n    return supportedInputTypes;\n  }\n  let featureTestInput = document.createElement('input');\n  supportedInputTypes = new Set(candidateInputTypes.filter(value => {\n    featureTestInput.setAttribute('type', value);\n    return featureTestInput.type === value;\n  }));\n  return supportedInputTypes;\n}\n\n/** Cached result of whether the user's browser supports passive event listeners. */\nlet supportsPassiveEvents;\n/**\n * Checks whether the user's browser supports passive event listeners.\n * See: https://github.com/WICG/EventListenerOptions/blob/gh-pages/explainer.md\n */\nfunction supportsPassiveEventListeners() {\n  if (supportsPassiveEvents == null && typeof window !== 'undefined') {\n    try {\n      window.addEventListener('test', null, Object.defineProperty({}, 'passive', {\n        get: () => supportsPassiveEvents = true\n      }));\n    } finally {\n      supportsPassiveEvents = supportsPassiveEvents || false;\n    }\n  }\n  return supportsPassiveEvents;\n}\n/**\n * Normalizes an `AddEventListener` object to something that can be passed\n * to `addEventListener` on any browser, no matter whether it supports the\n * `options` parameter.\n * @param options Object to be normalized.\n */\nfunction normalizePassiveListenerOptions(options) {\n  return supportsPassiveEventListeners() ? options : !!options.capture;\n}\n\n/** The possible ways the browser may handle the horizontal scroll axis in RTL languages. */\nvar RtlScrollAxisType = /*#__PURE__*/function (RtlScrollAxisType) {\n  /**\n   * scrollLeft is 0 when scrolled all the way left and (scrollWidth - clientWidth) when scrolled\n   * all the way right.\n   */\n  RtlScrollAxisType[RtlScrollAxisType[\"NORMAL\"] = 0] = \"NORMAL\";\n  /**\n   * scrollLeft is -(scrollWidth - clientWidth) when scrolled all the way left and 0 when scrolled\n   * all the way right.\n   */\n  RtlScrollAxisType[RtlScrollAxisType[\"NEGATED\"] = 1] = \"NEGATED\";\n  /**\n   * scrollLeft is (scrollWidth - clientWidth) when scrolled all the way left and 0 when scrolled\n   * all the way right.\n   */\n  RtlScrollAxisType[RtlScrollAxisType[\"INVERTED\"] = 2] = \"INVERTED\";\n  return RtlScrollAxisType;\n}(RtlScrollAxisType || {});\n/** Cached result of the way the browser handles the horizontal scroll axis in RTL mode. */\nlet rtlScrollAxisType;\n/** Cached result of the check that indicates whether the browser supports scroll behaviors. */\nlet scrollBehaviorSupported;\n/** Check whether the browser supports scroll behaviors. */\nfunction supportsScrollBehavior() {\n  if (scrollBehaviorSupported == null) {\n    // If we're not in the browser, it can't be supported. Also check for `Element`, because\n    // some projects stub out the global `document` during SSR which can throw us off.\n    if (typeof document !== 'object' || !document || typeof Element !== 'function' || !Element) {\n      scrollBehaviorSupported = false;\n      return scrollBehaviorSupported;\n    }\n    // If the element can have a `scrollBehavior` style, we can be sure that it's supported.\n    if ('scrollBehavior' in document.documentElement.style) {\n      scrollBehaviorSupported = true;\n    } else {\n      // At this point we have 3 possibilities: `scrollTo` isn't supported at all, it's\n      // supported but it doesn't handle scroll behavior, or it has been polyfilled.\n      const scrollToFunction = Element.prototype.scrollTo;\n      if (scrollToFunction) {\n        // We can detect if the function has been polyfilled by calling `toString` on it. Native\n        // functions are obfuscated using `[native code]`, whereas if it was overwritten we'd get\n        // the actual function source. Via https://davidwalsh.name/detect-native-function. Consider\n        // polyfilled functions as supporting scroll behavior.\n        scrollBehaviorSupported = !/\\{\\s*\\[native code\\]\\s*\\}/.test(scrollToFunction.toString());\n      } else {\n        scrollBehaviorSupported = false;\n      }\n    }\n  }\n  return scrollBehaviorSupported;\n}\n/**\n * Checks the type of RTL scroll axis used by this browser. As of time of writing, Chrome is NORMAL,\n * Firefox & Safari are NEGATED, and IE & Edge are INVERTED.\n */\nfunction getRtlScrollAxisType() {\n  // We can't check unless we're on the browser. Just assume 'normal' if we're not.\n  if (typeof document !== 'object' || !document) {\n    return RtlScrollAxisType.NORMAL;\n  }\n  if (rtlScrollAxisType == null) {\n    // Create a 1px wide scrolling container and a 2px wide content element.\n    const scrollContainer = document.createElement('div');\n    const containerStyle = scrollContainer.style;\n    scrollContainer.dir = 'rtl';\n    containerStyle.width = '1px';\n    containerStyle.overflow = 'auto';\n    containerStyle.visibility = 'hidden';\n    containerStyle.pointerEvents = 'none';\n    containerStyle.position = 'absolute';\n    const content = document.createElement('div');\n    const contentStyle = content.style;\n    contentStyle.width = '2px';\n    contentStyle.height = '1px';\n    scrollContainer.appendChild(content);\n    document.body.appendChild(scrollContainer);\n    rtlScrollAxisType = RtlScrollAxisType.NORMAL;\n    // The viewport starts scrolled all the way to the right in RTL mode. If we are in a NORMAL\n    // browser this would mean that the scrollLeft should be 1. If it's zero instead we know we're\n    // dealing with one of the other two types of browsers.\n    if (scrollContainer.scrollLeft === 0) {\n      // In a NEGATED browser the scrollLeft is always somewhere in [-maxScrollAmount, 0]. For an\n      // INVERTED browser it is always somewhere in [0, maxScrollAmount]. We can determine which by\n      // setting to the scrollLeft to 1. This is past the max for a NEGATED browser, so it will\n      // return 0 when we read it again.\n      scrollContainer.scrollLeft = 1;\n      rtlScrollAxisType = scrollContainer.scrollLeft === 0 ? RtlScrollAxisType.NEGATED : RtlScrollAxisType.INVERTED;\n    }\n    scrollContainer.remove();\n  }\n  return rtlScrollAxisType;\n}\nlet shadowDomIsSupported;\n/** Checks whether the user's browser support Shadow DOM. */\nfunction _supportsShadowDom() {\n  if (shadowDomIsSupported == null) {\n    const head = typeof document !== 'undefined' ? document.head : null;\n    shadowDomIsSupported = !!(head && (head.createShadowRoot || head.attachShadow));\n  }\n  return shadowDomIsSupported;\n}\n/** Gets the shadow root of an element, if supported and the element is inside the Shadow DOM. */\nfunction _getShadowRoot(element) {\n  if (_supportsShadowDom()) {\n    const rootNode = element.getRootNode ? element.getRootNode() : null;\n    // Note that this should be caught by `_supportsShadowDom`, but some\n    // teams have been able to hit this code path on unsupported browsers.\n    if (typeof ShadowRoot !== 'undefined' && ShadowRoot && rootNode instanceof ShadowRoot) {\n      return rootNode;\n    }\n  }\n  return null;\n}\n/**\n * Gets the currently-focused element on the page while\n * also piercing through Shadow DOM boundaries.\n */\nfunction _getFocusedElementPierceShadowDom() {\n  let activeElement = typeof document !== 'undefined' && document ? document.activeElement : null;\n  while (activeElement && activeElement.shadowRoot) {\n    const newActiveElement = activeElement.shadowRoot.activeElement;\n    if (newActiveElement === activeElement) {\n      break;\n    } else {\n      activeElement = newActiveElement;\n    }\n  }\n  return activeElement;\n}\n/** Gets the target of an event while accounting for Shadow DOM. */\nfunction _getEventTarget(event) {\n  // If an event is bound outside the Shadow DOM, the `event.target` will\n  // point to the shadow root so we have to use `composedPath` instead.\n  return event.composedPath ? event.composedPath()[0] : event.target;\n}\n\n/** Gets whether the code is currently running in a test environment. */\nfunction _isTestEnvironment() {\n  // We can't use `declare const` because it causes conflicts inside Google with the real typings\n  // for these symbols and we can't read them off the global object, because they don't appear to\n  // be attached there for some runners like Jest.\n  // (see: https://github.com/angular/components/issues/23365#issuecomment-938146643)\n  return (\n    // @ts-ignore\n    typeof __karma__ !== 'undefined' && !!__karma__ ||\n    // @ts-ignore\n    typeof jasmine !== 'undefined' && !!jasmine ||\n    // @ts-ignore\n    typeof jest !== 'undefined' && !!jest ||\n    // @ts-ignore\n    typeof Mocha !== 'undefined' && !!Mocha\n  );\n}\n\n/**\n * Generated bundle index. Do not edit.\n */\n\nexport { Platform, PlatformModule, RtlScrollAxisType, _getEventTarget, _getFocusedElementPierceShadowDom, _getShadowRoot, _isTestEnvironment, _supportsShadowDom, getRtlScrollAxisType, getSupportedInputTypes, normalizePassiveListenerOptions, supportsPassiveEventListeners, supportsScrollBehavior };\n","const MAC_ENTER = 3;\nconst BACKSPACE = 8;\nconst TAB = 9;\nconst NUM_CENTER = 12;\nconst ENTER = 13;\nconst SHIFT = 16;\nconst CONTROL = 17;\nconst ALT = 18;\nconst PAUSE = 19;\nconst CAPS_LOCK = 20;\nconst ESCAPE = 27;\nconst SPACE = 32;\nconst PAGE_UP = 33;\nconst PAGE_DOWN = 34;\nconst END = 35;\nconst HOME = 36;\nconst LEFT_ARROW = 37;\nconst UP_ARROW = 38;\nconst RIGHT_ARROW = 39;\nconst DOWN_ARROW = 40;\nconst PLUS_SIGN = 43;\nconst PRINT_SCREEN = 44;\nconst INSERT = 45;\nconst DELETE = 46;\nconst ZERO = 48;\nconst ONE = 49;\nconst TWO = 50;\nconst THREE = 51;\nconst FOUR = 52;\nconst FIVE = 53;\nconst SIX = 54;\nconst SEVEN = 55;\nconst EIGHT = 56;\nconst NINE = 57;\nconst FF_SEMICOLON = 59; // Firefox (Gecko) fires this for semicolon instead of 186\nconst FF_EQUALS = 61; // Firefox (Gecko) fires this for equals instead of 187\nconst QUESTION_MARK = 63;\nconst AT_SIGN = 64;\nconst A = 65;\nconst B = 66;\nconst C = 67;\nconst D = 68;\nconst E = 69;\nconst F = 70;\nconst G = 71;\nconst H = 72;\nconst I = 73;\nconst J = 74;\nconst K = 75;\nconst L = 76;\nconst M = 77;\nconst N = 78;\nconst O = 79;\nconst P = 80;\nconst Q = 81;\nconst R = 82;\nconst S = 83;\nconst T = 84;\nconst U = 85;\nconst V = 86;\nconst W = 87;\nconst X = 88;\nconst Y = 89;\nconst Z = 90;\nconst META = 91; // WIN_KEY_LEFT\nconst MAC_WK_CMD_LEFT = 91;\nconst MAC_WK_CMD_RIGHT = 93;\nconst CONTEXT_MENU = 93;\nconst NUMPAD_ZERO = 96;\nconst NUMPAD_ONE = 97;\nconst NUMPAD_TWO = 98;\nconst NUMPAD_THREE = 99;\nconst NUMPAD_FOUR = 100;\nconst NUMPAD_FIVE = 101;\nconst NUMPAD_SIX = 102;\nconst NUMPAD_SEVEN = 103;\nconst NUMPAD_EIGHT = 104;\nconst NUMPAD_NINE = 105;\nconst NUMPAD_MULTIPLY = 106;\nconst NUMPAD_PLUS = 107;\nconst NUMPAD_MINUS = 109;\nconst NUMPAD_PERIOD = 110;\nconst NUMPAD_DIVIDE = 111;\nconst F1 = 112;\nconst F2 = 113;\nconst F3 = 114;\nconst F4 = 115;\nconst F5 = 116;\nconst F6 = 117;\nconst F7 = 118;\nconst F8 = 119;\nconst F9 = 120;\nconst F10 = 121;\nconst F11 = 122;\nconst F12 = 123;\nconst NUM_LOCK = 144;\nconst SCROLL_LOCK = 145;\nconst FIRST_MEDIA = 166;\nconst FF_MINUS = 173;\nconst MUTE = 173; // Firefox (Gecko) fires 181 for MUTE\nconst VOLUME_DOWN = 174; // Firefox (Gecko) fires 182 for VOLUME_DOWN\nconst VOLUME_UP = 175; // Firefox (Gecko) fires 183 for VOLUME_UP\nconst FF_MUTE = 181;\nconst FF_VOLUME_DOWN = 182;\nconst LAST_MEDIA = 183;\nconst FF_VOLUME_UP = 183;\nconst SEMICOLON = 186; // Firefox (Gecko) fires 59 for SEMICOLON\nconst EQUALS = 187; // Firefox (Gecko) fires 61 for EQUALS\nconst COMMA = 188;\nconst DASH = 189; // Firefox (Gecko) fires 173 for DASH/MINUS\nconst PERIOD = 190;\nconst SLASH = 191;\nconst APOSTROPHE = 192;\nconst TILDE = 192;\nconst OPEN_SQUARE_BRACKET = 219;\nconst BACKSLASH = 220;\nconst CLOSE_SQUARE_BRACKET = 221;\nconst SINGLE_QUOTE = 222;\nconst MAC_META = 224;\n\n/**\n * Checks whether a modifier key is pressed.\n * @param event Event to be checked.\n */\nfunction hasModifierKey(event, ...modifiers) {\n  if (modifiers.length) {\n    return modifiers.some(modifier => event[modifier]);\n  }\n  return event.altKey || event.shiftKey || event.ctrlKey || event.metaKey;\n}\n\n/**\n * Generated bundle index. Do not edit.\n */\n\nexport { A, ALT, APOSTROPHE, AT_SIGN, B, BACKSLASH, BACKSPACE, C, CAPS_LOCK, CLOSE_SQUARE_BRACKET, COMMA, CONTEXT_MENU, CONTROL, D, DASH, DELETE, DOWN_ARROW, E, EIGHT, END, ENTER, EQUALS, ESCAPE, F, F1, F10, F11, F12, F2, F3, F4, F5, F6, F7, F8, F9, FF_EQUALS, FF_MINUS, FF_MUTE, FF_SEMICOLON, FF_VOLUME_DOWN, FF_VOLUME_UP, FIRST_MEDIA, FIVE, FOUR, G, H, HOME, I, INSERT, J, K, L, LAST_MEDIA, LEFT_ARROW, M, MAC_ENTER, MAC_META, MAC_WK_CMD_LEFT, MAC_WK_CMD_RIGHT, META, MUTE, N, NINE, NUMPAD_DIVIDE, NUMPAD_EIGHT, NUMPAD_FIVE, NUMPAD_FOUR, NUMPAD_MINUS, NUMPAD_MULTIPLY, NUMPAD_NINE, NUMPAD_ONE, NUMPAD_PERIOD, NUMPAD_PLUS, NUMPAD_SEVEN, NUMPAD_SIX, NUMPAD_THREE, NUMPAD_TWO, NUMPAD_ZERO, NUM_CENTER, NUM_LOCK, O, ONE, OPEN_SQUARE_BRACKET, P, PAGE_DOWN, PAGE_UP, PAUSE, PERIOD, PLUS_SIGN, PRINT_SCREEN, Q, QUESTION_MARK, R, RIGHT_ARROW, S, SCROLL_LOCK, SEMICOLON, SEVEN, SHIFT, SINGLE_QUOTE, SIX, SLASH, SPACE, T, TAB, THREE, TILDE, TWO, U, UP_ARROW, V, VOLUME_DOWN, VOLUME_UP, W, X, Y, Z, ZERO, hasModifierKey };\n","import { ElementRef } from '@angular/core';\n\n/** Coerces a data-bound value (typically a string) to a boolean. */\nfunction coerceBooleanProperty(value) {\n  return value != null && `${value}` !== 'false';\n}\nfunction coerceNumberProperty(value, fallbackValue = 0) {\n  return _isNumberValue(value) ? Number(value) : fallbackValue;\n}\n/**\n * Whether the provided value is considered a number.\n * @docs-private\n */\nfunction _isNumberValue(value) {\n  // parseFloat(value) handles most of the cases we're interested in (it treats null, empty string,\n  // and other non-number values as NaN, where Number just uses 0) but it considers the string\n  // '123hello' to be a valid number. Therefore we also check if Number(value) is NaN.\n  return !isNaN(parseFloat(value)) && !isNaN(Number(value));\n}\nfunction coerceArray(value) {\n  return Array.isArray(value) ? value : [value];\n}\n\n/** Coerces a value to a CSS pixel value. */\nfunction coerceCssPixelValue(value) {\n  if (value == null) {\n    return '';\n  }\n  return typeof value === 'string' ? value : `${value}px`;\n}\n\n/**\n * Coerces an ElementRef or an Element into an element.\n * Useful for APIs that can accept either a ref or the native element itself.\n */\nfunction coerceElement(elementOrRef) {\n  return elementOrRef instanceof ElementRef ? elementOrRef.nativeElement : elementOrRef;\n}\n\n/**\n * Coerces a value to an array of trimmed non-empty strings.\n * Any input that is not an array, `null` or `undefined` will be turned into a string\n * via `toString()` and subsequently split with the given separator.\n * `null` and `undefined` will result in an empty array.\n * This results in the following outcomes:\n * - `null` -&gt; `[]`\n * - `[null]` -&gt; `[\"null\"]`\n * - `[\"a\", \"b \", \" \"]` -&gt; `[\"a\", \"b\"]`\n * - `[1, [2, 3]]` -&gt; `[\"1\", \"2,3\"]`\n * - `[{ a: 0 }]` -&gt; `[\"[object Object]\"]`\n * - `{ a: 0 }` -&gt; `[\"[object\", \"Object]\"]`\n *\n * Useful for defining CSS classes or table columns.\n * @param value the value to coerce into an array of strings\n * @param separator split-separator if value isn't an array\n */\nfunction coerceStringArray(value, separator = /\\s+/) {\n  const result = [];\n  if (value != null) {\n    const sourceValues = Array.isArray(value) ? value : `${value}`.split(separator);\n    for (const sourceValue of sourceValues) {\n      const trimmedString = `${sourceValue}`.trim();\n      if (trimmedString) {\n        result.push(trimmedString);\n      }\n    }\n  }\n  return result;\n}\nexport { _isNumberValue, coerceArray, coerceBooleanProperty, coerceCssPixelValue, coerceElement, coerceNumberProperty, coerceStringArray };\n","import { coerceElement, coerceNumberProperty } from '@angular/cdk/coercion';\nimport * as i0 from '@angular/core';\nimport { Injectable, EventEmitter, booleanAttribute, Directive, Output, Input, NgModule } from '@angular/core';\nimport { Observable, Subject } from 'rxjs';\nimport { debounceTime } from 'rxjs/operators';\n\n/**\n * Factory that creates a new MutationObserver and allows us to stub it out in unit tests.\n * @docs-private\n */\nlet MutationObserverFactory = /*#__PURE__*/(() => {\n  class MutationObserverFactory {\n    create(callback) {\n      return typeof MutationObserver === 'undefined' ? null : new MutationObserver(callback);\n    }\n    static {\n      this.ɵfac = function MutationObserverFactory_Factory(t) {\n        return new (t || MutationObserverFactory)();\n      };\n    }\n    static {\n      this.ɵprov = /* @__PURE__ */i0.ɵɵdefineInjectable({\n        token: MutationObserverFactory,\n        factory: MutationObserverFactory.ɵfac,\n        providedIn: 'root'\n      });\n    }\n  }\n  return MutationObserverFactory;\n})();\n/*#__PURE__*/(() => {\n  (typeof ngDevMode === \"undefined\" || ngDevMode) && void 0;\n})();\n/** An injectable service that allows watching elements for changes to their content. */\nlet ContentObserver = /*#__PURE__*/(() => {\n  class ContentObserver {\n    constructor(_mutationObserverFactory) {\n      this._mutationObserverFactory = _mutationObserverFactory;\n      /** Keeps track of the existing MutationObservers so they can be reused. */\n      this._observedElements = new Map();\n    }\n    ngOnDestroy() {\n      this._observedElements.forEach((_, element) => this._cleanupObserver(element));\n    }\n    observe(elementOrRef) {\n      const element = coerceElement(elementOrRef);\n      return new Observable(observer => {\n        const stream = this._observeElement(element);\n        const subscription = stream.subscribe(observer);\n        return () => {\n          subscription.unsubscribe();\n          this._unobserveElement(element);\n        };\n      });\n    }\n    /**\n     * Observes the given element by using the existing MutationObserver if available, or creating a\n     * new one if not.\n     */\n    _observeElement(element) {\n      if (!this._observedElements.has(element)) {\n        const stream = new Subject();\n        const observer = this._mutationObserverFactory.create(mutations => stream.next(mutations));\n        if (observer) {\n          observer.observe(element, {\n            characterData: true,\n            childList: true,\n            subtree: true\n          });\n        }\n        this._observedElements.set(element, {\n          observer,\n          stream,\n          count: 1\n        });\n      } else {\n        this._observedElements.get(element).count++;\n      }\n      return this._observedElements.get(element).stream;\n    }\n    /**\n     * Un-observes the given element and cleans up the underlying MutationObserver if nobody else is\n     * observing this element.\n     */\n    _unobserveElement(element) {\n      if (this._observedElements.has(element)) {\n        this._observedElements.get(element).count--;\n        if (!this._observedElements.get(element).count) {\n          this._cleanupObserver(element);\n        }\n      }\n    }\n    /** Clean up the underlying MutationObserver for the specified element. */\n    _cleanupObserver(element) {\n      if (this._observedElements.has(element)) {\n        const {\n          observer,\n          stream\n        } = this._observedElements.get(element);\n        if (observer) {\n          observer.disconnect();\n        }\n        stream.complete();\n        this._observedElements.delete(element);\n      }\n    }\n    static {\n      this.ɵfac = function ContentObserver_Factory(t) {\n        return new (t || ContentObserver)(i0.ɵɵinject(MutationObserverFactory));\n      };\n    }\n    static {\n      this.ɵprov = /* @__PURE__ */i0.ɵɵdefineInjectable({\n        token: ContentObserver,\n        factory: ContentObserver.ɵfac,\n        providedIn: 'root'\n      });\n    }\n  }\n  return ContentObserver;\n})();\n/*#__PURE__*/(() => {\n  (typeof ngDevMode === \"undefined\" || ngDevMode) && void 0;\n})();\n/**\n * Directive that triggers a callback whenever the content of\n * its associated element has changed.\n */\nlet CdkObserveContent = /*#__PURE__*/(() => {\n  class CdkObserveContent {\n    /**\n     * Whether observing content is disabled. This option can be used\n     * to disconnect the underlying MutationObserver until it is needed.\n     */\n    get disabled() {\n      return this._disabled;\n    }\n    set disabled(value) {\n      this._disabled = value;\n      this._disabled ? this._unsubscribe() : this._subscribe();\n    }\n    /** Debounce interval for emitting the changes. */\n    get debounce() {\n      return this._debounce;\n    }\n    set debounce(value) {\n      this._debounce = coerceNumberProperty(value);\n      this._subscribe();\n    }\n    constructor(_contentObserver, _elementRef, _ngZone) {\n      this._contentObserver = _contentObserver;\n      this._elementRef = _elementRef;\n      this._ngZone = _ngZone;\n      /** Event emitted for each change in the element's content. */\n      this.event = new EventEmitter();\n      this._disabled = false;\n      this._currentSubscription = null;\n    }\n    ngAfterContentInit() {\n      if (!this._currentSubscription && !this.disabled) {\n        this._subscribe();\n      }\n    }\n    ngOnDestroy() {\n      this._unsubscribe();\n    }\n    _subscribe() {\n      this._unsubscribe();\n      const stream = this._contentObserver.observe(this._elementRef);\n      // TODO(mmalerba): We shouldn't be emitting on this @Output() outside the zone.\n      // Consider brining it back inside the zone next time we're making breaking changes.\n      // Bringing it back inside can cause things like infinite change detection loops and changed\n      // after checked errors if people's code isn't handling it properly.\n      this._ngZone.runOutsideAngular(() => {\n        this._currentSubscription = (this.debounce ? stream.pipe(debounceTime(this.debounce)) : stream).subscribe(this.event);\n      });\n    }\n    _unsubscribe() {\n      this._currentSubscription?.unsubscribe();\n    }\n    static {\n      this.ɵfac = function CdkObserveContent_Factory(t) {\n        return new (t || CdkObserveContent)(i0.ɵɵdirectiveInject(ContentObserver), i0.ɵɵdirectiveInject(i0.ElementRef), i0.ɵɵdirectiveInject(i0.NgZone));\n      };\n    }\n    static {\n      this.ɵdir = /* @__PURE__ */i0.ɵɵdefineDirective({\n        type: CdkObserveContent,\n        selectors: [[\"\", \"cdkObserveContent\", \"\"]],\n        inputs: {\n          disabled: [i0.ɵɵInputFlags.HasDecoratorInputTransform, \"cdkObserveContentDisabled\", \"disabled\", booleanAttribute],\n          debounce: \"debounce\"\n        },\n        outputs: {\n          event: \"cdkObserveContent\"\n        },\n        exportAs: [\"cdkObserveContent\"],\n        standalone: true,\n        features: [i0.ɵɵInputTransformsFeature]\n      });\n    }\n  }\n  return CdkObserveContent;\n})();\n/*#__PURE__*/(() => {\n  (typeof ngDevMode === \"undefined\" || ngDevMode) && void 0;\n})();\nlet ObserversModule = /*#__PURE__*/(() => {\n  class ObserversModule {\n    static {\n      this.ɵfac = function ObserversModule_Factory(t) {\n        return new (t || ObserversModule)();\n      };\n    }\n    static {\n      this.ɵmod = /* @__PURE__ */i0.ɵɵdefineNgModule({\n        type: ObserversModule\n      });\n    }\n    static {\n      this.ɵinj = /* @__PURE__ */i0.ɵɵdefineInjector({\n        providers: [MutationObserverFactory]\n      });\n    }\n  }\n  return ObserversModule;\n})();\n/*#__PURE__*/(() => {\n  (typeof ngDevMode === \"undefined\" || ngDevMode) && void 0;\n})();\n\n/**\n * Generated bundle index. Do not edit.\n */\n\nexport { CdkObserveContent, ContentObserver, MutationObserverFactory, ObserversModule };\n","import * as i0 from '@angular/core';\nimport { NgModule, CSP_NONCE, Injectable, Optional, Inject } from '@angular/core';\nimport { coerceArray } from '@angular/cdk/coercion';\nimport { Subject, combineLatest, concat, Observable } from 'rxjs';\nimport { take, skip, debounceTime, map, startWith, takeUntil } from 'rxjs/operators';\nimport * as i1 from '@angular/cdk/platform';\nlet LayoutModule = /*#__PURE__*/(() => {\n  class LayoutModule {\n    static {\n      this.ɵfac = function LayoutModule_Factory(t) {\n        return new (t || LayoutModule)();\n      };\n    }\n    static {\n      this.ɵmod = /* @__PURE__ */i0.ɵɵdefineNgModule({\n        type: LayoutModule\n      });\n    }\n    static {\n      this.ɵinj = /* @__PURE__ */i0.ɵɵdefineInjector({});\n    }\n  }\n  return LayoutModule;\n})();\n/*#__PURE__*/(() => {\n  (typeof ngDevMode === \"undefined\" || ngDevMode) && void 0;\n})();\n\n/** Global registry for all dynamically-created, injected media queries. */\nconst mediaQueriesForWebkitCompatibility = /*#__PURE__*/new Set();\n/** Style tag that holds all of the dynamically-created media queries. */\nlet mediaQueryStyleNode;\n/** A utility for calling matchMedia queries. */\nlet MediaMatcher = /*#__PURE__*/(() => {\n  class MediaMatcher {\n    constructor(_platform, _nonce) {\n      this._platform = _platform;\n      this._nonce = _nonce;\n      this._matchMedia = this._platform.isBrowser && window.matchMedia ?\n      // matchMedia is bound to the window scope intentionally as it is an illegal invocation to\n      // call it from a different scope.\n      window.matchMedia.bind(window) : noopMatchMedia;\n    }\n    /**\n     * Evaluates the given media query and returns the native MediaQueryList from which results\n     * can be retrieved.\n     * Confirms the layout engine will trigger for the selector query provided and returns the\n     * MediaQueryList for the query provided.\n     */\n    matchMedia(query) {\n      if (this._platform.WEBKIT || this._platform.BLINK) {\n        createEmptyStyleRule(query, this._nonce);\n      }\n      return this._matchMedia(query);\n    }\n    static {\n      this.ɵfac = function MediaMatcher_Factory(t) {\n        return new (t || MediaMatcher)(i0.ɵɵinject(i1.Platform), i0.ɵɵinject(CSP_NONCE, 8));\n      };\n    }\n    static {\n      this.ɵprov = /* @__PURE__ */i0.ɵɵdefineInjectable({\n        token: MediaMatcher,\n        factory: MediaMatcher.ɵfac,\n        providedIn: 'root'\n      });\n    }\n  }\n  return MediaMatcher;\n})();\n/*#__PURE__*/(() => {\n  (typeof ngDevMode === \"undefined\" || ngDevMode) && void 0;\n})();\n/**\n * Creates an empty stylesheet that is used to work around browser inconsistencies related to\n * `matchMedia`. At the time of writing, it handles the following cases:\n * 1. On WebKit browsers, a media query has to have at least one rule in order for `matchMedia`\n * to fire. We work around it by declaring a dummy stylesheet with a `@media` declaration.\n * 2. In some cases Blink browsers will stop firing the `matchMedia` listener if none of the rules\n * inside the `@media` match existing elements on the page. We work around it by having one rule\n * targeting the `body`. See https://github.com/angular/components/issues/23546.\n */\nfunction createEmptyStyleRule(query, nonce) {\n  if (mediaQueriesForWebkitCompatibility.has(query)) {\n    return;\n  }\n  try {\n    if (!mediaQueryStyleNode) {\n      mediaQueryStyleNode = document.createElement('style');\n      if (nonce) {\n        mediaQueryStyleNode.nonce = nonce;\n      }\n      mediaQueryStyleNode.setAttribute('type', 'text/css');\n      document.head.appendChild(mediaQueryStyleNode);\n    }\n    if (mediaQueryStyleNode.sheet) {\n      mediaQueryStyleNode.sheet.insertRule(`@media ${query} {body{ }}`, 0);\n      mediaQueriesForWebkitCompatibility.add(query);\n    }\n  } catch (e) {\n    console.error(e);\n  }\n}\n/** No-op matchMedia replacement for non-browser platforms. */\nfunction noopMatchMedia(query) {\n  // Use `as any` here to avoid adding additional necessary properties for\n  // the noop matcher.\n  return {\n    matches: query === 'all' || query === '',\n    media: query,\n    addListener: () => {},\n    removeListener: () => {}\n  };\n}\n\n/** Utility for checking the matching state of @media queries. */\nlet BreakpointObserver = /*#__PURE__*/(() => {\n  class BreakpointObserver {\n    constructor(_mediaMatcher, _zone) {\n      this._mediaMatcher = _mediaMatcher;\n      this._zone = _zone;\n      /**  A map of all media queries currently being listened for. */\n      this._queries = new Map();\n      /** A subject for all other observables to takeUntil based on. */\n      this._destroySubject = new Subject();\n    }\n    /** Completes the active subject, signalling to all other observables to complete. */\n    ngOnDestroy() {\n      this._destroySubject.next();\n      this._destroySubject.complete();\n    }\n    /**\n     * Whether one or more media queries match the current viewport size.\n     * @param value One or more media queries to check.\n     * @returns Whether any of the media queries match.\n     */\n    isMatched(value) {\n      const queries = splitQueries(coerceArray(value));\n      return queries.some(mediaQuery => this._registerQuery(mediaQuery).mql.matches);\n    }\n    /**\n     * Gets an observable of results for the given queries that will emit new results for any changes\n     * in matching of the given queries.\n     * @param value One or more media queries to check.\n     * @returns A stream of matches for the given queries.\n     */\n    observe(value) {\n      const queries = splitQueries(coerceArray(value));\n      const observables = queries.map(query => this._registerQuery(query).observable);\n      let stateObservable = combineLatest(observables);\n      // Emit the first state immediately, and then debounce the subsequent emissions.\n      stateObservable = concat(stateObservable.pipe(take(1)), stateObservable.pipe(skip(1), debounceTime(0)));\n      return stateObservable.pipe(map(breakpointStates => {\n        const response = {\n          matches: false,\n          breakpoints: {}\n        };\n        breakpointStates.forEach(({\n          matches,\n          query\n        }) => {\n          response.matches = response.matches || matches;\n          response.breakpoints[query] = matches;\n        });\n        return response;\n      }));\n    }\n    /** Registers a specific query to be listened for. */\n    _registerQuery(query) {\n      // Only set up a new MediaQueryList if it is not already being listened for.\n      if (this._queries.has(query)) {\n        return this._queries.get(query);\n      }\n      const mql = this._mediaMatcher.matchMedia(query);\n      // Create callback for match changes and add it is as a listener.\n      const queryObservable = new Observable(observer => {\n        // Listener callback methods are wrapped to be placed back in ngZone. Callbacks must be placed\n        // back into the zone because matchMedia is only included in Zone.js by loading the\n        // webapis-media-query.js file alongside the zone.js file.  Additionally, some browsers do not\n        // have MediaQueryList inherit from EventTarget, which causes inconsistencies in how Zone.js\n        // patches it.\n        const handler = e => this._zone.run(() => observer.next(e));\n        mql.addListener(handler);\n        return () => {\n          mql.removeListener(handler);\n        };\n      }).pipe(startWith(mql), map(({\n        matches\n      }) => ({\n        query,\n        matches\n      })), takeUntil(this._destroySubject));\n      // Add the MediaQueryList to the set of queries.\n      const output = {\n        observable: queryObservable,\n        mql\n      };\n      this._queries.set(query, output);\n      return output;\n    }\n    static {\n      this.ɵfac = function BreakpointObserver_Factory(t) {\n        return new (t || BreakpointObserver)(i0.ɵɵinject(MediaMatcher), i0.ɵɵinject(i0.NgZone));\n      };\n    }\n    static {\n      this.ɵprov = /* @__PURE__ */i0.ɵɵdefineInjectable({\n        token: BreakpointObserver,\n        factory: BreakpointObserver.ɵfac,\n        providedIn: 'root'\n      });\n    }\n  }\n  return BreakpointObserver;\n})();\n/*#__PURE__*/(() => {\n  (typeof ngDevMode === \"undefined\" || ngDevMode) && void 0;\n})();\n/**\n * Split each query string into separate query strings if two queries are provided as comma\n * separated.\n */\nfunction splitQueries(queries) {\n  return queries.map(query => query.split(',')).reduce((a1, a2) => a1.concat(a2)).map(query => query.trim());\n}\n\n// PascalCase is being used as Breakpoints is used like an enum.\n// tslint:disable-next-line:variable-name\nconst Breakpoints = {\n  XSmall: '(max-width: 599.98px)',\n  Small: '(min-width: 600px) and (max-width: 959.98px)',\n  Medium: '(min-width: 960px) and (max-width: 1279.98px)',\n  Large: '(min-width: 1280px) and (max-width: 1919.98px)',\n  XLarge: '(min-width: 1920px)',\n  Handset: '(max-width: 599.98px) and (orientation: portrait), ' + '(max-width: 959.98px) and (orientation: landscape)',\n  Tablet: '(min-width: 600px) and (max-width: 839.98px) and (orientation: portrait), ' + '(min-width: 960px) and (max-width: 1279.98px) and (orientation: landscape)',\n  Web: '(min-width: 840px) and (orientation: portrait), ' + '(min-width: 1280px) and (orientation: landscape)',\n  HandsetPortrait: '(max-width: 599.98px) and (orientation: portrait)',\n  TabletPortrait: '(min-width: 600px) and (max-width: 839.98px) and (orientation: portrait)',\n  WebPortrait: '(min-width: 840px) and (orientation: portrait)',\n  HandsetLandscape: '(max-width: 959.98px) and (orientation: landscape)',\n  TabletLandscape: '(min-width: 960px) and (max-width: 1279.98px) and (orientation: landscape)',\n  WebLandscape: '(min-width: 1280px) and (orientation: landscape)'\n};\n\n/**\n * Generated bundle index. Do not edit.\n */\n\nexport { BreakpointObserver, Breakpoints, LayoutModule, MediaMatcher };\n","import { DOCUMENT } from '@angular/common';\nimport * as i0 from '@angular/core';\nimport { inject, APP_ID, Injectable, Inject, QueryList, booleanAttribute, Directive, Input, InjectionToken, Optional, EventEmitter, Output, NgModule } from '@angular/core';\nimport * as i1 from '@angular/cdk/platform';\nimport { Platform, _getFocusedElementPierceShadowDom, normalizePassiveListenerOptions, _getEventTarget, _getShadowRoot } from '@angular/cdk/platform';\nimport { Subject, Subscription, BehaviorSubject, of } from 'rxjs';\nimport { hasModifierKey, A, Z, ZERO, NINE, PAGE_DOWN, PAGE_UP, END, HOME, LEFT_ARROW, RIGHT_ARROW, UP_ARROW, DOWN_ARROW, TAB, ALT, CONTROL, MAC_META, META, SHIFT } from '@angular/cdk/keycodes';\nimport { tap, debounceTime, filter, map, take, skip, distinctUntilChanged, takeUntil } from 'rxjs/operators';\nimport * as i1$1 from '@angular/cdk/observers';\nimport { ObserversModule } from '@angular/cdk/observers';\nimport { coerceElement } from '@angular/cdk/coercion';\nimport { BreakpointObserver } from '@angular/cdk/layout';\n\n/** IDs are delimited by an empty space, as per the spec. */\nconst ID_DELIMITER = ' ';\n/**\n * Adds the given ID to the specified ARIA attribute on an element.\n * Used for attributes such as aria-labelledby, aria-owns, etc.\n */\nfunction addAriaReferencedId(el, attr, id) {\n  const ids = getAriaReferenceIds(el, attr);\n  id = id.trim();\n  if (ids.some(existingId => existingId.trim() === id)) {\n    return;\n  }\n  ids.push(id);\n  el.setAttribute(attr, ids.join(ID_DELIMITER));\n}\n/**\n * Removes the given ID from the specified ARIA attribute on an element.\n * Used for attributes such as aria-labelledby, aria-owns, etc.\n */\nfunction removeAriaReferencedId(el, attr, id) {\n  const ids = getAriaReferenceIds(el, attr);\n  id = id.trim();\n  const filteredIds = ids.filter(val => val !== id);\n  if (filteredIds.length) {\n    el.setAttribute(attr, filteredIds.join(ID_DELIMITER));\n  } else {\n    el.removeAttribute(attr);\n  }\n}\n/**\n * Gets the list of IDs referenced by the given ARIA attribute on an element.\n * Used for attributes such as aria-labelledby, aria-owns, etc.\n */\nfunction getAriaReferenceIds(el, attr) {\n  // Get string array of all individual ids (whitespace delimited) in the attribute value\n  const attrValue = el.getAttribute(attr);\n  return attrValue?.match(/\\S+/g) ?? [];\n}\n\n/**\n * ID used for the body container where all messages are appended.\n * @deprecated No longer being used. To be removed.\n * @breaking-change 14.0.0\n */\nconst MESSAGES_CONTAINER_ID = 'cdk-describedby-message-container';\n/**\n * ID prefix used for each created message element.\n * @deprecated To be turned into a private variable.\n * @breaking-change 14.0.0\n */\nconst CDK_DESCRIBEDBY_ID_PREFIX = 'cdk-describedby-message';\n/**\n * Attribute given to each host element that is described by a message element.\n * @deprecated To be turned into a private variable.\n * @breaking-change 14.0.0\n */\nconst CDK_DESCRIBEDBY_HOST_ATTRIBUTE = 'cdk-describedby-host';\n/** Global incremental identifier for each registered message element. */\nlet nextId = 0;\n/**\n * Utility that creates visually hidden elements with a message content. Useful for elements that\n * want to use aria-describedby to further describe themselves without adding additional visual\n * content.\n */\nlet AriaDescriber = /*#__PURE__*/(() => {\n  class AriaDescriber {\n    constructor(_document,\n    /**\n     * @deprecated To be turned into a required parameter.\n     * @breaking-change 14.0.0\n     */\n    _platform) {\n      this._platform = _platform;\n      /** Map of all registered message elements that have been placed into the document. */\n      this._messageRegistry = new Map();\n      /** Container for all registered messages. */\n      this._messagesContainer = null;\n      /** Unique ID for the service. */\n      this._id = `${nextId++}`;\n      this._document = _document;\n      this._id = inject(APP_ID) + '-' + nextId++;\n    }\n    describe(hostElement, message, role) {\n      if (!this._canBeDescribed(hostElement, message)) {\n        return;\n      }\n      const key = getKey(message, role);\n      if (typeof message !== 'string') {\n        // We need to ensure that the element has an ID.\n        setMessageId(message, this._id);\n        this._messageRegistry.set(key, {\n          messageElement: message,\n          referenceCount: 0\n        });\n      } else if (!this._messageRegistry.has(key)) {\n        this._createMessageElement(message, role);\n      }\n      if (!this._isElementDescribedByMessage(hostElement, key)) {\n        this._addMessageReference(hostElement, key);\n      }\n    }\n    removeDescription(hostElement, message, role) {\n      if (!message || !this._isElementNode(hostElement)) {\n        return;\n      }\n      const key = getKey(message, role);\n      if (this._isElementDescribedByMessage(hostElement, key)) {\n        this._removeMessageReference(hostElement, key);\n      }\n      // If the message is a string, it means that it's one that we created for the\n      // consumer so we can remove it safely, otherwise we should leave it in place.\n      if (typeof message === 'string') {\n        const registeredMessage = this._messageRegistry.get(key);\n        if (registeredMessage && registeredMessage.referenceCount === 0) {\n          this._deleteMessageElement(key);\n        }\n      }\n      if (this._messagesContainer?.childNodes.length === 0) {\n        this._messagesContainer.remove();\n        this._messagesContainer = null;\n      }\n    }\n    /** Unregisters all created message elements and removes the message container. */\n    ngOnDestroy() {\n      const describedElements = this._document.querySelectorAll(`[${CDK_DESCRIBEDBY_HOST_ATTRIBUTE}=\"${this._id}\"]`);\n      for (let i = 0; i < describedElements.length; i++) {\n        this._removeCdkDescribedByReferenceIds(describedElements[i]);\n        describedElements[i].removeAttribute(CDK_DESCRIBEDBY_HOST_ATTRIBUTE);\n      }\n      this._messagesContainer?.remove();\n      this._messagesContainer = null;\n      this._messageRegistry.clear();\n    }\n    /**\n     * Creates a new element in the visually hidden message container element with the message\n     * as its content and adds it to the message registry.\n     */\n    _createMessageElement(message, role) {\n      const messageElement = this._document.createElement('div');\n      setMessageId(messageElement, this._id);\n      messageElement.textContent = message;\n      if (role) {\n        messageElement.setAttribute('role', role);\n      }\n      this._createMessagesContainer();\n      this._messagesContainer.appendChild(messageElement);\n      this._messageRegistry.set(getKey(message, role), {\n        messageElement,\n        referenceCount: 0\n      });\n    }\n    /** Deletes the message element from the global messages container. */\n    _deleteMessageElement(key) {\n      this._messageRegistry.get(key)?.messageElement?.remove();\n      this._messageRegistry.delete(key);\n    }\n    /** Creates the global container for all aria-describedby messages. */\n    _createMessagesContainer() {\n      if (this._messagesContainer) {\n        return;\n      }\n      const containerClassName = 'cdk-describedby-message-container';\n      const serverContainers = this._document.querySelectorAll(`.${containerClassName}[platform=\"server\"]`);\n      for (let i = 0; i < serverContainers.length; i++) {\n        // When going from the server to the client, we may end up in a situation where there's\n        // already a container on the page, but we don't have a reference to it. Clear the\n        // old container so we don't get duplicates. Doing this, instead of emptying the previous\n        // container, should be slightly faster.\n        serverContainers[i].remove();\n      }\n      const messagesContainer = this._document.createElement('div');\n      // We add `visibility: hidden` in order to prevent text in this container from\n      // being searchable by the browser's Ctrl + F functionality.\n      // Screen-readers will still read the description for elements with aria-describedby even\n      // when the description element is not visible.\n      messagesContainer.style.visibility = 'hidden';\n      // Even though we use `visibility: hidden`, we still apply `cdk-visually-hidden` so that\n      // the description element doesn't impact page layout.\n      messagesContainer.classList.add(containerClassName);\n      messagesContainer.classList.add('cdk-visually-hidden');\n      // @breaking-change 14.0.0 Remove null check for `_platform`.\n      if (this._platform && !this._platform.isBrowser) {\n        messagesContainer.setAttribute('platform', 'server');\n      }\n      this._document.body.appendChild(messagesContainer);\n      this._messagesContainer = messagesContainer;\n    }\n    /** Removes all cdk-describedby messages that are hosted through the element. */\n    _removeCdkDescribedByReferenceIds(element) {\n      // Remove all aria-describedby reference IDs that are prefixed by CDK_DESCRIBEDBY_ID_PREFIX\n      const originalReferenceIds = getAriaReferenceIds(element, 'aria-describedby').filter(id => id.indexOf(CDK_DESCRIBEDBY_ID_PREFIX) != 0);\n      element.setAttribute('aria-describedby', originalReferenceIds.join(' '));\n    }\n    /**\n     * Adds a message reference to the element using aria-describedby and increments the registered\n     * message's reference count.\n     */\n    _addMessageReference(element, key) {\n      const registeredMessage = this._messageRegistry.get(key);\n      // Add the aria-describedby reference and set the\n      // describedby_host attribute to mark the element.\n      addAriaReferencedId(element, 'aria-describedby', registeredMessage.messageElement.id);\n      element.setAttribute(CDK_DESCRIBEDBY_HOST_ATTRIBUTE, this._id);\n      registeredMessage.referenceCount++;\n    }\n    /**\n     * Removes a message reference from the element using aria-describedby\n     * and decrements the registered message's reference count.\n     */\n    _removeMessageReference(element, key) {\n      const registeredMessage = this._messageRegistry.get(key);\n      registeredMessage.referenceCount--;\n      removeAriaReferencedId(element, 'aria-describedby', registeredMessage.messageElement.id);\n      element.removeAttribute(CDK_DESCRIBEDBY_HOST_ATTRIBUTE);\n    }\n    /** Returns true if the element has been described by the provided message ID. */\n    _isElementDescribedByMessage(element, key) {\n      const referenceIds = getAriaReferenceIds(element, 'aria-describedby');\n      const registeredMessage = this._messageRegistry.get(key);\n      const messageId = registeredMessage && registeredMessage.messageElement.id;\n      return !!messageId && referenceIds.indexOf(messageId) != -1;\n    }\n    /** Determines whether a message can be described on a particular element. */\n    _canBeDescribed(element, message) {\n      if (!this._isElementNode(element)) {\n        return false;\n      }\n      if (message && typeof message === 'object') {\n        // We'd have to make some assumptions about the description element's text, if the consumer\n        // passed in an element. Assume that if an element is passed in, the consumer has verified\n        // that it can be used as a description.\n        return true;\n      }\n      const trimmedMessage = message == null ? '' : `${message}`.trim();\n      const ariaLabel = element.getAttribute('aria-label');\n      // We shouldn't set descriptions if they're exactly the same as the `aria-label` of the\n      // element, because screen readers will end up reading out the same text twice in a row.\n      return trimmedMessage ? !ariaLabel || ariaLabel.trim() !== trimmedMessage : false;\n    }\n    /** Checks whether a node is an Element node. */\n    _isElementNode(element) {\n      return element.nodeType === this._document.ELEMENT_NODE;\n    }\n    static {\n      this.ɵfac = function AriaDescriber_Factory(t) {\n        return new (t || AriaDescriber)(i0.ɵɵinject(DOCUMENT), i0.ɵɵinject(i1.Platform));\n      };\n    }\n    static {\n      this.ɵprov = /* @__PURE__ */i0.ɵɵdefineInjectable({\n        token: AriaDescriber,\n        factory: AriaDescriber.ɵfac,\n        providedIn: 'root'\n      });\n    }\n  }\n  return AriaDescriber;\n})();\n/*#__PURE__*/(() => {\n  (typeof ngDevMode === \"undefined\" || ngDevMode) && void 0;\n})();\n/** Gets a key that can be used to look messages up in the registry. */\nfunction getKey(message, role) {\n  return typeof message === 'string' ? `${role || ''}/${message}` : message;\n}\n/** Assigns a unique ID to an element, if it doesn't have one already. */\nfunction setMessageId(element, serviceId) {\n  if (!element.id) {\n    element.id = `${CDK_DESCRIBEDBY_ID_PREFIX}-${serviceId}-${nextId++}`;\n  }\n}\n\n/**\n * This class manages keyboard events for selectable lists. If you pass it a query list\n * of items, it will set the active item correctly when arrow events occur.\n */\nclass ListKeyManager {\n  constructor(_items) {\n    this._items = _items;\n    this._activeItemIndex = -1;\n    this._activeItem = null;\n    this._wrap = false;\n    this._letterKeyStream = new Subject();\n    this._typeaheadSubscription = Subscription.EMPTY;\n    this._vertical = true;\n    this._allowedModifierKeys = [];\n    this._homeAndEnd = false;\n    this._pageUpAndDown = {\n      enabled: false,\n      delta: 10\n    };\n    /**\n     * Predicate function that can be used to check whether an item should be skipped\n     * by the key manager. By default, disabled items are skipped.\n     */\n    this._skipPredicateFn = item => item.disabled;\n    // Buffer for the letters that the user has pressed when the typeahead option is turned on.\n    this._pressedLetters = [];\n    /**\n     * Stream that emits any time the TAB key is pressed, so components can react\n     * when focus is shifted off of the list.\n     */\n    this.tabOut = new Subject();\n    /** Stream that emits whenever the active item of the list manager changes. */\n    this.change = new Subject();\n    // We allow for the items to be an array because, in some cases, the consumer may\n    // not have access to a QueryList of the items they want to manage (e.g. when the\n    // items aren't being collected via `ViewChildren` or `ContentChildren`).\n    if (_items instanceof QueryList) {\n      this._itemChangesSubscription = _items.changes.subscribe(newItems => {\n        if (this._activeItem) {\n          const itemArray = newItems.toArray();\n          const newIndex = itemArray.indexOf(this._activeItem);\n          if (newIndex > -1 && newIndex !== this._activeItemIndex) {\n            this._activeItemIndex = newIndex;\n          }\n        }\n      });\n    }\n  }\n  /**\n   * Sets the predicate function that determines which items should be skipped by the\n   * list key manager.\n   * @param predicate Function that determines whether the given item should be skipped.\n   */\n  skipPredicate(predicate) {\n    this._skipPredicateFn = predicate;\n    return this;\n  }\n  /**\n   * Configures wrapping mode, which determines whether the active item will wrap to\n   * the other end of list when there are no more items in the given direction.\n   * @param shouldWrap Whether the list should wrap when reaching the end.\n   */\n  withWrap(shouldWrap = true) {\n    this._wrap = shouldWrap;\n    return this;\n  }\n  /**\n   * Configures whether the key manager should be able to move the selection vertically.\n   * @param enabled Whether vertical selection should be enabled.\n   */\n  withVerticalOrientation(enabled = true) {\n    this._vertical = enabled;\n    return this;\n  }\n  /**\n   * Configures the key manager to move the selection horizontally.\n   * Passing in `null` will disable horizontal movement.\n   * @param direction Direction in which the selection can be moved.\n   */\n  withHorizontalOrientation(direction) {\n    this._horizontal = direction;\n    return this;\n  }\n  /**\n   * Modifier keys which are allowed to be held down and whose default actions will be prevented\n   * as the user is pressing the arrow keys. Defaults to not allowing any modifier keys.\n   */\n  withAllowedModifierKeys(keys) {\n    this._allowedModifierKeys = keys;\n    return this;\n  }\n  /**\n   * Turns on typeahead mode which allows users to set the active item by typing.\n   * @param debounceInterval Time to wait after the last keystroke before setting the active item.\n   */\n  withTypeAhead(debounceInterval = 200) {\n    if ((typeof ngDevMode === 'undefined' || ngDevMode) && this._items.length && this._items.some(item => typeof item.getLabel !== 'function')) {\n      throw Error('ListKeyManager items in typeahead mode must implement the `getLabel` method.');\n    }\n    this._typeaheadSubscription.unsubscribe();\n    // Debounce the presses of non-navigational keys, collect the ones that correspond to letters\n    // and convert those letters back into a string. Afterwards find the first item that starts\n    // with that string and select it.\n    this._typeaheadSubscription = this._letterKeyStream.pipe(tap(letter => this._pressedLetters.push(letter)), debounceTime(debounceInterval), filter(() => this._pressedLetters.length > 0), map(() => this._pressedLetters.join(''))).subscribe(inputString => {\n      const items = this._getItemsArray();\n      // Start at 1 because we want to start searching at the item immediately\n      // following the current active item.\n      for (let i = 1; i < items.length + 1; i++) {\n        const index = (this._activeItemIndex + i) % items.length;\n        const item = items[index];\n        if (!this._skipPredicateFn(item) && item.getLabel().toUpperCase().trim().indexOf(inputString) === 0) {\n          this.setActiveItem(index);\n          break;\n        }\n      }\n      this._pressedLetters = [];\n    });\n    return this;\n  }\n  /** Cancels the current typeahead sequence. */\n  cancelTypeahead() {\n    this._pressedLetters = [];\n    return this;\n  }\n  /**\n   * Configures the key manager to activate the first and last items\n   * respectively when the Home or End key is pressed.\n   * @param enabled Whether pressing the Home or End key activates the first/last item.\n   */\n  withHomeAndEnd(enabled = true) {\n    this._homeAndEnd = enabled;\n    return this;\n  }\n  /**\n   * Configures the key manager to activate every 10th, configured or first/last element in up/down direction\n   * respectively when the Page-Up or Page-Down key is pressed.\n   * @param enabled Whether pressing the Page-Up or Page-Down key activates the first/last item.\n   * @param delta Whether pressing the Home or End key activates the first/last item.\n   */\n  withPageUpDown(enabled = true, delta = 10) {\n    this._pageUpAndDown = {\n      enabled,\n      delta\n    };\n    return this;\n  }\n  setActiveItem(item) {\n    const previousActiveItem = this._activeItem;\n    this.updateActiveItem(item);\n    if (this._activeItem !== previousActiveItem) {\n      this.change.next(this._activeItemIndex);\n    }\n  }\n  /**\n   * Sets the active item depending on the key event passed in.\n   * @param event Keyboard event to be used for determining which element should be active.\n   */\n  onKeydown(event) {\n    const keyCode = event.keyCode;\n    const modifiers = ['altKey', 'ctrlKey', 'metaKey', 'shiftKey'];\n    const isModifierAllowed = modifiers.every(modifier => {\n      return !event[modifier] || this._allowedModifierKeys.indexOf(modifier) > -1;\n    });\n    switch (keyCode) {\n      case TAB:\n        this.tabOut.next();\n        return;\n      case DOWN_ARROW:\n        if (this._vertical && isModifierAllowed) {\n          this.setNextItemActive();\n          break;\n        } else {\n          return;\n        }\n      case UP_ARROW:\n        if (this._vertical && isModifierAllowed) {\n          this.setPreviousItemActive();\n          break;\n        } else {\n          return;\n        }\n      case RIGHT_ARROW:\n        if (this._horizontal && isModifierAllowed) {\n          this._horizontal === 'rtl' ? this.setPreviousItemActive() : this.setNextItemActive();\n          break;\n        } else {\n          return;\n        }\n      case LEFT_ARROW:\n        if (this._horizontal && isModifierAllowed) {\n          this._horizontal === 'rtl' ? this.setNextItemActive() : this.setPreviousItemActive();\n          break;\n        } else {\n          return;\n        }\n      case HOME:\n        if (this._homeAndEnd && isModifierAllowed) {\n          this.setFirstItemActive();\n          break;\n        } else {\n          return;\n        }\n      case END:\n        if (this._homeAndEnd && isModifierAllowed) {\n          this.setLastItemActive();\n          break;\n        } else {\n          return;\n        }\n      case PAGE_UP:\n        if (this._pageUpAndDown.enabled && isModifierAllowed) {\n          const targetIndex = this._activeItemIndex - this._pageUpAndDown.delta;\n          this._setActiveItemByIndex(targetIndex > 0 ? targetIndex : 0, 1);\n          break;\n        } else {\n          return;\n        }\n      case PAGE_DOWN:\n        if (this._pageUpAndDown.enabled && isModifierAllowed) {\n          const targetIndex = this._activeItemIndex + this._pageUpAndDown.delta;\n          const itemsLength = this._getItemsArray().length;\n          this._setActiveItemByIndex(targetIndex < itemsLength ? targetIndex : itemsLength - 1, -1);\n          break;\n        } else {\n          return;\n        }\n      default:\n        if (isModifierAllowed || hasModifierKey(event, 'shiftKey')) {\n          // Attempt to use the `event.key` which also maps it to the user's keyboard language,\n          // otherwise fall back to resolving alphanumeric characters via the keyCode.\n          if (event.key && event.key.length === 1) {\n            this._letterKeyStream.next(event.key.toLocaleUpperCase());\n          } else if (keyCode >= A && keyCode <= Z || keyCode >= ZERO && keyCode <= NINE) {\n            this._letterKeyStream.next(String.fromCharCode(keyCode));\n          }\n        }\n        // Note that we return here, in order to avoid preventing\n        // the default action of non-navigational keys.\n        return;\n    }\n    this._pressedLetters = [];\n    event.preventDefault();\n  }\n  /** Index of the currently active item. */\n  get activeItemIndex() {\n    return this._activeItemIndex;\n  }\n  /** The active item. */\n  get activeItem() {\n    return this._activeItem;\n  }\n  /** Gets whether the user is currently typing into the manager using the typeahead feature. */\n  isTyping() {\n    return this._pressedLetters.length > 0;\n  }\n  /** Sets the active item to the first enabled item in the list. */\n  setFirstItemActive() {\n    this._setActiveItemByIndex(0, 1);\n  }\n  /** Sets the active item to the last enabled item in the list. */\n  setLastItemActive() {\n    this._setActiveItemByIndex(this._items.length - 1, -1);\n  }\n  /** Sets the active item to the next enabled item in the list. */\n  setNextItemActive() {\n    this._activeItemIndex < 0 ? this.setFirstItemActive() : this._setActiveItemByDelta(1);\n  }\n  /** Sets the active item to a previous enabled item in the list. */\n  setPreviousItemActive() {\n    this._activeItemIndex < 0 && this._wrap ? this.setLastItemActive() : this._setActiveItemByDelta(-1);\n  }\n  updateActiveItem(item) {\n    const itemArray = this._getItemsArray();\n    const index = typeof item === 'number' ? item : itemArray.indexOf(item);\n    const activeItem = itemArray[index];\n    // Explicitly check for `null` and `undefined` because other falsy values are valid.\n    this._activeItem = activeItem == null ? null : activeItem;\n    this._activeItemIndex = index;\n  }\n  /** Cleans up the key manager. */\n  destroy() {\n    this._typeaheadSubscription.unsubscribe();\n    this._itemChangesSubscription?.unsubscribe();\n    this._letterKeyStream.complete();\n    this.tabOut.complete();\n    this.change.complete();\n    this._pressedLetters = [];\n  }\n  /**\n   * This method sets the active item, given a list of items and the delta between the\n   * currently active item and the new active item. It will calculate differently\n   * depending on whether wrap mode is turned on.\n   */\n  _setActiveItemByDelta(delta) {\n    this._wrap ? this._setActiveInWrapMode(delta) : this._setActiveInDefaultMode(delta);\n  }\n  /**\n   * Sets the active item properly given \"wrap\" mode. In other words, it will continue to move\n   * down the list until it finds an item that is not disabled, and it will wrap if it\n   * encounters either end of the list.\n   */\n  _setActiveInWrapMode(delta) {\n    const items = this._getItemsArray();\n    for (let i = 1; i <= items.length; i++) {\n      const index = (this._activeItemIndex + delta * i + items.length) % items.length;\n      const item = items[index];\n      if (!this._skipPredicateFn(item)) {\n        this.setActiveItem(index);\n        return;\n      }\n    }\n  }\n  /**\n   * Sets the active item properly given the default mode. In other words, it will\n   * continue to move down the list until it finds an item that is not disabled. If\n   * it encounters either end of the list, it will stop and not wrap.\n   */\n  _setActiveInDefaultMode(delta) {\n    this._setActiveItemByIndex(this._activeItemIndex + delta, delta);\n  }\n  /**\n   * Sets the active item to the first enabled item starting at the index specified. If the\n   * item is disabled, it will move in the fallbackDelta direction until it either\n   * finds an enabled item or encounters the end of the list.\n   */\n  _setActiveItemByIndex(index, fallbackDelta) {\n    const items = this._getItemsArray();\n    if (!items[index]) {\n      return;\n    }\n    while (this._skipPredicateFn(items[index])) {\n      index += fallbackDelta;\n      if (!items[index]) {\n        return;\n      }\n    }\n    this.setActiveItem(index);\n  }\n  /** Returns the items as an array. */\n  _getItemsArray() {\n    return this._items instanceof QueryList ? this._items.toArray() : this._items;\n  }\n}\nclass ActiveDescendantKeyManager extends ListKeyManager {\n  setActiveItem(index) {\n    if (this.activeItem) {\n      this.activeItem.setInactiveStyles();\n    }\n    super.setActiveItem(index);\n    if (this.activeItem) {\n      this.activeItem.setActiveStyles();\n    }\n  }\n}\nclass FocusKeyManager extends ListKeyManager {\n  constructor() {\n    super(...arguments);\n    this._origin = 'program';\n  }\n  /**\n   * Sets the focus origin that will be passed in to the items for any subsequent `focus` calls.\n   * @param origin Focus origin to be used when focusing items.\n   */\n  setFocusOrigin(origin) {\n    this._origin = origin;\n    return this;\n  }\n  setActiveItem(item) {\n    super.setActiveItem(item);\n    if (this.activeItem) {\n      this.activeItem.focus(this._origin);\n    }\n  }\n}\n\n/**\n * Configuration for the isFocusable method.\n */\nclass IsFocusableConfig {\n  constructor() {\n    /**\n     * Whether to count an element as focusable even if it is not currently visible.\n     */\n    this.ignoreVisibility = false;\n  }\n}\n// The InteractivityChecker leans heavily on the ally.js accessibility utilities.\n// Methods like `isTabbable` are only covering specific edge-cases for the browsers which are\n// supported.\n/**\n * Utility for checking the interactivity of an element, such as whether it is focusable or\n * tabbable.\n */\nlet InteractivityChecker = /*#__PURE__*/(() => {\n  class InteractivityChecker {\n    constructor(_platform) {\n      this._platform = _platform;\n    }\n    /**\n     * Gets whether an element is disabled.\n     *\n     * @param element Element to be checked.\n     * @returns Whether the element is disabled.\n     */\n    isDisabled(element) {\n      // This does not capture some cases, such as a non-form control with a disabled attribute or\n      // a form control inside of a disabled form, but should capture the most common cases.\n      return element.hasAttribute('disabled');\n    }\n    /**\n     * Gets whether an element is visible for the purposes of interactivity.\n     *\n     * This will capture states like `display: none` and `visibility: hidden`, but not things like\n     * being clipped by an `overflow: hidden` parent or being outside the viewport.\n     *\n     * @returns Whether the element is visible.\n     */\n    isVisible(element) {\n      return hasGeometry(element) && getComputedStyle(element).visibility === 'visible';\n    }\n    /**\n     * Gets whether an element can be reached via Tab key.\n     * Assumes that the element has already been checked with isFocusable.\n     *\n     * @param element Element to be checked.\n     * @returns Whether the element is tabbable.\n     */\n    isTabbable(element) {\n      // Nothing is tabbable on the server 😎\n      if (!this._platform.isBrowser) {\n        return false;\n      }\n      const frameElement = getFrameElement(getWindow(element));\n      if (frameElement) {\n        // Frame elements inherit their tabindex onto all child elements.\n        if (getTabIndexValue(frameElement) === -1) {\n          return false;\n        }\n        // Browsers disable tabbing to an element inside of an invisible frame.\n        if (!this.isVisible(frameElement)) {\n          return false;\n        }\n      }\n      let nodeName = element.nodeName.toLowerCase();\n      let tabIndexValue = getTabIndexValue(element);\n      if (element.hasAttribute('contenteditable')) {\n        return tabIndexValue !== -1;\n      }\n      if (nodeName === 'iframe' || nodeName === 'object') {\n        // The frame or object's content may be tabbable depending on the content, but it's\n        // not possibly to reliably detect the content of the frames. We always consider such\n        // elements as non-tabbable.\n        return false;\n      }\n      // In iOS, the browser only considers some specific elements as tabbable.\n      if (this._platform.WEBKIT && this._platform.IOS && !isPotentiallyTabbableIOS(element)) {\n        return false;\n      }\n      if (nodeName === 'audio') {\n        // Audio elements without controls enabled are never tabbable, regardless\n        // of the tabindex attribute explicitly being set.\n        if (!element.hasAttribute('controls')) {\n          return false;\n        }\n        // Audio elements with controls are by default tabbable unless the\n        // tabindex attribute is set to `-1` explicitly.\n        return tabIndexValue !== -1;\n      }\n      if (nodeName === 'video') {\n        // For all video elements, if the tabindex attribute is set to `-1`, the video\n        // is not tabbable. Note: We cannot rely on the default `HTMLElement.tabIndex`\n        // property as that one is set to `-1` in Chrome, Edge and Safari v13.1. The\n        // tabindex attribute is the source of truth here.\n        if (tabIndexValue === -1) {\n          return false;\n        }\n        // If the tabindex is explicitly set, and not `-1` (as per check before), the\n        // video element is always tabbable (regardless of whether it has controls or not).\n        if (tabIndexValue !== null) {\n          return true;\n        }\n        // Otherwise (when no explicit tabindex is set), a video is only tabbable if it\n        // has controls enabled. Firefox is special as videos are always tabbable regardless\n        // of whether there are controls or not.\n        return this._platform.FIREFOX || element.hasAttribute('controls');\n      }\n      return element.tabIndex >= 0;\n    }\n    /**\n     * Gets whether an element can be focused by the user.\n     *\n     * @param element Element to be checked.\n     * @param config The config object with options to customize this method's behavior\n     * @returns Whether the element is focusable.\n     */\n    isFocusable(element, config) {\n      // Perform checks in order of left to most expensive.\n      // Again, naive approach that does not capture many edge cases and browser quirks.\n      return isPotentiallyFocusable(element) && !this.isDisabled(element) && (config?.ignoreVisibility || this.isVisible(element));\n    }\n    static {\n      this.ɵfac = function InteractivityChecker_Factory(t) {\n        return new (t || InteractivityChecker)(i0.ɵɵinject(i1.Platform));\n      };\n    }\n    static {\n      this.ɵprov = /* @__PURE__ */i0.ɵɵdefineInjectable({\n        token: InteractivityChecker,\n        factory: InteractivityChecker.ɵfac,\n        providedIn: 'root'\n      });\n    }\n  }\n  return InteractivityChecker;\n})();\n/*#__PURE__*/(() => {\n  (typeof ngDevMode === \"undefined\" || ngDevMode) && void 0;\n})();\n/**\n * Returns the frame element from a window object. Since browsers like MS Edge throw errors if\n * the frameElement property is being accessed from a different host address, this property\n * should be accessed carefully.\n */\nfunction getFrameElement(window) {\n  try {\n    return window.frameElement;\n  } catch {\n    return null;\n  }\n}\n/** Checks whether the specified element has any geometry / rectangles. */\nfunction hasGeometry(element) {\n  // Use logic from jQuery to check for an invisible element.\n  // See https://github.com/jquery/jquery/blob/master/src/css/hiddenVisibleSelectors.js#L12\n  return !!(element.offsetWidth || element.offsetHeight || typeof element.getClientRects === 'function' && element.getClientRects().length);\n}\n/** Gets whether an element's  */\nfunction isNativeFormElement(element) {\n  let nodeName = element.nodeName.toLowerCase();\n  return nodeName === 'input' || nodeName === 'select' || nodeName === 'button' || nodeName === 'textarea';\n}\n/** Gets whether an element is an `<input type=\"hidden\">`. */\nfunction isHiddenInput(element) {\n  return isInputElement(element) && element.type == 'hidden';\n}\n/** Gets whether an element is an anchor that has an href attribute. */\nfunction isAnchorWithHref(element) {\n  return isAnchorElement(element) && element.hasAttribute('href');\n}\n/** Gets whether an element is an input element. */\nfunction isInputElement(element) {\n  return element.nodeName.toLowerCase() == 'input';\n}\n/** Gets whether an element is an anchor element. */\nfunction isAnchorElement(element) {\n  return element.nodeName.toLowerCase() == 'a';\n}\n/** Gets whether an element has a valid tabindex. */\nfunction hasValidTabIndex(element) {\n  if (!element.hasAttribute('tabindex') || element.tabIndex === undefined) {\n    return false;\n  }\n  let tabIndex = element.getAttribute('tabindex');\n  return !!(tabIndex && !isNaN(parseInt(tabIndex, 10)));\n}\n/**\n * Returns the parsed tabindex from the element attributes instead of returning the\n * evaluated tabindex from the browsers defaults.\n */\nfunction getTabIndexValue(element) {\n  if (!hasValidTabIndex(element)) {\n    return null;\n  }\n  // See browser issue in Gecko https://bugzilla.mozilla.org/show_bug.cgi?id=1128054\n  const tabIndex = parseInt(element.getAttribute('tabindex') || '', 10);\n  return isNaN(tabIndex) ? -1 : tabIndex;\n}\n/** Checks whether the specified element is potentially tabbable on iOS */\nfunction isPotentiallyTabbableIOS(element) {\n  let nodeName = element.nodeName.toLowerCase();\n  let inputType = nodeName === 'input' && element.type;\n  return inputType === 'text' || inputType === 'password' || nodeName === 'select' || nodeName === 'textarea';\n}\n/**\n * Gets whether an element is potentially focusable without taking current visible/disabled state\n * into account.\n */\nfunction isPotentiallyFocusable(element) {\n  // Inputs are potentially focusable *unless* they're type=\"hidden\".\n  if (isHiddenInput(element)) {\n    return false;\n  }\n  return isNativeFormElement(element) || isAnchorWithHref(element) || element.hasAttribute('contenteditable') || hasValidTabIndex(element);\n}\n/** Gets the parent window of a DOM node with regards of being inside of an iframe. */\nfunction getWindow(node) {\n  // ownerDocument is null if `node` itself *is* a document.\n  return node.ownerDocument && node.ownerDocument.defaultView || window;\n}\n\n/**\n * Class that allows for trapping focus within a DOM element.\n *\n * This class currently uses a relatively simple approach to focus trapping.\n * It assumes that the tab order is the same as DOM order, which is not necessarily true.\n * Things like `tabIndex > 0`, flex `order`, and shadow roots can cause the two to be misaligned.\n *\n * @deprecated Use `ConfigurableFocusTrap` instead.\n * @breaking-change 11.0.0\n */\nclass FocusTrap {\n  /** Whether the focus trap is active. */\n  get enabled() {\n    return this._enabled;\n  }\n  set enabled(value) {\n    this._enabled = value;\n    if (this._startAnchor && this._endAnchor) {\n      this._toggleAnchorTabIndex(value, this._startAnchor);\n      this._toggleAnchorTabIndex(value, this._endAnchor);\n    }\n  }\n  constructor(_element, _checker, _ngZone, _document, deferAnchors = false) {\n    this._element = _element;\n    this._checker = _checker;\n    this._ngZone = _ngZone;\n    this._document = _document;\n    this._hasAttached = false;\n    // Event listeners for the anchors. Need to be regular functions so that we can unbind them later.\n    this.startAnchorListener = () => this.focusLastTabbableElement();\n    this.endAnchorListener = () => this.focusFirstTabbableElement();\n    this._enabled = true;\n    if (!deferAnchors) {\n      this.attachAnchors();\n    }\n  }\n  /** Destroys the focus trap by cleaning up the anchors. */\n  destroy() {\n    const startAnchor = this._startAnchor;\n    const endAnchor = this._endAnchor;\n    if (startAnchor) {\n      startAnchor.removeEventListener('focus', this.startAnchorListener);\n      startAnchor.remove();\n    }\n    if (endAnchor) {\n      endAnchor.removeEventListener('focus', this.endAnchorListener);\n      endAnchor.remove();\n    }\n    this._startAnchor = this._endAnchor = null;\n    this._hasAttached = false;\n  }\n  /**\n   * Inserts the anchors into the DOM. This is usually done automatically\n   * in the constructor, but can be deferred for cases like directives with `*ngIf`.\n   * @returns Whether the focus trap managed to attach successfully. This may not be the case\n   * if the target element isn't currently in the DOM.\n   */\n  attachAnchors() {\n    // If we're not on the browser, there can be no focus to trap.\n    if (this._hasAttached) {\n      return true;\n    }\n    this._ngZone.runOutsideAngular(() => {\n      if (!this._startAnchor) {\n        this._startAnchor = this._createAnchor();\n        this._startAnchor.addEventListener('focus', this.startAnchorListener);\n      }\n      if (!this._endAnchor) {\n        this._endAnchor = this._createAnchor();\n        this._endAnchor.addEventListener('focus', this.endAnchorListener);\n      }\n    });\n    if (this._element.parentNode) {\n      this._element.parentNode.insertBefore(this._startAnchor, this._element);\n      this._element.parentNode.insertBefore(this._endAnchor, this._element.nextSibling);\n      this._hasAttached = true;\n    }\n    return this._hasAttached;\n  }\n  /**\n   * Waits for the zone to stabilize, then focuses the first tabbable element.\n   * @returns Returns a promise that resolves with a boolean, depending\n   * on whether focus was moved successfully.\n   */\n  focusInitialElementWhenReady(options) {\n    return new Promise(resolve => {\n      this._executeOnStable(() => resolve(this.focusInitialElement(options)));\n    });\n  }\n  /**\n   * Waits for the zone to stabilize, then focuses\n   * the first tabbable element within the focus trap region.\n   * @returns Returns a promise that resolves with a boolean, depending\n   * on whether focus was moved successfully.\n   */\n  focusFirstTabbableElementWhenReady(options) {\n    return new Promise(resolve => {\n      this._executeOnStable(() => resolve(this.focusFirstTabbableElement(options)));\n    });\n  }\n  /**\n   * Waits for the zone to stabilize, then focuses\n   * the last tabbable element within the focus trap region.\n   * @returns Returns a promise that resolves with a boolean, depending\n   * on whether focus was moved successfully.\n   */\n  focusLastTabbableElementWhenReady(options) {\n    return new Promise(resolve => {\n      this._executeOnStable(() => resolve(this.focusLastTabbableElement(options)));\n    });\n  }\n  /**\n   * Get the specified boundary element of the trapped region.\n   * @param bound The boundary to get (start or end of trapped region).\n   * @returns The boundary element.\n   */\n  _getRegionBoundary(bound) {\n    // Contains the deprecated version of selector, for temporary backwards comparability.\n    const markers = this._element.querySelectorAll(`[cdk-focus-region-${bound}], ` + `[cdkFocusRegion${bound}], ` + `[cdk-focus-${bound}]`);\n    if (typeof ngDevMode === 'undefined' || ngDevMode) {\n      for (let i = 0; i < markers.length; i++) {\n        // @breaking-change 8.0.0\n        if (markers[i].hasAttribute(`cdk-focus-${bound}`)) {\n          console.warn(`Found use of deprecated attribute 'cdk-focus-${bound}', ` + `use 'cdkFocusRegion${bound}' instead. The deprecated ` + `attribute will be removed in 8.0.0.`, markers[i]);\n        } else if (markers[i].hasAttribute(`cdk-focus-region-${bound}`)) {\n          console.warn(`Found use of deprecated attribute 'cdk-focus-region-${bound}', ` + `use 'cdkFocusRegion${bound}' instead. The deprecated attribute ` + `will be removed in 8.0.0.`, markers[i]);\n        }\n      }\n    }\n    if (bound == 'start') {\n      return markers.length ? markers[0] : this._getFirstTabbableElement(this._element);\n    }\n    return markers.length ? markers[markers.length - 1] : this._getLastTabbableElement(this._element);\n  }\n  /**\n   * Focuses the element that should be focused when the focus trap is initialized.\n   * @returns Whether focus was moved successfully.\n   */\n  focusInitialElement(options) {\n    // Contains the deprecated version of selector, for temporary backwards comparability.\n    const redirectToElement = this._element.querySelector(`[cdk-focus-initial], ` + `[cdkFocusInitial]`);\n    if (redirectToElement) {\n      // @breaking-change 8.0.0\n      if ((typeof ngDevMode === 'undefined' || ngDevMode) && redirectToElement.hasAttribute(`cdk-focus-initial`)) {\n        console.warn(`Found use of deprecated attribute 'cdk-focus-initial', ` + `use 'cdkFocusInitial' instead. The deprecated attribute ` + `will be removed in 8.0.0`, redirectToElement);\n      }\n      // Warn the consumer if the element they've pointed to\n      // isn't focusable, when not in production mode.\n      if ((typeof ngDevMode === 'undefined' || ngDevMode) && !this._checker.isFocusable(redirectToElement)) {\n        console.warn(`Element matching '[cdkFocusInitial]' is not focusable.`, redirectToElement);\n      }\n      if (!this._checker.isFocusable(redirectToElement)) {\n        const focusableChild = this._getFirstTabbableElement(redirectToElement);\n        focusableChild?.focus(options);\n        return !!focusableChild;\n      }\n      redirectToElement.focus(options);\n      return true;\n    }\n    return this.focusFirstTabbableElement(options);\n  }\n  /**\n   * Focuses the first tabbable element within the focus trap region.\n   * @returns Whether focus was moved successfully.\n   */\n  focusFirstTabbableElement(options) {\n    const redirectToElement = this._getRegionBoundary('start');\n    if (redirectToElement) {\n      redirectToElement.focus(options);\n    }\n    return !!redirectToElement;\n  }\n  /**\n   * Focuses the last tabbable element within the focus trap region.\n   * @returns Whether focus was moved successfully.\n   */\n  focusLastTabbableElement(options) {\n    const redirectToElement = this._getRegionBoundary('end');\n    if (redirectToElement) {\n      redirectToElement.focus(options);\n    }\n    return !!redirectToElement;\n  }\n  /**\n   * Checks whether the focus trap has successfully been attached.\n   */\n  hasAttached() {\n    return this._hasAttached;\n  }\n  /** Get the first tabbable element from a DOM subtree (inclusive). */\n  _getFirstTabbableElement(root) {\n    if (this._checker.isFocusable(root) && this._checker.isTabbable(root)) {\n      return root;\n    }\n    const children = root.children;\n    for (let i = 0; i < children.length; i++) {\n      const tabbableChild = children[i].nodeType === this._document.ELEMENT_NODE ? this._getFirstTabbableElement(children[i]) : null;\n      if (tabbableChild) {\n        return tabbableChild;\n      }\n    }\n    return null;\n  }\n  /** Get the last tabbable element from a DOM subtree (inclusive). */\n  _getLastTabbableElement(root) {\n    if (this._checker.isFocusable(root) && this._checker.isTabbable(root)) {\n      return root;\n    }\n    // Iterate in reverse DOM order.\n    const children = root.children;\n    for (let i = children.length - 1; i >= 0; i--) {\n      const tabbableChild = children[i].nodeType === this._document.ELEMENT_NODE ? this._getLastTabbableElement(children[i]) : null;\n      if (tabbableChild) {\n        return tabbableChild;\n      }\n    }\n    return null;\n  }\n  /** Creates an anchor element. */\n  _createAnchor() {\n    const anchor = this._document.createElement('div');\n    this._toggleAnchorTabIndex(this._enabled, anchor);\n    anchor.classList.add('cdk-visually-hidden');\n    anchor.classList.add('cdk-focus-trap-anchor');\n    anchor.setAttribute('aria-hidden', 'true');\n    return anchor;\n  }\n  /**\n   * Toggles the `tabindex` of an anchor, based on the enabled state of the focus trap.\n   * @param isEnabled Whether the focus trap is enabled.\n   * @param anchor Anchor on which to toggle the tabindex.\n   */\n  _toggleAnchorTabIndex(isEnabled, anchor) {\n    // Remove the tabindex completely, rather than setting it to -1, because if the\n    // element has a tabindex, the user might still hit it when navigating with the arrow keys.\n    isEnabled ? anchor.setAttribute('tabindex', '0') : anchor.removeAttribute('tabindex');\n  }\n  /**\n   * Toggles the`tabindex` of both anchors to either trap Tab focus or allow it to escape.\n   * @param enabled: Whether the anchors should trap Tab.\n   */\n  toggleAnchors(enabled) {\n    if (this._startAnchor && this._endAnchor) {\n      this._toggleAnchorTabIndex(enabled, this._startAnchor);\n      this._toggleAnchorTabIndex(enabled, this._endAnchor);\n    }\n  }\n  /** Executes a function when the zone is stable. */\n  _executeOnStable(fn) {\n    if (this._ngZone.isStable) {\n      fn();\n    } else {\n      this._ngZone.onStable.pipe(take(1)).subscribe(fn);\n    }\n  }\n}\n/**\n * Factory that allows easy instantiation of focus traps.\n * @deprecated Use `ConfigurableFocusTrapFactory` instead.\n * @breaking-change 11.0.0\n */\nlet FocusTrapFactory = /*#__PURE__*/(() => {\n  class FocusTrapFactory {\n    constructor(_checker, _ngZone, _document) {\n      this._checker = _checker;\n      this._ngZone = _ngZone;\n      this._document = _document;\n    }\n    /**\n     * Creates a focus-trapped region around the given element.\n     * @param element The element around which focus will be trapped.\n     * @param deferCaptureElements Defers the creation of focus-capturing elements to be done\n     *     manually by the user.\n     * @returns The created focus trap instance.\n     */\n    create(element, deferCaptureElements = false) {\n      return new FocusTrap(element, this._checker, this._ngZone, this._document, deferCaptureElements);\n    }\n    static {\n      this.ɵfac = function FocusTrapFactory_Factory(t) {\n        return new (t || FocusTrapFactory)(i0.ɵɵinject(InteractivityChecker), i0.ɵɵinject(i0.NgZone), i0.ɵɵinject(DOCUMENT));\n      };\n    }\n    static {\n      this.ɵprov = /* @__PURE__ */i0.ɵɵdefineInjectable({\n        token: FocusTrapFactory,\n        factory: FocusTrapFactory.ɵfac,\n        providedIn: 'root'\n      });\n    }\n  }\n  return FocusTrapFactory;\n})();\n/*#__PURE__*/(() => {\n  (typeof ngDevMode === \"undefined\" || ngDevMode) && void 0;\n})();\n/** Directive for trapping focus within a region. */\nlet CdkTrapFocus = /*#__PURE__*/(() => {\n  class CdkTrapFocus {\n    /** Whether the focus trap is active. */\n    get enabled() {\n      return this.focusTrap?.enabled || false;\n    }\n    set enabled(value) {\n      if (this.focusTrap) {\n        this.focusTrap.enabled = value;\n      }\n    }\n    constructor(_elementRef, _focusTrapFactory,\n    /**\n     * @deprecated No longer being used. To be removed.\n     * @breaking-change 13.0.0\n     */\n    _document) {\n      this._elementRef = _elementRef;\n      this._focusTrapFactory = _focusTrapFactory;\n      /** Previously focused element to restore focus to upon destroy when using autoCapture. */\n      this._previouslyFocusedElement = null;\n      const platform = inject(Platform);\n      if (platform.isBrowser) {\n        this.focusTrap = this._focusTrapFactory.create(this._elementRef.nativeElement, true);\n      }\n    }\n    ngOnDestroy() {\n      this.focusTrap?.destroy();\n      // If we stored a previously focused element when using autoCapture, return focus to that\n      // element now that the trapped region is being destroyed.\n      if (this._previouslyFocusedElement) {\n        this._previouslyFocusedElement.focus();\n        this._previouslyFocusedElement = null;\n      }\n    }\n    ngAfterContentInit() {\n      this.focusTrap?.attachAnchors();\n      if (this.autoCapture) {\n        this._captureFocus();\n      }\n    }\n    ngDoCheck() {\n      if (this.focusTrap && !this.focusTrap.hasAttached()) {\n        this.focusTrap.attachAnchors();\n      }\n    }\n    ngOnChanges(changes) {\n      const autoCaptureChange = changes['autoCapture'];\n      if (autoCaptureChange && !autoCaptureChange.firstChange && this.autoCapture && this.focusTrap?.hasAttached()) {\n        this._captureFocus();\n      }\n    }\n    _captureFocus() {\n      this._previouslyFocusedElement = _getFocusedElementPierceShadowDom();\n      this.focusTrap?.focusInitialElementWhenReady();\n    }\n    static {\n      this.ɵfac = function CdkTrapFocus_Factory(t) {\n        return new (t || CdkTrapFocus)(i0.ɵɵdirectiveInject(i0.ElementRef), i0.ɵɵdirectiveInject(FocusTrapFactory), i0.ɵɵdirectiveInject(DOCUMENT));\n      };\n    }\n    static {\n      this.ɵdir = /* @__PURE__ */i0.ɵɵdefineDirective({\n        type: CdkTrapFocus,\n        selectors: [[\"\", \"cdkTrapFocus\", \"\"]],\n        inputs: {\n          enabled: [i0.ɵɵInputFlags.HasDecoratorInputTransform, \"cdkTrapFocus\", \"enabled\", booleanAttribute],\n          autoCapture: [i0.ɵɵInputFlags.HasDecoratorInputTransform, \"cdkTrapFocusAutoCapture\", \"autoCapture\", booleanAttribute]\n        },\n        exportAs: [\"cdkTrapFocus\"],\n        standalone: true,\n        features: [i0.ɵɵInputTransformsFeature, i0.ɵɵNgOnChangesFeature]\n      });\n    }\n  }\n  return CdkTrapFocus;\n})();\n/*#__PURE__*/(() => {\n  (typeof ngDevMode === \"undefined\" || ngDevMode) && void 0;\n})();\n\n/**\n * Class that allows for trapping focus within a DOM element.\n *\n * This class uses a strategy pattern that determines how it traps focus.\n * See FocusTrapInertStrategy.\n */\nclass ConfigurableFocusTrap extends FocusTrap {\n  /** Whether the FocusTrap is enabled. */\n  get enabled() {\n    return this._enabled;\n  }\n  set enabled(value) {\n    this._enabled = value;\n    if (this._enabled) {\n      this._focusTrapManager.register(this);\n    } else {\n      this._focusTrapManager.deregister(this);\n    }\n  }\n  constructor(_element, _checker, _ngZone, _document, _focusTrapManager, _inertStrategy, config) {\n    super(_element, _checker, _ngZone, _document, config.defer);\n    this._focusTrapManager = _focusTrapManager;\n    this._inertStrategy = _inertStrategy;\n    this._focusTrapManager.register(this);\n  }\n  /** Notifies the FocusTrapManager that this FocusTrap will be destroyed. */\n  destroy() {\n    this._focusTrapManager.deregister(this);\n    super.destroy();\n  }\n  /** @docs-private Implemented as part of ManagedFocusTrap. */\n  _enable() {\n    this._inertStrategy.preventFocus(this);\n    this.toggleAnchors(true);\n  }\n  /** @docs-private Implemented as part of ManagedFocusTrap. */\n  _disable() {\n    this._inertStrategy.allowFocus(this);\n    this.toggleAnchors(false);\n  }\n}\n\n/** The injection token used to specify the inert strategy. */\nconst FOCUS_TRAP_INERT_STRATEGY = /*#__PURE__*/new InjectionToken('FOCUS_TRAP_INERT_STRATEGY');\n\n/**\n * Lightweight FocusTrapInertStrategy that adds a document focus event\n * listener to redirect focus back inside the FocusTrap.\n */\nclass EventListenerFocusTrapInertStrategy {\n  constructor() {\n    /** Focus event handler. */\n    this._listener = null;\n  }\n  /** Adds a document event listener that keeps focus inside the FocusTrap. */\n  preventFocus(focusTrap) {\n    // Ensure there's only one listener per document\n    if (this._listener) {\n      focusTrap._document.removeEventListener('focus', this._listener, true);\n    }\n    this._listener = e => this._trapFocus(focusTrap, e);\n    focusTrap._ngZone.runOutsideAngular(() => {\n      focusTrap._document.addEventListener('focus', this._listener, true);\n    });\n  }\n  /** Removes the event listener added in preventFocus. */\n  allowFocus(focusTrap) {\n    if (!this._listener) {\n      return;\n    }\n    focusTrap._document.removeEventListener('focus', this._listener, true);\n    this._listener = null;\n  }\n  /**\n   * Refocuses the first element in the FocusTrap if the focus event target was outside\n   * the FocusTrap.\n   *\n   * This is an event listener callback. The event listener is added in runOutsideAngular,\n   * so all this code runs outside Angular as well.\n   */\n  _trapFocus(focusTrap, event) {\n    const target = event.target;\n    const focusTrapRoot = focusTrap._element;\n    // Don't refocus if target was in an overlay, because the overlay might be associated\n    // with an element inside the FocusTrap, ex. mat-select.\n    if (target && !focusTrapRoot.contains(target) && !target.closest?.('div.cdk-overlay-pane')) {\n      // Some legacy FocusTrap usages have logic that focuses some element on the page\n      // just before FocusTrap is destroyed. For backwards compatibility, wait\n      // to be sure FocusTrap is still enabled before refocusing.\n      setTimeout(() => {\n        // Check whether focus wasn't put back into the focus trap while the timeout was pending.\n        if (focusTrap.enabled && !focusTrapRoot.contains(focusTrap._document.activeElement)) {\n          focusTrap.focusFirstTabbableElement();\n        }\n      });\n    }\n  }\n}\n\n/** Injectable that ensures only the most recently enabled FocusTrap is active. */\nlet FocusTrapManager = /*#__PURE__*/(() => {\n  class FocusTrapManager {\n    constructor() {\n      // A stack of the FocusTraps on the page. Only the FocusTrap at the\n      // top of the stack is active.\n      this._focusTrapStack = [];\n    }\n    /**\n     * Disables the FocusTrap at the top of the stack, and then pushes\n     * the new FocusTrap onto the stack.\n     */\n    register(focusTrap) {\n      // Dedupe focusTraps that register multiple times.\n      this._focusTrapStack = this._focusTrapStack.filter(ft => ft !== focusTrap);\n      let stack = this._focusTrapStack;\n      if (stack.length) {\n        stack[stack.length - 1]._disable();\n      }\n      stack.push(focusTrap);\n      focusTrap._enable();\n    }\n    /**\n     * Removes the FocusTrap from the stack, and activates the\n     * FocusTrap that is the new top of the stack.\n     */\n    deregister(focusTrap) {\n      focusTrap._disable();\n      const stack = this._focusTrapStack;\n      const i = stack.indexOf(focusTrap);\n      if (i !== -1) {\n        stack.splice(i, 1);\n        if (stack.length) {\n          stack[stack.length - 1]._enable();\n        }\n      }\n    }\n    static {\n      this.ɵfac = function FocusTrapManager_Factory(t) {\n        return new (t || FocusTrapManager)();\n      };\n    }\n    static {\n      this.ɵprov = /* @__PURE__ */i0.ɵɵdefineInjectable({\n        token: FocusTrapManager,\n        factory: FocusTrapManager.ɵfac,\n        providedIn: 'root'\n      });\n    }\n  }\n  return FocusTrapManager;\n})();\n/*#__PURE__*/(() => {\n  (typeof ngDevMode === \"undefined\" || ngDevMode) && void 0;\n})();\n\n/** Factory that allows easy instantiation of configurable focus traps. */\nlet ConfigurableFocusTrapFactory = /*#__PURE__*/(() => {\n  class ConfigurableFocusTrapFactory {\n    constructor(_checker, _ngZone, _focusTrapManager, _document, _inertStrategy) {\n      this._checker = _checker;\n      this._ngZone = _ngZone;\n      this._focusTrapManager = _focusTrapManager;\n      this._document = _document;\n      // TODO split up the strategies into different modules, similar to DateAdapter.\n      this._inertStrategy = _inertStrategy || new EventListenerFocusTrapInertStrategy();\n    }\n    create(element, config = {\n      defer: false\n    }) {\n      let configObject;\n      if (typeof config === 'boolean') {\n        configObject = {\n          defer: config\n        };\n      } else {\n        configObject = config;\n      }\n      return new ConfigurableFocusTrap(element, this._checker, this._ngZone, this._document, this._focusTrapManager, this._inertStrategy, configObject);\n    }\n    static {\n      this.ɵfac = function ConfigurableFocusTrapFactory_Factory(t) {\n        return new (t || ConfigurableFocusTrapFactory)(i0.ɵɵinject(InteractivityChecker), i0.ɵɵinject(i0.NgZone), i0.ɵɵinject(FocusTrapManager), i0.ɵɵinject(DOCUMENT), i0.ɵɵinject(FOCUS_TRAP_INERT_STRATEGY, 8));\n      };\n    }\n    static {\n      this.ɵprov = /* @__PURE__ */i0.ɵɵdefineInjectable({\n        token: ConfigurableFocusTrapFactory,\n        factory: ConfigurableFocusTrapFactory.ɵfac,\n        providedIn: 'root'\n      });\n    }\n  }\n  return ConfigurableFocusTrapFactory;\n})();\n/*#__PURE__*/(() => {\n  (typeof ngDevMode === \"undefined\" || ngDevMode) && void 0;\n})();\n\n/** Gets whether an event could be a faked `mousedown` event dispatched by a screen reader. */\nfunction isFakeMousedownFromScreenReader(event) {\n  // Some screen readers will dispatch a fake `mousedown` event when pressing enter or space on\n  // a clickable element. We can distinguish these events when `event.buttons` is zero, or\n  // `event.detail` is zero depending on the browser:\n  // - `event.buttons` works on Firefox, but fails on Chrome.\n  // - `detail` works on Chrome, but fails on Firefox.\n  return event.buttons === 0 || event.detail === 0;\n}\n/** Gets whether an event could be a faked `touchstart` event dispatched by a screen reader. */\nfunction isFakeTouchstartFromScreenReader(event) {\n  const touch = event.touches && event.touches[0] || event.changedTouches && event.changedTouches[0];\n  // A fake `touchstart` can be distinguished from a real one by looking at the `identifier`\n  // which is typically >= 0 on a real device versus -1 from a screen reader. Just to be safe,\n  // we can also look at `radiusX` and `radiusY`. This behavior was observed against a Windows 10\n  // device with a touch screen running NVDA v2020.4 and Firefox 85 or Chrome 88.\n  return !!touch && touch.identifier === -1 && (touch.radiusX == null || touch.radiusX === 1) && (touch.radiusY == null || touch.radiusY === 1);\n}\n\n/**\n * Injectable options for the InputModalityDetector. These are shallowly merged with the default\n * options.\n */\nconst INPUT_MODALITY_DETECTOR_OPTIONS = /*#__PURE__*/new InjectionToken('cdk-input-modality-detector-options');\n/**\n * Default options for the InputModalityDetector.\n *\n * Modifier keys are ignored by default (i.e. when pressed won't cause the service to detect\n * keyboard input modality) for two reasons:\n *\n * 1. Modifier keys are commonly used with mouse to perform actions such as 'right click' or 'open\n *    in new tab', and are thus less representative of actual keyboard interaction.\n * 2. VoiceOver triggers some keyboard events when linearly navigating with Control + Option (but\n *    confusingly not with Caps Lock). Thus, to have parity with other screen readers, we ignore\n *    these keys so as to not update the input modality.\n *\n * Note that we do not by default ignore the right Meta key on Safari because it has the same key\n * code as the ContextMenu key on other browsers. When we switch to using event.key, we can\n * distinguish between the two.\n */\nconst INPUT_MODALITY_DETECTOR_DEFAULT_OPTIONS = {\n  ignoreKeys: [ALT, CONTROL, MAC_META, META, SHIFT]\n};\n/**\n * The amount of time needed to pass after a touchstart event in order for a subsequent mousedown\n * event to be attributed as mouse and not touch.\n *\n * This is the value used by AngularJS Material. Through trial and error (on iPhone 6S) they found\n * that a value of around 650ms seems appropriate.\n */\nconst TOUCH_BUFFER_MS = 650;\n/**\n * Event listener options that enable capturing and also mark the listener as passive if the browser\n * supports it.\n */\nconst modalityEventListenerOptions = /*#__PURE__*/normalizePassiveListenerOptions({\n  passive: true,\n  capture: true\n});\n/**\n * Service that detects the user's input modality.\n *\n * This service does not update the input modality when a user navigates with a screen reader\n * (e.g. linear navigation with VoiceOver, object navigation / browse mode with NVDA, virtual PC\n * cursor mode with JAWS). This is in part due to technical limitations (i.e. keyboard events do not\n * fire as expected in these modes) but is also arguably the correct behavior. Navigating with a\n * screen reader is akin to visually scanning a page, and should not be interpreted as actual user\n * input interaction.\n *\n * When a user is not navigating but *interacting* with a screen reader, this service attempts to\n * update the input modality to keyboard, but in general this service's behavior is largely\n * undefined.\n */\nlet InputModalityDetector = /*#__PURE__*/(() => {\n  class InputModalityDetector {\n    /** The most recently detected input modality. */\n    get mostRecentModality() {\n      return this._modality.value;\n    }\n    constructor(_platform, ngZone, document, options) {\n      this._platform = _platform;\n      /**\n       * The most recently detected input modality event target. Is null if no input modality has been\n       * detected or if the associated event target is null for some unknown reason.\n       */\n      this._mostRecentTarget = null;\n      /** The underlying BehaviorSubject that emits whenever an input modality is detected. */\n      this._modality = new BehaviorSubject(null);\n      /**\n       * The timestamp of the last touch input modality. Used to determine whether mousedown events\n       * should be attributed to mouse or touch.\n       */\n      this._lastTouchMs = 0;\n      /**\n       * Handles keydown events. Must be an arrow function in order to preserve the context when it gets\n       * bound.\n       */\n      this._onKeydown = event => {\n        // If this is one of the keys we should ignore, then ignore it and don't update the input\n        // modality to keyboard.\n        if (this._options?.ignoreKeys?.some(keyCode => keyCode === event.keyCode)) {\n          return;\n        }\n        this._modality.next('keyboard');\n        this._mostRecentTarget = _getEventTarget(event);\n      };\n      /**\n       * Handles mousedown events. Must be an arrow function in order to preserve the context when it\n       * gets bound.\n       */\n      this._onMousedown = event => {\n        // Touches trigger both touch and mouse events, so we need to distinguish between mouse events\n        // that were triggered via mouse vs touch. To do so, check if the mouse event occurs closely\n        // after the previous touch event.\n        if (Date.now() - this._lastTouchMs < TOUCH_BUFFER_MS) {\n          return;\n        }\n        // Fake mousedown events are fired by some screen readers when controls are activated by the\n        // screen reader. Attribute them to keyboard input modality.\n        this._modality.next(isFakeMousedownFromScreenReader(event) ? 'keyboard' : 'mouse');\n        this._mostRecentTarget = _getEventTarget(event);\n      };\n      /**\n       * Handles touchstart events. Must be an arrow function in order to preserve the context when it\n       * gets bound.\n       */\n      this._onTouchstart = event => {\n        // Same scenario as mentioned in _onMousedown, but on touch screen devices, fake touchstart\n        // events are fired. Again, attribute to keyboard input modality.\n        if (isFakeTouchstartFromScreenReader(event)) {\n          this._modality.next('keyboard');\n          return;\n        }\n        // Store the timestamp of this touch event, as it's used to distinguish between mouse events\n        // triggered via mouse vs touch.\n        this._lastTouchMs = Date.now();\n        this._modality.next('touch');\n        this._mostRecentTarget = _getEventTarget(event);\n      };\n      this._options = {\n        ...INPUT_MODALITY_DETECTOR_DEFAULT_OPTIONS,\n        ...options\n      };\n      // Skip the first emission as it's null.\n      this.modalityDetected = this._modality.pipe(skip(1));\n      this.modalityChanged = this.modalityDetected.pipe(distinctUntilChanged());\n      // If we're not in a browser, this service should do nothing, as there's no relevant input\n      // modality to detect.\n      if (_platform.isBrowser) {\n        ngZone.runOutsideAngular(() => {\n          document.addEventListener('keydown', this._onKeydown, modalityEventListenerOptions);\n          document.addEventListener('mousedown', this._onMousedown, modalityEventListenerOptions);\n          document.addEventListener('touchstart', this._onTouchstart, modalityEventListenerOptions);\n        });\n      }\n    }\n    ngOnDestroy() {\n      this._modality.complete();\n      if (this._platform.isBrowser) {\n        document.removeEventListener('keydown', this._onKeydown, modalityEventListenerOptions);\n        document.removeEventListener('mousedown', this._onMousedown, modalityEventListenerOptions);\n        document.removeEventListener('touchstart', this._onTouchstart, modalityEventListenerOptions);\n      }\n    }\n    static {\n      this.ɵfac = function InputModalityDetector_Factory(t) {\n        return new (t || InputModalityDetector)(i0.ɵɵinject(i1.Platform), i0.ɵɵinject(i0.NgZone), i0.ɵɵinject(DOCUMENT), i0.ɵɵinject(INPUT_MODALITY_DETECTOR_OPTIONS, 8));\n      };\n    }\n    static {\n      this.ɵprov = /* @__PURE__ */i0.ɵɵdefineInjectable({\n        token: InputModalityDetector,\n        factory: InputModalityDetector.ɵfac,\n        providedIn: 'root'\n      });\n    }\n  }\n  return InputModalityDetector;\n})();\n/*#__PURE__*/(() => {\n  (typeof ngDevMode === \"undefined\" || ngDevMode) && void 0;\n})();\nconst LIVE_ANNOUNCER_ELEMENT_TOKEN = /*#__PURE__*/new InjectionToken('liveAnnouncerElement', {\n  providedIn: 'root',\n  factory: LIVE_ANNOUNCER_ELEMENT_TOKEN_FACTORY\n});\n/** @docs-private */\nfunction LIVE_ANNOUNCER_ELEMENT_TOKEN_FACTORY() {\n  return null;\n}\n/** Injection token that can be used to configure the default options for the LiveAnnouncer. */\nconst LIVE_ANNOUNCER_DEFAULT_OPTIONS = /*#__PURE__*/new InjectionToken('LIVE_ANNOUNCER_DEFAULT_OPTIONS');\nlet uniqueIds = 0;\nlet LiveAnnouncer = /*#__PURE__*/(() => {\n  class LiveAnnouncer {\n    constructor(elementToken, _ngZone, _document, _defaultOptions) {\n      this._ngZone = _ngZone;\n      this._defaultOptions = _defaultOptions;\n      // We inject the live element and document as `any` because the constructor signature cannot\n      // reference browser globals (HTMLElement, Document) on non-browser environments, since having\n      // a class decorator causes TypeScript to preserve the constructor signature types.\n      this._document = _document;\n      this._liveElement = elementToken || this._createLiveElement();\n    }\n    announce(message, ...args) {\n      const defaultOptions = this._defaultOptions;\n      let politeness;\n      let duration;\n      if (args.length === 1 && typeof args[0] === 'number') {\n        duration = args[0];\n      } else {\n        [politeness, duration] = args;\n      }\n      this.clear();\n      clearTimeout(this._previousTimeout);\n      if (!politeness) {\n        politeness = defaultOptions && defaultOptions.politeness ? defaultOptions.politeness : 'polite';\n      }\n      if (duration == null && defaultOptions) {\n        duration = defaultOptions.duration;\n      }\n      // TODO: ensure changing the politeness works on all environments we support.\n      this._liveElement.setAttribute('aria-live', politeness);\n      if (this._liveElement.id) {\n        this._exposeAnnouncerToModals(this._liveElement.id);\n      }\n      // This 100ms timeout is necessary for some browser + screen-reader combinations:\n      // - Both JAWS and NVDA over IE11 will not announce anything without a non-zero timeout.\n      // - With Chrome and IE11 with NVDA or JAWS, a repeated (identical) message won't be read a\n      //   second time without clearing and then using a non-zero delay.\n      // (using JAWS 17 at time of this writing).\n      return this._ngZone.runOutsideAngular(() => {\n        if (!this._currentPromise) {\n          this._currentPromise = new Promise(resolve => this._currentResolve = resolve);\n        }\n        clearTimeout(this._previousTimeout);\n        this._previousTimeout = setTimeout(() => {\n          this._liveElement.textContent = message;\n          if (typeof duration === 'number') {\n            this._previousTimeout = setTimeout(() => this.clear(), duration);\n          }\n          // For some reason in tests this can be undefined\n          // Probably related to ZoneJS and every other thing that patches browser APIs in tests\n          this._currentResolve?.();\n          this._currentPromise = this._currentResolve = undefined;\n        }, 100);\n        return this._currentPromise;\n      });\n    }\n    /**\n     * Clears the current text from the announcer element. Can be used to prevent\n     * screen readers from reading the text out again while the user is going\n     * through the page landmarks.\n     */\n    clear() {\n      if (this._liveElement) {\n        this._liveElement.textContent = '';\n      }\n    }\n    ngOnDestroy() {\n      clearTimeout(this._previousTimeout);\n      this._liveElement?.remove();\n      this._liveElement = null;\n      this._currentResolve?.();\n      this._currentPromise = this._currentResolve = undefined;\n    }\n    _createLiveElement() {\n      const elementClass = 'cdk-live-announcer-element';\n      const previousElements = this._document.getElementsByClassName(elementClass);\n      const liveEl = this._document.createElement('div');\n      // Remove any old containers. This can happen when coming in from a server-side-rendered page.\n      for (let i = 0; i < previousElements.length; i++) {\n        previousElements[i].remove();\n      }\n      liveEl.classList.add(elementClass);\n      liveEl.classList.add('cdk-visually-hidden');\n      liveEl.setAttribute('aria-atomic', 'true');\n      liveEl.setAttribute('aria-live', 'polite');\n      liveEl.id = `cdk-live-announcer-${uniqueIds++}`;\n      this._document.body.appendChild(liveEl);\n      return liveEl;\n    }\n    /**\n     * Some browsers won't expose the accessibility node of the live announcer element if there is an\n     * `aria-modal` and the live announcer is outside of it. This method works around the issue by\n     * pointing the `aria-owns` of all modals to the live announcer element.\n     */\n    _exposeAnnouncerToModals(id) {\n      // TODO(http://github.com/angular/components/issues/26853): consider de-duplicating this with\n      // the `SnakBarContainer` and other usages.\n      //\n      // Note that the selector here is limited to CDK overlays at the moment in order to reduce the\n      // section of the DOM we need to look through. This should cover all the cases we support, but\n      // the selector can be expanded if it turns out to be too narrow.\n      const modals = this._document.querySelectorAll('body > .cdk-overlay-container [aria-modal=\"true\"]');\n      for (let i = 0; i < modals.length; i++) {\n        const modal = modals[i];\n        const ariaOwns = modal.getAttribute('aria-owns');\n        if (!ariaOwns) {\n          modal.setAttribute('aria-owns', id);\n        } else if (ariaOwns.indexOf(id) === -1) {\n          modal.setAttribute('aria-owns', ariaOwns + ' ' + id);\n        }\n      }\n    }\n    static {\n      this.ɵfac = function LiveAnnouncer_Factory(t) {\n        return new (t || LiveAnnouncer)(i0.ɵɵinject(LIVE_ANNOUNCER_ELEMENT_TOKEN, 8), i0.ɵɵinject(i0.NgZone), i0.ɵɵinject(DOCUMENT), i0.ɵɵinject(LIVE_ANNOUNCER_DEFAULT_OPTIONS, 8));\n      };\n    }\n    static {\n      this.ɵprov = /* @__PURE__ */i0.ɵɵdefineInjectable({\n        token: LiveAnnouncer,\n        factory: LiveAnnouncer.ɵfac,\n        providedIn: 'root'\n      });\n    }\n  }\n  return LiveAnnouncer;\n})();\n/*#__PURE__*/(() => {\n  (typeof ngDevMode === \"undefined\" || ngDevMode) && void 0;\n})();\n/**\n * A directive that works similarly to aria-live, but uses the LiveAnnouncer to ensure compatibility\n * with a wider range of browsers and screen readers.\n */\nlet CdkAriaLive = /*#__PURE__*/(() => {\n  class CdkAriaLive {\n    /** The aria-live politeness level to use when announcing messages. */\n    get politeness() {\n      return this._politeness;\n    }\n    set politeness(value) {\n      this._politeness = value === 'off' || value === 'assertive' ? value : 'polite';\n      if (this._politeness === 'off') {\n        if (this._subscription) {\n          this._subscription.unsubscribe();\n          this._subscription = null;\n        }\n      } else if (!this._subscription) {\n        this._subscription = this._ngZone.runOutsideAngular(() => {\n          return this._contentObserver.observe(this._elementRef).subscribe(() => {\n            // Note that we use textContent here, rather than innerText, in order to avoid a reflow.\n            const elementText = this._elementRef.nativeElement.textContent;\n            // The `MutationObserver` fires also for attribute\n            // changes which we don't want to announce.\n            if (elementText !== this._previousAnnouncedText) {\n              this._liveAnnouncer.announce(elementText, this._politeness, this.duration);\n              this._previousAnnouncedText = elementText;\n            }\n          });\n        });\n      }\n    }\n    constructor(_elementRef, _liveAnnouncer, _contentObserver, _ngZone) {\n      this._elementRef = _elementRef;\n      this._liveAnnouncer = _liveAnnouncer;\n      this._contentObserver = _contentObserver;\n      this._ngZone = _ngZone;\n      this._politeness = 'polite';\n    }\n    ngOnDestroy() {\n      if (this._subscription) {\n        this._subscription.unsubscribe();\n      }\n    }\n    static {\n      this.ɵfac = function CdkAriaLive_Factory(t) {\n        return new (t || CdkAriaLive)(i0.ɵɵdirectiveInject(i0.ElementRef), i0.ɵɵdirectiveInject(LiveAnnouncer), i0.ɵɵdirectiveInject(i1$1.ContentObserver), i0.ɵɵdirectiveInject(i0.NgZone));\n      };\n    }\n    static {\n      this.ɵdir = /* @__PURE__ */i0.ɵɵdefineDirective({\n        type: CdkAriaLive,\n        selectors: [[\"\", \"cdkAriaLive\", \"\"]],\n        inputs: {\n          politeness: [i0.ɵɵInputFlags.None, \"cdkAriaLive\", \"politeness\"],\n          duration: [i0.ɵɵInputFlags.None, \"cdkAriaLiveDuration\", \"duration\"]\n        },\n        exportAs: [\"cdkAriaLive\"],\n        standalone: true\n      });\n    }\n  }\n  return CdkAriaLive;\n})();\n/*#__PURE__*/(() => {\n  (typeof ngDevMode === \"undefined\" || ngDevMode) && void 0;\n})();\n\n/** Detection mode used for attributing the origin of a focus event. */\nvar FocusMonitorDetectionMode = /*#__PURE__*/function (FocusMonitorDetectionMode) {\n  /**\n   * Any mousedown, keydown, or touchstart event that happened in the previous\n   * tick or the current tick will be used to assign a focus event's origin (to\n   * either mouse, keyboard, or touch). This is the default option.\n   */\n  FocusMonitorDetectionMode[FocusMonitorDetectionMode[\"IMMEDIATE\"] = 0] = \"IMMEDIATE\";\n  /**\n   * A focus event's origin is always attributed to the last corresponding\n   * mousedown, keydown, or touchstart event, no matter how long ago it occurred.\n   */\n  FocusMonitorDetectionMode[FocusMonitorDetectionMode[\"EVENTUAL\"] = 1] = \"EVENTUAL\";\n  return FocusMonitorDetectionMode;\n}(FocusMonitorDetectionMode || {});\n/** InjectionToken for FocusMonitorOptions. */\nconst FOCUS_MONITOR_DEFAULT_OPTIONS = /*#__PURE__*/new InjectionToken('cdk-focus-monitor-default-options');\n/**\n * Event listener options that enable capturing and also\n * mark the listener as passive if the browser supports it.\n */\nconst captureEventListenerOptions = /*#__PURE__*/normalizePassiveListenerOptions({\n  passive: true,\n  capture: true\n});\n/** Monitors mouse and keyboard events to determine the cause of focus events. */\nlet FocusMonitor = /*#__PURE__*/(() => {\n  class FocusMonitor {\n    constructor(_ngZone, _platform, _inputModalityDetector, /** @breaking-change 11.0.0 make document required */\n    document, options) {\n      this._ngZone = _ngZone;\n      this._platform = _platform;\n      this._inputModalityDetector = _inputModalityDetector;\n      /** The focus origin that the next focus event is a result of. */\n      this._origin = null;\n      /** Whether the window has just been focused. */\n      this._windowFocused = false;\n      /**\n       * Whether the origin was determined via a touch interaction. Necessary as properly attributing\n       * focus events to touch interactions requires special logic.\n       */\n      this._originFromTouchInteraction = false;\n      /** Map of elements being monitored to their info. */\n      this._elementInfo = new Map();\n      /** The number of elements currently being monitored. */\n      this._monitoredElementCount = 0;\n      /**\n       * Keeps track of the root nodes to which we've currently bound a focus/blur handler,\n       * as well as the number of monitored elements that they contain. We have to treat focus/blur\n       * handlers differently from the rest of the events, because the browser won't emit events\n       * to the document when focus moves inside of a shadow root.\n       */\n      this._rootNodeFocusListenerCount = new Map();\n      /**\n       * Event listener for `focus` events on the window.\n       * Needs to be an arrow function in order to preserve the context when it gets bound.\n       */\n      this._windowFocusListener = () => {\n        // Make a note of when the window regains focus, so we can\n        // restore the origin info for the focused element.\n        this._windowFocused = true;\n        this._windowFocusTimeoutId = window.setTimeout(() => this._windowFocused = false);\n      };\n      /** Subject for stopping our InputModalityDetector subscription. */\n      this._stopInputModalityDetector = new Subject();\n      /**\n       * Event listener for `focus` and 'blur' events on the document.\n       * Needs to be an arrow function in order to preserve the context when it gets bound.\n       */\n      this._rootNodeFocusAndBlurListener = event => {\n        const target = _getEventTarget(event);\n        // We need to walk up the ancestor chain in order to support `checkChildren`.\n        for (let element = target; element; element = element.parentElement) {\n          if (event.type === 'focus') {\n            this._onFocus(event, element);\n          } else {\n            this._onBlur(event, element);\n          }\n        }\n      };\n      this._document = document;\n      this._detectionMode = options?.detectionMode || FocusMonitorDetectionMode.IMMEDIATE;\n    }\n    monitor(element, checkChildren = false) {\n      const nativeElement = coerceElement(element);\n      // Do nothing if we're not on the browser platform or the passed in node isn't an element.\n      if (!this._platform.isBrowser || nativeElement.nodeType !== 1) {\n        // Note: we don't want the observable to emit at all so we don't pass any parameters.\n        return of();\n      }\n      // If the element is inside the shadow DOM, we need to bind our focus/blur listeners to\n      // the shadow root, rather than the `document`, because the browser won't emit focus events\n      // to the `document`, if focus is moving within the same shadow root.\n      const rootNode = _getShadowRoot(nativeElement) || this._getDocument();\n      const cachedInfo = this._elementInfo.get(nativeElement);\n      // Check if we're already monitoring this element.\n      if (cachedInfo) {\n        if (checkChildren) {\n          // TODO(COMP-318): this can be problematic, because it'll turn all non-checkChildren\n          // observers into ones that behave as if `checkChildren` was turned on. We need a more\n          // robust solution.\n          cachedInfo.checkChildren = true;\n        }\n        return cachedInfo.subject;\n      }\n      // Create monitored element info.\n      const info = {\n        checkChildren: checkChildren,\n        subject: new Subject(),\n        rootNode\n      };\n      this._elementInfo.set(nativeElement, info);\n      this._registerGlobalListeners(info);\n      return info.subject;\n    }\n    stopMonitoring(element) {\n      const nativeElement = coerceElement(element);\n      const elementInfo = this._elementInfo.get(nativeElement);\n      if (elementInfo) {\n        elementInfo.subject.complete();\n        this._setClasses(nativeElement);\n        this._elementInfo.delete(nativeElement);\n        this._removeGlobalListeners(elementInfo);\n      }\n    }\n    focusVia(element, origin, options) {\n      const nativeElement = coerceElement(element);\n      const focusedElement = this._getDocument().activeElement;\n      // If the element is focused already, calling `focus` again won't trigger the event listener\n      // which means that the focus classes won't be updated. If that's the case, update the classes\n      // directly without waiting for an event.\n      if (nativeElement === focusedElement) {\n        this._getClosestElementsInfo(nativeElement).forEach(([currentElement, info]) => this._originChanged(currentElement, origin, info));\n      } else {\n        this._setOrigin(origin);\n        // `focus` isn't available on the server\n        if (typeof nativeElement.focus === 'function') {\n          nativeElement.focus(options);\n        }\n      }\n    }\n    ngOnDestroy() {\n      this._elementInfo.forEach((_info, element) => this.stopMonitoring(element));\n    }\n    /** Access injected document if available or fallback to global document reference */\n    _getDocument() {\n      return this._document || document;\n    }\n    /** Use defaultView of injected document if available or fallback to global window reference */\n    _getWindow() {\n      const doc = this._getDocument();\n      return doc.defaultView || window;\n    }\n    _getFocusOrigin(focusEventTarget) {\n      if (this._origin) {\n        // If the origin was realized via a touch interaction, we need to perform additional checks\n        // to determine whether the focus origin should be attributed to touch or program.\n        if (this._originFromTouchInteraction) {\n          return this._shouldBeAttributedToTouch(focusEventTarget) ? 'touch' : 'program';\n        } else {\n          return this._origin;\n        }\n      }\n      // If the window has just regained focus, we can restore the most recent origin from before the\n      // window blurred. Otherwise, we've reached the point where we can't identify the source of the\n      // focus. This typically means one of two things happened:\n      //\n      // 1) The element was programmatically focused, or\n      // 2) The element was focused via screen reader navigation (which generally doesn't fire\n      //    events).\n      //\n      // Because we can't distinguish between these two cases, we default to setting `program`.\n      if (this._windowFocused && this._lastFocusOrigin) {\n        return this._lastFocusOrigin;\n      }\n      // If the interaction is coming from an input label, we consider it a mouse interactions.\n      // This is a special case where focus moves on `click`, rather than `mousedown` which breaks\n      // our detection, because all our assumptions are for `mousedown`. We need to handle this\n      // special case, because it's very common for checkboxes and radio buttons.\n      if (focusEventTarget && this._isLastInteractionFromInputLabel(focusEventTarget)) {\n        return 'mouse';\n      }\n      return 'program';\n    }\n    /**\n     * Returns whether the focus event should be attributed to touch. Recall that in IMMEDIATE mode, a\n     * touch origin isn't immediately reset at the next tick (see _setOrigin). This means that when we\n     * handle a focus event following a touch interaction, we need to determine whether (1) the focus\n     * event was directly caused by the touch interaction or (2) the focus event was caused by a\n     * subsequent programmatic focus call triggered by the touch interaction.\n     * @param focusEventTarget The target of the focus event under examination.\n     */\n    _shouldBeAttributedToTouch(focusEventTarget) {\n      // Please note that this check is not perfect. Consider the following edge case:\n      //\n      // <div #parent tabindex=\"0\">\n      //   <div #child tabindex=\"0\" (click)=\"#parent.focus()\"></div>\n      // </div>\n      //\n      // Suppose there is a FocusMonitor in IMMEDIATE mode attached to #parent. When the user touches\n      // #child, #parent is programmatically focused. This code will attribute the focus to touch\n      // instead of program. This is a relatively minor edge-case that can be worked around by using\n      // focusVia(parent, 'program') to focus #parent.\n      return this._detectionMode === FocusMonitorDetectionMode.EVENTUAL || !!focusEventTarget?.contains(this._inputModalityDetector._mostRecentTarget);\n    }\n    /**\n     * Sets the focus classes on the element based on the given focus origin.\n     * @param element The element to update the classes on.\n     * @param origin The focus origin.\n     */\n    _setClasses(element, origin) {\n      element.classList.toggle('cdk-focused', !!origin);\n      element.classList.toggle('cdk-touch-focused', origin === 'touch');\n      element.classList.toggle('cdk-keyboard-focused', origin === 'keyboard');\n      element.classList.toggle('cdk-mouse-focused', origin === 'mouse');\n      element.classList.toggle('cdk-program-focused', origin === 'program');\n    }\n    /**\n     * Updates the focus origin. If we're using immediate detection mode, we schedule an async\n     * function to clear the origin at the end of a timeout. The duration of the timeout depends on\n     * the origin being set.\n     * @param origin The origin to set.\n     * @param isFromInteraction Whether we are setting the origin from an interaction event.\n     */\n    _setOrigin(origin, isFromInteraction = false) {\n      this._ngZone.runOutsideAngular(() => {\n        this._origin = origin;\n        this._originFromTouchInteraction = origin === 'touch' && isFromInteraction;\n        // If we're in IMMEDIATE mode, reset the origin at the next tick (or in `TOUCH_BUFFER_MS` ms\n        // for a touch event). We reset the origin at the next tick because Firefox focuses one tick\n        // after the interaction event. We wait `TOUCH_BUFFER_MS` ms before resetting the origin for\n        // a touch event because when a touch event is fired, the associated focus event isn't yet in\n        // the event queue. Before doing so, clear any pending timeouts.\n        if (this._detectionMode === FocusMonitorDetectionMode.IMMEDIATE) {\n          clearTimeout(this._originTimeoutId);\n          const ms = this._originFromTouchInteraction ? TOUCH_BUFFER_MS : 1;\n          this._originTimeoutId = setTimeout(() => this._origin = null, ms);\n        }\n      });\n    }\n    /**\n     * Handles focus events on a registered element.\n     * @param event The focus event.\n     * @param element The monitored element.\n     */\n    _onFocus(event, element) {\n      // NOTE(mmalerba): We currently set the classes based on the focus origin of the most recent\n      // focus event affecting the monitored element. If we want to use the origin of the first event\n      // instead we should check for the cdk-focused class here and return if the element already has\n      // it. (This only matters for elements that have includesChildren = true).\n      // If we are not counting child-element-focus as focused, make sure that the event target is the\n      // monitored element itself.\n      const elementInfo = this._elementInfo.get(element);\n      const focusEventTarget = _getEventTarget(event);\n      if (!elementInfo || !elementInfo.checkChildren && element !== focusEventTarget) {\n        return;\n      }\n      this._originChanged(element, this._getFocusOrigin(focusEventTarget), elementInfo);\n    }\n    /**\n     * Handles blur events on a registered element.\n     * @param event The blur event.\n     * @param element The monitored element.\n     */\n    _onBlur(event, element) {\n      // If we are counting child-element-focus as focused, make sure that we aren't just blurring in\n      // order to focus another child of the monitored element.\n      const elementInfo = this._elementInfo.get(element);\n      if (!elementInfo || elementInfo.checkChildren && event.relatedTarget instanceof Node && element.contains(event.relatedTarget)) {\n        return;\n      }\n      this._setClasses(element);\n      this._emitOrigin(elementInfo, null);\n    }\n    _emitOrigin(info, origin) {\n      if (info.subject.observers.length) {\n        this._ngZone.run(() => info.subject.next(origin));\n      }\n    }\n    _registerGlobalListeners(elementInfo) {\n      if (!this._platform.isBrowser) {\n        return;\n      }\n      const rootNode = elementInfo.rootNode;\n      const rootNodeFocusListeners = this._rootNodeFocusListenerCount.get(rootNode) || 0;\n      if (!rootNodeFocusListeners) {\n        this._ngZone.runOutsideAngular(() => {\n          rootNode.addEventListener('focus', this._rootNodeFocusAndBlurListener, captureEventListenerOptions);\n          rootNode.addEventListener('blur', this._rootNodeFocusAndBlurListener, captureEventListenerOptions);\n        });\n      }\n      this._rootNodeFocusListenerCount.set(rootNode, rootNodeFocusListeners + 1);\n      // Register global listeners when first element is monitored.\n      if (++this._monitoredElementCount === 1) {\n        // Note: we listen to events in the capture phase so we\n        // can detect them even if the user stops propagation.\n        this._ngZone.runOutsideAngular(() => {\n          const window = this._getWindow();\n          window.addEventListener('focus', this._windowFocusListener);\n        });\n        // The InputModalityDetector is also just a collection of global listeners.\n        this._inputModalityDetector.modalityDetected.pipe(takeUntil(this._stopInputModalityDetector)).subscribe(modality => {\n          this._setOrigin(modality, true /* isFromInteraction */);\n        });\n      }\n    }\n    _removeGlobalListeners(elementInfo) {\n      const rootNode = elementInfo.rootNode;\n      if (this._rootNodeFocusListenerCount.has(rootNode)) {\n        const rootNodeFocusListeners = this._rootNodeFocusListenerCount.get(rootNode);\n        if (rootNodeFocusListeners > 1) {\n          this._rootNodeFocusListenerCount.set(rootNode, rootNodeFocusListeners - 1);\n        } else {\n          rootNode.removeEventListener('focus', this._rootNodeFocusAndBlurListener, captureEventListenerOptions);\n          rootNode.removeEventListener('blur', this._rootNodeFocusAndBlurListener, captureEventListenerOptions);\n          this._rootNodeFocusListenerCount.delete(rootNode);\n        }\n      }\n      // Unregister global listeners when last element is unmonitored.\n      if (! --this._monitoredElementCount) {\n        const window = this._getWindow();\n        window.removeEventListener('focus', this._windowFocusListener);\n        // Equivalently, stop our InputModalityDetector subscription.\n        this._stopInputModalityDetector.next();\n        // Clear timeouts for all potentially pending timeouts to prevent the leaks.\n        clearTimeout(this._windowFocusTimeoutId);\n        clearTimeout(this._originTimeoutId);\n      }\n    }\n    /** Updates all the state on an element once its focus origin has changed. */\n    _originChanged(element, origin, elementInfo) {\n      this._setClasses(element, origin);\n      this._emitOrigin(elementInfo, origin);\n      this._lastFocusOrigin = origin;\n    }\n    /**\n     * Collects the `MonitoredElementInfo` of a particular element and\n     * all of its ancestors that have enabled `checkChildren`.\n     * @param element Element from which to start the search.\n     */\n    _getClosestElementsInfo(element) {\n      const results = [];\n      this._elementInfo.forEach((info, currentElement) => {\n        if (currentElement === element || info.checkChildren && currentElement.contains(element)) {\n          results.push([currentElement, info]);\n        }\n      });\n      return results;\n    }\n    /**\n     * Returns whether an interaction is likely to have come from the user clicking the `label` of\n     * an `input` or `textarea` in order to focus it.\n     * @param focusEventTarget Target currently receiving focus.\n     */\n    _isLastInteractionFromInputLabel(focusEventTarget) {\n      const {\n        _mostRecentTarget: mostRecentTarget,\n        mostRecentModality\n      } = this._inputModalityDetector;\n      // If the last interaction used the mouse on an element contained by one of the labels\n      // of an `input`/`textarea` that is currently focused, it is very likely that the\n      // user redirected focus using the label.\n      if (mostRecentModality !== 'mouse' || !mostRecentTarget || mostRecentTarget === focusEventTarget || focusEventTarget.nodeName !== 'INPUT' && focusEventTarget.nodeName !== 'TEXTAREA' || focusEventTarget.disabled) {\n        return false;\n      }\n      const labels = focusEventTarget.labels;\n      if (labels) {\n        for (let i = 0; i < labels.length; i++) {\n          if (labels[i].contains(mostRecentTarget)) {\n            return true;\n          }\n        }\n      }\n      return false;\n    }\n    static {\n      this.ɵfac = function FocusMonitor_Factory(t) {\n        return new (t || FocusMonitor)(i0.ɵɵinject(i0.NgZone), i0.ɵɵinject(i1.Platform), i0.ɵɵinject(InputModalityDetector), i0.ɵɵinject(DOCUMENT, 8), i0.ɵɵinject(FOCUS_MONITOR_DEFAULT_OPTIONS, 8));\n      };\n    }\n    static {\n      this.ɵprov = /* @__PURE__ */i0.ɵɵdefineInjectable({\n        token: FocusMonitor,\n        factory: FocusMonitor.ɵfac,\n        providedIn: 'root'\n      });\n    }\n  }\n  return FocusMonitor;\n})();\n/*#__PURE__*/(() => {\n  (typeof ngDevMode === \"undefined\" || ngDevMode) && void 0;\n})();\n/**\n * Directive that determines how a particular element was focused (via keyboard, mouse, touch, or\n * programmatically) and adds corresponding classes to the element.\n *\n * There are two variants of this directive:\n * 1) cdkMonitorElementFocus: does not consider an element to be focused if one of its children is\n *    focused.\n * 2) cdkMonitorSubtreeFocus: considers an element focused if it or any of its children are focused.\n */\nlet CdkMonitorFocus = /*#__PURE__*/(() => {\n  class CdkMonitorFocus {\n    constructor(_elementRef, _focusMonitor) {\n      this._elementRef = _elementRef;\n      this._focusMonitor = _focusMonitor;\n      this._focusOrigin = null;\n      this.cdkFocusChange = new EventEmitter();\n    }\n    get focusOrigin() {\n      return this._focusOrigin;\n    }\n    ngAfterViewInit() {\n      const element = this._elementRef.nativeElement;\n      this._monitorSubscription = this._focusMonitor.monitor(element, element.nodeType === 1 && element.hasAttribute('cdkMonitorSubtreeFocus')).subscribe(origin => {\n        this._focusOrigin = origin;\n        this.cdkFocusChange.emit(origin);\n      });\n    }\n    ngOnDestroy() {\n      this._focusMonitor.stopMonitoring(this._elementRef);\n      if (this._monitorSubscription) {\n        this._monitorSubscription.unsubscribe();\n      }\n    }\n    static {\n      this.ɵfac = function CdkMonitorFocus_Factory(t) {\n        return new (t || CdkMonitorFocus)(i0.ɵɵdirectiveInject(i0.ElementRef), i0.ɵɵdirectiveInject(FocusMonitor));\n      };\n    }\n    static {\n      this.ɵdir = /* @__PURE__ */i0.ɵɵdefineDirective({\n        type: CdkMonitorFocus,\n        selectors: [[\"\", \"cdkMonitorElementFocus\", \"\"], [\"\", \"cdkMonitorSubtreeFocus\", \"\"]],\n        outputs: {\n          cdkFocusChange: \"cdkFocusChange\"\n        },\n        exportAs: [\"cdkMonitorFocus\"],\n        standalone: true\n      });\n    }\n  }\n  return CdkMonitorFocus;\n})();\n/*#__PURE__*/(() => {\n  (typeof ngDevMode === \"undefined\" || ngDevMode) && void 0;\n})();\n\n/** Set of possible high-contrast mode backgrounds. */\nvar HighContrastMode = /*#__PURE__*/function (HighContrastMode) {\n  HighContrastMode[HighContrastMode[\"NONE\"] = 0] = \"NONE\";\n  HighContrastMode[HighContrastMode[\"BLACK_ON_WHITE\"] = 1] = \"BLACK_ON_WHITE\";\n  HighContrastMode[HighContrastMode[\"WHITE_ON_BLACK\"] = 2] = \"WHITE_ON_BLACK\";\n  return HighContrastMode;\n}(HighContrastMode || {});\n/** CSS class applied to the document body when in black-on-white high-contrast mode. */\nconst BLACK_ON_WHITE_CSS_CLASS = 'cdk-high-contrast-black-on-white';\n/** CSS class applied to the document body when in white-on-black high-contrast mode. */\nconst WHITE_ON_BLACK_CSS_CLASS = 'cdk-high-contrast-white-on-black';\n/** CSS class applied to the document body when in high-contrast mode. */\nconst HIGH_CONTRAST_MODE_ACTIVE_CSS_CLASS = 'cdk-high-contrast-active';\n/**\n * Service to determine whether the browser is currently in a high-contrast-mode environment.\n *\n * Microsoft Windows supports an accessibility feature called \"High Contrast Mode\". This mode\n * changes the appearance of all applications, including web applications, to dramatically increase\n * contrast.\n *\n * IE, Edge, and Firefox currently support this mode. Chrome does not support Windows High Contrast\n * Mode. This service does not detect high-contrast mode as added by the Chrome \"High Contrast\"\n * browser extension.\n */\nlet HighContrastModeDetector = /*#__PURE__*/(() => {\n  class HighContrastModeDetector {\n    constructor(_platform, document) {\n      this._platform = _platform;\n      this._document = document;\n      this._breakpointSubscription = inject(BreakpointObserver).observe('(forced-colors: active)').subscribe(() => {\n        if (this._hasCheckedHighContrastMode) {\n          this._hasCheckedHighContrastMode = false;\n          this._applyBodyHighContrastModeCssClasses();\n        }\n      });\n    }\n    /** Gets the current high-contrast-mode for the page. */\n    getHighContrastMode() {\n      if (!this._platform.isBrowser) {\n        return HighContrastMode.NONE;\n      }\n      // Create a test element with an arbitrary background-color that is neither black nor\n      // white; high-contrast mode will coerce the color to either black or white. Also ensure that\n      // appending the test element to the DOM does not affect layout by absolutely positioning it\n      const testElement = this._document.createElement('div');\n      testElement.style.backgroundColor = 'rgb(1,2,3)';\n      testElement.style.position = 'absolute';\n      this._document.body.appendChild(testElement);\n      // Get the computed style for the background color, collapsing spaces to normalize between\n      // browsers. Once we get this color, we no longer need the test element. Access the `window`\n      // via the document so we can fake it in tests. Note that we have extra null checks, because\n      // this logic will likely run during app bootstrap and throwing can break the entire app.\n      const documentWindow = this._document.defaultView || window;\n      const computedStyle = documentWindow && documentWindow.getComputedStyle ? documentWindow.getComputedStyle(testElement) : null;\n      const computedColor = (computedStyle && computedStyle.backgroundColor || '').replace(/ /g, '');\n      testElement.remove();\n      switch (computedColor) {\n        // Pre Windows 11 dark theme.\n        case 'rgb(0,0,0)':\n        // Windows 11 dark themes.\n        case 'rgb(45,50,54)':\n        case 'rgb(32,32,32)':\n          return HighContrastMode.WHITE_ON_BLACK;\n        // Pre Windows 11 light theme.\n        case 'rgb(255,255,255)':\n        // Windows 11 light theme.\n        case 'rgb(255,250,239)':\n          return HighContrastMode.BLACK_ON_WHITE;\n      }\n      return HighContrastMode.NONE;\n    }\n    ngOnDestroy() {\n      this._breakpointSubscription.unsubscribe();\n    }\n    /** Applies CSS classes indicating high-contrast mode to document body (browser-only). */\n    _applyBodyHighContrastModeCssClasses() {\n      if (!this._hasCheckedHighContrastMode && this._platform.isBrowser && this._document.body) {\n        const bodyClasses = this._document.body.classList;\n        bodyClasses.remove(HIGH_CONTRAST_MODE_ACTIVE_CSS_CLASS, BLACK_ON_WHITE_CSS_CLASS, WHITE_ON_BLACK_CSS_CLASS);\n        this._hasCheckedHighContrastMode = true;\n        const mode = this.getHighContrastMode();\n        if (mode === HighContrastMode.BLACK_ON_WHITE) {\n          bodyClasses.add(HIGH_CONTRAST_MODE_ACTIVE_CSS_CLASS, BLACK_ON_WHITE_CSS_CLASS);\n        } else if (mode === HighContrastMode.WHITE_ON_BLACK) {\n          bodyClasses.add(HIGH_CONTRAST_MODE_ACTIVE_CSS_CLASS, WHITE_ON_BLACK_CSS_CLASS);\n        }\n      }\n    }\n    static {\n      this.ɵfac = function HighContrastModeDetector_Factory(t) {\n        return new (t || HighContrastModeDetector)(i0.ɵɵinject(i1.Platform), i0.ɵɵinject(DOCUMENT));\n      };\n    }\n    static {\n      this.ɵprov = /* @__PURE__ */i0.ɵɵdefineInjectable({\n        token: HighContrastModeDetector,\n        factory: HighContrastModeDetector.ɵfac,\n        providedIn: 'root'\n      });\n    }\n  }\n  return HighContrastModeDetector;\n})();\n/*#__PURE__*/(() => {\n  (typeof ngDevMode === \"undefined\" || ngDevMode) && void 0;\n})();\nlet A11yModule = /*#__PURE__*/(() => {\n  class A11yModule {\n    constructor(highContrastModeDetector) {\n      highContrastModeDetector._applyBodyHighContrastModeCssClasses();\n    }\n    static {\n      this.ɵfac = function A11yModule_Factory(t) {\n        return new (t || A11yModule)(i0.ɵɵinject(HighContrastModeDetector));\n      };\n    }\n    static {\n      this.ɵmod = /* @__PURE__ */i0.ɵɵdefineNgModule({\n        type: A11yModule\n      });\n    }\n    static {\n      this.ɵinj = /* @__PURE__ */i0.ɵɵdefineInjector({\n        imports: [ObserversModule]\n      });\n    }\n  }\n  return A11yModule;\n})();\n/*#__PURE__*/(() => {\n  (typeof ngDevMode === \"undefined\" || ngDevMode) && void 0;\n})();\n\n/**\n * Generated bundle index. Do not edit.\n */\n\nexport { 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, FocusMonitorDetectionMode, FocusTrap, FocusTrapFactory, HighContrastMode, 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, addAriaReferencedId, getAriaReferenceIds, isFakeMousedownFromScreenReader, isFakeTouchstartFromScreenReader, removeAriaReferencedId };\n","import * as i0 from '@angular/core';\nimport { InjectionToken, inject, EventEmitter, Injectable, Optional, Inject, Directive, Output, Input, NgModule } from '@angular/core';\nimport { DOCUMENT } from '@angular/common';\n\n/**\n * Injection token used to inject the document into Directionality.\n * This is used so that the value can be faked in tests.\n *\n * We can't use the real document in tests because changing the real `dir` causes geometry-based\n * tests in Safari to fail.\n *\n * We also can't re-provide the DOCUMENT token from platform-browser because the unit tests\n * themselves use things like `querySelector` in test code.\n *\n * This token is defined in a separate file from Directionality as a workaround for\n * https://github.com/angular/angular/issues/22559\n *\n * @docs-private\n */\nconst DIR_DOCUMENT = /*#__PURE__*/new InjectionToken('cdk-dir-doc', {\n  providedIn: 'root',\n  factory: DIR_DOCUMENT_FACTORY\n});\n/** @docs-private */\nfunction DIR_DOCUMENT_FACTORY() {\n  return inject(DOCUMENT);\n}\n\n/** Regex that matches locales with an RTL script. Taken from `goog.i18n.bidi.isRtlLanguage`. */\nconst RTL_LOCALE_PATTERN = /^(ar|ckb|dv|he|iw|fa|nqo|ps|sd|ug|ur|yi|.*[-_](Adlm|Arab|Hebr|Nkoo|Rohg|Thaa))(?!.*[-_](Latn|Cyrl)($|-|_))($|-|_)/i;\n/** Resolves a string value to a specific direction. */\nfunction _resolveDirectionality(rawValue) {\n  const value = rawValue?.toLowerCase() || '';\n  if (value === 'auto' && typeof navigator !== 'undefined' && navigator?.language) {\n    return RTL_LOCALE_PATTERN.test(navigator.language) ? 'rtl' : 'ltr';\n  }\n  return value === 'rtl' ? 'rtl' : 'ltr';\n}\n/**\n * The directionality (LTR / RTL) context for the application (or a subtree of it).\n * Exposes the current direction and a stream of direction changes.\n */\nlet Directionality = /*#__PURE__*/(() => {\n  class Directionality {\n    constructor(_document) {\n      /** The current 'ltr' or 'rtl' value. */\n      this.value = 'ltr';\n      /** Stream that emits whenever the 'ltr' / 'rtl' state changes. */\n      this.change = new EventEmitter();\n      if (_document) {\n        const bodyDir = _document.body ? _document.body.dir : null;\n        const htmlDir = _document.documentElement ? _document.documentElement.dir : null;\n        this.value = _resolveDirectionality(bodyDir || htmlDir || 'ltr');\n      }\n    }\n    ngOnDestroy() {\n      this.change.complete();\n    }\n    static {\n      this.ɵfac = function Directionality_Factory(t) {\n        return new (t || Directionality)(i0.ɵɵinject(DIR_DOCUMENT, 8));\n      };\n    }\n    static {\n      this.ɵprov = /* @__PURE__ */i0.ɵɵdefineInjectable({\n        token: Directionality,\n        factory: Directionality.ɵfac,\n        providedIn: 'root'\n      });\n    }\n  }\n  return Directionality;\n})();\n/*#__PURE__*/(() => {\n  (typeof ngDevMode === \"undefined\" || ngDevMode) && void 0;\n})();\n\n/**\n * Directive to listen for changes of direction of part of the DOM.\n *\n * Provides itself as Directionality such that descendant directives only need to ever inject\n * Directionality to get the closest direction.\n */\nlet Dir = /*#__PURE__*/(() => {\n  class Dir {\n    constructor() {\n      /** Normalized direction that accounts for invalid/unsupported values. */\n      this._dir = 'ltr';\n      /** Whether the `value` has been set to its initial value. */\n      this._isInitialized = false;\n      /** Event emitted when the direction changes. */\n      this.change = new EventEmitter();\n    }\n    /** @docs-private */\n    get dir() {\n      return this._dir;\n    }\n    set dir(value) {\n      const previousValue = this._dir;\n      // Note: `_resolveDirectionality` resolves the language based on the browser's language,\n      // whereas the browser does it based on the content of the element. Since doing so based\n      // on the content can be expensive, for now we're doing the simpler matching.\n      this._dir = _resolveDirectionality(value);\n      this._rawDir = value;\n      if (previousValue !== this._dir && this._isInitialized) {\n        this.change.emit(this._dir);\n      }\n    }\n    /** Current layout direction of the element. */\n    get value() {\n      return this.dir;\n    }\n    /** Initialize once default value has been set. */\n    ngAfterContentInit() {\n      this._isInitialized = true;\n    }\n    ngOnDestroy() {\n      this.change.complete();\n    }\n    static {\n      this.ɵfac = function Dir_Factory(t) {\n        return new (t || Dir)();\n      };\n    }\n    static {\n      this.ɵdir = /* @__PURE__ */i0.ɵɵdefineDirective({\n        type: Dir,\n        selectors: [[\"\", \"dir\", \"\"]],\n        hostVars: 1,\n        hostBindings: function Dir_HostBindings(rf, ctx) {\n          if (rf & 2) {\n            i0.ɵɵattribute(\"dir\", ctx._rawDir);\n          }\n        },\n        inputs: {\n          dir: \"dir\"\n        },\n        outputs: {\n          change: \"dirChange\"\n        },\n        exportAs: [\"dir\"],\n        standalone: true,\n        features: [i0.ɵɵProvidersFeature([{\n          provide: Directionality,\n          useExisting: Dir\n        }])]\n      });\n    }\n  }\n  return Dir;\n})();\n/*#__PURE__*/(() => {\n  (typeof ngDevMode === \"undefined\" || ngDevMode) && void 0;\n})();\nlet BidiModule = /*#__PURE__*/(() => {\n  class BidiModule {\n    static {\n      this.ɵfac = function BidiModule_Factory(t) {\n        return new (t || BidiModule)();\n      };\n    }\n    static {\n      this.ɵmod = /* @__PURE__ */i0.ɵɵdefineNgModule({\n        type: BidiModule\n      });\n    }\n    static {\n      this.ɵinj = /* @__PURE__ */i0.ɵɵdefineInjector({});\n    }\n  }\n  return BidiModule;\n})();\n/*#__PURE__*/(() => {\n  (typeof ngDevMode === \"undefined\" || ngDevMode) && void 0;\n})();\n\n/**\n * Generated bundle index. Do not edit.\n */\n\nexport { BidiModule, DIR_DOCUMENT, Dir, Directionality };\n","import * as i0 from '@angular/core';\nimport { Version, InjectionToken, inject, NgModule, Optional, Inject, LOCALE_ID, Injectable, Directive, ANIMATION_MODULE_TYPE, Input, Component, ViewEncapsulation, ChangeDetectionStrategy, booleanAttribute, EventEmitter, Output, ViewChild, NgZone, ElementRef } from '@angular/core';\nimport * as i1 from '@angular/cdk/a11y';\nimport { isFakeMousedownFromScreenReader, isFakeTouchstartFromScreenReader } from '@angular/cdk/a11y';\nimport { BidiModule } from '@angular/cdk/bidi';\nimport { VERSION as VERSION$1 } from '@angular/cdk';\nimport { DOCUMENT } from '@angular/common';\nimport * as i1$1 from '@angular/cdk/platform';\nimport { Platform, _isTestEnvironment, normalizePassiveListenerOptions, _getEventTarget } from '@angular/cdk/platform';\nimport { coerceBooleanProperty, coerceNumberProperty, coerceElement } from '@angular/cdk/coercion';\nimport { Observable, Subject } from 'rxjs';\nimport { startWith } from 'rxjs/operators';\nimport { ENTER, SPACE, hasModifierKey } from '@angular/cdk/keycodes';\n\n/** Current version of Angular Material. */\nconst _c0 = [\"*\", [[\"mat-option\"], [\"ng-container\"]]];\nconst _c1 = [\"*\", \"mat-option, ng-container\"];\nconst _c2 = [\"text\"];\nconst _c3 = [[[\"mat-icon\"]], \"*\"];\nconst _c4 = [\"mat-icon\", \"*\"];\nfunction MatOption_Conditional_0_Template(rf, ctx) {\n  if (rf & 1) {\n    i0.ɵɵelement(0, \"mat-pseudo-checkbox\", 6);\n  }\n  if (rf & 2) {\n    const ctx_r0 = i0.ɵɵnextContext();\n    i0.ɵɵproperty(\"disabled\", ctx_r0.disabled)(\"state\", ctx_r0.selected ? \"checked\" : \"unchecked\");\n  }\n}\nfunction MatOption_Conditional_5_Template(rf, ctx) {\n  if (rf & 1) {\n    i0.ɵɵelement(0, \"mat-pseudo-checkbox\", 7);\n  }\n  if (rf & 2) {\n    const ctx_r0 = i0.ɵɵnextContext();\n    i0.ɵɵproperty(\"disabled\", ctx_r0.disabled);\n  }\n}\nfunction MatOption_Conditional_6_Template(rf, ctx) {\n  if (rf & 1) {\n    i0.ɵɵelementStart(0, \"span\", 4);\n    i0.ɵɵtext(1);\n    i0.ɵɵelementEnd();\n  }\n  if (rf & 2) {\n    const ctx_r0 = i0.ɵɵnextContext();\n    i0.ɵɵadvance();\n    i0.ɵɵtextInterpolate1(\"(\", ctx_r0.group.label, \")\");\n  }\n}\nconst _c5 = [\"mat-internal-form-field\", \"\"];\nconst _c6 = [\"*\"];\nconst VERSION = /*#__PURE__*/new Version('17.3.0');\n\n/** @docs-private */\nlet AnimationCurves = /*#__PURE__*/(() => {\n  class AnimationCurves {\n    static {\n      this.STANDARD_CURVE = 'cubic-bezier(0.4,0.0,0.2,1)';\n    }\n    static {\n      this.DECELERATION_CURVE = 'cubic-bezier(0.0,0.0,0.2,1)';\n    }\n    static {\n      this.ACCELERATION_CURVE = 'cubic-bezier(0.4,0.0,1,1)';\n    }\n    static {\n      this.SHARP_CURVE = 'cubic-bezier(0.4,0.0,0.6,1)';\n    }\n  }\n  return AnimationCurves;\n})();\n/** @docs-private */\nlet AnimationDurations = /*#__PURE__*/(() => {\n  class AnimationDurations {\n    static {\n      this.COMPLEX = '375ms';\n    }\n    static {\n      this.ENTERING = '225ms';\n    }\n    static {\n      this.EXITING = '195ms';\n    }\n  }\n  return AnimationDurations;\n})();\n/** @docs-private */\nfunction MATERIAL_SANITY_CHECKS_FACTORY() {\n  return true;\n}\n/** Injection token that configures whether the Material sanity checks are enabled. */\nconst MATERIAL_SANITY_CHECKS = /*#__PURE__*/new InjectionToken('mat-sanity-checks', {\n  providedIn: 'root',\n  factory: MATERIAL_SANITY_CHECKS_FACTORY\n});\n/**\n * Module that captures anything that should be loaded and/or run for *all* Angular Material\n * components. This includes Bidi, etc.\n *\n * This module should be imported to each top-level component module (e.g., MatTabsModule).\n */\nlet MatCommonModule = /*#__PURE__*/(() => {\n  class MatCommonModule {\n    constructor(highContrastModeDetector, _sanityChecks, _document) {\n      this._sanityChecks = _sanityChecks;\n      this._document = _document;\n      /** Whether we've done the global sanity checks (e.g. a theme is loaded, there is a doctype). */\n      this._hasDoneGlobalChecks = false;\n      // While A11yModule also does this, we repeat it here to avoid importing A11yModule\n      // in MatCommonModule.\n      highContrastModeDetector._applyBodyHighContrastModeCssClasses();\n      if (!this._hasDoneGlobalChecks) {\n        this._hasDoneGlobalChecks = true;\n        if (typeof ngDevMode === 'undefined' || ngDevMode) {\n          // Inject in here so the reference to `Platform` can be removed in production mode.\n          const platform = inject(Platform, {\n            optional: true\n          });\n          if (this._checkIsEnabled('doctype')) {\n            _checkDoctypeIsDefined(this._document);\n          }\n          if (this._checkIsEnabled('theme')) {\n            _checkThemeIsPresent(this._document, !!platform?.isBrowser);\n          }\n          if (this._checkIsEnabled('version')) {\n            _checkCdkVersionMatch();\n          }\n        }\n      }\n    }\n    /** Gets whether a specific sanity check is enabled. */\n    _checkIsEnabled(name) {\n      if (_isTestEnvironment()) {\n        return false;\n      }\n      if (typeof this._sanityChecks === 'boolean') {\n        return this._sanityChecks;\n      }\n      return !!this._sanityChecks[name];\n    }\n    static {\n      this.ɵfac = function MatCommonModule_Factory(t) {\n        return new (t || MatCommonModule)(i0.ɵɵinject(i1.HighContrastModeDetector), i0.ɵɵinject(MATERIAL_SANITY_CHECKS, 8), i0.ɵɵinject(DOCUMENT));\n      };\n    }\n    static {\n      this.ɵmod = /* @__PURE__ */i0.ɵɵdefineNgModule({\n        type: MatCommonModule\n      });\n    }\n    static {\n      this.ɵinj = /* @__PURE__ */i0.ɵɵdefineInjector({\n        imports: [BidiModule, BidiModule]\n      });\n    }\n  }\n  return MatCommonModule;\n})();\n/*#__PURE__*/(() => {\n  (typeof ngDevMode === \"undefined\" || ngDevMode) && void 0;\n})();\n/** Checks that the page has a doctype. */\nfunction _checkDoctypeIsDefined(doc) {\n  if (!doc.doctype) {\n    console.warn('Current document does not have a doctype. This may cause ' + 'some Angular Material components not to behave as expected.');\n  }\n}\n/** Checks that a theme has been included. */\nfunction _checkThemeIsPresent(doc, isBrowser) {\n  // We need to assert that the `body` is defined, because these checks run very early\n  // and the `body` won't be defined if the consumer put their scripts in the `head`.\n  if (!doc.body || !isBrowser) {\n    return;\n  }\n  const testElement = doc.createElement('div');\n  testElement.classList.add('mat-theme-loaded-marker');\n  doc.body.appendChild(testElement);\n  const computedStyle = getComputedStyle(testElement);\n  // In some situations the computed style of the test element can be null. For example in\n  // Firefox, the computed style is null if an application is running inside of a hidden iframe.\n  // See: https://bugzilla.mozilla.org/show_bug.cgi?id=548397\n  if (computedStyle && computedStyle.display !== 'none') {\n    console.warn('Could not find Angular Material core theme. Most Material ' + 'components may not work as expected. For more info refer ' + 'to the theming guide: https://material.angular.io/guide/theming');\n  }\n  testElement.remove();\n}\n/** Checks whether the Material version matches the CDK version. */\nfunction _checkCdkVersionMatch() {\n  if (VERSION.full !== VERSION$1.full) {\n    console.warn('The Angular Material version (' + VERSION.full + ') does not match ' + 'the Angular CDK version (' + VERSION$1.full + ').\\n' + 'Please ensure the versions of these two packages exactly match.');\n  }\n}\nfunction mixinDisabled(base) {\n  return class extends base {\n    get disabled() {\n      return this._disabled;\n    }\n    set disabled(value) {\n      this._disabled = coerceBooleanProperty(value);\n    }\n    constructor(...args) {\n      super(...args);\n      this._disabled = false;\n    }\n  };\n}\nfunction mixinColor(base, defaultColor) {\n  return class extends base {\n    get color() {\n      return this._color;\n    }\n    set color(value) {\n      const colorPalette = value || this.defaultColor;\n      if (colorPalette !== this._color) {\n        if (this._color) {\n          this._elementRef.nativeElement.classList.remove(`mat-${this._color}`);\n        }\n        if (colorPalette) {\n          this._elementRef.nativeElement.classList.add(`mat-${colorPalette}`);\n        }\n        this._color = colorPalette;\n      }\n    }\n    constructor(...args) {\n      super(...args);\n      this.defaultColor = defaultColor;\n      // Set the default color that can be specified from the mixin.\n      this.color = defaultColor;\n    }\n  };\n}\nfunction mixinDisableRipple(base) {\n  return class extends base {\n    /** Whether the ripple effect is disabled or not. */\n    get disableRipple() {\n      return this._disableRipple;\n    }\n    set disableRipple(value) {\n      this._disableRipple = coerceBooleanProperty(value);\n    }\n    constructor(...args) {\n      super(...args);\n      this._disableRipple = false;\n    }\n  };\n}\nfunction mixinTabIndex(base, defaultTabIndex = 0) {\n  return class extends base {\n    get tabIndex() {\n      return this.disabled ? -1 : this._tabIndex;\n    }\n    set tabIndex(value) {\n      // If the specified tabIndex value is null or undefined, fall back to the default value.\n      this._tabIndex = value != null ? coerceNumberProperty(value) : this.defaultTabIndex;\n    }\n    constructor(...args) {\n      super(...args);\n      this._tabIndex = defaultTabIndex;\n      this.defaultTabIndex = defaultTabIndex;\n    }\n  };\n}\n\n/**\n * Class that tracks the error state of a component.\n * @docs-private\n */\nclass _ErrorStateTracker {\n  constructor(_defaultMatcher, ngControl, _parentFormGroup, _parentForm, _stateChanges) {\n    this._defaultMatcher = _defaultMatcher;\n    this.ngControl = ngControl;\n    this._parentFormGroup = _parentFormGroup;\n    this._parentForm = _parentForm;\n    this._stateChanges = _stateChanges;\n    /** Whether the tracker is currently in an error state. */\n    this.errorState = false;\n  }\n  /** Updates the error state based on the provided error state matcher. */\n  updateErrorState() {\n    const oldState = this.errorState;\n    const parent = this._parentFormGroup || this._parentForm;\n    const matcher = this.matcher || this._defaultMatcher;\n    const control = this.ngControl ? this.ngControl.control : null;\n    const newState = matcher?.isErrorState(control, parent) ?? false;\n    if (newState !== oldState) {\n      this.errorState = newState;\n      this._stateChanges.next();\n    }\n  }\n}\nfunction mixinErrorState(base) {\n  return class extends base {\n    /** Whether the component is in an error state. */\n    get errorState() {\n      return this._getTracker().errorState;\n    }\n    set errorState(value) {\n      this._getTracker().errorState = value;\n    }\n    /** An object used to control the error state of the component. */\n    get errorStateMatcher() {\n      return this._getTracker().matcher;\n    }\n    set errorStateMatcher(value) {\n      this._getTracker().matcher = value;\n    }\n    /** Updates the error state based on the provided error state matcher. */\n    updateErrorState() {\n      this._getTracker().updateErrorState();\n    }\n    _getTracker() {\n      if (!this._tracker) {\n        this._tracker = new _ErrorStateTracker(this._defaultErrorStateMatcher, this.ngControl, this._parentFormGroup, this._parentForm, this.stateChanges);\n      }\n      return this._tracker;\n    }\n    constructor(...args) {\n      super(...args);\n    }\n  };\n}\n\n/**\n * Mixin to augment a directive with an initialized property that will emits when ngOnInit ends.\n * @deprecated Track the initialized state manually.\n * @breaking-change 19.0.0\n */\nfunction mixinInitialized(base) {\n  return class extends base {\n    constructor(...args) {\n      super(...args);\n      /** Whether this directive has been marked as initialized. */\n      this._isInitialized = false;\n      /**\n       * List of subscribers that subscribed before the directive was initialized. Should be notified\n       * during _markInitialized. Set to null after pending subscribers are notified, and should\n       * not expect to be populated after.\n       */\n      this._pendingSubscribers = [];\n      /**\n       * Observable stream that emits when the directive initializes. If already initialized, the\n       * subscriber is stored to be notified once _markInitialized is called.\n       */\n      this.initialized = new Observable(subscriber => {\n        // If initialized, immediately notify the subscriber. Otherwise store the subscriber to notify\n        // when _markInitialized is called.\n        if (this._isInitialized) {\n          this._notifySubscriber(subscriber);\n        } else {\n          this._pendingSubscribers.push(subscriber);\n        }\n      });\n    }\n    /**\n     * Marks the state as initialized and notifies pending subscribers. Should be called at the end\n     * of ngOnInit.\n     * @docs-private\n     */\n    _markInitialized() {\n      if (this._isInitialized && (typeof ngDevMode === 'undefined' || ngDevMode)) {\n        throw Error('This directive has already been marked as initialized and ' + 'should not be called twice.');\n      }\n      this._isInitialized = true;\n      this._pendingSubscribers.forEach(this._notifySubscriber);\n      this._pendingSubscribers = null;\n    }\n    /** Emits and completes the subscriber stream (should only emit once). */\n    _notifySubscriber(subscriber) {\n      subscriber.next();\n      subscriber.complete();\n    }\n  };\n}\n\n/** InjectionToken for datepicker that can be used to override default locale code. */\nconst MAT_DATE_LOCALE = /*#__PURE__*/new InjectionToken('MAT_DATE_LOCALE', {\n  providedIn: 'root',\n  factory: MAT_DATE_LOCALE_FACTORY\n});\n/** @docs-private */\nfunction MAT_DATE_LOCALE_FACTORY() {\n  return inject(LOCALE_ID);\n}\n/** Adapts type `D` to be usable as a date by cdk-based components that work with dates. */\nclass DateAdapter {\n  constructor() {\n    this._localeChanges = new Subject();\n    /** A stream that emits when the locale changes. */\n    this.localeChanges = this._localeChanges;\n  }\n  /**\n   * Given a potential date object, returns that same date object if it is\n   * a valid date, or `null` if it's not a valid date.\n   * @param obj The object to check.\n   * @returns A date or `null`.\n   */\n  getValidDateOrNull(obj) {\n    return this.isDateInstance(obj) && this.isValid(obj) ? obj : null;\n  }\n  /**\n   * Attempts to deserialize a value to a valid date object. This is different from parsing in that\n   * deserialize should only accept non-ambiguous, locale-independent formats (e.g. a ISO 8601\n   * string). The default implementation does not allow any deserialization, it simply checks that\n   * the given value is already a valid date object or null. The `<mat-datepicker>` will call this\n   * method on all of its `@Input()` properties that accept dates. It is therefore possible to\n   * support passing values from your backend directly to these properties by overriding this method\n   * to also deserialize the format used by your backend.\n   * @param value The value to be deserialized into a date object.\n   * @returns The deserialized date object, either a valid date, null if the value can be\n   *     deserialized into a null date (e.g. the empty string), or an invalid date.\n   */\n  deserialize(value) {\n    if (value == null || this.isDateInstance(value) && this.isValid(value)) {\n      return value;\n    }\n    return this.invalid();\n  }\n  /**\n   * Sets the locale used for all dates.\n   * @param locale The new locale.\n   */\n  setLocale(locale) {\n    this.locale = locale;\n    this._localeChanges.next();\n  }\n  /**\n   * Compares two dates.\n   * @param first The first date to compare.\n   * @param second The second date to compare.\n   * @returns 0 if the dates are equal, a number less than 0 if the first date is earlier,\n   *     a number greater than 0 if the first date is later.\n   */\n  compareDate(first, second) {\n    return this.getYear(first) - this.getYear(second) || this.getMonth(first) - this.getMonth(second) || this.getDate(first) - this.getDate(second);\n  }\n  /**\n   * Checks if two dates are equal.\n   * @param first The first date to check.\n   * @param second The second date to check.\n   * @returns Whether the two dates are equal.\n   *     Null dates are considered equal to other null dates.\n   */\n  sameDate(first, second) {\n    if (first && second) {\n      let firstValid = this.isValid(first);\n      let secondValid = this.isValid(second);\n      if (firstValid && secondValid) {\n        return !this.compareDate(first, second);\n      }\n      return firstValid == secondValid;\n    }\n    return first == second;\n  }\n  /**\n   * Clamp the given date between min and max dates.\n   * @param date The date to clamp.\n   * @param min The minimum value to allow. If null or omitted no min is enforced.\n   * @param max The maximum value to allow. If null or omitted no max is enforced.\n   * @returns `min` if `date` is less than `min`, `max` if date is greater than `max`,\n   *     otherwise `date`.\n   */\n  clampDate(date, min, max) {\n    if (min && this.compareDate(date, min) < 0) {\n      return min;\n    }\n    if (max && this.compareDate(date, max) > 0) {\n      return max;\n    }\n    return date;\n  }\n}\nconst MAT_DATE_FORMATS = /*#__PURE__*/new InjectionToken('mat-date-formats');\n\n/**\n * Matches strings that have the form of a valid RFC 3339 string\n * (https://tools.ietf.org/html/rfc3339). Note that the string may not actually be a valid date\n * because the regex will match strings an with out of bounds month, date, etc.\n */\nconst ISO_8601_REGEX = /^\\d{4}-\\d{2}-\\d{2}(?:T\\d{2}:\\d{2}:\\d{2}(?:\\.\\d+)?(?:Z|(?:(?:\\+|-)\\d{2}:\\d{2}))?)?$/;\n/** Creates an array and fills it with values. */\nfunction range(length, valueFunction) {\n  const valuesArray = Array(length);\n  for (let i = 0; i < length; i++) {\n    valuesArray[i] = valueFunction(i);\n  }\n  return valuesArray;\n}\n/** Adapts the native JS Date for use with cdk-based components that work with dates. */\nlet NativeDateAdapter = /*#__PURE__*/(() => {\n  class NativeDateAdapter extends DateAdapter {\n    constructor(\n    /**\n     * @deprecated Now injected via inject(), param to be removed.\n     * @breaking-change 18.0.0\n     */\n    matDateLocale) {\n      super();\n      /**\n       * @deprecated No longer being used. To be removed.\n       * @breaking-change 14.0.0\n       */\n      this.useUtcForDisplay = false;\n      /** The injected locale. */\n      this._matDateLocale = inject(MAT_DATE_LOCALE, {\n        optional: true\n      });\n      if (matDateLocale !== undefined) {\n        this._matDateLocale = matDateLocale;\n      }\n      super.setLocale(this._matDateLocale);\n    }\n    getYear(date) {\n      return date.getFullYear();\n    }\n    getMonth(date) {\n      return date.getMonth();\n    }\n    getDate(date) {\n      return date.getDate();\n    }\n    getDayOfWeek(date) {\n      return date.getDay();\n    }\n    getMonthNames(style) {\n      const dtf = new Intl.DateTimeFormat(this.locale, {\n        month: style,\n        timeZone: 'utc'\n      });\n      return range(12, i => this._format(dtf, new Date(2017, i, 1)));\n    }\n    getDateNames() {\n      const dtf = new Intl.DateTimeFormat(this.locale, {\n        day: 'numeric',\n        timeZone: 'utc'\n      });\n      return range(31, i => this._format(dtf, new Date(2017, 0, i + 1)));\n    }\n    getDayOfWeekNames(style) {\n      const dtf = new Intl.DateTimeFormat(this.locale, {\n        weekday: style,\n        timeZone: 'utc'\n      });\n      return range(7, i => this._format(dtf, new Date(2017, 0, i + 1)));\n    }\n    getYearName(date) {\n      const dtf = new Intl.DateTimeFormat(this.locale, {\n        year: 'numeric',\n        timeZone: 'utc'\n      });\n      return this._format(dtf, date);\n    }\n    getFirstDayOfWeek() {\n      // We can't tell using native JS Date what the first day of the week is, we default to Sunday.\n      return 0;\n    }\n    getNumDaysInMonth(date) {\n      return this.getDate(this._createDateWithOverflow(this.getYear(date), this.getMonth(date) + 1, 0));\n    }\n    clone(date) {\n      return new Date(date.getTime());\n    }\n    createDate(year, month, date) {\n      if (typeof ngDevMode === 'undefined' || ngDevMode) {\n        // Check for invalid month and date (except upper bound on date which we have to check after\n        // creating the Date).\n        if (month < 0 || month > 11) {\n          throw Error(`Invalid month index \"${month}\". Month index has to be between 0 and 11.`);\n        }\n        if (date < 1) {\n          throw Error(`Invalid date \"${date}\". Date has to be greater than 0.`);\n        }\n      }\n      let result = this._createDateWithOverflow(year, month, date);\n      // Check that the date wasn't above the upper bound for the month, causing the month to overflow\n      if (result.getMonth() != month && (typeof ngDevMode === 'undefined' || ngDevMode)) {\n        throw Error(`Invalid date \"${date}\" for month with index \"${month}\".`);\n      }\n      return result;\n    }\n    today() {\n      return new Date();\n    }\n    parse(value, parseFormat) {\n      // We have no way using the native JS Date to set the parse format or locale, so we ignore these\n      // parameters.\n      if (typeof value == 'number') {\n        return new Date(value);\n      }\n      return value ? new Date(Date.parse(value)) : null;\n    }\n    format(date, displayFormat) {\n      if (!this.isValid(date)) {\n        throw Error('NativeDateAdapter: Cannot format invalid date.');\n      }\n      const dtf = new Intl.DateTimeFormat(this.locale, {\n        ...displayFormat,\n        timeZone: 'utc'\n      });\n      return this._format(dtf, date);\n    }\n    addCalendarYears(date, years) {\n      return this.addCalendarMonths(date, years * 12);\n    }\n    addCalendarMonths(date, months) {\n      let newDate = this._createDateWithOverflow(this.getYear(date), this.getMonth(date) + months, this.getDate(date));\n      // It's possible to wind up in the wrong month if the original month has more days than the new\n      // month. In this case we want to go to the last day of the desired month.\n      // Note: the additional + 12 % 12 ensures we end up with a positive number, since JS % doesn't\n      // guarantee this.\n      if (this.getMonth(newDate) != ((this.getMonth(date) + months) % 12 + 12) % 12) {\n        newDate = this._createDateWithOverflow(this.getYear(newDate), this.getMonth(newDate), 0);\n      }\n      return newDate;\n    }\n    addCalendarDays(date, days) {\n      return this._createDateWithOverflow(this.getYear(date), this.getMonth(date), this.getDate(date) + days);\n    }\n    toIso8601(date) {\n      return [date.getUTCFullYear(), this._2digit(date.getUTCMonth() + 1), this._2digit(date.getUTCDate())].join('-');\n    }\n    /**\n     * Returns the given value if given a valid Date or null. Deserializes valid ISO 8601 strings\n     * (https://www.ietf.org/rfc/rfc3339.txt) into valid Dates and empty string into null. Returns an\n     * invalid date for all other values.\n     */\n    deserialize(value) {\n      if (typeof value === 'string') {\n        if (!value) {\n          return null;\n        }\n        // The `Date` constructor accepts formats other than ISO 8601, so we need to make sure the\n        // string is the right format first.\n        if (ISO_8601_REGEX.test(value)) {\n          let date = new Date(value);\n          if (this.isValid(date)) {\n            return date;\n          }\n        }\n      }\n      return super.deserialize(value);\n    }\n    isDateInstance(obj) {\n      return obj instanceof Date;\n    }\n    isValid(date) {\n      return !isNaN(date.getTime());\n    }\n    invalid() {\n      return new Date(NaN);\n    }\n    /** Creates a date but allows the month and date to overflow. */\n    _createDateWithOverflow(year, month, date) {\n      // Passing the year to the constructor causes year numbers <100 to be converted to 19xx.\n      // To work around this we use `setFullYear` and `setHours` instead.\n      const d = new Date();\n      d.setFullYear(year, month, date);\n      d.setHours(0, 0, 0, 0);\n      return d;\n    }\n    /**\n     * Pads a number to make it two digits.\n     * @param n The number to pad.\n     * @returns The padded number.\n     */\n    _2digit(n) {\n      return ('00' + n).slice(-2);\n    }\n    /**\n     * When converting Date object to string, javascript built-in functions may return wrong\n     * results because it applies its internal DST rules. The DST rules around the world change\n     * very frequently, and the current valid rule is not always valid in previous years though.\n     * We work around this problem building a new Date object which has its internal UTC\n     * representation with the local date and time.\n     * @param dtf Intl.DateTimeFormat object, containing the desired string format. It must have\n     *    timeZone set to 'utc' to work fine.\n     * @param date Date from which we want to get the string representation according to dtf\n     * @returns A Date object with its UTC representation based on the passed in date info\n     */\n    _format(dtf, date) {\n      // Passing the year to the constructor causes year numbers <100 to be converted to 19xx.\n      // To work around this we use `setUTCFullYear` and `setUTCHours` instead.\n      const d = new Date();\n      d.setUTCFullYear(date.getFullYear(), date.getMonth(), date.getDate());\n      d.setUTCHours(date.getHours(), date.getMinutes(), date.getSeconds(), date.getMilliseconds());\n      return dtf.format(d);\n    }\n    static {\n      this.ɵfac = function NativeDateAdapter_Factory(t) {\n        return new (t || NativeDateAdapter)(i0.ɵɵinject(MAT_DATE_LOCALE, 8));\n      };\n    }\n    static {\n      this.ɵprov = /* @__PURE__ */i0.ɵɵdefineInjectable({\n        token: NativeDateAdapter,\n        factory: NativeDateAdapter.ɵfac\n      });\n    }\n  }\n  return NativeDateAdapter;\n})();\n/*#__PURE__*/(() => {\n  (typeof ngDevMode === \"undefined\" || ngDevMode) && void 0;\n})();\nconst MAT_NATIVE_DATE_FORMATS = {\n  parse: {\n    dateInput: null\n  },\n  display: {\n    dateInput: {\n      year: 'numeric',\n      month: 'numeric',\n      day: 'numeric'\n    },\n    monthYearLabel: {\n      year: 'numeric',\n      month: 'short'\n    },\n    dateA11yLabel: {\n      year: 'numeric',\n      month: 'long',\n      day: 'numeric'\n    },\n    monthYearA11yLabel: {\n      year: 'numeric',\n      month: 'long'\n    }\n  }\n};\nlet NativeDateModule = /*#__PURE__*/(() => {\n  class NativeDateModule {\n    static {\n      this.ɵfac = function NativeDateModule_Factory(t) {\n        return new (t || NativeDateModule)();\n      };\n    }\n    static {\n      this.ɵmod = /* @__PURE__ */i0.ɵɵdefineNgModule({\n        type: NativeDateModule\n      });\n    }\n    static {\n      this.ɵinj = /* @__PURE__ */i0.ɵɵdefineInjector({\n        providers: [{\n          provide: DateAdapter,\n          useClass: NativeDateAdapter\n        }]\n      });\n    }\n  }\n  return NativeDateModule;\n})();\n/*#__PURE__*/(() => {\n  (typeof ngDevMode === \"undefined\" || ngDevMode) && void 0;\n})();\nlet MatNativeDateModule = /*#__PURE__*/(() => {\n  class MatNativeDateModule {\n    static {\n      this.ɵfac = function MatNativeDateModule_Factory(t) {\n        return new (t || MatNativeDateModule)();\n      };\n    }\n    static {\n      this.ɵmod = /* @__PURE__ */i0.ɵɵdefineNgModule({\n        type: MatNativeDateModule\n      });\n    }\n    static {\n      this.ɵinj = /* @__PURE__ */i0.ɵɵdefineInjector({\n        providers: [provideNativeDateAdapter()]\n      });\n    }\n  }\n  return MatNativeDateModule;\n})();\n/*#__PURE__*/(() => {\n  (typeof ngDevMode === \"undefined\" || ngDevMode) && void 0;\n})();\nfunction provideNativeDateAdapter(formats = MAT_NATIVE_DATE_FORMATS) {\n  return [{\n    provide: DateAdapter,\n    useClass: NativeDateAdapter\n  }, {\n    provide: MAT_DATE_FORMATS,\n    useValue: formats\n  }];\n}\n\n/** Error state matcher that matches when a control is invalid and dirty. */\nlet ShowOnDirtyErrorStateMatcher = /*#__PURE__*/(() => {\n  class ShowOnDirtyErrorStateMatcher {\n    isErrorState(control, form) {\n      return !!(control && control.invalid && (control.dirty || form && form.submitted));\n    }\n    static {\n      this.ɵfac = function ShowOnDirtyErrorStateMatcher_Factory(t) {\n        return new (t || ShowOnDirtyErrorStateMatcher)();\n      };\n    }\n    static {\n      this.ɵprov = /* @__PURE__ */i0.ɵɵdefineInjectable({\n        token: ShowOnDirtyErrorStateMatcher,\n        factory: ShowOnDirtyErrorStateMatcher.ɵfac\n      });\n    }\n  }\n  return ShowOnDirtyErrorStateMatcher;\n})();\n/*#__PURE__*/(() => {\n  (typeof ngDevMode === \"undefined\" || ngDevMode) && void 0;\n})();\n/** Provider that defines how form controls behave with regards to displaying error messages. */\nlet ErrorStateMatcher = /*#__PURE__*/(() => {\n  class ErrorStateMatcher {\n    isErrorState(control, form) {\n      return !!(control && control.invalid && (control.touched || form && form.submitted));\n    }\n    static {\n      this.ɵfac = function ErrorStateMatcher_Factory(t) {\n        return new (t || ErrorStateMatcher)();\n      };\n    }\n    static {\n      this.ɵprov = /* @__PURE__ */i0.ɵɵdefineInjectable({\n        token: ErrorStateMatcher,\n        factory: ErrorStateMatcher.ɵfac,\n        providedIn: 'root'\n      });\n    }\n  }\n  return ErrorStateMatcher;\n})();\n/*#__PURE__*/(() => {\n  (typeof ngDevMode === \"undefined\" || ngDevMode) && void 0;\n})();\n\n/**\n * Shared directive to count lines inside a text area, such as a list item.\n * Line elements can be extracted with a @ContentChildren(MatLine) query, then\n * counted by checking the query list's length.\n */\nlet MatLine = /*#__PURE__*/(() => {\n  class MatLine {\n    static {\n      this.ɵfac = function MatLine_Factory(t) {\n        return new (t || MatLine)();\n      };\n    }\n    static {\n      this.ɵdir = /* @__PURE__ */i0.ɵɵdefineDirective({\n        type: MatLine,\n        selectors: [[\"\", \"mat-line\", \"\"], [\"\", \"matLine\", \"\"]],\n        hostAttrs: [1, \"mat-line\"],\n        standalone: true\n      });\n    }\n  }\n  return MatLine;\n})();\n/*#__PURE__*/(() => {\n  (typeof ngDevMode === \"undefined\" || ngDevMode) && void 0;\n})();\n/**\n * Helper that takes a query list of lines and sets the correct class on the host.\n * @docs-private\n */\nfunction setLines(lines, element, prefix = 'mat') {\n  // Note: doesn't need to unsubscribe, because `changes`\n  // gets completed by Angular when the view is destroyed.\n  lines.changes.pipe(startWith(lines)).subscribe(({\n    length\n  }) => {\n    setClass(element, `${prefix}-2-line`, false);\n    setClass(element, `${prefix}-3-line`, false);\n    setClass(element, `${prefix}-multi-line`, false);\n    if (length === 2 || length === 3) {\n      setClass(element, `${prefix}-${length}-line`, true);\n    } else if (length > 3) {\n      setClass(element, `${prefix}-multi-line`, true);\n    }\n  });\n}\n/** Adds or removes a class from an element. */\nfunction setClass(element, className, isAdd) {\n  element.nativeElement.classList.toggle(className, isAdd);\n}\nlet MatLineModule = /*#__PURE__*/(() => {\n  class MatLineModule {\n    static {\n      this.ɵfac = function MatLineModule_Factory(t) {\n        return new (t || MatLineModule)();\n      };\n    }\n    static {\n      this.ɵmod = /* @__PURE__ */i0.ɵɵdefineNgModule({\n        type: MatLineModule\n      });\n    }\n    static {\n      this.ɵinj = /* @__PURE__ */i0.ɵɵdefineInjector({\n        imports: [MatCommonModule, MatCommonModule]\n      });\n    }\n  }\n  return MatLineModule;\n})();\n/*#__PURE__*/(() => {\n  (typeof ngDevMode === \"undefined\" || ngDevMode) && void 0;\n})();\n\n/** Possible states for a ripple element. */\nvar RippleState = /*#__PURE__*/function (RippleState) {\n  RippleState[RippleState[\"FADING_IN\"] = 0] = \"FADING_IN\";\n  RippleState[RippleState[\"VISIBLE\"] = 1] = \"VISIBLE\";\n  RippleState[RippleState[\"FADING_OUT\"] = 2] = \"FADING_OUT\";\n  RippleState[RippleState[\"HIDDEN\"] = 3] = \"HIDDEN\";\n  return RippleState;\n}(RippleState || {});\n/**\n * Reference to a previously launched ripple element.\n */\nclass RippleRef {\n  constructor(_renderer, /** Reference to the ripple HTML element. */\n  element, /** Ripple configuration used for the ripple. */\n  config, /* Whether animations are forcibly disabled for ripples through CSS. */\n  _animationForciblyDisabledThroughCss = false) {\n    this._renderer = _renderer;\n    this.element = element;\n    this.config = config;\n    this._animationForciblyDisabledThroughCss = _animationForciblyDisabledThroughCss;\n    /** Current state of the ripple. */\n    this.state = RippleState.HIDDEN;\n  }\n  /** Fades out the ripple element. */\n  fadeOut() {\n    this._renderer.fadeOutRipple(this);\n  }\n}\n\n/** Options used to bind a passive capturing event. */\nconst passiveCapturingEventOptions$1 = /*#__PURE__*/normalizePassiveListenerOptions({\n  passive: true,\n  capture: true\n});\n/** Manages events through delegation so that as few event handlers as possible are bound. */\nclass RippleEventManager {\n  constructor() {\n    this._events = new Map();\n    /** Event handler that is bound and which dispatches the events to the different targets. */\n    this._delegateEventHandler = event => {\n      const target = _getEventTarget(event);\n      if (target) {\n        this._events.get(event.type)?.forEach((handlers, element) => {\n          if (element === target || element.contains(target)) {\n            handlers.forEach(handler => handler.handleEvent(event));\n          }\n        });\n      }\n    };\n  }\n  /** Adds an event handler. */\n  addHandler(ngZone, name, element, handler) {\n    const handlersForEvent = this._events.get(name);\n    if (handlersForEvent) {\n      const handlersForElement = handlersForEvent.get(element);\n      if (handlersForElement) {\n        handlersForElement.add(handler);\n      } else {\n        handlersForEvent.set(element, new Set([handler]));\n      }\n    } else {\n      this._events.set(name, new Map([[element, new Set([handler])]]));\n      ngZone.runOutsideAngular(() => {\n        document.addEventListener(name, this._delegateEventHandler, passiveCapturingEventOptions$1);\n      });\n    }\n  }\n  /** Removes an event handler. */\n  removeHandler(name, element, handler) {\n    const handlersForEvent = this._events.get(name);\n    if (!handlersForEvent) {\n      return;\n    }\n    const handlersForElement = handlersForEvent.get(element);\n    if (!handlersForElement) {\n      return;\n    }\n    handlersForElement.delete(handler);\n    if (handlersForElement.size === 0) {\n      handlersForEvent.delete(element);\n    }\n    if (handlersForEvent.size === 0) {\n      this._events.delete(name);\n      document.removeEventListener(name, this._delegateEventHandler, passiveCapturingEventOptions$1);\n    }\n  }\n}\n\n/**\n * Default ripple animation configuration for ripples without an explicit\n * animation config specified.\n */\nconst defaultRippleAnimationConfig = {\n  enterDuration: 225,\n  exitDuration: 150\n};\n/**\n * Timeout for ignoring mouse events. Mouse events will be temporary ignored after touch\n * events to avoid synthetic mouse events.\n */\nconst ignoreMouseEventsTimeout = 800;\n/** Options used to bind a passive capturing event. */\nconst passiveCapturingEventOptions = /*#__PURE__*/normalizePassiveListenerOptions({\n  passive: true,\n  capture: true\n});\n/** Events that signal that the pointer is down. */\nconst pointerDownEvents = ['mousedown', 'touchstart'];\n/** Events that signal that the pointer is up. */\nconst pointerUpEvents = ['mouseup', 'mouseleave', 'touchend', 'touchcancel'];\n/**\n * Helper service that performs DOM manipulations. Not intended to be used outside this module.\n * The constructor takes a reference to the ripple directive's host element and a map of DOM\n * event handlers to be installed on the element that triggers ripple animations.\n * This will eventually become a custom renderer once Angular support exists.\n * @docs-private\n */\nclass RippleRenderer {\n  static {\n    this._eventManager = /*#__PURE__*/new RippleEventManager();\n  }\n  constructor(_target, _ngZone, elementOrElementRef, _platform) {\n    this._target = _target;\n    this._ngZone = _ngZone;\n    this._platform = _platform;\n    /** Whether the pointer is currently down or not. */\n    this._isPointerDown = false;\n    /**\n     * Map of currently active ripple references.\n     * The ripple reference is mapped to its element event listeners.\n     * The reason why `| null` is used is that event listeners are added only\n     * when the condition is truthy (see the `_startFadeOutTransition` method).\n     */\n    this._activeRipples = new Map();\n    /** Whether pointer-up event listeners have been registered. */\n    this._pointerUpEventsRegistered = false;\n    // Only do anything if we're on the browser.\n    if (_platform.isBrowser) {\n      this._containerElement = coerceElement(elementOrElementRef);\n    }\n  }\n  /**\n   * Fades in a ripple at the given coordinates.\n   * @param x Coordinate within the element, along the X axis at which to start the ripple.\n   * @param y Coordinate within the element, along the Y axis at which to start the ripple.\n   * @param config Extra ripple options.\n   */\n  fadeInRipple(x, y, config = {}) {\n    const containerRect = this._containerRect = this._containerRect || this._containerElement.getBoundingClientRect();\n    const animationConfig = {\n      ...defaultRippleAnimationConfig,\n      ...config.animation\n    };\n    if (config.centered) {\n      x = containerRect.left + containerRect.width / 2;\n      y = containerRect.top + containerRect.height / 2;\n    }\n    const radius = config.radius || distanceToFurthestCorner(x, y, containerRect);\n    const offsetX = x - containerRect.left;\n    const offsetY = y - containerRect.top;\n    const enterDuration = animationConfig.enterDuration;\n    const ripple = document.createElement('div');\n    ripple.classList.add('mat-ripple-element');\n    ripple.style.left = `${offsetX - radius}px`;\n    ripple.style.top = `${offsetY - radius}px`;\n    ripple.style.height = `${radius * 2}px`;\n    ripple.style.width = `${radius * 2}px`;\n    // If a custom color has been specified, set it as inline style. If no color is\n    // set, the default color will be applied through the ripple theme styles.\n    if (config.color != null) {\n      ripple.style.backgroundColor = config.color;\n    }\n    ripple.style.transitionDuration = `${enterDuration}ms`;\n    this._containerElement.appendChild(ripple);\n    // By default the browser does not recalculate the styles of dynamically created\n    // ripple elements. This is critical to ensure that the `scale` animates properly.\n    // We enforce a style recalculation by calling `getComputedStyle` and *accessing* a property.\n    // See: https://gist.github.com/paulirish/5d52fb081b3570c81e3a\n    const computedStyles = window.getComputedStyle(ripple);\n    const userTransitionProperty = computedStyles.transitionProperty;\n    const userTransitionDuration = computedStyles.transitionDuration;\n    // Note: We detect whether animation is forcibly disabled through CSS (e.g. through\n    // `transition: none` or `display: none`). This is technically unexpected since animations are\n    // controlled through the animation config, but this exists for backwards compatibility. This\n    // logic does not need to be super accurate since it covers some edge cases which can be easily\n    // avoided by users.\n    const animationForciblyDisabledThroughCss = userTransitionProperty === 'none' ||\n    // Note: The canonical unit for serialized CSS `<time>` properties is seconds. Additionally\n    // some browsers expand the duration for every property (in our case `opacity` and `transform`).\n    userTransitionDuration === '0s' || userTransitionDuration === '0s, 0s' ||\n    // If the container is 0x0, it's likely `display: none`.\n    containerRect.width === 0 && containerRect.height === 0;\n    // Exposed reference to the ripple that will be returned.\n    const rippleRef = new RippleRef(this, ripple, config, animationForciblyDisabledThroughCss);\n    // Start the enter animation by setting the transform/scale to 100%. The animation will\n    // execute as part of this statement because we forced a style recalculation before.\n    // Note: We use a 3d transform here in order to avoid an issue in Safari where\n    // the ripples aren't clipped when inside the shadow DOM (see #24028).\n    ripple.style.transform = 'scale3d(1, 1, 1)';\n    rippleRef.state = RippleState.FADING_IN;\n    if (!config.persistent) {\n      this._mostRecentTransientRipple = rippleRef;\n    }\n    let eventListeners = null;\n    // Do not register the `transition` event listener if fade-in and fade-out duration\n    // are set to zero. The events won't fire anyway and we can save resources here.\n    if (!animationForciblyDisabledThroughCss && (enterDuration || animationConfig.exitDuration)) {\n      this._ngZone.runOutsideAngular(() => {\n        const onTransitionEnd = () => this._finishRippleTransition(rippleRef);\n        const onTransitionCancel = () => this._destroyRipple(rippleRef);\n        ripple.addEventListener('transitionend', onTransitionEnd);\n        // If the transition is cancelled (e.g. due to DOM removal), we destroy the ripple\n        // directly as otherwise we would keep it part of the ripple container forever.\n        // https://www.w3.org/TR/css-transitions-1/#:~:text=no%20longer%20in%20the%20document.\n        ripple.addEventListener('transitioncancel', onTransitionCancel);\n        eventListeners = {\n          onTransitionEnd,\n          onTransitionCancel\n        };\n      });\n    }\n    // Add the ripple reference to the list of all active ripples.\n    this._activeRipples.set(rippleRef, eventListeners);\n    // In case there is no fade-in transition duration, we need to manually call the transition\n    // end listener because `transitionend` doesn't fire if there is no transition.\n    if (animationForciblyDisabledThroughCss || !enterDuration) {\n      this._finishRippleTransition(rippleRef);\n    }\n    return rippleRef;\n  }\n  /** Fades out a ripple reference. */\n  fadeOutRipple(rippleRef) {\n    // For ripples already fading out or hidden, this should be a noop.\n    if (rippleRef.state === RippleState.FADING_OUT || rippleRef.state === RippleState.HIDDEN) {\n      return;\n    }\n    const rippleEl = rippleRef.element;\n    const animationConfig = {\n      ...defaultRippleAnimationConfig,\n      ...rippleRef.config.animation\n    };\n    // This starts the fade-out transition and will fire the transition end listener that\n    // removes the ripple element from the DOM.\n    rippleEl.style.transitionDuration = `${animationConfig.exitDuration}ms`;\n    rippleEl.style.opacity = '0';\n    rippleRef.state = RippleState.FADING_OUT;\n    // In case there is no fade-out transition duration, we need to manually call the\n    // transition end listener because `transitionend` doesn't fire if there is no transition.\n    if (rippleRef._animationForciblyDisabledThroughCss || !animationConfig.exitDuration) {\n      this._finishRippleTransition(rippleRef);\n    }\n  }\n  /** Fades out all currently active ripples. */\n  fadeOutAll() {\n    this._getActiveRipples().forEach(ripple => ripple.fadeOut());\n  }\n  /** Fades out all currently active non-persistent ripples. */\n  fadeOutAllNonPersistent() {\n    this._getActiveRipples().forEach(ripple => {\n      if (!ripple.config.persistent) {\n        ripple.fadeOut();\n      }\n    });\n  }\n  /** Sets up the trigger event listeners */\n  setupTriggerEvents(elementOrElementRef) {\n    const element = coerceElement(elementOrElementRef);\n    if (!this._platform.isBrowser || !element || element === this._triggerElement) {\n      return;\n    }\n    // Remove all previously registered event listeners from the trigger element.\n    this._removeTriggerEvents();\n    this._triggerElement = element;\n    // Use event delegation for the trigger events since they're\n    // set up during creation and are performance-sensitive.\n    pointerDownEvents.forEach(type => {\n      RippleRenderer._eventManager.addHandler(this._ngZone, type, element, this);\n    });\n  }\n  /**\n   * Handles all registered events.\n   * @docs-private\n   */\n  handleEvent(event) {\n    if (event.type === 'mousedown') {\n      this._onMousedown(event);\n    } else if (event.type === 'touchstart') {\n      this._onTouchStart(event);\n    } else {\n      this._onPointerUp();\n    }\n    // If pointer-up events haven't been registered yet, do so now.\n    // We do this on-demand in order to reduce the total number of event listeners\n    // registered by the ripples, which speeds up the rendering time for large UIs.\n    if (!this._pointerUpEventsRegistered) {\n      // The events for hiding the ripple are bound directly on the trigger, because:\n      // 1. Some of them occur frequently (e.g. `mouseleave`) and any advantage we get from\n      // delegation will be diminished by having to look through all the data structures often.\n      // 2. They aren't as performance-sensitive, because they're bound only after the user\n      // has interacted with an element.\n      this._ngZone.runOutsideAngular(() => {\n        pointerUpEvents.forEach(type => {\n          this._triggerElement.addEventListener(type, this, passiveCapturingEventOptions);\n        });\n      });\n      this._pointerUpEventsRegistered = true;\n    }\n  }\n  /** Method that will be called if the fade-in or fade-in transition completed. */\n  _finishRippleTransition(rippleRef) {\n    if (rippleRef.state === RippleState.FADING_IN) {\n      this._startFadeOutTransition(rippleRef);\n    } else if (rippleRef.state === RippleState.FADING_OUT) {\n      this._destroyRipple(rippleRef);\n    }\n  }\n  /**\n   * Starts the fade-out transition of the given ripple if it's not persistent and the pointer\n   * is not held down anymore.\n   */\n  _startFadeOutTransition(rippleRef) {\n    const isMostRecentTransientRipple = rippleRef === this._mostRecentTransientRipple;\n    const {\n      persistent\n    } = rippleRef.config;\n    rippleRef.state = RippleState.VISIBLE;\n    // When the timer runs out while the user has kept their pointer down, we want to\n    // keep only the persistent ripples and the latest transient ripple. We do this,\n    // because we don't want stacked transient ripples to appear after their enter\n    // animation has finished.\n    if (!persistent && (!isMostRecentTransientRipple || !this._isPointerDown)) {\n      rippleRef.fadeOut();\n    }\n  }\n  /** Destroys the given ripple by removing it from the DOM and updating its state. */\n  _destroyRipple(rippleRef) {\n    const eventListeners = this._activeRipples.get(rippleRef) ?? null;\n    this._activeRipples.delete(rippleRef);\n    // Clear out the cached bounding rect if we have no more ripples.\n    if (!this._activeRipples.size) {\n      this._containerRect = null;\n    }\n    // If the current ref is the most recent transient ripple, unset it\n    // avoid memory leaks.\n    if (rippleRef === this._mostRecentTransientRipple) {\n      this._mostRecentTransientRipple = null;\n    }\n    rippleRef.state = RippleState.HIDDEN;\n    if (eventListeners !== null) {\n      rippleRef.element.removeEventListener('transitionend', eventListeners.onTransitionEnd);\n      rippleRef.element.removeEventListener('transitioncancel', eventListeners.onTransitionCancel);\n    }\n    rippleRef.element.remove();\n  }\n  /** Function being called whenever the trigger is being pressed using mouse. */\n  _onMousedown(event) {\n    // Screen readers will fire fake mouse events for space/enter. Skip launching a\n    // ripple in this case for consistency with the non-screen-reader experience.\n    const isFakeMousedown = isFakeMousedownFromScreenReader(event);\n    const isSyntheticEvent = this._lastTouchStartEvent && Date.now() < this._lastTouchStartEvent + ignoreMouseEventsTimeout;\n    if (!this._target.rippleDisabled && !isFakeMousedown && !isSyntheticEvent) {\n      this._isPointerDown = true;\n      this.fadeInRipple(event.clientX, event.clientY, this._target.rippleConfig);\n    }\n  }\n  /** Function being called whenever the trigger is being pressed using touch. */\n  _onTouchStart(event) {\n    if (!this._target.rippleDisabled && !isFakeTouchstartFromScreenReader(event)) {\n      // Some browsers fire mouse events after a `touchstart` event. Those synthetic mouse\n      // events will launch a second ripple if we don't ignore mouse events for a specific\n      // time after a touchstart event.\n      this._lastTouchStartEvent = Date.now();\n      this._isPointerDown = true;\n      // Use `changedTouches` so we skip any touches where the user put\n      // their finger down, but used another finger to tap the element again.\n      const touches = event.changedTouches;\n      // According to the typings the touches should always be defined, but in some cases\n      // the browser appears to not assign them in tests which leads to flakes.\n      if (touches) {\n        for (let i = 0; i < touches.length; i++) {\n          this.fadeInRipple(touches[i].clientX, touches[i].clientY, this._target.rippleConfig);\n        }\n      }\n    }\n  }\n  /** Function being called whenever the trigger is being released. */\n  _onPointerUp() {\n    if (!this._isPointerDown) {\n      return;\n    }\n    this._isPointerDown = false;\n    // Fade-out all ripples that are visible and not persistent.\n    this._getActiveRipples().forEach(ripple => {\n      // By default, only ripples that are completely visible will fade out on pointer release.\n      // If the `terminateOnPointerUp` option is set, ripples that still fade in will also fade out.\n      const isVisible = ripple.state === RippleState.VISIBLE || ripple.config.terminateOnPointerUp && ripple.state === RippleState.FADING_IN;\n      if (!ripple.config.persistent && isVisible) {\n        ripple.fadeOut();\n      }\n    });\n  }\n  _getActiveRipples() {\n    return Array.from(this._activeRipples.keys());\n  }\n  /** Removes previously registered event listeners from the trigger element. */\n  _removeTriggerEvents() {\n    const trigger = this._triggerElement;\n    if (trigger) {\n      pointerDownEvents.forEach(type => RippleRenderer._eventManager.removeHandler(type, trigger, this));\n      if (this._pointerUpEventsRegistered) {\n        pointerUpEvents.forEach(type => trigger.removeEventListener(type, this, passiveCapturingEventOptions));\n      }\n    }\n  }\n}\n/**\n * Returns the distance from the point (x, y) to the furthest corner of a rectangle.\n */\nfunction distanceToFurthestCorner(x, y, rect) {\n  const distX = Math.max(Math.abs(x - rect.left), Math.abs(x - rect.right));\n  const distY = Math.max(Math.abs(y - rect.top), Math.abs(y - rect.bottom));\n  return Math.sqrt(distX * distX + distY * distY);\n}\n\n/** Injection token that can be used to specify the global ripple options. */\nconst MAT_RIPPLE_GLOBAL_OPTIONS = /*#__PURE__*/new InjectionToken('mat-ripple-global-options');\nlet MatRipple = /*#__PURE__*/(() => {\n  class MatRipple {\n    /**\n     * Whether click events will not trigger the ripple. Ripples can be still launched manually\n     * by using the `launch()` method.\n     */\n    get disabled() {\n      return this._disabled;\n    }\n    set disabled(value) {\n      if (value) {\n        this.fadeOutAllNonPersistent();\n      }\n      this._disabled = value;\n      this._setupTriggerEventsIfEnabled();\n    }\n    /**\n     * The element that triggers the ripple when click events are received.\n     * Defaults to the directive's host element.\n     */\n    get trigger() {\n      return this._trigger || this._elementRef.nativeElement;\n    }\n    set trigger(trigger) {\n      this._trigger = trigger;\n      this._setupTriggerEventsIfEnabled();\n    }\n    constructor(_elementRef, ngZone, platform, globalOptions, _animationMode) {\n      this._elementRef = _elementRef;\n      this._animationMode = _animationMode;\n      /**\n       * If set, the radius in pixels of foreground ripples when fully expanded. If unset, the radius\n       * will be the distance from the center of the ripple to the furthest corner of the host element's\n       * bounding rectangle.\n       */\n      this.radius = 0;\n      this._disabled = false;\n      /** @docs-private Whether ripple directive is initialized and the input bindings are set. */\n      this._isInitialized = false;\n      this._globalOptions = globalOptions || {};\n      this._rippleRenderer = new RippleRenderer(this, ngZone, _elementRef, platform);\n    }\n    ngOnInit() {\n      this._isInitialized = true;\n      this._setupTriggerEventsIfEnabled();\n    }\n    ngOnDestroy() {\n      this._rippleRenderer._removeTriggerEvents();\n    }\n    /** Fades out all currently showing ripple elements. */\n    fadeOutAll() {\n      this._rippleRenderer.fadeOutAll();\n    }\n    /** Fades out all currently showing non-persistent ripple elements. */\n    fadeOutAllNonPersistent() {\n      this._rippleRenderer.fadeOutAllNonPersistent();\n    }\n    /**\n     * Ripple configuration from the directive's input values.\n     * @docs-private Implemented as part of RippleTarget\n     */\n    get rippleConfig() {\n      return {\n        centered: this.centered,\n        radius: this.radius,\n        color: this.color,\n        animation: {\n          ...this._globalOptions.animation,\n          ...(this._animationMode === 'NoopAnimations' ? {\n            enterDuration: 0,\n            exitDuration: 0\n          } : {}),\n          ...this.animation\n        },\n        terminateOnPointerUp: this._globalOptions.terminateOnPointerUp\n      };\n    }\n    /**\n     * Whether ripples on pointer-down are disabled or not.\n     * @docs-private Implemented as part of RippleTarget\n     */\n    get rippleDisabled() {\n      return this.disabled || !!this._globalOptions.disabled;\n    }\n    /** Sets up the trigger event listeners if ripples are enabled. */\n    _setupTriggerEventsIfEnabled() {\n      if (!this.disabled && this._isInitialized) {\n        this._rippleRenderer.setupTriggerEvents(this.trigger);\n      }\n    }\n    /** Launches a manual ripple at the specified coordinated or just by the ripple config. */\n    launch(configOrX, y = 0, config) {\n      if (typeof configOrX === 'number') {\n        return this._rippleRenderer.fadeInRipple(configOrX, y, {\n          ...this.rippleConfig,\n          ...config\n        });\n      } else {\n        return this._rippleRenderer.fadeInRipple(0, 0, {\n          ...this.rippleConfig,\n          ...configOrX\n        });\n      }\n    }\n    static {\n      this.ɵfac = function MatRipple_Factory(t) {\n        return new (t || MatRipple)(i0.ɵɵdirectiveInject(i0.ElementRef), i0.ɵɵdirectiveInject(i0.NgZone), i0.ɵɵdirectiveInject(i1$1.Platform), i0.ɵɵdirectiveInject(MAT_RIPPLE_GLOBAL_OPTIONS, 8), i0.ɵɵdirectiveInject(ANIMATION_MODULE_TYPE, 8));\n      };\n    }\n    static {\n      this.ɵdir = /* @__PURE__ */i0.ɵɵdefineDirective({\n        type: MatRipple,\n        selectors: [[\"\", \"mat-ripple\", \"\"], [\"\", \"matRipple\", \"\"]],\n        hostAttrs: [1, \"mat-ripple\"],\n        hostVars: 2,\n        hostBindings: function MatRipple_HostBindings(rf, ctx) {\n          if (rf & 2) {\n            i0.ɵɵclassProp(\"mat-ripple-unbounded\", ctx.unbounded);\n          }\n        },\n        inputs: {\n          color: [i0.ɵɵInputFlags.None, \"matRippleColor\", \"color\"],\n          unbounded: [i0.ɵɵInputFlags.None, \"matRippleUnbounded\", \"unbounded\"],\n          centered: [i0.ɵɵInputFlags.None, \"matRippleCentered\", \"centered\"],\n          radius: [i0.ɵɵInputFlags.None, \"matRippleRadius\", \"radius\"],\n          animation: [i0.ɵɵInputFlags.None, \"matRippleAnimation\", \"animation\"],\n          disabled: [i0.ɵɵInputFlags.None, \"matRippleDisabled\", \"disabled\"],\n          trigger: [i0.ɵɵInputFlags.None, \"matRippleTrigger\", \"trigger\"]\n        },\n        exportAs: [\"matRipple\"],\n        standalone: true\n      });\n    }\n  }\n  return MatRipple;\n})();\n/*#__PURE__*/(() => {\n  (typeof ngDevMode === \"undefined\" || ngDevMode) && void 0;\n})();\nlet MatRippleModule = /*#__PURE__*/(() => {\n  class MatRippleModule {\n    static {\n      this.ɵfac = function MatRippleModule_Factory(t) {\n        return new (t || MatRippleModule)();\n      };\n    }\n    static {\n      this.ɵmod = /* @__PURE__ */i0.ɵɵdefineNgModule({\n        type: MatRippleModule\n      });\n    }\n    static {\n      this.ɵinj = /* @__PURE__ */i0.ɵɵdefineInjector({\n        imports: [MatCommonModule, MatCommonModule]\n      });\n    }\n  }\n  return MatRippleModule;\n})();\n/*#__PURE__*/(() => {\n  (typeof ngDevMode === \"undefined\" || ngDevMode) && void 0;\n})();\n\n/**\n * Component that shows a simplified checkbox without including any kind of \"real\" checkbox.\n * Meant to be used when the checkbox is purely decorative and a large number of them will be\n * included, such as for the options in a multi-select. Uses no SVGs or complex animations.\n * Note that theming is meant to be handled by the parent element, e.g.\n * `mat-primary .mat-pseudo-checkbox`.\n *\n * Note that this component will be completely invisible to screen-reader users. This is *not*\n * interchangeable with `<mat-checkbox>` and should *not* be used if the user would directly\n * interact with the checkbox. The pseudo-checkbox should only be used as an implementation detail\n * of more complex components that appropriately handle selected / checked state.\n * @docs-private\n */\nlet MatPseudoCheckbox = /*#__PURE__*/(() => {\n  class MatPseudoCheckbox {\n    constructor(_animationMode) {\n      this._animationMode = _animationMode;\n      /** Display state of the checkbox. */\n      this.state = 'unchecked';\n      /** Whether the checkbox is disabled. */\n      this.disabled = false;\n      /**\n       * Appearance of the pseudo checkbox. Default appearance of 'full' renders a checkmark/mixedmark\n       * indicator inside a square box. 'minimal' appearance only renders the checkmark/mixedmark.\n       */\n      this.appearance = 'full';\n    }\n    static {\n      this.ɵfac = function MatPseudoCheckbox_Factory(t) {\n        return new (t || MatPseudoCheckbox)(i0.ɵɵdirectiveInject(ANIMATION_MODULE_TYPE, 8));\n      };\n    }\n    static {\n      this.ɵcmp = /* @__PURE__ */i0.ɵɵdefineComponent({\n        type: MatPseudoCheckbox,\n        selectors: [[\"mat-pseudo-checkbox\"]],\n        hostAttrs: [1, \"mat-pseudo-checkbox\"],\n        hostVars: 12,\n        hostBindings: function MatPseudoCheckbox_HostBindings(rf, ctx) {\n          if (rf & 2) {\n            i0.ɵɵclassProp(\"mat-pseudo-checkbox-indeterminate\", ctx.state === \"indeterminate\")(\"mat-pseudo-checkbox-checked\", ctx.state === \"checked\")(\"mat-pseudo-checkbox-disabled\", ctx.disabled)(\"mat-pseudo-checkbox-minimal\", ctx.appearance === \"minimal\")(\"mat-pseudo-checkbox-full\", ctx.appearance === \"full\")(\"_mat-animation-noopable\", ctx._animationMode === \"NoopAnimations\");\n          }\n        },\n        inputs: {\n          state: \"state\",\n          disabled: \"disabled\",\n          appearance: \"appearance\"\n        },\n        standalone: true,\n        features: [i0.ɵɵStandaloneFeature],\n        decls: 0,\n        vars: 0,\n        template: function MatPseudoCheckbox_Template(rf, ctx) {},\n        styles: [\".mat-pseudo-checkbox{border-radius:2px;cursor:pointer;display:inline-block;vertical-align:middle;box-sizing:border-box;position:relative;flex-shrink:0;transition:border-color 90ms cubic-bezier(0, 0, 0.2, 0.1),background-color 90ms cubic-bezier(0, 0, 0.2, 0.1)}.mat-pseudo-checkbox::after{position:absolute;opacity:0;content:\\\"\\\";border-bottom:2px solid currentColor;transition:opacity 90ms cubic-bezier(0, 0, 0.2, 0.1)}.mat-pseudo-checkbox._mat-animation-noopable{transition:none !important;animation:none !important}.mat-pseudo-checkbox._mat-animation-noopable::after{transition:none}.mat-pseudo-checkbox-disabled{cursor:default}.mat-pseudo-checkbox-indeterminate::after{left:1px;opacity:1;border-radius:2px}.mat-pseudo-checkbox-checked::after{left:1px;border-left:2px solid currentColor;transform:rotate(-45deg);opacity:1;box-sizing:content-box}.mat-pseudo-checkbox-minimal.mat-pseudo-checkbox-checked::after,.mat-pseudo-checkbox-minimal.mat-pseudo-checkbox-indeterminate::after{color:var(--mat-minimal-pseudo-checkbox-selected-checkmark-color)}.mat-pseudo-checkbox-minimal.mat-pseudo-checkbox-checked.mat-pseudo-checkbox-disabled::after,.mat-pseudo-checkbox-minimal.mat-pseudo-checkbox-indeterminate.mat-pseudo-checkbox-disabled::after{color:var(--mat-minimal-pseudo-checkbox-disabled-selected-checkmark-color)}.mat-pseudo-checkbox-full{border-color:var(--mat-full-pseudo-checkbox-unselected-icon-color);border-width:2px;border-style:solid}.mat-pseudo-checkbox-full.mat-pseudo-checkbox-disabled{border-color:var(--mat-full-pseudo-checkbox-disabled-unselected-icon-color)}.mat-pseudo-checkbox-full.mat-pseudo-checkbox-checked,.mat-pseudo-checkbox-full.mat-pseudo-checkbox-indeterminate{background-color:var(--mat-full-pseudo-checkbox-selected-icon-color);border-color:rgba(0,0,0,0)}.mat-pseudo-checkbox-full.mat-pseudo-checkbox-checked::after,.mat-pseudo-checkbox-full.mat-pseudo-checkbox-indeterminate::after{color:var(--mat-full-pseudo-checkbox-selected-checkmark-color)}.mat-pseudo-checkbox-full.mat-pseudo-checkbox-checked.mat-pseudo-checkbox-disabled,.mat-pseudo-checkbox-full.mat-pseudo-checkbox-indeterminate.mat-pseudo-checkbox-disabled{background-color:var(--mat-full-pseudo-checkbox-disabled-selected-icon-color)}.mat-pseudo-checkbox-full.mat-pseudo-checkbox-checked.mat-pseudo-checkbox-disabled::after,.mat-pseudo-checkbox-full.mat-pseudo-checkbox-indeterminate.mat-pseudo-checkbox-disabled::after{color:var(--mat-full-pseudo-checkbox-disabled-selected-checkmark-color)}.mat-pseudo-checkbox{width:18px;height:18px}.mat-pseudo-checkbox-minimal.mat-pseudo-checkbox-checked::after{width:14px;height:6px;transform-origin:center;top:-4.2426406871px;left:0;bottom:0;right:0;margin:auto}.mat-pseudo-checkbox-minimal.mat-pseudo-checkbox-indeterminate::after{top:8px;width:16px}.mat-pseudo-checkbox-full.mat-pseudo-checkbox-checked::after{width:10px;height:4px;transform-origin:center;top:-2.8284271247px;left:0;bottom:0;right:0;margin:auto}.mat-pseudo-checkbox-full.mat-pseudo-checkbox-indeterminate::after{top:6px;width:12px}\"],\n        encapsulation: 2,\n        changeDetection: 0\n      });\n    }\n  }\n  return MatPseudoCheckbox;\n})();\n/*#__PURE__*/(() => {\n  (typeof ngDevMode === \"undefined\" || ngDevMode) && void 0;\n})();\nlet MatPseudoCheckboxModule = /*#__PURE__*/(() => {\n  class MatPseudoCheckboxModule {\n    static {\n      this.ɵfac = function MatPseudoCheckboxModule_Factory(t) {\n        return new (t || MatPseudoCheckboxModule)();\n      };\n    }\n    static {\n      this.ɵmod = /* @__PURE__ */i0.ɵɵdefineNgModule({\n        type: MatPseudoCheckboxModule\n      });\n    }\n    static {\n      this.ɵinj = /* @__PURE__ */i0.ɵɵdefineInjector({\n        imports: [MatCommonModule]\n      });\n    }\n  }\n  return MatPseudoCheckboxModule;\n})();\n/*#__PURE__*/(() => {\n  (typeof ngDevMode === \"undefined\" || ngDevMode) && void 0;\n})();\n\n/**\n * Injection token used to provide the parent component to options.\n */\nconst MAT_OPTION_PARENT_COMPONENT = /*#__PURE__*/new InjectionToken('MAT_OPTION_PARENT_COMPONENT');\n\n// Notes on the accessibility pattern used for `mat-optgroup`.\n// The option group has two different \"modes\": regular and inert. The regular mode uses the\n// recommended a11y pattern which has `role=\"group\"` on the group element with `aria-labelledby`\n// pointing to the label. This works for `mat-select`, but it seems to hit a bug for autocomplete\n// under VoiceOver where the group doesn't get read out at all. The bug appears to be that if\n// there's __any__ a11y-related attribute on the group (e.g. `role` or `aria-labelledby`),\n// VoiceOver on Safari won't read it out.\n// We've introduced the `inert` mode as a workaround. Under this mode, all a11y attributes are\n// removed from the group, and we get the screen reader to read out the group label by mirroring it\n// inside an invisible element in the option. This is sub-optimal, because the screen reader will\n// repeat the group label on each navigation, whereas the default pattern only reads the group when\n// the user enters a new group. The following alternate approaches were considered:\n// 1. Reading out the group label using the `LiveAnnouncer` solves the problem, but we can't control\n//    when the text will be read out so sometimes it comes in too late or never if the user\n//    navigates quickly.\n// 2. `<mat-option aria-describedby=\"groupLabel\"` - This works on Safari, but VoiceOver in Chrome\n//    won't read out the description at all.\n// 3. `<mat-option aria-labelledby=\"optionLabel groupLabel\"` - This works on Chrome, but Safari\n//     doesn't read out the text at all. Furthermore, on\n// Counter for unique group ids.\nlet _uniqueOptgroupIdCounter = 0;\n/**\n * Injection token that can be used to reference instances of `MatOptgroup`. It serves as\n * alternative token to the actual `MatOptgroup` class which could cause unnecessary\n * retention of the class and its component metadata.\n */\nconst MAT_OPTGROUP = /*#__PURE__*/new InjectionToken('MatOptgroup');\n/**\n * Component that is used to group instances of `mat-option`.\n */\nlet MatOptgroup = /*#__PURE__*/(() => {\n  class MatOptgroup {\n    constructor(parent) {\n      /** whether the option group is disabled. */\n      this.disabled = false;\n      /** Unique id for the underlying label. */\n      this._labelId = `mat-optgroup-label-${_uniqueOptgroupIdCounter++}`;\n      this._inert = parent?.inertGroups ?? false;\n    }\n    static {\n      this.ɵfac = function MatOptgroup_Factory(t) {\n        return new (t || MatOptgroup)(i0.ɵɵdirectiveInject(MAT_OPTION_PARENT_COMPONENT, 8));\n      };\n    }\n    static {\n      this.ɵcmp = /* @__PURE__ */i0.ɵɵdefineComponent({\n        type: MatOptgroup,\n        selectors: [[\"mat-optgroup\"]],\n        hostAttrs: [1, \"mat-mdc-optgroup\"],\n        hostVars: 3,\n        hostBindings: function MatOptgroup_HostBindings(rf, ctx) {\n          if (rf & 2) {\n            i0.ɵɵattribute(\"role\", ctx._inert ? null : \"group\")(\"aria-disabled\", ctx._inert ? null : ctx.disabled.toString())(\"aria-labelledby\", ctx._inert ? null : ctx._labelId);\n          }\n        },\n        inputs: {\n          label: \"label\",\n          disabled: [i0.ɵɵInputFlags.HasDecoratorInputTransform, \"disabled\", \"disabled\", booleanAttribute]\n        },\n        exportAs: [\"matOptgroup\"],\n        standalone: true,\n        features: [i0.ɵɵProvidersFeature([{\n          provide: MAT_OPTGROUP,\n          useExisting: MatOptgroup\n        }]), i0.ɵɵInputTransformsFeature, i0.ɵɵStandaloneFeature],\n        ngContentSelectors: _c1,\n        decls: 5,\n        vars: 4,\n        consts: [[\"role\", \"presentation\", 1, \"mat-mdc-optgroup-label\", 3, \"id\"], [1, \"mdc-list-item__primary-text\"]],\n        template: function MatOptgroup_Template(rf, ctx) {\n          if (rf & 1) {\n            i0.ɵɵprojectionDef(_c0);\n            i0.ɵɵelementStart(0, \"span\", 0)(1, \"span\", 1);\n            i0.ɵɵtext(2);\n            i0.ɵɵprojection(3);\n            i0.ɵɵelementEnd()();\n            i0.ɵɵprojection(4, 1);\n          }\n          if (rf & 2) {\n            i0.ɵɵclassProp(\"mdc-list-item--disabled\", ctx.disabled);\n            i0.ɵɵproperty(\"id\", ctx._labelId);\n            i0.ɵɵadvance(2);\n            i0.ɵɵtextInterpolate1(\"\", ctx.label, \" \");\n          }\n        },\n        styles: [\".mat-mdc-optgroup{color:var(--mat-optgroup-label-text-color);font-family:var(--mat-optgroup-label-text-font);line-height:var(--mat-optgroup-label-text-line-height);font-size:var(--mat-optgroup-label-text-size);letter-spacing:var(--mat-optgroup-label-text-tracking);font-weight:var(--mat-optgroup-label-text-weight)}.mat-mdc-optgroup-label{display:flex;position:relative;align-items:center;justify-content:flex-start;overflow:hidden;padding:0;padding-left:16px;padding-right:16px;min-height:48px}.mat-mdc-optgroup-label:focus{outline:none}[dir=rtl] .mat-mdc-optgroup-label,.mat-mdc-optgroup-label[dir=rtl]{padding-left:16px;padding-right:16px}.mat-mdc-optgroup-label.mdc-list-item--disabled{opacity:.38}.mat-mdc-optgroup-label .mdc-list-item__primary-text{font-size:inherit;font-weight:inherit;letter-spacing:inherit;line-height:inherit;font-family:inherit;text-decoration:inherit;text-transform:inherit;white-space:normal}\"],\n        encapsulation: 2,\n        changeDetection: 0\n      });\n    }\n  }\n  return MatOptgroup;\n})();\n/*#__PURE__*/(() => {\n  (typeof ngDevMode === \"undefined\" || ngDevMode) && void 0;\n})();\n\n/**\n * Option IDs need to be unique across components, so this counter exists outside of\n * the component definition.\n */\nlet _uniqueIdCounter = 0;\n/** Event object emitted by MatOption when selected or deselected. */\nclass MatOptionSelectionChange {\n  constructor( /** Reference to the option that emitted the event. */\n  source, /** Whether the change in the option's value was a result of a user action. */\n  isUserInput = false) {\n    this.source = source;\n    this.isUserInput = isUserInput;\n  }\n}\n/**\n * Single option inside of a `<mat-select>` element.\n */\nlet MatOption = /*#__PURE__*/(() => {\n  class MatOption {\n    /** Whether the wrapping component is in multiple selection mode. */\n    get multiple() {\n      return this._parent && this._parent.multiple;\n    }\n    /** Whether or not the option is currently selected. */\n    get selected() {\n      return this._selected;\n    }\n    /** Whether the option is disabled. */\n    get disabled() {\n      return this.group && this.group.disabled || this._disabled;\n    }\n    set disabled(value) {\n      this._disabled = value;\n    }\n    /** Whether ripples for the option are disabled. */\n    get disableRipple() {\n      return !!(this._parent && this._parent.disableRipple);\n    }\n    /** Whether to display checkmark for single-selection. */\n    get hideSingleSelectionIndicator() {\n      return !!(this._parent && this._parent.hideSingleSelectionIndicator);\n    }\n    constructor(_element, _changeDetectorRef, _parent, group) {\n      this._element = _element;\n      this._changeDetectorRef = _changeDetectorRef;\n      this._parent = _parent;\n      this.group = group;\n      this._selected = false;\n      this._active = false;\n      this._disabled = false;\n      this._mostRecentViewValue = '';\n      /** The unique ID of the option. */\n      this.id = `mat-option-${_uniqueIdCounter++}`;\n      /** Event emitted when the option is selected or deselected. */\n      // tslint:disable-next-line:no-output-on-prefix\n      this.onSelectionChange = new EventEmitter();\n      /** Emits when the state of the option changes and any parents have to be notified. */\n      this._stateChanges = new Subject();\n    }\n    /**\n     * Whether or not the option is currently active and ready to be selected.\n     * An active option displays styles as if it is focused, but the\n     * focus is actually retained somewhere else. This comes in handy\n     * for components like autocomplete where focus must remain on the input.\n     */\n    get active() {\n      return this._active;\n    }\n    /**\n     * The displayed value of the option. It is necessary to show the selected option in the\n     * select's trigger.\n     */\n    get viewValue() {\n      // TODO(kara): Add input property alternative for node envs.\n      return (this._text?.nativeElement.textContent || '').trim();\n    }\n    /** Selects the option. */\n    select(emitEvent = true) {\n      if (!this._selected) {\n        this._selected = true;\n        this._changeDetectorRef.markForCheck();\n        if (emitEvent) {\n          this._emitSelectionChangeEvent();\n        }\n      }\n    }\n    /** Deselects the option. */\n    deselect(emitEvent = true) {\n      if (this._selected) {\n        this._selected = false;\n        this._changeDetectorRef.markForCheck();\n        if (emitEvent) {\n          this._emitSelectionChangeEvent();\n        }\n      }\n    }\n    /** Sets focus onto this option. */\n    focus(_origin, options) {\n      // Note that we aren't using `_origin`, but we need to keep it because some internal consumers\n      // use `MatOption` in a `FocusKeyManager` and we need it to match `FocusableOption`.\n      const element = this._getHostElement();\n      if (typeof element.focus === 'function') {\n        element.focus(options);\n      }\n    }\n    /**\n     * This method sets display styles on the option to make it appear\n     * active. This is used by the ActiveDescendantKeyManager so key\n     * events will display the proper options as active on arrow key events.\n     */\n    setActiveStyles() {\n      if (!this._active) {\n        this._active = true;\n        this._changeDetectorRef.markForCheck();\n      }\n    }\n    /**\n     * This method removes display styles on the option that made it appear\n     * active. This is used by the ActiveDescendantKeyManager so key\n     * events will display the proper options as active on arrow key events.\n     */\n    setInactiveStyles() {\n      if (this._active) {\n        this._active = false;\n        this._changeDetectorRef.markForCheck();\n      }\n    }\n    /** Gets the label to be used when determining whether the option should be focused. */\n    getLabel() {\n      return this.viewValue;\n    }\n    /** Ensures the option is selected when activated from the keyboard. */\n    _handleKeydown(event) {\n      if ((event.keyCode === ENTER || event.keyCode === SPACE) && !hasModifierKey(event)) {\n        this._selectViaInteraction();\n        // Prevent the page from scrolling down and form submits.\n        event.preventDefault();\n      }\n    }\n    /**\n     * `Selects the option while indicating the selection came from the user. Used to\n     * determine if the select's view -> model callback should be invoked.`\n     */\n    _selectViaInteraction() {\n      if (!this.disabled) {\n        this._selected = this.multiple ? !this._selected : true;\n        this._changeDetectorRef.markForCheck();\n        this._emitSelectionChangeEvent(true);\n      }\n    }\n    /** Returns the correct tabindex for the option depending on disabled state. */\n    // This method is only used by `MatLegacyOption`. Keeping it here to avoid breaking the types.\n    // That's because `MatLegacyOption` use `MatOption` type in a few places such as\n    // `MatOptionSelectionChange`. It is safe to delete this when `MatLegacyOption` is deleted.\n    _getTabIndex() {\n      return this.disabled ? '-1' : '0';\n    }\n    /** Gets the host DOM element. */\n    _getHostElement() {\n      return this._element.nativeElement;\n    }\n    ngAfterViewChecked() {\n      // Since parent components could be using the option's label to display the selected values\n      // (e.g. `mat-select`) and they don't have a way of knowing if the option's label has changed\n      // we have to check for changes in the DOM ourselves and dispatch an event. These checks are\n      // relatively cheap, however we still limit them only to selected options in order to avoid\n      // hitting the DOM too often.\n      if (this._selected) {\n        const viewValue = this.viewValue;\n        if (viewValue !== this._mostRecentViewValue) {\n          if (this._mostRecentViewValue) {\n            this._stateChanges.next();\n          }\n          this._mostRecentViewValue = viewValue;\n        }\n      }\n    }\n    ngOnDestroy() {\n      this._stateChanges.complete();\n    }\n    /** Emits the selection change event. */\n    _emitSelectionChangeEvent(isUserInput = false) {\n      this.onSelectionChange.emit(new MatOptionSelectionChange(this, isUserInput));\n    }\n    static {\n      this.ɵfac = function MatOption_Factory(t) {\n        return new (t || MatOption)(i0.ɵɵdirectiveInject(i0.ElementRef), i0.ɵɵdirectiveInject(i0.ChangeDetectorRef), i0.ɵɵdirectiveInject(MAT_OPTION_PARENT_COMPONENT, 8), i0.ɵɵdirectiveInject(MAT_OPTGROUP, 8));\n      };\n    }\n    static {\n      this.ɵcmp = /* @__PURE__ */i0.ɵɵdefineComponent({\n        type: MatOption,\n        selectors: [[\"mat-option\"]],\n        viewQuery: function MatOption_Query(rf, ctx) {\n          if (rf & 1) {\n            i0.ɵɵviewQuery(_c2, 7);\n          }\n          if (rf & 2) {\n            let _t;\n            i0.ɵɵqueryRefresh(_t = i0.ɵɵloadQuery()) && (ctx._text = _t.first);\n          }\n        },\n        hostAttrs: [\"role\", \"option\", 1, \"mat-mdc-option\", \"mdc-list-item\"],\n        hostVars: 11,\n        hostBindings: function MatOption_HostBindings(rf, ctx) {\n          if (rf & 1) {\n            i0.ɵɵlistener(\"click\", function MatOption_click_HostBindingHandler() {\n              return ctx._selectViaInteraction();\n            })(\"keydown\", function MatOption_keydown_HostBindingHandler($event) {\n              return ctx._handleKeydown($event);\n            });\n          }\n          if (rf & 2) {\n            i0.ɵɵhostProperty(\"id\", ctx.id);\n            i0.ɵɵattribute(\"aria-selected\", ctx.selected)(\"aria-disabled\", ctx.disabled.toString());\n            i0.ɵɵclassProp(\"mdc-list-item--selected\", ctx.selected)(\"mat-mdc-option-multiple\", ctx.multiple)(\"mat-mdc-option-active\", ctx.active)(\"mdc-list-item--disabled\", ctx.disabled);\n          }\n        },\n        inputs: {\n          value: \"value\",\n          id: \"id\",\n          disabled: [i0.ɵɵInputFlags.HasDecoratorInputTransform, \"disabled\", \"disabled\", booleanAttribute]\n        },\n        outputs: {\n          onSelectionChange: \"onSelectionChange\"\n        },\n        exportAs: [\"matOption\"],\n        standalone: true,\n        features: [i0.ɵɵInputTransformsFeature, i0.ɵɵStandaloneFeature],\n        ngContentSelectors: _c4,\n        decls: 8,\n        vars: 5,\n        consts: [[\"text\", \"\"], [\"aria-hidden\", \"true\", 1, \"mat-mdc-option-pseudo-checkbox\"], [1, \"mdc-list-item__primary-text\"], [\"state\", \"checked\", \"aria-hidden\", \"true\", \"appearance\", \"minimal\", 1, \"mat-mdc-option-pseudo-checkbox\"], [1, \"cdk-visually-hidden\"], [\"aria-hidden\", \"true\", \"mat-ripple\", \"\", 1, \"mat-mdc-option-ripple\", \"mat-mdc-focus-indicator\", 3, \"matRippleTrigger\", \"matRippleDisabled\"], [\"aria-hidden\", \"true\", 1, \"mat-mdc-option-pseudo-checkbox\", 3, \"disabled\", \"state\"], [\"state\", \"checked\", \"aria-hidden\", \"true\", \"appearance\", \"minimal\", 1, \"mat-mdc-option-pseudo-checkbox\", 3, \"disabled\"]],\n        template: function MatOption_Template(rf, ctx) {\n          if (rf & 1) {\n            i0.ɵɵprojectionDef(_c3);\n            i0.ɵɵtemplate(0, MatOption_Conditional_0_Template, 1, 2, \"mat-pseudo-checkbox\", 1);\n            i0.ɵɵprojection(1);\n            i0.ɵɵelementStart(2, \"span\", 2, 0);\n            i0.ɵɵprojection(4, 1);\n            i0.ɵɵelementEnd();\n            i0.ɵɵtemplate(5, MatOption_Conditional_5_Template, 1, 1, \"mat-pseudo-checkbox\", 3)(6, MatOption_Conditional_6_Template, 2, 1, \"span\", 4);\n            i0.ɵɵelement(7, \"div\", 5);\n          }\n          if (rf & 2) {\n            i0.ɵɵconditional(0, ctx.multiple ? 0 : -1);\n            i0.ɵɵadvance(5);\n            i0.ɵɵconditional(5, !ctx.multiple && ctx.selected && !ctx.hideSingleSelectionIndicator ? 5 : -1);\n            i0.ɵɵadvance();\n            i0.ɵɵconditional(6, ctx.group && ctx.group._inert ? 6 : -1);\n            i0.ɵɵadvance();\n            i0.ɵɵproperty(\"matRippleTrigger\", ctx._getHostElement())(\"matRippleDisabled\", ctx.disabled || ctx.disableRipple);\n          }\n        },\n        dependencies: [MatPseudoCheckbox, MatRipple],\n        styles: [\".mat-mdc-option{display:flex;position:relative;align-items:center;justify-content:flex-start;overflow:hidden;padding:0;padding-left:16px;padding-right:16px;-webkit-user-select:none;user-select:none;-moz-osx-font-smoothing:grayscale;-webkit-font-smoothing:antialiased;cursor:pointer;-webkit-tap-highlight-color:rgba(0,0,0,0);color:var(--mat-option-label-text-color);font-family:var(--mat-option-label-text-font);line-height:var(--mat-option-label-text-line-height);font-size:var(--mat-option-label-text-size);letter-spacing:var(--mat-option-label-text-tracking);font-weight:var(--mat-option-label-text-weight);min-height:48px}.mat-mdc-option:focus{outline:none}[dir=rtl] .mat-mdc-option,.mat-mdc-option[dir=rtl]{padding-left:16px;padding-right:16px}.mat-mdc-option:hover:not(.mdc-list-item--disabled){background-color:var(--mat-option-hover-state-layer-color)}.mat-mdc-option:focus.mdc-list-item,.mat-mdc-option.mat-mdc-option-active.mdc-list-item{background-color:var(--mat-option-focus-state-layer-color)}.mat-mdc-option.mdc-list-item--selected:not(.mdc-list-item--disabled) .mdc-list-item__primary-text{color:var(--mat-option-selected-state-label-text-color)}.mat-mdc-option.mdc-list-item--selected:not(.mdc-list-item--disabled):not(.mat-mdc-option-multiple){background-color:var(--mat-option-selected-state-layer-color)}.mat-mdc-option.mdc-list-item{align-items:center;background:rgba(0,0,0,0)}.mat-mdc-option.mdc-list-item--disabled{cursor:default;pointer-events:none}.mat-mdc-option.mdc-list-item--disabled .mat-mdc-option-pseudo-checkbox,.mat-mdc-option.mdc-list-item--disabled .mdc-list-item__primary-text,.mat-mdc-option.mdc-list-item--disabled>mat-icon{opacity:.38}.mat-mdc-optgroup .mat-mdc-option:not(.mat-mdc-option-multiple){padding-left:32px}[dir=rtl] .mat-mdc-optgroup .mat-mdc-option:not(.mat-mdc-option-multiple){padding-left:16px;padding-right:32px}.mat-mdc-option .mat-icon,.mat-mdc-option .mat-pseudo-checkbox-full{margin-right:16px;flex-shrink:0}[dir=rtl] .mat-mdc-option .mat-icon,[dir=rtl] .mat-mdc-option .mat-pseudo-checkbox-full{margin-right:0;margin-left:16px}.mat-mdc-option .mat-pseudo-checkbox-minimal{margin-left:16px;flex-shrink:0}[dir=rtl] .mat-mdc-option .mat-pseudo-checkbox-minimal{margin-right:16px;margin-left:0}.mat-mdc-option .mat-mdc-option-ripple{top:0;left:0;right:0;bottom:0;position:absolute;pointer-events:none}.mat-mdc-option .mdc-list-item__primary-text{white-space:normal;font-size:inherit;font-weight:inherit;letter-spacing:inherit;line-height:inherit;font-family:inherit;text-decoration:inherit;text-transform:inherit;margin-right:auto}[dir=rtl] .mat-mdc-option .mdc-list-item__primary-text{margin-right:0;margin-left:auto}.cdk-high-contrast-active .mat-mdc-option.mdc-list-item--selected:not(.mat-mdc-option-multiple)::after{content:\\\"\\\";position:absolute;top:50%;right:16px;transform:translateY(-50%);width:10px;height:0;border-bottom:solid 10px;border-radius:10px}[dir=rtl] .cdk-high-contrast-active .mat-mdc-option.mdc-list-item--selected:not(.mat-mdc-option-multiple)::after{right:auto;left:16px}.mat-mdc-option-multiple{--mdc-list-list-item-selected-container-color:var(--mdc-list-list-item-container-color, transparent)}.mat-mdc-option-active .mat-mdc-focus-indicator::before{content:\\\"\\\"}\"],\n        encapsulation: 2,\n        changeDetection: 0\n      });\n    }\n  }\n  return MatOption;\n})();\n/*#__PURE__*/(() => {\n  (typeof ngDevMode === \"undefined\" || ngDevMode) && void 0;\n})();\n/**\n * Counts the amount of option group labels that precede the specified option.\n * @param optionIndex Index of the option at which to start counting.\n * @param options Flat list of all of the options.\n * @param optionGroups Flat list of all of the option groups.\n * @docs-private\n */\nfunction _countGroupLabelsBeforeOption(optionIndex, options, optionGroups) {\n  if (optionGroups.length) {\n    let optionsArray = options.toArray();\n    let groups = optionGroups.toArray();\n    let groupCounter = 0;\n    for (let i = 0; i < optionIndex + 1; i++) {\n      if (optionsArray[i].group && optionsArray[i].group === groups[groupCounter]) {\n        groupCounter++;\n      }\n    }\n    return groupCounter;\n  }\n  return 0;\n}\n/**\n * Determines the position to which to scroll a panel in order for an option to be into view.\n * @param optionOffset Offset of the option from the top of the panel.\n * @param optionHeight Height of the options.\n * @param currentScrollPosition Current scroll position of the panel.\n * @param panelHeight Height of the panel.\n * @docs-private\n */\nfunction _getOptionScrollPosition(optionOffset, optionHeight, currentScrollPosition, panelHeight) {\n  if (optionOffset < currentScrollPosition) {\n    return optionOffset;\n  }\n  if (optionOffset + optionHeight > currentScrollPosition + panelHeight) {\n    return Math.max(0, optionOffset - panelHeight + optionHeight);\n  }\n  return currentScrollPosition;\n}\nlet MatOptionModule = /*#__PURE__*/(() => {\n  class MatOptionModule {\n    static {\n      this.ɵfac = function MatOptionModule_Factory(t) {\n        return new (t || MatOptionModule)();\n      };\n    }\n    static {\n      this.ɵmod = /* @__PURE__ */i0.ɵɵdefineNgModule({\n        type: MatOptionModule\n      });\n    }\n    static {\n      this.ɵinj = /* @__PURE__ */i0.ɵɵdefineInjector({\n        imports: [MatRippleModule, MatCommonModule, MatPseudoCheckboxModule]\n      });\n    }\n  }\n  return MatOptionModule;\n})();\n/*#__PURE__*/(() => {\n  (typeof ngDevMode === \"undefined\" || ngDevMode) && void 0;\n})();\n\n/** The options for the MatRippleLoader's event listeners. */\nconst eventListenerOptions = {\n  capture: true\n};\n/** The events that should trigger the initialization of the ripple. */\nconst rippleInteractionEvents = ['focus', 'click', 'mouseenter', 'touchstart'];\n/** The attribute attached to a component whose ripple has not yet been initialized. */\nconst matRippleUninitialized = 'mat-ripple-loader-uninitialized';\n/** Additional classes that should be added to the ripple when it is rendered. */\nconst matRippleClassName = 'mat-ripple-loader-class-name';\n/** Whether the ripple should be centered. */\nconst matRippleCentered = 'mat-ripple-loader-centered';\n/** Whether the ripple should be disabled. */\nconst matRippleDisabled = 'mat-ripple-loader-disabled';\n/**\n * Handles attaching ripples on demand.\n *\n * This service allows us to avoid eagerly creating & attaching MatRipples.\n * It works by creating & attaching a ripple only when a component is first interacted with.\n *\n * @docs-private\n */\nlet MatRippleLoader = /*#__PURE__*/(() => {\n  class MatRippleLoader {\n    constructor() {\n      this._document = inject(DOCUMENT, {\n        optional: true\n      });\n      this._animationMode = inject(ANIMATION_MODULE_TYPE, {\n        optional: true\n      });\n      this._globalRippleOptions = inject(MAT_RIPPLE_GLOBAL_OPTIONS, {\n        optional: true\n      });\n      this._platform = inject(Platform);\n      this._ngZone = inject(NgZone);\n      this._hosts = new Map();\n      /** Handles creating and attaching component internals when a component it is initially interacted with. */\n      this._onInteraction = event => {\n        if (!(event.target instanceof HTMLElement)) {\n          return;\n        }\n        const eventTarget = event.target;\n        // TODO(wagnermaciel): Consider batching these events to improve runtime performance.\n        const element = eventTarget.closest(`[${matRippleUninitialized}]`);\n        if (element) {\n          this._createRipple(element);\n        }\n      };\n      this._ngZone.runOutsideAngular(() => {\n        for (const event of rippleInteractionEvents) {\n          this._document?.addEventListener(event, this._onInteraction, eventListenerOptions);\n        }\n      });\n    }\n    ngOnDestroy() {\n      const hosts = this._hosts.keys();\n      for (const host of hosts) {\n        this.destroyRipple(host);\n      }\n      for (const event of rippleInteractionEvents) {\n        this._document?.removeEventListener(event, this._onInteraction, eventListenerOptions);\n      }\n    }\n    /**\n     * Configures the ripple that will be rendered by the ripple loader.\n     *\n     * Stores the given information about how the ripple should be configured on the host\n     * element so that it can later be retrived & used when the ripple is actually created.\n     */\n    configureRipple(host, config) {\n      // Indicates that the ripple has not yet been rendered for this component.\n      host.setAttribute(matRippleUninitialized, '');\n      // Store the additional class name(s) that should be added to the ripple element.\n      if (config.className || !host.hasAttribute(matRippleClassName)) {\n        host.setAttribute(matRippleClassName, config.className || '');\n      }\n      // Store whether the ripple should be centered.\n      if (config.centered) {\n        host.setAttribute(matRippleCentered, '');\n      }\n      if (config.disabled) {\n        host.setAttribute(matRippleDisabled, '');\n      }\n    }\n    /** Returns the ripple instance for the given host element. */\n    getRipple(host) {\n      const ripple = this._hosts.get(host);\n      return ripple || this._createRipple(host);\n    }\n    /** Sets the disabled state on the ripple instance corresponding to the given host element. */\n    setDisabled(host, disabled) {\n      const ripple = this._hosts.get(host);\n      // If the ripple has already been instantiated, just disable it.\n      if (ripple) {\n        ripple.disabled = disabled;\n        return;\n      }\n      // Otherwise, set an attribute so we know what the\n      // disabled state should be when the ripple is initialized.\n      if (disabled) {\n        host.setAttribute(matRippleDisabled, '');\n      } else {\n        host.removeAttribute(matRippleDisabled);\n      }\n    }\n    /** Creates a MatRipple and appends it to the given element. */\n    _createRipple(host) {\n      if (!this._document) {\n        return;\n      }\n      const existingRipple = this._hosts.get(host);\n      if (existingRipple) {\n        return existingRipple;\n      }\n      // Create the ripple element.\n      host.querySelector('.mat-ripple')?.remove();\n      const rippleEl = this._document.createElement('span');\n      rippleEl.classList.add('mat-ripple', host.getAttribute(matRippleClassName));\n      host.append(rippleEl);\n      // Create the MatRipple.\n      const ripple = new MatRipple(new ElementRef(rippleEl), this._ngZone, this._platform, this._globalRippleOptions ? this._globalRippleOptions : undefined, this._animationMode ? this._animationMode : undefined);\n      ripple._isInitialized = true;\n      ripple.trigger = host;\n      ripple.centered = host.hasAttribute(matRippleCentered);\n      ripple.disabled = host.hasAttribute(matRippleDisabled);\n      this.attachRipple(host, ripple);\n      return ripple;\n    }\n    attachRipple(host, ripple) {\n      host.removeAttribute(matRippleUninitialized);\n      this._hosts.set(host, ripple);\n    }\n    destroyRipple(host) {\n      const ripple = this._hosts.get(host);\n      if (ripple) {\n        // Since this directive is created manually, it needs to be destroyed manually too.\n        // tslint:disable-next-line:no-lifecycle-invocation\n        ripple.ngOnDestroy();\n        this._hosts.delete(host);\n      }\n    }\n    static {\n      this.ɵfac = function MatRippleLoader_Factory(t) {\n        return new (t || MatRippleLoader)();\n      };\n    }\n    static {\n      this.ɵprov = /* @__PURE__ */i0.ɵɵdefineInjectable({\n        token: MatRippleLoader,\n        factory: MatRippleLoader.ɵfac,\n        providedIn: 'root'\n      });\n    }\n  }\n  return MatRippleLoader;\n})();\n/*#__PURE__*/(() => {\n  (typeof ngDevMode === \"undefined\" || ngDevMode) && void 0;\n})();\n\n/**\n * Internal shared component used as a container in form field controls.\n * Not to be confused with `mat-form-field` which MDC calls a \"text field\".\n * @docs-private\n */\nlet _MatInternalFormField = /*#__PURE__*/(() => {\n  class _MatInternalFormField {\n    static {\n      this.ɵfac = function _MatInternalFormField_Factory(t) {\n        return new (t || _MatInternalFormField)();\n      };\n    }\n    static {\n      this.ɵcmp = /* @__PURE__ */i0.ɵɵdefineComponent({\n        type: _MatInternalFormField,\n        selectors: [[\"div\", \"mat-internal-form-field\", \"\"]],\n        hostAttrs: [1, \"mdc-form-field\", \"mat-internal-form-field\"],\n        hostVars: 2,\n        hostBindings: function _MatInternalFormField_HostBindings(rf, ctx) {\n          if (rf & 2) {\n            i0.ɵɵclassProp(\"mdc-form-field--align-end\", ctx.labelPosition === \"before\");\n          }\n        },\n        inputs: {\n          labelPosition: \"labelPosition\"\n        },\n        standalone: true,\n        features: [i0.ɵɵStandaloneFeature],\n        attrs: _c5,\n        ngContentSelectors: _c6,\n        decls: 1,\n        vars: 0,\n        template: function _MatInternalFormField_Template(rf, ctx) {\n          if (rf & 1) {\n            i0.ɵɵprojectionDef();\n            i0.ɵɵprojection(0);\n          }\n        },\n        styles: [\".mdc-form-field{display:inline-flex;align-items:center;vertical-align:middle}.mdc-form-field[hidden]{display:none}.mdc-form-field>label{margin-left:0;margin-right:auto;padding-left:4px;padding-right:0;order:0}[dir=rtl] .mdc-form-field>label,.mdc-form-field>label[dir=rtl]{margin-left:auto;margin-right:0}[dir=rtl] .mdc-form-field>label,.mdc-form-field>label[dir=rtl]{padding-left:0;padding-right:4px}.mdc-form-field--nowrap>label{text-overflow:ellipsis;overflow:hidden;white-space:nowrap}.mdc-form-field--align-end>label{margin-left:auto;margin-right:0;padding-left:0;padding-right:4px;order:-1}[dir=rtl] .mdc-form-field--align-end>label,.mdc-form-field--align-end>label[dir=rtl]{margin-left:0;margin-right:auto}[dir=rtl] .mdc-form-field--align-end>label,.mdc-form-field--align-end>label[dir=rtl]{padding-left:4px;padding-right:0}.mdc-form-field--space-between{justify-content:space-between}.mdc-form-field--space-between>label{margin:0}[dir=rtl] .mdc-form-field--space-between>label,.mdc-form-field--space-between>label[dir=rtl]{margin:0}.mdc-form-field{font-family:var(--mdc-form-field-label-text-font);line-height:var(--mdc-form-field-label-text-line-height);font-size:var(--mdc-form-field-label-text-size);font-weight:var(--mdc-form-field-label-text-weight);letter-spacing:var(--mdc-form-field-label-text-tracking);color:var(--mdc-form-field-label-text-color)}.mat-internal-form-field{-moz-osx-font-smoothing:grayscale;-webkit-font-smoothing:antialiased}\"],\n        encapsulation: 2,\n        changeDetection: 0\n      });\n    }\n  }\n  return _MatInternalFormField;\n})();\n/*#__PURE__*/(() => {\n  (typeof ngDevMode === \"undefined\" || ngDevMode) && void 0;\n})();\n\n/**\n * Generated bundle index. Do not edit.\n */\n\nexport { AnimationCurves, AnimationDurations, DateAdapter, ErrorStateMatcher, MATERIAL_SANITY_CHECKS, MAT_DATE_FORMATS, MAT_DATE_LOCALE, MAT_DATE_LOCALE_FACTORY, MAT_NATIVE_DATE_FORMATS, MAT_OPTGROUP, MAT_OPTION_PARENT_COMPONENT, MAT_RIPPLE_GLOBAL_OPTIONS, MatCommonModule, MatLine, MatLineModule, MatNativeDateModule, MatOptgroup, MatOption, MatOptionModule, MatOptionSelectionChange, MatPseudoCheckbox, MatPseudoCheckboxModule, MatRipple, MatRippleLoader, MatRippleModule, NativeDateAdapter, NativeDateModule, RippleRef, RippleRenderer, RippleState, ShowOnDirtyErrorStateMatcher, VERSION, _ErrorStateTracker, _MatInternalFormField, _countGroupLabelsBeforeOption, _getOptionScrollPosition, defaultRippleAnimationConfig, mixinColor, mixinDisableRipple, mixinDisabled, mixinErrorState, mixinInitialized, mixinTabIndex, provideNativeDateAdapter, setLines };\n","import * as i1 from '@angular/cdk/platform';\nimport * as i0 from '@angular/core';\nimport { InjectionToken, inject, booleanAttribute, Directive, Input, numberAttribute, ANIMATION_MODULE_TYPE, Component, ViewEncapsulation, ChangeDetectionStrategy, Optional, Inject, NgModule } from '@angular/core';\nimport { FocusMonitor } from '@angular/cdk/a11y';\nimport { MatRippleLoader, MatCommonModule, MatRippleModule } from '@angular/material/core';\n\n/** Injection token that can be used to provide the default options the button component. */\nconst _c0 = [\"mat-button\", \"\"];\nconst _c1 = [[[\"\", 8, \"material-icons\", 3, \"iconPositionEnd\", \"\"], [\"mat-icon\", 3, \"iconPositionEnd\", \"\"], [\"\", \"matButtonIcon\", \"\", 3, \"iconPositionEnd\", \"\"]], \"*\", [[\"\", \"iconPositionEnd\", \"\", 8, \"material-icons\"], [\"mat-icon\", \"iconPositionEnd\", \"\"], [\"\", \"matButtonIcon\", \"\", \"iconPositionEnd\", \"\"]]];\nconst _c2 = [\".material-icons:not([iconPositionEnd]), mat-icon:not([iconPositionEnd]), [matButtonIcon]:not([iconPositionEnd])\", \"*\", \".material-icons[iconPositionEnd], mat-icon[iconPositionEnd], [matButtonIcon][iconPositionEnd]\"];\nconst _c3 = \".mdc-touch-target-wrapper{display:inline}.mdc-elevation-overlay{position:absolute;border-radius:inherit;pointer-events:none;opacity:var(--mdc-elevation-overlay-opacity, 0);transition:opacity 280ms cubic-bezier(0.4, 0, 0.2, 1)}.mdc-button{position:relative;display:inline-flex;align-items:center;justify-content:center;box-sizing:border-box;min-width:64px;border:none;outline:none;line-height:inherit;user-select:none;-webkit-appearance:none;overflow:visible;vertical-align:middle;background:rgba(0,0,0,0)}.mdc-button .mdc-elevation-overlay{width:100%;height:100%;top:0;left:0}.mdc-button::-moz-focus-inner{padding:0;border:0}.mdc-button:active{outline:none}.mdc-button:hover{cursor:pointer}.mdc-button:disabled{cursor:default;pointer-events:none}.mdc-button[hidden]{display:none}.mdc-button .mdc-button__icon{margin-left:0;margin-right:8px;display:inline-block;position:relative;vertical-align:top}[dir=rtl] .mdc-button .mdc-button__icon,.mdc-button .mdc-button__icon[dir=rtl]{margin-left:8px;margin-right:0}.mdc-button .mdc-button__progress-indicator{font-size:0;position:absolute;transform:translate(-50%, -50%);top:50%;left:50%;line-height:initial}.mdc-button .mdc-button__label{position:relative}.mdc-button .mdc-button__focus-ring{pointer-events:none;border:2px solid rgba(0,0,0,0);border-radius:6px;box-sizing:content-box;position:absolute;top:50%;left:50%;transform:translate(-50%, -50%);height:calc(100% + 4px);width:calc(100% + 4px);display:none}@media screen and (forced-colors: active){.mdc-button .mdc-button__focus-ring{border-color:CanvasText}}.mdc-button .mdc-button__focus-ring::after{content:\\\"\\\";border:2px solid rgba(0,0,0,0);border-radius:8px;display:block;position:absolute;top:50%;left:50%;transform:translate(-50%, -50%);height:calc(100% + 4px);width:calc(100% + 4px)}@media screen and (forced-colors: active){.mdc-button .mdc-button__focus-ring::after{border-color:CanvasText}}@media screen and (forced-colors: active){.mdc-button.mdc-ripple-upgraded--background-focused .mdc-button__focus-ring,.mdc-button:not(.mdc-ripple-upgraded):focus .mdc-button__focus-ring{display:block}}.mdc-button .mdc-button__touch{position:absolute;top:50%;height:48px;left:0;right:0;transform:translateY(-50%)}.mdc-button__label+.mdc-button__icon{margin-left:8px;margin-right:0}[dir=rtl] .mdc-button__label+.mdc-button__icon,.mdc-button__label+.mdc-button__icon[dir=rtl]{margin-left:0;margin-right:8px}svg.mdc-button__icon{fill:currentColor}.mdc-button--touch{margin-top:6px;margin-bottom:6px}.mdc-button{padding:0 8px 0 8px}.mdc-button--unelevated{transition:box-shadow 280ms cubic-bezier(0.4, 0, 0.2, 1);padding:0 16px 0 16px}.mdc-button--unelevated.mdc-button--icon-trailing{padding:0 12px 0 16px}.mdc-button--unelevated.mdc-button--icon-leading{padding:0 16px 0 12px}.mdc-button--raised{transition:box-shadow 280ms cubic-bezier(0.4, 0, 0.2, 1);padding:0 16px 0 16px}.mdc-button--raised.mdc-button--icon-trailing{padding:0 12px 0 16px}.mdc-button--raised.mdc-button--icon-leading{padding:0 16px 0 12px}.mdc-button--outlined{border-style:solid;transition:border 280ms cubic-bezier(0.4, 0, 0.2, 1)}.mdc-button--outlined .mdc-button__ripple{border-style:solid;border-color:rgba(0,0,0,0)}.mat-mdc-button{font-family:var(--mdc-text-button-label-text-font);font-size:var(--mdc-text-button-label-text-size);letter-spacing:var(--mdc-text-button-label-text-tracking);font-weight:var(--mdc-text-button-label-text-weight);text-transform:var(--mdc-text-button-label-text-transform);height:var(--mdc-text-button-container-height);border-radius:var(--mdc-text-button-container-shape);padding:0 var(--mat-text-button-horizontal-padding, 8px)}.mat-mdc-button:not(:disabled){color:var(--mdc-text-button-label-text-color)}.mat-mdc-button:disabled{color:var(--mdc-text-button-disabled-label-text-color)}.mat-mdc-button .mdc-button__ripple{border-radius:var(--mdc-text-button-container-shape)}.mat-mdc-button:has(.material-icons,mat-icon,[matButtonIcon]){padding:0 var(--mat-text-button-with-icon-horizontal-padding, 8px)}.mat-mdc-button>.mat-icon{margin-right:var(--mat-text-button-icon-spacing, 8px);margin-left:var(--mat-text-button-icon-offset, 0)}[dir=rtl] .mat-mdc-button>.mat-icon{margin-right:var(--mat-text-button-icon-offset, 0);margin-left:var(--mat-text-button-icon-spacing, 8px)}.mat-mdc-button .mdc-button__label+.mat-icon{margin-right:var(--mat-text-button-icon-offset, 0);margin-left:var(--mat-text-button-icon-spacing, 8px)}[dir=rtl] .mat-mdc-button .mdc-button__label+.mat-icon{margin-right:var(--mat-text-button-icon-spacing, 8px);margin-left:var(--mat-text-button-icon-offset, 0)}.mat-mdc-button .mat-ripple-element{background-color:var(--mat-text-button-ripple-color)}.mat-mdc-button .mat-mdc-button-persistent-ripple::before{background-color:var(--mat-text-button-state-layer-color)}.mat-mdc-button.mat-mdc-button-disabled .mat-mdc-button-persistent-ripple::before{background-color:var(--mat-text-button-disabled-state-layer-color)}.mat-mdc-button:hover .mat-mdc-button-persistent-ripple::before{opacity:var(--mat-text-button-hover-state-layer-opacity)}.mat-mdc-button.cdk-program-focused .mat-mdc-button-persistent-ripple::before,.mat-mdc-button.cdk-keyboard-focused .mat-mdc-button-persistent-ripple::before,.mat-mdc-button.mat-mdc-button-disabled-interactive:focus .mat-mdc-button-persistent-ripple::before{opacity:var(--mat-text-button-focus-state-layer-opacity)}.mat-mdc-button:active .mat-mdc-button-persistent-ripple::before{opacity:var(--mat-text-button-pressed-state-layer-opacity)}.mat-mdc-button .mat-mdc-button-touch-target{position:absolute;top:50%;height:48px;left:0;right:0;transform:translateY(-50%);display:var(--mat-text-button-touch-target-display)}.mat-mdc-button[disabled],.mat-mdc-button.mat-mdc-button-disabled{cursor:default;pointer-events:none;color:var(--mdc-text-button-disabled-label-text-color)}.mat-mdc-button.mat-mdc-button-disabled-interactive{pointer-events:auto}.mat-mdc-unelevated-button{font-family:var(--mdc-filled-button-label-text-font);font-size:var(--mdc-filled-button-label-text-size);letter-spacing:var(--mdc-filled-button-label-text-tracking);font-weight:var(--mdc-filled-button-label-text-weight);text-transform:var(--mdc-filled-button-label-text-transform);height:var(--mdc-filled-button-container-height);border-radius:var(--mdc-filled-button-container-shape);padding:0 var(--mat-filled-button-horizontal-padding, 16px)}.mat-mdc-unelevated-button:not(:disabled){background-color:var(--mdc-filled-button-container-color)}.mat-mdc-unelevated-button:disabled{background-color:var(--mdc-filled-button-disabled-container-color)}.mat-mdc-unelevated-button:not(:disabled){color:var(--mdc-filled-button-label-text-color)}.mat-mdc-unelevated-button:disabled{color:var(--mdc-filled-button-disabled-label-text-color)}.mat-mdc-unelevated-button .mdc-button__ripple{border-radius:var(--mdc-filled-button-container-shape)}.mat-mdc-unelevated-button>.mat-icon{margin-right:var(--mat-filled-button-icon-spacing, 8px);margin-left:var(--mat-filled-button-icon-offset, -4px)}[dir=rtl] .mat-mdc-unelevated-button>.mat-icon{margin-right:var(--mat-filled-button-icon-offset, -4px);margin-left:var(--mat-filled-button-icon-spacing, 8px)}.mat-mdc-unelevated-button .mdc-button__label+.mat-icon{margin-right:var(--mat-filled-button-icon-offset, -4px);margin-left:var(--mat-filled-button-icon-spacing, 8px)}[dir=rtl] .mat-mdc-unelevated-button .mdc-button__label+.mat-icon{margin-right:var(--mat-filled-button-icon-spacing, 8px);margin-left:var(--mat-filled-button-icon-offset, -4px)}.mat-mdc-unelevated-button .mat-ripple-element{background-color:var(--mat-filled-button-ripple-color)}.mat-mdc-unelevated-button .mat-mdc-button-persistent-ripple::before{background-color:var(--mat-filled-button-state-layer-color)}.mat-mdc-unelevated-button.mat-mdc-button-disabled .mat-mdc-button-persistent-ripple::before{background-color:var(--mat-filled-button-disabled-state-layer-color)}.mat-mdc-unelevated-button:hover .mat-mdc-button-persistent-ripple::before{opacity:var(--mat-filled-button-hover-state-layer-opacity)}.mat-mdc-unelevated-button.cdk-program-focused .mat-mdc-button-persistent-ripple::before,.mat-mdc-unelevated-button.cdk-keyboard-focused .mat-mdc-button-persistent-ripple::before,.mat-mdc-unelevated-button.mat-mdc-button-disabled-interactive:focus .mat-mdc-button-persistent-ripple::before{opacity:var(--mat-filled-button-focus-state-layer-opacity)}.mat-mdc-unelevated-button:active .mat-mdc-button-persistent-ripple::before{opacity:var(--mat-filled-button-pressed-state-layer-opacity)}.mat-mdc-unelevated-button .mat-mdc-button-touch-target{position:absolute;top:50%;height:48px;left:0;right:0;transform:translateY(-50%);display:var(--mat-filled-button-touch-target-display)}.mat-mdc-unelevated-button[disabled],.mat-mdc-unelevated-button.mat-mdc-button-disabled{cursor:default;pointer-events:none;color:var(--mdc-filled-button-disabled-label-text-color);background-color:var(--mdc-filled-button-disabled-container-color)}.mat-mdc-unelevated-button.mat-mdc-button-disabled-interactive{pointer-events:auto}.mat-mdc-raised-button{font-family:var(--mdc-protected-button-label-text-font);font-size:var(--mdc-protected-button-label-text-size);letter-spacing:var(--mdc-protected-button-label-text-tracking);font-weight:var(--mdc-protected-button-label-text-weight);text-transform:var(--mdc-protected-button-label-text-transform);height:var(--mdc-protected-button-container-height);border-radius:var(--mdc-protected-button-container-shape);padding:0 var(--mat-protected-button-horizontal-padding, 16px);box-shadow:var(--mdc-protected-button-container-elevation-shadow)}.mat-mdc-raised-button:not(:disabled){background-color:var(--mdc-protected-button-container-color)}.mat-mdc-raised-button:disabled{background-color:var(--mdc-protected-button-disabled-container-color)}.mat-mdc-raised-button:not(:disabled){color:var(--mdc-protected-button-label-text-color)}.mat-mdc-raised-button:disabled{color:var(--mdc-protected-button-disabled-label-text-color)}.mat-mdc-raised-button .mdc-button__ripple{border-radius:var(--mdc-protected-button-container-shape)}.mat-mdc-raised-button>.mat-icon{margin-right:var(--mat-protected-button-icon-spacing, 8px);margin-left:var(--mat-protected-button-icon-offset, -4px)}[dir=rtl] .mat-mdc-raised-button>.mat-icon{margin-right:var(--mat-protected-button-icon-offset, -4px);margin-left:var(--mat-protected-button-icon-spacing, 8px)}.mat-mdc-raised-button .mdc-button__label+.mat-icon{margin-right:var(--mat-protected-button-icon-offset, -4px);margin-left:var(--mat-protected-button-icon-spacing, 8px)}[dir=rtl] .mat-mdc-raised-button .mdc-button__label+.mat-icon{margin-right:var(--mat-protected-button-icon-spacing, 8px);margin-left:var(--mat-protected-button-icon-offset, -4px)}.mat-mdc-raised-button .mat-ripple-element{background-color:var(--mat-protected-button-ripple-color)}.mat-mdc-raised-button .mat-mdc-button-persistent-ripple::before{background-color:var(--mat-protected-button-state-layer-color)}.mat-mdc-raised-button.mat-mdc-button-disabled .mat-mdc-button-persistent-ripple::before{background-color:var(--mat-protected-button-disabled-state-layer-color)}.mat-mdc-raised-button:hover .mat-mdc-button-persistent-ripple::before{opacity:var(--mat-protected-button-hover-state-layer-opacity)}.mat-mdc-raised-button.cdk-program-focused .mat-mdc-button-persistent-ripple::before,.mat-mdc-raised-button.cdk-keyboard-focused .mat-mdc-button-persistent-ripple::before,.mat-mdc-raised-button.mat-mdc-button-disabled-interactive:focus .mat-mdc-button-persistent-ripple::before{opacity:var(--mat-protected-button-focus-state-layer-opacity)}.mat-mdc-raised-button:active .mat-mdc-button-persistent-ripple::before{opacity:var(--mat-protected-button-pressed-state-layer-opacity)}.mat-mdc-raised-button .mat-mdc-button-touch-target{position:absolute;top:50%;height:48px;left:0;right:0;transform:translateY(-50%);display:var(--mat-protected-button-touch-target-display)}.mat-mdc-raised-button:hover{box-shadow:var(--mdc-protected-button-hover-container-elevation-shadow)}.mat-mdc-raised-button:focus{box-shadow:var(--mdc-protected-button-focus-container-elevation-shadow)}.mat-mdc-raised-button:active,.mat-mdc-raised-button:focus:active{box-shadow:var(--mdc-protected-button-pressed-container-elevation-shadow)}.mat-mdc-raised-button[disabled],.mat-mdc-raised-button.mat-mdc-button-disabled{cursor:default;pointer-events:none;color:var(--mdc-protected-button-disabled-label-text-color);background-color:var(--mdc-protected-button-disabled-container-color)}.mat-mdc-raised-button[disabled].mat-mdc-button-disabled,.mat-mdc-raised-button.mat-mdc-button-disabled.mat-mdc-button-disabled{box-shadow:var(--mdc-protected-button-disabled-container-elevation-shadow)}.mat-mdc-raised-button.mat-mdc-button-disabled-interactive{pointer-events:auto}.mat-mdc-outlined-button{font-family:var(--mdc-outlined-button-label-text-font);font-size:var(--mdc-outlined-button-label-text-size);letter-spacing:var(--mdc-outlined-button-label-text-tracking);font-weight:var(--mdc-outlined-button-label-text-weight);text-transform:var(--mdc-outlined-button-label-text-transform);height:var(--mdc-outlined-button-container-height);border-radius:var(--mdc-outlined-button-container-shape);padding:0 15px 0 15px;border-width:var(--mdc-outlined-button-outline-width);padding:0 var(--mat-outlined-button-horizontal-padding, 15px)}.mat-mdc-outlined-button:not(:disabled){color:var(--mdc-outlined-button-label-text-color)}.mat-mdc-outlined-button:disabled{color:var(--mdc-outlined-button-disabled-label-text-color)}.mat-mdc-outlined-button .mdc-button__ripple{border-radius:var(--mdc-outlined-button-container-shape)}.mat-mdc-outlined-button:not(:disabled){border-color:var(--mdc-outlined-button-outline-color)}.mat-mdc-outlined-button:disabled{border-color:var(--mdc-outlined-button-disabled-outline-color)}.mat-mdc-outlined-button.mdc-button--icon-trailing{padding:0 11px 0 15px}.mat-mdc-outlined-button.mdc-button--icon-leading{padding:0 15px 0 11px}.mat-mdc-outlined-button .mdc-button__ripple{top:-1px;left:-1px;bottom:-1px;right:-1px;border-width:var(--mdc-outlined-button-outline-width)}.mat-mdc-outlined-button .mdc-button__touch{left:calc(-1 * var(--mdc-outlined-button-outline-width));width:calc(100% + 2 * var(--mdc-outlined-button-outline-width))}.mat-mdc-outlined-button>.mat-icon{margin-right:var(--mat-outlined-button-icon-spacing, 8px);margin-left:var(--mat-outlined-button-icon-offset, -4px)}[dir=rtl] .mat-mdc-outlined-button>.mat-icon{margin-right:var(--mat-outlined-button-icon-offset, -4px);margin-left:var(--mat-outlined-button-icon-spacing, 8px)}.mat-mdc-outlined-button .mdc-button__label+.mat-icon{margin-right:var(--mat-outlined-button-icon-offset, -4px);margin-left:var(--mat-outlined-button-icon-spacing, 8px)}[dir=rtl] .mat-mdc-outlined-button .mdc-button__label+.mat-icon{margin-right:var(--mat-outlined-button-icon-spacing, 8px);margin-left:var(--mat-outlined-button-icon-offset, -4px)}.mat-mdc-outlined-button .mat-ripple-element{background-color:var(--mat-outlined-button-ripple-color)}.mat-mdc-outlined-button .mat-mdc-button-persistent-ripple::before{background-color:var(--mat-outlined-button-state-layer-color)}.mat-mdc-outlined-button.mat-mdc-button-disabled .mat-mdc-button-persistent-ripple::before{background-color:var(--mat-outlined-button-disabled-state-layer-color)}.mat-mdc-outlined-button:hover .mat-mdc-button-persistent-ripple::before{opacity:var(--mat-outlined-button-hover-state-layer-opacity)}.mat-mdc-outlined-button.cdk-program-focused .mat-mdc-button-persistent-ripple::before,.mat-mdc-outlined-button.cdk-keyboard-focused .mat-mdc-button-persistent-ripple::before,.mat-mdc-outlined-button.mat-mdc-button-disabled-interactive:focus .mat-mdc-button-persistent-ripple::before{opacity:var(--mat-outlined-button-focus-state-layer-opacity)}.mat-mdc-outlined-button:active .mat-mdc-button-persistent-ripple::before{opacity:var(--mat-outlined-button-pressed-state-layer-opacity)}.mat-mdc-outlined-button .mat-mdc-button-touch-target{position:absolute;top:50%;height:48px;left:0;right:0;transform:translateY(-50%);display:var(--mat-outlined-button-touch-target-display)}.mat-mdc-outlined-button[disabled],.mat-mdc-outlined-button.mat-mdc-button-disabled{cursor:default;pointer-events:none;color:var(--mdc-outlined-button-disabled-label-text-color);border-color:var(--mdc-outlined-button-disabled-outline-color)}.mat-mdc-outlined-button.mat-mdc-button-disabled-interactive{pointer-events:auto}.mat-mdc-button-base{text-decoration:none}.mat-mdc-button,.mat-mdc-unelevated-button,.mat-mdc-raised-button,.mat-mdc-outlined-button{-webkit-tap-highlight-color:rgba(0,0,0,0)}.mat-mdc-button .mat-mdc-button-ripple,.mat-mdc-button .mat-mdc-button-persistent-ripple,.mat-mdc-button .mat-mdc-button-persistent-ripple::before,.mat-mdc-unelevated-button .mat-mdc-button-ripple,.mat-mdc-unelevated-button .mat-mdc-button-persistent-ripple,.mat-mdc-unelevated-button .mat-mdc-button-persistent-ripple::before,.mat-mdc-raised-button .mat-mdc-button-ripple,.mat-mdc-raised-button .mat-mdc-button-persistent-ripple,.mat-mdc-raised-button .mat-mdc-button-persistent-ripple::before,.mat-mdc-outlined-button .mat-mdc-button-ripple,.mat-mdc-outlined-button .mat-mdc-button-persistent-ripple,.mat-mdc-outlined-button .mat-mdc-button-persistent-ripple::before{top:0;left:0;right:0;bottom:0;position:absolute;pointer-events:none;border-radius:inherit}.mat-mdc-button .mat-mdc-button-ripple,.mat-mdc-unelevated-button .mat-mdc-button-ripple,.mat-mdc-raised-button .mat-mdc-button-ripple,.mat-mdc-outlined-button .mat-mdc-button-ripple{overflow:hidden}.mat-mdc-button .mat-mdc-button-persistent-ripple::before,.mat-mdc-unelevated-button .mat-mdc-button-persistent-ripple::before,.mat-mdc-raised-button .mat-mdc-button-persistent-ripple::before,.mat-mdc-outlined-button .mat-mdc-button-persistent-ripple::before{content:\\\"\\\";opacity:0}.mat-mdc-button .mdc-button__label,.mat-mdc-unelevated-button .mdc-button__label,.mat-mdc-raised-button .mdc-button__label,.mat-mdc-outlined-button .mdc-button__label{z-index:1}.mat-mdc-button .mat-mdc-focus-indicator,.mat-mdc-unelevated-button .mat-mdc-focus-indicator,.mat-mdc-raised-button .mat-mdc-focus-indicator,.mat-mdc-outlined-button .mat-mdc-focus-indicator{top:0;left:0;right:0;bottom:0;position:absolute}.mat-mdc-button:focus .mat-mdc-focus-indicator::before,.mat-mdc-unelevated-button:focus .mat-mdc-focus-indicator::before,.mat-mdc-raised-button:focus .mat-mdc-focus-indicator::before,.mat-mdc-outlined-button:focus .mat-mdc-focus-indicator::before{content:\\\"\\\"}.mat-mdc-button._mat-animation-noopable,.mat-mdc-unelevated-button._mat-animation-noopable,.mat-mdc-raised-button._mat-animation-noopable,.mat-mdc-outlined-button._mat-animation-noopable{transition:none !important;animation:none !important}.mat-mdc-button>.mat-icon,.mat-mdc-unelevated-button>.mat-icon,.mat-mdc-raised-button>.mat-icon,.mat-mdc-outlined-button>.mat-icon{display:inline-block;position:relative;vertical-align:top;font-size:1.125rem;height:1.125rem;width:1.125rem}.mat-mdc-outlined-button .mat-mdc-button-ripple,.mat-mdc-outlined-button .mdc-button__ripple{top:-1px;left:-1px;bottom:-1px;right:-1px;border-width:-1px}.mat-mdc-unelevated-button .mat-mdc-focus-indicator::before,.mat-mdc-raised-button .mat-mdc-focus-indicator::before{margin:calc(calc(var(--mat-mdc-focus-indicator-border-width, 3px) + 2px)*-1)}.mat-mdc-outlined-button .mat-mdc-focus-indicator::before{margin:calc(calc(var(--mat-mdc-focus-indicator-border-width, 3px) + 3px)*-1)}\";\nconst _c4 = \".cdk-high-contrast-active .mat-mdc-button:not(.mdc-button--outlined),.cdk-high-contrast-active .mat-mdc-unelevated-button:not(.mdc-button--outlined),.cdk-high-contrast-active .mat-mdc-raised-button:not(.mdc-button--outlined),.cdk-high-contrast-active .mat-mdc-outlined-button:not(.mdc-button--outlined),.cdk-high-contrast-active .mat-mdc-icon-button{outline:solid 1px}\";\nconst _c5 = [\"mat-fab\", \"\"];\nconst _c6 = [\"mat-mini-fab\", \"\"];\nconst _c7 = \".mdc-touch-target-wrapper{display:inline}.mdc-elevation-overlay{position:absolute;border-radius:inherit;pointer-events:none;opacity:var(--mdc-elevation-overlay-opacity);transition:opacity 280ms cubic-bezier(0.4, 0, 0.2, 1)}.mdc-fab{position:relative;display:inline-flex;position:relative;align-items:center;justify-content:center;box-sizing:border-box;width:56px;height:56px;padding:0;border:none;fill:currentColor;text-decoration:none;cursor:pointer;user-select:none;-moz-appearance:none;-webkit-appearance:none;overflow:visible;transition:box-shadow 280ms cubic-bezier(0.4, 0, 0.2, 1),opacity 15ms linear 30ms,transform 270ms 0ms cubic-bezier(0, 0, 0.2, 1)}.mdc-fab .mdc-elevation-overlay{width:100%;height:100%;top:0;left:0}.mdc-fab[hidden]{display:none}.mdc-fab::-moz-focus-inner{padding:0;border:0}.mdc-fab .mdc-fab__focus-ring{position:absolute}.mdc-fab.mdc-ripple-upgraded--background-focused .mdc-fab__focus-ring,.mdc-fab:not(.mdc-ripple-upgraded):focus .mdc-fab__focus-ring{pointer-events:none;border:2px solid rgba(0,0,0,0);border-radius:6px;box-sizing:content-box;position:absolute;top:50%;left:50%;transform:translate(-50%, -50%);height:calc(100% + 4px);width:calc(100% + 4px)}@media screen and (forced-colors: active){.mdc-fab.mdc-ripple-upgraded--background-focused .mdc-fab__focus-ring,.mdc-fab:not(.mdc-ripple-upgraded):focus .mdc-fab__focus-ring{border-color:CanvasText}}.mdc-fab.mdc-ripple-upgraded--background-focused .mdc-fab__focus-ring::after,.mdc-fab:not(.mdc-ripple-upgraded):focus .mdc-fab__focus-ring::after{content:\\\"\\\";border:2px solid rgba(0,0,0,0);border-radius:8px;display:block;position:absolute;top:50%;left:50%;transform:translate(-50%, -50%);height:calc(100% + 4px);width:calc(100% + 4px)}@media screen and (forced-colors: active){.mdc-fab.mdc-ripple-upgraded--background-focused .mdc-fab__focus-ring::after,.mdc-fab:not(.mdc-ripple-upgraded):focus .mdc-fab__focus-ring::after{border-color:CanvasText}}.mdc-fab:active,.mdc-fab:focus{outline:none}.mdc-fab:hover{cursor:pointer}.mdc-fab>svg{width:100%}.mdc-fab--mini{width:40px;height:40px}.mdc-fab--extended{border-radius:24px;padding-left:20px;padding-right:20px;width:auto;max-width:100%;height:48px;line-height:normal}.mdc-fab--extended .mdc-fab__ripple{border-radius:24px}.mdc-fab--extended .mdc-fab__icon{margin-left:calc(12px - 20px);margin-right:12px}[dir=rtl] .mdc-fab--extended .mdc-fab__icon,.mdc-fab--extended .mdc-fab__icon[dir=rtl]{margin-left:12px;margin-right:calc(12px - 20px)}.mdc-fab--extended .mdc-fab__label+.mdc-fab__icon{margin-left:12px;margin-right:calc(12px - 20px)}[dir=rtl] .mdc-fab--extended .mdc-fab__label+.mdc-fab__icon,.mdc-fab--extended .mdc-fab__label+.mdc-fab__icon[dir=rtl]{margin-left:calc(12px - 20px);margin-right:12px}.mdc-fab--touch{margin-top:4px;margin-bottom:4px;margin-right:4px;margin-left:4px}.mdc-fab--touch .mdc-fab__touch{position:absolute;top:50%;height:48px;left:50%;width:48px;transform:translate(-50%, -50%)}.mdc-fab::before{position:absolute;box-sizing:border-box;width:100%;height:100%;top:0;left:0;border:1px solid rgba(0,0,0,0);border-radius:inherit;content:\\\"\\\";pointer-events:none}@media screen and (forced-colors: active){.mdc-fab::before{border-color:CanvasText}}.mdc-fab__label{justify-content:flex-start;text-overflow:ellipsis;white-space:nowrap;overflow-x:hidden;overflow-y:visible}.mdc-fab__icon{transition:transform 180ms 90ms cubic-bezier(0, 0, 0.2, 1);fill:currentColor;will-change:transform}.mdc-fab .mdc-fab__icon{display:inline-flex;align-items:center;justify-content:center}.mdc-fab--exited{transform:scale(0);opacity:0;transition:opacity 15ms linear 150ms,transform 180ms 0ms cubic-bezier(0.4, 0, 1, 1)}.mdc-fab--exited .mdc-fab__icon{transform:scale(0);transition:transform 135ms 0ms cubic-bezier(0.4, 0, 1, 1)}.mat-mdc-fab{background-color:var(--mdc-fab-container-color)}.mat-mdc-fab .mdc-fab__icon{width:var(--mdc-fab-icon-size);height:var(--mdc-fab-icon-size);font-size:var(--mdc-fab-icon-size)}.mat-mdc-fab:not(.mdc-fab--extended){border-radius:var(--mdc-fab-container-shape)}.mat-mdc-fab:not(.mdc-fab--extended) .mdc-fab__ripple{border-radius:var(--mdc-fab-container-shape)}.mat-mdc-mini-fab{background-color:var(--mdc-fab-small-container-color)}.mat-mdc-mini-fab .mdc-fab__icon{width:var(--mdc-fab-small-icon-size);height:var(--mdc-fab-small-icon-size);font-size:var(--mdc-fab-small-icon-size)}.mat-mdc-mini-fab:not(.mdc-fab--extended){border-radius:var(--mdc-fab-small-container-shape)}.mat-mdc-mini-fab:not(.mdc-fab--extended) .mdc-fab__ripple{border-radius:var(--mdc-fab-small-container-shape)}.mat-mdc-extended-fab{-moz-osx-font-smoothing:grayscale;-webkit-font-smoothing:antialiased;height:var(--mdc-extended-fab-container-height);border-radius:var(--mdc-extended-fab-container-shape);font-family:var(--mdc-extended-fab-label-text-font);font-size:var(--mdc-extended-fab-label-text-size);font-weight:var(--mdc-extended-fab-label-text-weight);letter-spacing:var(--mdc-extended-fab-label-text-tracking)}.mat-mdc-extended-fab .mdc-fab__ripple{border-radius:var(--mdc-extended-fab-container-shape)}.mat-mdc-fab,.mat-mdc-mini-fab{-webkit-tap-highlight-color:rgba(0,0,0,0);flex-shrink:0}.mat-mdc-fab .mat-mdc-button-ripple,.mat-mdc-fab .mat-mdc-button-persistent-ripple,.mat-mdc-fab .mat-mdc-button-persistent-ripple::before,.mat-mdc-mini-fab .mat-mdc-button-ripple,.mat-mdc-mini-fab .mat-mdc-button-persistent-ripple,.mat-mdc-mini-fab .mat-mdc-button-persistent-ripple::before{top:0;left:0;right:0;bottom:0;position:absolute;pointer-events:none;border-radius:inherit}.mat-mdc-fab .mat-mdc-button-ripple,.mat-mdc-mini-fab .mat-mdc-button-ripple{overflow:hidden}.mat-mdc-fab .mat-mdc-button-persistent-ripple::before,.mat-mdc-mini-fab .mat-mdc-button-persistent-ripple::before{content:\\\"\\\";opacity:0}.mat-mdc-fab .mdc-button__label,.mat-mdc-mini-fab .mdc-button__label{z-index:1}.mat-mdc-fab .mat-mdc-focus-indicator,.mat-mdc-mini-fab .mat-mdc-focus-indicator{top:0;left:0;right:0;bottom:0;position:absolute}.mat-mdc-fab:focus .mat-mdc-focus-indicator::before,.mat-mdc-mini-fab:focus .mat-mdc-focus-indicator::before{content:\\\"\\\"}.mat-mdc-fab._mat-animation-noopable,.mat-mdc-mini-fab._mat-animation-noopable{transition:none !important;animation:none !important}.mat-mdc-fab:not(.mdc-ripple-upgraded):focus::before,.mat-mdc-mini-fab:not(.mdc-ripple-upgraded):focus::before{background:rgba(0,0,0,0);opacity:1}.mat-mdc-fab .mat-icon,.mat-mdc-fab .material-icons,.mat-mdc-mini-fab .mat-icon,.mat-mdc-mini-fab .material-icons{transition:transform 180ms 90ms cubic-bezier(0, 0, 0.2, 1);fill:currentColor;will-change:transform}.mat-mdc-fab .mat-mdc-focus-indicator::before,.mat-mdc-mini-fab .mat-mdc-focus-indicator::before{margin:calc(calc(var(--mat-mdc-focus-indicator-border-width, 3px) + 2px)*-1)}.mat-mdc-fab[disabled],.mat-mdc-fab.mat-mdc-button-disabled,.mat-mdc-mini-fab[disabled],.mat-mdc-mini-fab.mat-mdc-button-disabled{cursor:default;pointer-events:none}.mat-mdc-fab[disabled],.mat-mdc-fab[disabled]:focus,.mat-mdc-fab.mat-mdc-button-disabled,.mat-mdc-fab.mat-mdc-button-disabled:focus,.mat-mdc-mini-fab[disabled],.mat-mdc-mini-fab[disabled]:focus,.mat-mdc-mini-fab.mat-mdc-button-disabled,.mat-mdc-mini-fab.mat-mdc-button-disabled:focus{box-shadow:none}.mat-mdc-fab.mat-mdc-button-disabled-interactive,.mat-mdc-mini-fab.mat-mdc-button-disabled-interactive{pointer-events:auto}.mat-mdc-fab{color:var(--mat-fab-foreground-color, inherit);box-shadow:var(--mdc-fab-container-elevation-shadow)}.mat-mdc-fab .mat-mdc-button-touch-target{position:absolute;top:50%;height:48px;left:50%;width:48px;transform:translate(-50%, -50%);display:var(--mat-fab-touch-target-display)}.mat-mdc-fab .mat-ripple-element{background-color:var(--mat-fab-ripple-color)}.mat-mdc-fab .mat-mdc-button-persistent-ripple::before{background-color:var(--mat-fab-state-layer-color)}.mat-mdc-fab.mat-mdc-button-disabled .mat-mdc-button-persistent-ripple::before{background-color:var(--mat-fab-disabled-state-layer-color)}.mat-mdc-fab:hover .mat-mdc-button-persistent-ripple::before{opacity:var(--mat-fab-hover-state-layer-opacity)}.mat-mdc-fab.cdk-program-focused .mat-mdc-button-persistent-ripple::before,.mat-mdc-fab.cdk-keyboard-focused .mat-mdc-button-persistent-ripple::before,.mat-mdc-fab.mat-mdc-button-disabled-interactive:focus .mat-mdc-button-persistent-ripple::before{opacity:var(--mat-fab-focus-state-layer-opacity)}.mat-mdc-fab:active .mat-mdc-button-persistent-ripple::before{opacity:var(--mat-fab-pressed-state-layer-opacity)}.mat-mdc-fab:hover{box-shadow:var(--mdc-fab-hover-container-elevation-shadow)}.mat-mdc-fab:focus{box-shadow:var(--mdc-fab-focus-container-elevation-shadow)}.mat-mdc-fab:active,.mat-mdc-fab:focus:active{box-shadow:var(--mdc-fab-pressed-container-elevation-shadow)}.mat-mdc-fab[disabled],.mat-mdc-fab.mat-mdc-button-disabled{cursor:default;pointer-events:none;color:var(--mat-fab-disabled-state-foreground-color);background-color:var(--mat-fab-disabled-state-container-color)}.mat-mdc-fab.mat-mdc-button-disabled-interactive{pointer-events:auto}.mat-mdc-mini-fab{color:var(--mat-fab-small-foreground-color, inherit);box-shadow:var(--mdc-fab-small-container-elevation-shadow)}.mat-mdc-mini-fab .mat-mdc-button-touch-target{position:absolute;top:50%;height:48px;left:50%;width:48px;transform:translate(-50%, -50%);display:var(--mat-fab-small-touch-target-display)}.mat-mdc-mini-fab .mat-ripple-element{background-color:var(--mat-fab-small-ripple-color)}.mat-mdc-mini-fab .mat-mdc-button-persistent-ripple::before{background-color:var(--mat-fab-small-state-layer-color)}.mat-mdc-mini-fab.mat-mdc-button-disabled .mat-mdc-button-persistent-ripple::before{background-color:var(--mat-fab-small-disabled-state-layer-color)}.mat-mdc-mini-fab:hover .mat-mdc-button-persistent-ripple::before{opacity:var(--mat-fab-small-hover-state-layer-opacity)}.mat-mdc-mini-fab.cdk-program-focused .mat-mdc-button-persistent-ripple::before,.mat-mdc-mini-fab.cdk-keyboard-focused .mat-mdc-button-persistent-ripple::before,.mat-mdc-mini-fab.mat-mdc-button-disabled-interactive:focus .mat-mdc-button-persistent-ripple::before{opacity:var(--mat-fab-small-focus-state-layer-opacity)}.mat-mdc-mini-fab:active .mat-mdc-button-persistent-ripple::before{opacity:var(--mat-fab-small-pressed-state-layer-opacity)}.mat-mdc-mini-fab:hover{box-shadow:var(--mdc-fab-small-hover-container-elevation-shadow)}.mat-mdc-mini-fab:focus{box-shadow:var(--mdc-fab-small-focus-container-elevation-shadow)}.mat-mdc-mini-fab:active,.mat-mdc-mini-fab:focus:active{box-shadow:var(--mdc-fab-small-pressed-container-elevation-shadow)}.mat-mdc-mini-fab[disabled],.mat-mdc-mini-fab.mat-mdc-button-disabled{cursor:default;pointer-events:none;color:var(--mat-fab-small-disabled-state-foreground-color);background-color:var(--mat-fab-small-disabled-state-container-color)}.mat-mdc-mini-fab.mat-mdc-button-disabled-interactive{pointer-events:auto}.mat-mdc-extended-fab{box-shadow:var(--mdc-extended-fab-container-elevation-shadow)}.mat-mdc-extended-fab:hover{box-shadow:var(--mdc-extended-fab-hover-container-elevation-shadow)}.mat-mdc-extended-fab:focus{box-shadow:var(--mdc-extended-fab-focus-container-elevation-shadow)}.mat-mdc-extended-fab:active,.mat-mdc-extended-fab:focus:active{box-shadow:var(--mdc-extended-fab-pressed-container-elevation-shadow)}.mat-mdc-extended-fab[disabled],.mat-mdc-extended-fab.mat-mdc-button-disabled{cursor:default;pointer-events:none}.mat-mdc-extended-fab[disabled],.mat-mdc-extended-fab[disabled]:focus,.mat-mdc-extended-fab.mat-mdc-button-disabled,.mat-mdc-extended-fab.mat-mdc-button-disabled:focus{box-shadow:none}.mat-mdc-extended-fab.mat-mdc-button-disabled-interactive{pointer-events:auto}.mat-mdc-extended-fab>.mat-icon,.mat-mdc-extended-fab>.material-icons{margin-left:calc(12px - 20px);margin-right:12px}[dir=rtl] .mat-mdc-extended-fab>.mat-icon,[dir=rtl] .mat-mdc-extended-fab>.material-icons,.mat-mdc-extended-fab>.mat-icon[dir=rtl],.mat-mdc-extended-fab>.material-icons[dir=rtl]{margin-left:12px;margin-right:calc(12px - 20px)}.mat-mdc-extended-fab .mat-mdc-button-touch-target{width:100%}.mat-mdc-extended-fab .mdc-button__label+.mat-icon,.mat-mdc-extended-fab .mdc-button__label+.material-icons{margin-left:12px;margin-right:calc(12px - 20px)}[dir=rtl] .mat-mdc-extended-fab .mdc-button__label+.mat-icon,[dir=rtl] .mat-mdc-extended-fab .mdc-button__label+.material-icons,.mat-mdc-extended-fab .mdc-button__label+.mat-icon[dir=rtl],.mat-mdc-extended-fab .mdc-button__label+.material-icons[dir=rtl]{margin-left:calc(12px - 20px);margin-right:12px}\";\nconst _c8 = [\"mat-icon-button\", \"\"];\nconst _c9 = [\"*\"];\nconst _c10 = \".mdc-icon-button{display:inline-block;position:relative;box-sizing:border-box;border:none;outline:none;background-color:rgba(0,0,0,0);fill:currentColor;color:inherit;text-decoration:none;cursor:pointer;user-select:none;z-index:0;overflow:visible}.mdc-icon-button .mdc-icon-button__touch{position:absolute;top:50%;height:48px;left:50%;width:48px;transform:translate(-50%, -50%)}@media screen and (forced-colors: active){.mdc-icon-button.mdc-ripple-upgraded--background-focused .mdc-icon-button__focus-ring,.mdc-icon-button:not(.mdc-ripple-upgraded):focus .mdc-icon-button__focus-ring{display:block}}.mdc-icon-button:disabled{cursor:default;pointer-events:none}.mdc-icon-button[hidden]{display:none}.mdc-icon-button--display-flex{align-items:center;display:inline-flex;justify-content:center}.mdc-icon-button__focus-ring{pointer-events:none;border:2px solid rgba(0,0,0,0);border-radius:6px;box-sizing:content-box;position:absolute;top:50%;left:50%;transform:translate(-50%, -50%);height:100%;width:100%;display:none}@media screen and (forced-colors: active){.mdc-icon-button__focus-ring{border-color:CanvasText}}.mdc-icon-button__focus-ring::after{content:\\\"\\\";border:2px solid rgba(0,0,0,0);border-radius:8px;display:block;position:absolute;top:50%;left:50%;transform:translate(-50%, -50%);height:calc(100% + 4px);width:calc(100% + 4px)}@media screen and (forced-colors: active){.mdc-icon-button__focus-ring::after{border-color:CanvasText}}.mdc-icon-button__icon{display:inline-block}.mdc-icon-button__icon.mdc-icon-button__icon--on{display:none}.mdc-icon-button--on .mdc-icon-button__icon{display:none}.mdc-icon-button--on .mdc-icon-button__icon.mdc-icon-button__icon--on{display:inline-block}.mdc-icon-button__link{height:100%;left:0;outline:none;position:absolute;top:0;width:100%}.mat-mdc-icon-button{color:var(--mdc-icon-button-icon-color)}.mat-mdc-icon-button .mdc-button__icon{font-size:var(--mdc-icon-button-icon-size)}.mat-mdc-icon-button svg,.mat-mdc-icon-button img{width:var(--mdc-icon-button-icon-size);height:var(--mdc-icon-button-icon-size)}.mat-mdc-icon-button:disabled{color:var(--mdc-icon-button-disabled-icon-color)}.mat-mdc-icon-button{border-radius:50%;flex-shrink:0;text-align:center;width:var(--mdc-icon-button-state-layer-size, 48px);height:var(--mdc-icon-button-state-layer-size, 48px);padding:calc(calc(var(--mdc-icon-button-state-layer-size, 48px) - var(--mdc-icon-button-icon-size, 24px)) / 2);font-size:var(--mdc-icon-button-icon-size);-webkit-tap-highlight-color:rgba(0,0,0,0)}.mat-mdc-icon-button svg{vertical-align:baseline}.mat-mdc-icon-button[disabled],.mat-mdc-icon-button.mat-mdc-button-disabled{cursor:default;pointer-events:none;color:var(--mdc-icon-button-disabled-icon-color)}.mat-mdc-icon-button.mat-mdc-button-disabled-interactive{pointer-events:auto}.mat-mdc-icon-button .mat-mdc-button-ripple,.mat-mdc-icon-button .mat-mdc-button-persistent-ripple,.mat-mdc-icon-button .mat-mdc-button-persistent-ripple::before{top:0;left:0;right:0;bottom:0;position:absolute;pointer-events:none;border-radius:inherit}.mat-mdc-icon-button .mat-mdc-button-ripple{overflow:hidden}.mat-mdc-icon-button .mat-mdc-button-persistent-ripple::before{content:\\\"\\\";opacity:0}.mat-mdc-icon-button .mdc-button__label{z-index:1}.mat-mdc-icon-button .mat-mdc-focus-indicator{top:0;left:0;right:0;bottom:0;position:absolute}.mat-mdc-icon-button:focus .mat-mdc-focus-indicator::before{content:\\\"\\\"}.mat-mdc-icon-button .mat-ripple-element{background-color:var(--mat-icon-button-ripple-color)}.mat-mdc-icon-button .mat-mdc-button-persistent-ripple::before{background-color:var(--mat-icon-button-state-layer-color)}.mat-mdc-icon-button.mat-mdc-button-disabled .mat-mdc-button-persistent-ripple::before{background-color:var(--mat-icon-button-disabled-state-layer-color)}.mat-mdc-icon-button:hover .mat-mdc-button-persistent-ripple::before{opacity:var(--mat-icon-button-hover-state-layer-opacity)}.mat-mdc-icon-button.cdk-program-focused .mat-mdc-button-persistent-ripple::before,.mat-mdc-icon-button.cdk-keyboard-focused .mat-mdc-button-persistent-ripple::before,.mat-mdc-icon-button.mat-mdc-button-disabled-interactive:focus .mat-mdc-button-persistent-ripple::before{opacity:var(--mat-icon-button-focus-state-layer-opacity)}.mat-mdc-icon-button:active .mat-mdc-button-persistent-ripple::before{opacity:var(--mat-icon-button-pressed-state-layer-opacity)}.mat-mdc-icon-button .mat-mdc-button-touch-target{position:absolute;top:50%;height:48px;left:50%;width:48px;transform:translate(-50%, -50%);display:var(--mat-icon-button-touch-target-display)}.mat-mdc-icon-button._mat-animation-noopable{transition:none !important;animation:none !important}.mat-mdc-icon-button .mat-mdc-button-persistent-ripple{border-radius:50%}.mat-mdc-icon-button.mat-unthemed:not(.mdc-ripple-upgraded):focus::before,.mat-mdc-icon-button.mat-primary:not(.mdc-ripple-upgraded):focus::before,.mat-mdc-icon-button.mat-accent:not(.mdc-ripple-upgraded):focus::before,.mat-mdc-icon-button.mat-warn:not(.mdc-ripple-upgraded):focus::before{background:rgba(0,0,0,0);opacity:1}\";\nconst MAT_BUTTON_CONFIG = /*#__PURE__*/new InjectionToken('MAT_BUTTON_CONFIG');\n/** Shared host configuration for all buttons */\nconst MAT_BUTTON_HOST = {\n  '[attr.disabled]': '_getDisabledAttribute()',\n  '[attr.aria-disabled]': '_getAriaDisabled()',\n  '[class.mat-mdc-button-disabled]': 'disabled',\n  '[class.mat-mdc-button-disabled-interactive]': 'disabledInteractive',\n  '[class._mat-animation-noopable]': '_animationMode === \"NoopAnimations\"',\n  // MDC automatically applies the primary theme color to the button, but we want to support\n  // an unthemed version. If color is undefined, apply a CSS class that makes it easy to\n  // select and style this \"theme\".\n  '[class.mat-unthemed]': '!color',\n  // Add a class that applies to all buttons. This makes it easier to target if somebody\n  // wants to target all Material buttons.\n  '[class.mat-mdc-button-base]': 'true',\n  '[class]': 'color ? \"mat-\" + color : \"\"'\n};\n/** List of classes to add to buttons instances based on host attribute selector. */\nconst HOST_SELECTOR_MDC_CLASS_PAIR = [{\n  attribute: 'mat-button',\n  mdcClasses: ['mdc-button', 'mat-mdc-button']\n}, {\n  attribute: 'mat-flat-button',\n  mdcClasses: ['mdc-button', 'mdc-button--unelevated', 'mat-mdc-unelevated-button']\n}, {\n  attribute: 'mat-raised-button',\n  mdcClasses: ['mdc-button', 'mdc-button--raised', 'mat-mdc-raised-button']\n}, {\n  attribute: 'mat-stroked-button',\n  mdcClasses: ['mdc-button', 'mdc-button--outlined', 'mat-mdc-outlined-button']\n}, {\n  attribute: 'mat-fab',\n  mdcClasses: ['mdc-fab', 'mat-mdc-fab']\n}, {\n  attribute: 'mat-mini-fab',\n  mdcClasses: ['mdc-fab', 'mdc-fab--mini', 'mat-mdc-mini-fab']\n}, {\n  attribute: 'mat-icon-button',\n  mdcClasses: ['mdc-icon-button', 'mat-mdc-icon-button']\n}];\n/** Base class for all buttons.  */\nlet MatButtonBase = /*#__PURE__*/(() => {\n  class MatButtonBase {\n    /**\n     * Reference to the MatRipple instance of the button.\n     * @deprecated Considered an implementation detail. To be removed.\n     * @breaking-change 17.0.0\n     */\n    get ripple() {\n      return this._rippleLoader?.getRipple(this._elementRef.nativeElement);\n    }\n    set ripple(v) {\n      this._rippleLoader?.attachRipple(this._elementRef.nativeElement, v);\n    }\n    /** Whether the ripple effect is disabled or not. */\n    get disableRipple() {\n      return this._disableRipple;\n    }\n    set disableRipple(value) {\n      this._disableRipple = value;\n      this._updateRippleDisabled();\n    }\n    /** Whether the button is disabled. */\n    get disabled() {\n      return this._disabled;\n    }\n    set disabled(value) {\n      this._disabled = value;\n      this._updateRippleDisabled();\n    }\n    constructor(_elementRef, _platform, _ngZone, _animationMode) {\n      this._elementRef = _elementRef;\n      this._platform = _platform;\n      this._ngZone = _ngZone;\n      this._animationMode = _animationMode;\n      this._focusMonitor = inject(FocusMonitor);\n      /**\n       * Handles the lazy creation of the MatButton ripple.\n       * Used to improve initial load time of large applications.\n       */\n      this._rippleLoader = inject(MatRippleLoader);\n      /** Whether this button is a FAB. Used to apply the correct class on the ripple. */\n      this._isFab = false;\n      this._disableRipple = false;\n      this._disabled = false;\n      const config = inject(MAT_BUTTON_CONFIG, {\n        optional: true\n      });\n      const element = _elementRef.nativeElement;\n      const classList = element.classList;\n      this.disabledInteractive = config?.disabledInteractive ?? false;\n      this._rippleLoader?.configureRipple(element, {\n        className: 'mat-mdc-button-ripple'\n      });\n      // For each of the variant selectors that is present in the button's host\n      // attributes, add the correct corresponding MDC classes.\n      for (const {\n        attribute,\n        mdcClasses\n      } of HOST_SELECTOR_MDC_CLASS_PAIR) {\n        if (element.hasAttribute(attribute)) {\n          classList.add(...mdcClasses);\n        }\n      }\n    }\n    ngAfterViewInit() {\n      this._focusMonitor.monitor(this._elementRef, true);\n    }\n    ngOnDestroy() {\n      this._focusMonitor.stopMonitoring(this._elementRef);\n      this._rippleLoader?.destroyRipple(this._elementRef.nativeElement);\n    }\n    /** Focuses the button. */\n    focus(origin = 'program', options) {\n      if (origin) {\n        this._focusMonitor.focusVia(this._elementRef.nativeElement, origin, options);\n      } else {\n        this._elementRef.nativeElement.focus(options);\n      }\n    }\n    _getAriaDisabled() {\n      if (this.ariaDisabled != null) {\n        return this.ariaDisabled;\n      }\n      return this.disabled && this.disabledInteractive ? true : null;\n    }\n    _getDisabledAttribute() {\n      return this.disabledInteractive || !this.disabled ? null : true;\n    }\n    _updateRippleDisabled() {\n      this._rippleLoader?.setDisabled(this._elementRef.nativeElement, this.disableRipple || this.disabled);\n    }\n    static {\n      this.ɵfac = function MatButtonBase_Factory(t) {\n        i0.ɵɵinvalidFactory();\n      };\n    }\n    static {\n      this.ɵdir = /* @__PURE__ */i0.ɵɵdefineDirective({\n        type: MatButtonBase,\n        inputs: {\n          color: \"color\",\n          disableRipple: [i0.ɵɵInputFlags.HasDecoratorInputTransform, \"disableRipple\", \"disableRipple\", booleanAttribute],\n          disabled: [i0.ɵɵInputFlags.HasDecoratorInputTransform, \"disabled\", \"disabled\", booleanAttribute],\n          ariaDisabled: [i0.ɵɵInputFlags.HasDecoratorInputTransform, \"aria-disabled\", \"ariaDisabled\", booleanAttribute],\n          disabledInteractive: [i0.ɵɵInputFlags.HasDecoratorInputTransform, \"disabledInteractive\", \"disabledInteractive\", booleanAttribute]\n        },\n        features: [i0.ɵɵInputTransformsFeature]\n      });\n    }\n  }\n  return MatButtonBase;\n})();\n/*#__PURE__*/(() => {\n  (typeof ngDevMode === \"undefined\" || ngDevMode) && void 0;\n})();\n/** Shared host configuration for buttons using the `<a>` tag. */\nconst MAT_ANCHOR_HOST = {\n  '[attr.disabled]': '_getDisabledAttribute()',\n  '[class.mat-mdc-button-disabled]': 'disabled',\n  '[class.mat-mdc-button-disabled-interactive]': 'disabledInteractive',\n  '[class._mat-animation-noopable]': '_animationMode === \"NoopAnimations\"',\n  // Note that we ignore the user-specified tabindex when it's disabled for\n  // consistency with the `mat-button` applied on native buttons where even\n  // though they have an index, they're not tabbable.\n  '[attr.tabindex]': 'disabled && !disabledInteractive ? -1 : tabIndex',\n  '[attr.aria-disabled]': '_getDisabledAttribute()',\n  // MDC automatically applies the primary theme color to the button, but we want to support\n  // an unthemed version. If color is undefined, apply a CSS class that makes it easy to\n  // select and style this \"theme\".\n  '[class.mat-unthemed]': '!color',\n  // Add a class that applies to all buttons. This makes it easier to target if somebody\n  // wants to target all Material buttons.\n  '[class.mat-mdc-button-base]': 'true',\n  '[class]': 'color ? \"mat-\" + color : \"\"'\n};\n/**\n * Anchor button base.\n */\nlet MatAnchorBase = /*#__PURE__*/(() => {\n  class MatAnchorBase extends MatButtonBase {\n    constructor(elementRef, platform, ngZone, animationMode) {\n      super(elementRef, platform, ngZone, animationMode);\n      this._haltDisabledEvents = event => {\n        // A disabled button shouldn't apply any actions\n        if (this.disabled) {\n          event.preventDefault();\n          event.stopImmediatePropagation();\n        }\n      };\n    }\n    ngOnInit() {\n      this._ngZone.runOutsideAngular(() => {\n        this._elementRef.nativeElement.addEventListener('click', this._haltDisabledEvents);\n      });\n    }\n    ngOnDestroy() {\n      super.ngOnDestroy();\n      this._elementRef.nativeElement.removeEventListener('click', this._haltDisabledEvents);\n    }\n    _getAriaDisabled() {\n      return this.ariaDisabled == null ? this.disabled : this.ariaDisabled;\n    }\n    static {\n      this.ɵfac = function MatAnchorBase_Factory(t) {\n        i0.ɵɵinvalidFactory();\n      };\n    }\n    static {\n      this.ɵdir = /* @__PURE__ */i0.ɵɵdefineDirective({\n        type: MatAnchorBase,\n        inputs: {\n          tabIndex: [i0.ɵɵInputFlags.HasDecoratorInputTransform, \"tabIndex\", \"tabIndex\", value => {\n            return value == null ? undefined : numberAttribute(value);\n          }]\n        },\n        features: [i0.ɵɵInputTransformsFeature, i0.ɵɵInheritDefinitionFeature]\n      });\n    }\n  }\n  return MatAnchorBase;\n})();\n/*#__PURE__*/(() => {\n  (typeof ngDevMode === \"undefined\" || ngDevMode) && void 0;\n})();\n\n/**\n * Material Design button component. Users interact with a button to perform an action.\n * See https://material.io/components/buttons\n *\n * The `MatButton` class applies to native button elements and captures the appearances for\n * \"text button\", \"outlined button\", and \"contained button\" per the Material Design\n * specification. `MatButton` additionally captures an additional \"flat\" appearance, which matches\n * \"contained\" but without elevation.\n */\nlet MatButton = /*#__PURE__*/(() => {\n  class MatButton extends MatButtonBase {\n    constructor(elementRef, platform, ngZone, animationMode) {\n      super(elementRef, platform, ngZone, animationMode);\n    }\n    static {\n      this.ɵfac = function MatButton_Factory(t) {\n        return new (t || MatButton)(i0.ɵɵdirectiveInject(i0.ElementRef), i0.ɵɵdirectiveInject(i1.Platform), i0.ɵɵdirectiveInject(i0.NgZone), i0.ɵɵdirectiveInject(ANIMATION_MODULE_TYPE, 8));\n      };\n    }\n    static {\n      this.ɵcmp = /* @__PURE__ */i0.ɵɵdefineComponent({\n        type: MatButton,\n        selectors: [[\"button\", \"mat-button\", \"\"], [\"button\", \"mat-raised-button\", \"\"], [\"button\", \"mat-flat-button\", \"\"], [\"button\", \"mat-stroked-button\", \"\"]],\n        hostVars: 14,\n        hostBindings: function MatButton_HostBindings(rf, ctx) {\n          if (rf & 2) {\n            i0.ɵɵattribute(\"disabled\", ctx._getDisabledAttribute())(\"aria-disabled\", ctx._getAriaDisabled());\n            i0.ɵɵclassMap(ctx.color ? \"mat-\" + ctx.color : \"\");\n            i0.ɵɵclassProp(\"mat-mdc-button-disabled\", ctx.disabled)(\"mat-mdc-button-disabled-interactive\", ctx.disabledInteractive)(\"_mat-animation-noopable\", ctx._animationMode === \"NoopAnimations\")(\"mat-unthemed\", !ctx.color)(\"mat-mdc-button-base\", true);\n          }\n        },\n        exportAs: [\"matButton\"],\n        standalone: true,\n        features: [i0.ɵɵInheritDefinitionFeature, i0.ɵɵStandaloneFeature],\n        attrs: _c0,\n        ngContentSelectors: _c2,\n        decls: 7,\n        vars: 4,\n        consts: [[1, \"mat-mdc-button-persistent-ripple\"], [1, \"mdc-button__label\"], [1, \"mat-mdc-focus-indicator\"], [1, \"mat-mdc-button-touch-target\"]],\n        template: function MatButton_Template(rf, ctx) {\n          if (rf & 1) {\n            i0.ɵɵprojectionDef(_c1);\n            i0.ɵɵelement(0, \"span\", 0);\n            i0.ɵɵprojection(1);\n            i0.ɵɵelementStart(2, \"span\", 1);\n            i0.ɵɵprojection(3, 1);\n            i0.ɵɵelementEnd();\n            i0.ɵɵprojection(4, 2);\n            i0.ɵɵelement(5, \"span\", 2)(6, \"span\", 3);\n          }\n          if (rf & 2) {\n            i0.ɵɵclassProp(\"mdc-button__ripple\", !ctx._isFab)(\"mdc-fab__ripple\", ctx._isFab);\n          }\n        },\n        styles: [\".mdc-touch-target-wrapper{display:inline}.mdc-elevation-overlay{position:absolute;border-radius:inherit;pointer-events:none;opacity:var(--mdc-elevation-overlay-opacity, 0);transition:opacity 280ms cubic-bezier(0.4, 0, 0.2, 1)}.mdc-button{position:relative;display:inline-flex;align-items:center;justify-content:center;box-sizing:border-box;min-width:64px;border:none;outline:none;line-height:inherit;user-select:none;-webkit-appearance:none;overflow:visible;vertical-align:middle;background:rgba(0,0,0,0)}.mdc-button .mdc-elevation-overlay{width:100%;height:100%;top:0;left:0}.mdc-button::-moz-focus-inner{padding:0;border:0}.mdc-button:active{outline:none}.mdc-button:hover{cursor:pointer}.mdc-button:disabled{cursor:default;pointer-events:none}.mdc-button[hidden]{display:none}.mdc-button .mdc-button__icon{margin-left:0;margin-right:8px;display:inline-block;position:relative;vertical-align:top}[dir=rtl] .mdc-button .mdc-button__icon,.mdc-button .mdc-button__icon[dir=rtl]{margin-left:8px;margin-right:0}.mdc-button .mdc-button__progress-indicator{font-size:0;position:absolute;transform:translate(-50%, -50%);top:50%;left:50%;line-height:initial}.mdc-button .mdc-button__label{position:relative}.mdc-button .mdc-button__focus-ring{pointer-events:none;border:2px solid rgba(0,0,0,0);border-radius:6px;box-sizing:content-box;position:absolute;top:50%;left:50%;transform:translate(-50%, -50%);height:calc(100% + 4px);width:calc(100% + 4px);display:none}@media screen and (forced-colors: active){.mdc-button .mdc-button__focus-ring{border-color:CanvasText}}.mdc-button .mdc-button__focus-ring::after{content:\\\"\\\";border:2px solid rgba(0,0,0,0);border-radius:8px;display:block;position:absolute;top:50%;left:50%;transform:translate(-50%, -50%);height:calc(100% + 4px);width:calc(100% + 4px)}@media screen and (forced-colors: active){.mdc-button .mdc-button__focus-ring::after{border-color:CanvasText}}@media screen and (forced-colors: active){.mdc-button.mdc-ripple-upgraded--background-focused .mdc-button__focus-ring,.mdc-button:not(.mdc-ripple-upgraded):focus .mdc-button__focus-ring{display:block}}.mdc-button .mdc-button__touch{position:absolute;top:50%;height:48px;left:0;right:0;transform:translateY(-50%)}.mdc-button__label+.mdc-button__icon{margin-left:8px;margin-right:0}[dir=rtl] .mdc-button__label+.mdc-button__icon,.mdc-button__label+.mdc-button__icon[dir=rtl]{margin-left:0;margin-right:8px}svg.mdc-button__icon{fill:currentColor}.mdc-button--touch{margin-top:6px;margin-bottom:6px}.mdc-button{padding:0 8px 0 8px}.mdc-button--unelevated{transition:box-shadow 280ms cubic-bezier(0.4, 0, 0.2, 1);padding:0 16px 0 16px}.mdc-button--unelevated.mdc-button--icon-trailing{padding:0 12px 0 16px}.mdc-button--unelevated.mdc-button--icon-leading{padding:0 16px 0 12px}.mdc-button--raised{transition:box-shadow 280ms cubic-bezier(0.4, 0, 0.2, 1);padding:0 16px 0 16px}.mdc-button--raised.mdc-button--icon-trailing{padding:0 12px 0 16px}.mdc-button--raised.mdc-button--icon-leading{padding:0 16px 0 12px}.mdc-button--outlined{border-style:solid;transition:border 280ms cubic-bezier(0.4, 0, 0.2, 1)}.mdc-button--outlined .mdc-button__ripple{border-style:solid;border-color:rgba(0,0,0,0)}.mat-mdc-button{font-family:var(--mdc-text-button-label-text-font);font-size:var(--mdc-text-button-label-text-size);letter-spacing:var(--mdc-text-button-label-text-tracking);font-weight:var(--mdc-text-button-label-text-weight);text-transform:var(--mdc-text-button-label-text-transform);height:var(--mdc-text-button-container-height);border-radius:var(--mdc-text-button-container-shape);padding:0 var(--mat-text-button-horizontal-padding, 8px)}.mat-mdc-button:not(:disabled){color:var(--mdc-text-button-label-text-color)}.mat-mdc-button:disabled{color:var(--mdc-text-button-disabled-label-text-color)}.mat-mdc-button .mdc-button__ripple{border-radius:var(--mdc-text-button-container-shape)}.mat-mdc-button:has(.material-icons,mat-icon,[matButtonIcon]){padding:0 var(--mat-text-button-with-icon-horizontal-padding, 8px)}.mat-mdc-button>.mat-icon{margin-right:var(--mat-text-button-icon-spacing, 8px);margin-left:var(--mat-text-button-icon-offset, 0)}[dir=rtl] .mat-mdc-button>.mat-icon{margin-right:var(--mat-text-button-icon-offset, 0);margin-left:var(--mat-text-button-icon-spacing, 8px)}.mat-mdc-button .mdc-button__label+.mat-icon{margin-right:var(--mat-text-button-icon-offset, 0);margin-left:var(--mat-text-button-icon-spacing, 8px)}[dir=rtl] .mat-mdc-button .mdc-button__label+.mat-icon{margin-right:var(--mat-text-button-icon-spacing, 8px);margin-left:var(--mat-text-button-icon-offset, 0)}.mat-mdc-button .mat-ripple-element{background-color:var(--mat-text-button-ripple-color)}.mat-mdc-button .mat-mdc-button-persistent-ripple::before{background-color:var(--mat-text-button-state-layer-color)}.mat-mdc-button.mat-mdc-button-disabled .mat-mdc-button-persistent-ripple::before{background-color:var(--mat-text-button-disabled-state-layer-color)}.mat-mdc-button:hover .mat-mdc-button-persistent-ripple::before{opacity:var(--mat-text-button-hover-state-layer-opacity)}.mat-mdc-button.cdk-program-focused .mat-mdc-button-persistent-ripple::before,.mat-mdc-button.cdk-keyboard-focused .mat-mdc-button-persistent-ripple::before,.mat-mdc-button.mat-mdc-button-disabled-interactive:focus .mat-mdc-button-persistent-ripple::before{opacity:var(--mat-text-button-focus-state-layer-opacity)}.mat-mdc-button:active .mat-mdc-button-persistent-ripple::before{opacity:var(--mat-text-button-pressed-state-layer-opacity)}.mat-mdc-button .mat-mdc-button-touch-target{position:absolute;top:50%;height:48px;left:0;right:0;transform:translateY(-50%);display:var(--mat-text-button-touch-target-display)}.mat-mdc-button[disabled],.mat-mdc-button.mat-mdc-button-disabled{cursor:default;pointer-events:none;color:var(--mdc-text-button-disabled-label-text-color)}.mat-mdc-button.mat-mdc-button-disabled-interactive{pointer-events:auto}.mat-mdc-unelevated-button{font-family:var(--mdc-filled-button-label-text-font);font-size:var(--mdc-filled-button-label-text-size);letter-spacing:var(--mdc-filled-button-label-text-tracking);font-weight:var(--mdc-filled-button-label-text-weight);text-transform:var(--mdc-filled-button-label-text-transform);height:var(--mdc-filled-button-container-height);border-radius:var(--mdc-filled-button-container-shape);padding:0 var(--mat-filled-button-horizontal-padding, 16px)}.mat-mdc-unelevated-button:not(:disabled){background-color:var(--mdc-filled-button-container-color)}.mat-mdc-unelevated-button:disabled{background-color:var(--mdc-filled-button-disabled-container-color)}.mat-mdc-unelevated-button:not(:disabled){color:var(--mdc-filled-button-label-text-color)}.mat-mdc-unelevated-button:disabled{color:var(--mdc-filled-button-disabled-label-text-color)}.mat-mdc-unelevated-button .mdc-button__ripple{border-radius:var(--mdc-filled-button-container-shape)}.mat-mdc-unelevated-button>.mat-icon{margin-right:var(--mat-filled-button-icon-spacing, 8px);margin-left:var(--mat-filled-button-icon-offset, -4px)}[dir=rtl] .mat-mdc-unelevated-button>.mat-icon{margin-right:var(--mat-filled-button-icon-offset, -4px);margin-left:var(--mat-filled-button-icon-spacing, 8px)}.mat-mdc-unelevated-button .mdc-button__label+.mat-icon{margin-right:var(--mat-filled-button-icon-offset, -4px);margin-left:var(--mat-filled-button-icon-spacing, 8px)}[dir=rtl] .mat-mdc-unelevated-button .mdc-button__label+.mat-icon{margin-right:var(--mat-filled-button-icon-spacing, 8px);margin-left:var(--mat-filled-button-icon-offset, -4px)}.mat-mdc-unelevated-button .mat-ripple-element{background-color:var(--mat-filled-button-ripple-color)}.mat-mdc-unelevated-button .mat-mdc-button-persistent-ripple::before{background-color:var(--mat-filled-button-state-layer-color)}.mat-mdc-unelevated-button.mat-mdc-button-disabled .mat-mdc-button-persistent-ripple::before{background-color:var(--mat-filled-button-disabled-state-layer-color)}.mat-mdc-unelevated-button:hover .mat-mdc-button-persistent-ripple::before{opacity:var(--mat-filled-button-hover-state-layer-opacity)}.mat-mdc-unelevated-button.cdk-program-focused .mat-mdc-button-persistent-ripple::before,.mat-mdc-unelevated-button.cdk-keyboard-focused .mat-mdc-button-persistent-ripple::before,.mat-mdc-unelevated-button.mat-mdc-button-disabled-interactive:focus .mat-mdc-button-persistent-ripple::before{opacity:var(--mat-filled-button-focus-state-layer-opacity)}.mat-mdc-unelevated-button:active .mat-mdc-button-persistent-ripple::before{opacity:var(--mat-filled-button-pressed-state-layer-opacity)}.mat-mdc-unelevated-button .mat-mdc-button-touch-target{position:absolute;top:50%;height:48px;left:0;right:0;transform:translateY(-50%);display:var(--mat-filled-button-touch-target-display)}.mat-mdc-unelevated-button[disabled],.mat-mdc-unelevated-button.mat-mdc-button-disabled{cursor:default;pointer-events:none;color:var(--mdc-filled-button-disabled-label-text-color);background-color:var(--mdc-filled-button-disabled-container-color)}.mat-mdc-unelevated-button.mat-mdc-button-disabled-interactive{pointer-events:auto}.mat-mdc-raised-button{font-family:var(--mdc-protected-button-label-text-font);font-size:var(--mdc-protected-button-label-text-size);letter-spacing:var(--mdc-protected-button-label-text-tracking);font-weight:var(--mdc-protected-button-label-text-weight);text-transform:var(--mdc-protected-button-label-text-transform);height:var(--mdc-protected-button-container-height);border-radius:var(--mdc-protected-button-container-shape);padding:0 var(--mat-protected-button-horizontal-padding, 16px);box-shadow:var(--mdc-protected-button-container-elevation-shadow)}.mat-mdc-raised-button:not(:disabled){background-color:var(--mdc-protected-button-container-color)}.mat-mdc-raised-button:disabled{background-color:var(--mdc-protected-button-disabled-container-color)}.mat-mdc-raised-button:not(:disabled){color:var(--mdc-protected-button-label-text-color)}.mat-mdc-raised-button:disabled{color:var(--mdc-protected-button-disabled-label-text-color)}.mat-mdc-raised-button .mdc-button__ripple{border-radius:var(--mdc-protected-button-container-shape)}.mat-mdc-raised-button>.mat-icon{margin-right:var(--mat-protected-button-icon-spacing, 8px);margin-left:var(--mat-protected-button-icon-offset, -4px)}[dir=rtl] .mat-mdc-raised-button>.mat-icon{margin-right:var(--mat-protected-button-icon-offset, -4px);margin-left:var(--mat-protected-button-icon-spacing, 8px)}.mat-mdc-raised-button .mdc-button__label+.mat-icon{margin-right:var(--mat-protected-button-icon-offset, -4px);margin-left:var(--mat-protected-button-icon-spacing, 8px)}[dir=rtl] .mat-mdc-raised-button .mdc-button__label+.mat-icon{margin-right:var(--mat-protected-button-icon-spacing, 8px);margin-left:var(--mat-protected-button-icon-offset, -4px)}.mat-mdc-raised-button .mat-ripple-element{background-color:var(--mat-protected-button-ripple-color)}.mat-mdc-raised-button .mat-mdc-button-persistent-ripple::before{background-color:var(--mat-protected-button-state-layer-color)}.mat-mdc-raised-button.mat-mdc-button-disabled .mat-mdc-button-persistent-ripple::before{background-color:var(--mat-protected-button-disabled-state-layer-color)}.mat-mdc-raised-button:hover .mat-mdc-button-persistent-ripple::before{opacity:var(--mat-protected-button-hover-state-layer-opacity)}.mat-mdc-raised-button.cdk-program-focused .mat-mdc-button-persistent-ripple::before,.mat-mdc-raised-button.cdk-keyboard-focused .mat-mdc-button-persistent-ripple::before,.mat-mdc-raised-button.mat-mdc-button-disabled-interactive:focus .mat-mdc-button-persistent-ripple::before{opacity:var(--mat-protected-button-focus-state-layer-opacity)}.mat-mdc-raised-button:active .mat-mdc-button-persistent-ripple::before{opacity:var(--mat-protected-button-pressed-state-layer-opacity)}.mat-mdc-raised-button .mat-mdc-button-touch-target{position:absolute;top:50%;height:48px;left:0;right:0;transform:translateY(-50%);display:var(--mat-protected-button-touch-target-display)}.mat-mdc-raised-button:hover{box-shadow:var(--mdc-protected-button-hover-container-elevation-shadow)}.mat-mdc-raised-button:focus{box-shadow:var(--mdc-protected-button-focus-container-elevation-shadow)}.mat-mdc-raised-button:active,.mat-mdc-raised-button:focus:active{box-shadow:var(--mdc-protected-button-pressed-container-elevation-shadow)}.mat-mdc-raised-button[disabled],.mat-mdc-raised-button.mat-mdc-button-disabled{cursor:default;pointer-events:none;color:var(--mdc-protected-button-disabled-label-text-color);background-color:var(--mdc-protected-button-disabled-container-color)}.mat-mdc-raised-button[disabled].mat-mdc-button-disabled,.mat-mdc-raised-button.mat-mdc-button-disabled.mat-mdc-button-disabled{box-shadow:var(--mdc-protected-button-disabled-container-elevation-shadow)}.mat-mdc-raised-button.mat-mdc-button-disabled-interactive{pointer-events:auto}.mat-mdc-outlined-button{font-family:var(--mdc-outlined-button-label-text-font);font-size:var(--mdc-outlined-button-label-text-size);letter-spacing:var(--mdc-outlined-button-label-text-tracking);font-weight:var(--mdc-outlined-button-label-text-weight);text-transform:var(--mdc-outlined-button-label-text-transform);height:var(--mdc-outlined-button-container-height);border-radius:var(--mdc-outlined-button-container-shape);padding:0 15px 0 15px;border-width:var(--mdc-outlined-button-outline-width);padding:0 var(--mat-outlined-button-horizontal-padding, 15px)}.mat-mdc-outlined-button:not(:disabled){color:var(--mdc-outlined-button-label-text-color)}.mat-mdc-outlined-button:disabled{color:var(--mdc-outlined-button-disabled-label-text-color)}.mat-mdc-outlined-button .mdc-button__ripple{border-radius:var(--mdc-outlined-button-container-shape)}.mat-mdc-outlined-button:not(:disabled){border-color:var(--mdc-outlined-button-outline-color)}.mat-mdc-outlined-button:disabled{border-color:var(--mdc-outlined-button-disabled-outline-color)}.mat-mdc-outlined-button.mdc-button--icon-trailing{padding:0 11px 0 15px}.mat-mdc-outlined-button.mdc-button--icon-leading{padding:0 15px 0 11px}.mat-mdc-outlined-button .mdc-button__ripple{top:-1px;left:-1px;bottom:-1px;right:-1px;border-width:var(--mdc-outlined-button-outline-width)}.mat-mdc-outlined-button .mdc-button__touch{left:calc(-1 * var(--mdc-outlined-button-outline-width));width:calc(100% + 2 * var(--mdc-outlined-button-outline-width))}.mat-mdc-outlined-button>.mat-icon{margin-right:var(--mat-outlined-button-icon-spacing, 8px);margin-left:var(--mat-outlined-button-icon-offset, -4px)}[dir=rtl] .mat-mdc-outlined-button>.mat-icon{margin-right:var(--mat-outlined-button-icon-offset, -4px);margin-left:var(--mat-outlined-button-icon-spacing, 8px)}.mat-mdc-outlined-button .mdc-button__label+.mat-icon{margin-right:var(--mat-outlined-button-icon-offset, -4px);margin-left:var(--mat-outlined-button-icon-spacing, 8px)}[dir=rtl] .mat-mdc-outlined-button .mdc-button__label+.mat-icon{margin-right:var(--mat-outlined-button-icon-spacing, 8px);margin-left:var(--mat-outlined-button-icon-offset, -4px)}.mat-mdc-outlined-button .mat-ripple-element{background-color:var(--mat-outlined-button-ripple-color)}.mat-mdc-outlined-button .mat-mdc-button-persistent-ripple::before{background-color:var(--mat-outlined-button-state-layer-color)}.mat-mdc-outlined-button.mat-mdc-button-disabled .mat-mdc-button-persistent-ripple::before{background-color:var(--mat-outlined-button-disabled-state-layer-color)}.mat-mdc-outlined-button:hover .mat-mdc-button-persistent-ripple::before{opacity:var(--mat-outlined-button-hover-state-layer-opacity)}.mat-mdc-outlined-button.cdk-program-focused .mat-mdc-button-persistent-ripple::before,.mat-mdc-outlined-button.cdk-keyboard-focused .mat-mdc-button-persistent-ripple::before,.mat-mdc-outlined-button.mat-mdc-button-disabled-interactive:focus .mat-mdc-button-persistent-ripple::before{opacity:var(--mat-outlined-button-focus-state-layer-opacity)}.mat-mdc-outlined-button:active .mat-mdc-button-persistent-ripple::before{opacity:var(--mat-outlined-button-pressed-state-layer-opacity)}.mat-mdc-outlined-button .mat-mdc-button-touch-target{position:absolute;top:50%;height:48px;left:0;right:0;transform:translateY(-50%);display:var(--mat-outlined-button-touch-target-display)}.mat-mdc-outlined-button[disabled],.mat-mdc-outlined-button.mat-mdc-button-disabled{cursor:default;pointer-events:none;color:var(--mdc-outlined-button-disabled-label-text-color);border-color:var(--mdc-outlined-button-disabled-outline-color)}.mat-mdc-outlined-button.mat-mdc-button-disabled-interactive{pointer-events:auto}.mat-mdc-button-base{text-decoration:none}.mat-mdc-button,.mat-mdc-unelevated-button,.mat-mdc-raised-button,.mat-mdc-outlined-button{-webkit-tap-highlight-color:rgba(0,0,0,0)}.mat-mdc-button .mat-mdc-button-ripple,.mat-mdc-button .mat-mdc-button-persistent-ripple,.mat-mdc-button .mat-mdc-button-persistent-ripple::before,.mat-mdc-unelevated-button .mat-mdc-button-ripple,.mat-mdc-unelevated-button .mat-mdc-button-persistent-ripple,.mat-mdc-unelevated-button .mat-mdc-button-persistent-ripple::before,.mat-mdc-raised-button .mat-mdc-button-ripple,.mat-mdc-raised-button .mat-mdc-button-persistent-ripple,.mat-mdc-raised-button .mat-mdc-button-persistent-ripple::before,.mat-mdc-outlined-button .mat-mdc-button-ripple,.mat-mdc-outlined-button .mat-mdc-button-persistent-ripple,.mat-mdc-outlined-button .mat-mdc-button-persistent-ripple::before{top:0;left:0;right:0;bottom:0;position:absolute;pointer-events:none;border-radius:inherit}.mat-mdc-button .mat-mdc-button-ripple,.mat-mdc-unelevated-button .mat-mdc-button-ripple,.mat-mdc-raised-button .mat-mdc-button-ripple,.mat-mdc-outlined-button .mat-mdc-button-ripple{overflow:hidden}.mat-mdc-button .mat-mdc-button-persistent-ripple::before,.mat-mdc-unelevated-button .mat-mdc-button-persistent-ripple::before,.mat-mdc-raised-button .mat-mdc-button-persistent-ripple::before,.mat-mdc-outlined-button .mat-mdc-button-persistent-ripple::before{content:\\\"\\\";opacity:0}.mat-mdc-button .mdc-button__label,.mat-mdc-unelevated-button .mdc-button__label,.mat-mdc-raised-button .mdc-button__label,.mat-mdc-outlined-button .mdc-button__label{z-index:1}.mat-mdc-button .mat-mdc-focus-indicator,.mat-mdc-unelevated-button .mat-mdc-focus-indicator,.mat-mdc-raised-button .mat-mdc-focus-indicator,.mat-mdc-outlined-button .mat-mdc-focus-indicator{top:0;left:0;right:0;bottom:0;position:absolute}.mat-mdc-button:focus .mat-mdc-focus-indicator::before,.mat-mdc-unelevated-button:focus .mat-mdc-focus-indicator::before,.mat-mdc-raised-button:focus .mat-mdc-focus-indicator::before,.mat-mdc-outlined-button:focus .mat-mdc-focus-indicator::before{content:\\\"\\\"}.mat-mdc-button._mat-animation-noopable,.mat-mdc-unelevated-button._mat-animation-noopable,.mat-mdc-raised-button._mat-animation-noopable,.mat-mdc-outlined-button._mat-animation-noopable{transition:none !important;animation:none !important}.mat-mdc-button>.mat-icon,.mat-mdc-unelevated-button>.mat-icon,.mat-mdc-raised-button>.mat-icon,.mat-mdc-outlined-button>.mat-icon{display:inline-block;position:relative;vertical-align:top;font-size:1.125rem;height:1.125rem;width:1.125rem}.mat-mdc-outlined-button .mat-mdc-button-ripple,.mat-mdc-outlined-button .mdc-button__ripple{top:-1px;left:-1px;bottom:-1px;right:-1px;border-width:-1px}.mat-mdc-unelevated-button .mat-mdc-focus-indicator::before,.mat-mdc-raised-button .mat-mdc-focus-indicator::before{margin:calc(calc(var(--mat-mdc-focus-indicator-border-width, 3px) + 2px)*-1)}.mat-mdc-outlined-button .mat-mdc-focus-indicator::before{margin:calc(calc(var(--mat-mdc-focus-indicator-border-width, 3px) + 3px)*-1)}\", \".cdk-high-contrast-active .mat-mdc-button:not(.mdc-button--outlined),.cdk-high-contrast-active .mat-mdc-unelevated-button:not(.mdc-button--outlined),.cdk-high-contrast-active .mat-mdc-raised-button:not(.mdc-button--outlined),.cdk-high-contrast-active .mat-mdc-outlined-button:not(.mdc-button--outlined),.cdk-high-contrast-active .mat-mdc-icon-button{outline:solid 1px}\"],\n        encapsulation: 2,\n        changeDetection: 0\n      });\n    }\n  }\n  return MatButton;\n})();\n/*#__PURE__*/(() => {\n  (typeof ngDevMode === \"undefined\" || ngDevMode) && void 0;\n})();\n/**\n * Material Design button component for anchor elements. Anchor elements are used to provide\n * links for the user to navigate across different routes or pages.\n * See https://material.io/components/buttons\n *\n * The `MatAnchor` class applies to native anchor elements and captures the appearances for\n * \"text button\", \"outlined button\", and \"contained button\" per the Material Design\n * specification. `MatAnchor` additionally captures an additional \"flat\" appearance, which matches\n * \"contained\" but without elevation.\n */\nlet MatAnchor = /*#__PURE__*/(() => {\n  class MatAnchor extends MatAnchorBase {\n    constructor(elementRef, platform, ngZone, animationMode) {\n      super(elementRef, platform, ngZone, animationMode);\n    }\n    static {\n      this.ɵfac = function MatAnchor_Factory(t) {\n        return new (t || MatAnchor)(i0.ɵɵdirectiveInject(i0.ElementRef), i0.ɵɵdirectiveInject(i1.Platform), i0.ɵɵdirectiveInject(i0.NgZone), i0.ɵɵdirectiveInject(ANIMATION_MODULE_TYPE, 8));\n      };\n    }\n    static {\n      this.ɵcmp = /* @__PURE__ */i0.ɵɵdefineComponent({\n        type: MatAnchor,\n        selectors: [[\"a\", \"mat-button\", \"\"], [\"a\", \"mat-raised-button\", \"\"], [\"a\", \"mat-flat-button\", \"\"], [\"a\", \"mat-stroked-button\", \"\"]],\n        hostVars: 15,\n        hostBindings: function MatAnchor_HostBindings(rf, ctx) {\n          if (rf & 2) {\n            i0.ɵɵattribute(\"disabled\", ctx._getDisabledAttribute())(\"tabindex\", ctx.disabled && !ctx.disabledInteractive ? -1 : ctx.tabIndex)(\"aria-disabled\", ctx._getDisabledAttribute());\n            i0.ɵɵclassMap(ctx.color ? \"mat-\" + ctx.color : \"\");\n            i0.ɵɵclassProp(\"mat-mdc-button-disabled\", ctx.disabled)(\"mat-mdc-button-disabled-interactive\", ctx.disabledInteractive)(\"_mat-animation-noopable\", ctx._animationMode === \"NoopAnimations\")(\"mat-unthemed\", !ctx.color)(\"mat-mdc-button-base\", true);\n          }\n        },\n        exportAs: [\"matButton\", \"matAnchor\"],\n        standalone: true,\n        features: [i0.ɵɵInheritDefinitionFeature, i0.ɵɵStandaloneFeature],\n        attrs: _c0,\n        ngContentSelectors: _c2,\n        decls: 7,\n        vars: 4,\n        consts: [[1, \"mat-mdc-button-persistent-ripple\"], [1, \"mdc-button__label\"], [1, \"mat-mdc-focus-indicator\"], [1, \"mat-mdc-button-touch-target\"]],\n        template: function MatAnchor_Template(rf, ctx) {\n          if (rf & 1) {\n            i0.ɵɵprojectionDef(_c1);\n            i0.ɵɵelement(0, \"span\", 0);\n            i0.ɵɵprojection(1);\n            i0.ɵɵelementStart(2, \"span\", 1);\n            i0.ɵɵprojection(3, 1);\n            i0.ɵɵelementEnd();\n            i0.ɵɵprojection(4, 2);\n            i0.ɵɵelement(5, \"span\", 2)(6, \"span\", 3);\n          }\n          if (rf & 2) {\n            i0.ɵɵclassProp(\"mdc-button__ripple\", !ctx._isFab)(\"mdc-fab__ripple\", ctx._isFab);\n          }\n        },\n        styles: [_c3, _c4],\n        encapsulation: 2,\n        changeDetection: 0\n      });\n    }\n  }\n  return MatAnchor;\n})();\n/*#__PURE__*/(() => {\n  (typeof ngDevMode === \"undefined\" || ngDevMode) && void 0;\n})();\n\n/** Injection token to be used to override the default options for FAB. */\nconst MAT_FAB_DEFAULT_OPTIONS = /*#__PURE__*/new InjectionToken('mat-mdc-fab-default-options', {\n  providedIn: 'root',\n  factory: MAT_FAB_DEFAULT_OPTIONS_FACTORY\n});\n/** @docs-private */\nfunction MAT_FAB_DEFAULT_OPTIONS_FACTORY() {\n  return {\n    // The FAB by default has its color set to accent.\n    color: 'accent'\n  };\n}\n// Default FAB configuration.\nconst defaults = /*#__PURE__*/MAT_FAB_DEFAULT_OPTIONS_FACTORY();\n/**\n * Material Design floating action button (FAB) component. These buttons represent the primary\n * or most common action for users to interact with.\n * See https://material.io/components/buttons-floating-action-button/\n *\n * The `MatFabButton` class has two appearances: normal and extended.\n */\nlet MatFabButton = /*#__PURE__*/(() => {\n  class MatFabButton extends MatButtonBase {\n    constructor(elementRef, platform, ngZone, animationMode, _options) {\n      super(elementRef, platform, ngZone, animationMode);\n      this._options = _options;\n      this._isFab = true;\n      this._options = this._options || defaults;\n      this.color = this._options.color || defaults.color;\n    }\n    static {\n      this.ɵfac = function MatFabButton_Factory(t) {\n        return new (t || MatFabButton)(i0.ɵɵdirectiveInject(i0.ElementRef), i0.ɵɵdirectiveInject(i1.Platform), i0.ɵɵdirectiveInject(i0.NgZone), i0.ɵɵdirectiveInject(ANIMATION_MODULE_TYPE, 8), i0.ɵɵdirectiveInject(MAT_FAB_DEFAULT_OPTIONS, 8));\n      };\n    }\n    static {\n      this.ɵcmp = /* @__PURE__ */i0.ɵɵdefineComponent({\n        type: MatFabButton,\n        selectors: [[\"button\", \"mat-fab\", \"\"]],\n        hostVars: 18,\n        hostBindings: function MatFabButton_HostBindings(rf, ctx) {\n          if (rf & 2) {\n            i0.ɵɵattribute(\"disabled\", ctx._getDisabledAttribute())(\"aria-disabled\", ctx._getAriaDisabled());\n            i0.ɵɵclassMap(ctx.color ? \"mat-\" + ctx.color : \"\");\n            i0.ɵɵclassProp(\"mat-mdc-button-disabled\", ctx.disabled)(\"mat-mdc-button-disabled-interactive\", ctx.disabledInteractive)(\"_mat-animation-noopable\", ctx._animationMode === \"NoopAnimations\")(\"mat-unthemed\", !ctx.color)(\"mat-mdc-button-base\", true)(\"mdc-fab--extended\", ctx.extended)(\"mat-mdc-extended-fab\", ctx.extended);\n          }\n        },\n        inputs: {\n          extended: [i0.ɵɵInputFlags.HasDecoratorInputTransform, \"extended\", \"extended\", booleanAttribute]\n        },\n        exportAs: [\"matButton\"],\n        standalone: true,\n        features: [i0.ɵɵInputTransformsFeature, i0.ɵɵInheritDefinitionFeature, i0.ɵɵStandaloneFeature],\n        attrs: _c5,\n        ngContentSelectors: _c2,\n        decls: 7,\n        vars: 4,\n        consts: [[1, \"mat-mdc-button-persistent-ripple\"], [1, \"mdc-button__label\"], [1, \"mat-mdc-focus-indicator\"], [1, \"mat-mdc-button-touch-target\"]],\n        template: function MatFabButton_Template(rf, ctx) {\n          if (rf & 1) {\n            i0.ɵɵprojectionDef(_c1);\n            i0.ɵɵelement(0, \"span\", 0);\n            i0.ɵɵprojection(1);\n            i0.ɵɵelementStart(2, \"span\", 1);\n            i0.ɵɵprojection(3, 1);\n            i0.ɵɵelementEnd();\n            i0.ɵɵprojection(4, 2);\n            i0.ɵɵelement(5, \"span\", 2)(6, \"span\", 3);\n          }\n          if (rf & 2) {\n            i0.ɵɵclassProp(\"mdc-button__ripple\", !ctx._isFab)(\"mdc-fab__ripple\", ctx._isFab);\n          }\n        },\n        styles: [\".mdc-touch-target-wrapper{display:inline}.mdc-elevation-overlay{position:absolute;border-radius:inherit;pointer-events:none;opacity:var(--mdc-elevation-overlay-opacity);transition:opacity 280ms cubic-bezier(0.4, 0, 0.2, 1)}.mdc-fab{position:relative;display:inline-flex;position:relative;align-items:center;justify-content:center;box-sizing:border-box;width:56px;height:56px;padding:0;border:none;fill:currentColor;text-decoration:none;cursor:pointer;user-select:none;-moz-appearance:none;-webkit-appearance:none;overflow:visible;transition:box-shadow 280ms cubic-bezier(0.4, 0, 0.2, 1),opacity 15ms linear 30ms,transform 270ms 0ms cubic-bezier(0, 0, 0.2, 1)}.mdc-fab .mdc-elevation-overlay{width:100%;height:100%;top:0;left:0}.mdc-fab[hidden]{display:none}.mdc-fab::-moz-focus-inner{padding:0;border:0}.mdc-fab .mdc-fab__focus-ring{position:absolute}.mdc-fab.mdc-ripple-upgraded--background-focused .mdc-fab__focus-ring,.mdc-fab:not(.mdc-ripple-upgraded):focus .mdc-fab__focus-ring{pointer-events:none;border:2px solid rgba(0,0,0,0);border-radius:6px;box-sizing:content-box;position:absolute;top:50%;left:50%;transform:translate(-50%, -50%);height:calc(100% + 4px);width:calc(100% + 4px)}@media screen and (forced-colors: active){.mdc-fab.mdc-ripple-upgraded--background-focused .mdc-fab__focus-ring,.mdc-fab:not(.mdc-ripple-upgraded):focus .mdc-fab__focus-ring{border-color:CanvasText}}.mdc-fab.mdc-ripple-upgraded--background-focused .mdc-fab__focus-ring::after,.mdc-fab:not(.mdc-ripple-upgraded):focus .mdc-fab__focus-ring::after{content:\\\"\\\";border:2px solid rgba(0,0,0,0);border-radius:8px;display:block;position:absolute;top:50%;left:50%;transform:translate(-50%, -50%);height:calc(100% + 4px);width:calc(100% + 4px)}@media screen and (forced-colors: active){.mdc-fab.mdc-ripple-upgraded--background-focused .mdc-fab__focus-ring::after,.mdc-fab:not(.mdc-ripple-upgraded):focus .mdc-fab__focus-ring::after{border-color:CanvasText}}.mdc-fab:active,.mdc-fab:focus{outline:none}.mdc-fab:hover{cursor:pointer}.mdc-fab>svg{width:100%}.mdc-fab--mini{width:40px;height:40px}.mdc-fab--extended{border-radius:24px;padding-left:20px;padding-right:20px;width:auto;max-width:100%;height:48px;line-height:normal}.mdc-fab--extended .mdc-fab__ripple{border-radius:24px}.mdc-fab--extended .mdc-fab__icon{margin-left:calc(12px - 20px);margin-right:12px}[dir=rtl] .mdc-fab--extended .mdc-fab__icon,.mdc-fab--extended .mdc-fab__icon[dir=rtl]{margin-left:12px;margin-right:calc(12px - 20px)}.mdc-fab--extended .mdc-fab__label+.mdc-fab__icon{margin-left:12px;margin-right:calc(12px - 20px)}[dir=rtl] .mdc-fab--extended .mdc-fab__label+.mdc-fab__icon,.mdc-fab--extended .mdc-fab__label+.mdc-fab__icon[dir=rtl]{margin-left:calc(12px - 20px);margin-right:12px}.mdc-fab--touch{margin-top:4px;margin-bottom:4px;margin-right:4px;margin-left:4px}.mdc-fab--touch .mdc-fab__touch{position:absolute;top:50%;height:48px;left:50%;width:48px;transform:translate(-50%, -50%)}.mdc-fab::before{position:absolute;box-sizing:border-box;width:100%;height:100%;top:0;left:0;border:1px solid rgba(0,0,0,0);border-radius:inherit;content:\\\"\\\";pointer-events:none}@media screen and (forced-colors: active){.mdc-fab::before{border-color:CanvasText}}.mdc-fab__label{justify-content:flex-start;text-overflow:ellipsis;white-space:nowrap;overflow-x:hidden;overflow-y:visible}.mdc-fab__icon{transition:transform 180ms 90ms cubic-bezier(0, 0, 0.2, 1);fill:currentColor;will-change:transform}.mdc-fab .mdc-fab__icon{display:inline-flex;align-items:center;justify-content:center}.mdc-fab--exited{transform:scale(0);opacity:0;transition:opacity 15ms linear 150ms,transform 180ms 0ms cubic-bezier(0.4, 0, 1, 1)}.mdc-fab--exited .mdc-fab__icon{transform:scale(0);transition:transform 135ms 0ms cubic-bezier(0.4, 0, 1, 1)}.mat-mdc-fab{background-color:var(--mdc-fab-container-color)}.mat-mdc-fab .mdc-fab__icon{width:var(--mdc-fab-icon-size);height:var(--mdc-fab-icon-size);font-size:var(--mdc-fab-icon-size)}.mat-mdc-fab:not(.mdc-fab--extended){border-radius:var(--mdc-fab-container-shape)}.mat-mdc-fab:not(.mdc-fab--extended) .mdc-fab__ripple{border-radius:var(--mdc-fab-container-shape)}.mat-mdc-mini-fab{background-color:var(--mdc-fab-small-container-color)}.mat-mdc-mini-fab .mdc-fab__icon{width:var(--mdc-fab-small-icon-size);height:var(--mdc-fab-small-icon-size);font-size:var(--mdc-fab-small-icon-size)}.mat-mdc-mini-fab:not(.mdc-fab--extended){border-radius:var(--mdc-fab-small-container-shape)}.mat-mdc-mini-fab:not(.mdc-fab--extended) .mdc-fab__ripple{border-radius:var(--mdc-fab-small-container-shape)}.mat-mdc-extended-fab{-moz-osx-font-smoothing:grayscale;-webkit-font-smoothing:antialiased;height:var(--mdc-extended-fab-container-height);border-radius:var(--mdc-extended-fab-container-shape);font-family:var(--mdc-extended-fab-label-text-font);font-size:var(--mdc-extended-fab-label-text-size);font-weight:var(--mdc-extended-fab-label-text-weight);letter-spacing:var(--mdc-extended-fab-label-text-tracking)}.mat-mdc-extended-fab .mdc-fab__ripple{border-radius:var(--mdc-extended-fab-container-shape)}.mat-mdc-fab,.mat-mdc-mini-fab{-webkit-tap-highlight-color:rgba(0,0,0,0);flex-shrink:0}.mat-mdc-fab .mat-mdc-button-ripple,.mat-mdc-fab .mat-mdc-button-persistent-ripple,.mat-mdc-fab .mat-mdc-button-persistent-ripple::before,.mat-mdc-mini-fab .mat-mdc-button-ripple,.mat-mdc-mini-fab .mat-mdc-button-persistent-ripple,.mat-mdc-mini-fab .mat-mdc-button-persistent-ripple::before{top:0;left:0;right:0;bottom:0;position:absolute;pointer-events:none;border-radius:inherit}.mat-mdc-fab .mat-mdc-button-ripple,.mat-mdc-mini-fab .mat-mdc-button-ripple{overflow:hidden}.mat-mdc-fab .mat-mdc-button-persistent-ripple::before,.mat-mdc-mini-fab .mat-mdc-button-persistent-ripple::before{content:\\\"\\\";opacity:0}.mat-mdc-fab .mdc-button__label,.mat-mdc-mini-fab .mdc-button__label{z-index:1}.mat-mdc-fab .mat-mdc-focus-indicator,.mat-mdc-mini-fab .mat-mdc-focus-indicator{top:0;left:0;right:0;bottom:0;position:absolute}.mat-mdc-fab:focus .mat-mdc-focus-indicator::before,.mat-mdc-mini-fab:focus .mat-mdc-focus-indicator::before{content:\\\"\\\"}.mat-mdc-fab._mat-animation-noopable,.mat-mdc-mini-fab._mat-animation-noopable{transition:none !important;animation:none !important}.mat-mdc-fab:not(.mdc-ripple-upgraded):focus::before,.mat-mdc-mini-fab:not(.mdc-ripple-upgraded):focus::before{background:rgba(0,0,0,0);opacity:1}.mat-mdc-fab .mat-icon,.mat-mdc-fab .material-icons,.mat-mdc-mini-fab .mat-icon,.mat-mdc-mini-fab .material-icons{transition:transform 180ms 90ms cubic-bezier(0, 0, 0.2, 1);fill:currentColor;will-change:transform}.mat-mdc-fab .mat-mdc-focus-indicator::before,.mat-mdc-mini-fab .mat-mdc-focus-indicator::before{margin:calc(calc(var(--mat-mdc-focus-indicator-border-width, 3px) + 2px)*-1)}.mat-mdc-fab[disabled],.mat-mdc-fab.mat-mdc-button-disabled,.mat-mdc-mini-fab[disabled],.mat-mdc-mini-fab.mat-mdc-button-disabled{cursor:default;pointer-events:none}.mat-mdc-fab[disabled],.mat-mdc-fab[disabled]:focus,.mat-mdc-fab.mat-mdc-button-disabled,.mat-mdc-fab.mat-mdc-button-disabled:focus,.mat-mdc-mini-fab[disabled],.mat-mdc-mini-fab[disabled]:focus,.mat-mdc-mini-fab.mat-mdc-button-disabled,.mat-mdc-mini-fab.mat-mdc-button-disabled:focus{box-shadow:none}.mat-mdc-fab.mat-mdc-button-disabled-interactive,.mat-mdc-mini-fab.mat-mdc-button-disabled-interactive{pointer-events:auto}.mat-mdc-fab{color:var(--mat-fab-foreground-color, inherit);box-shadow:var(--mdc-fab-container-elevation-shadow)}.mat-mdc-fab .mat-mdc-button-touch-target{position:absolute;top:50%;height:48px;left:50%;width:48px;transform:translate(-50%, -50%);display:var(--mat-fab-touch-target-display)}.mat-mdc-fab .mat-ripple-element{background-color:var(--mat-fab-ripple-color)}.mat-mdc-fab .mat-mdc-button-persistent-ripple::before{background-color:var(--mat-fab-state-layer-color)}.mat-mdc-fab.mat-mdc-button-disabled .mat-mdc-button-persistent-ripple::before{background-color:var(--mat-fab-disabled-state-layer-color)}.mat-mdc-fab:hover .mat-mdc-button-persistent-ripple::before{opacity:var(--mat-fab-hover-state-layer-opacity)}.mat-mdc-fab.cdk-program-focused .mat-mdc-button-persistent-ripple::before,.mat-mdc-fab.cdk-keyboard-focused .mat-mdc-button-persistent-ripple::before,.mat-mdc-fab.mat-mdc-button-disabled-interactive:focus .mat-mdc-button-persistent-ripple::before{opacity:var(--mat-fab-focus-state-layer-opacity)}.mat-mdc-fab:active .mat-mdc-button-persistent-ripple::before{opacity:var(--mat-fab-pressed-state-layer-opacity)}.mat-mdc-fab:hover{box-shadow:var(--mdc-fab-hover-container-elevation-shadow)}.mat-mdc-fab:focus{box-shadow:var(--mdc-fab-focus-container-elevation-shadow)}.mat-mdc-fab:active,.mat-mdc-fab:focus:active{box-shadow:var(--mdc-fab-pressed-container-elevation-shadow)}.mat-mdc-fab[disabled],.mat-mdc-fab.mat-mdc-button-disabled{cursor:default;pointer-events:none;color:var(--mat-fab-disabled-state-foreground-color);background-color:var(--mat-fab-disabled-state-container-color)}.mat-mdc-fab.mat-mdc-button-disabled-interactive{pointer-events:auto}.mat-mdc-mini-fab{color:var(--mat-fab-small-foreground-color, inherit);box-shadow:var(--mdc-fab-small-container-elevation-shadow)}.mat-mdc-mini-fab .mat-mdc-button-touch-target{position:absolute;top:50%;height:48px;left:50%;width:48px;transform:translate(-50%, -50%);display:var(--mat-fab-small-touch-target-display)}.mat-mdc-mini-fab .mat-ripple-element{background-color:var(--mat-fab-small-ripple-color)}.mat-mdc-mini-fab .mat-mdc-button-persistent-ripple::before{background-color:var(--mat-fab-small-state-layer-color)}.mat-mdc-mini-fab.mat-mdc-button-disabled .mat-mdc-button-persistent-ripple::before{background-color:var(--mat-fab-small-disabled-state-layer-color)}.mat-mdc-mini-fab:hover .mat-mdc-button-persistent-ripple::before{opacity:var(--mat-fab-small-hover-state-layer-opacity)}.mat-mdc-mini-fab.cdk-program-focused .mat-mdc-button-persistent-ripple::before,.mat-mdc-mini-fab.cdk-keyboard-focused .mat-mdc-button-persistent-ripple::before,.mat-mdc-mini-fab.mat-mdc-button-disabled-interactive:focus .mat-mdc-button-persistent-ripple::before{opacity:var(--mat-fab-small-focus-state-layer-opacity)}.mat-mdc-mini-fab:active .mat-mdc-button-persistent-ripple::before{opacity:var(--mat-fab-small-pressed-state-layer-opacity)}.mat-mdc-mini-fab:hover{box-shadow:var(--mdc-fab-small-hover-container-elevation-shadow)}.mat-mdc-mini-fab:focus{box-shadow:var(--mdc-fab-small-focus-container-elevation-shadow)}.mat-mdc-mini-fab:active,.mat-mdc-mini-fab:focus:active{box-shadow:var(--mdc-fab-small-pressed-container-elevation-shadow)}.mat-mdc-mini-fab[disabled],.mat-mdc-mini-fab.mat-mdc-button-disabled{cursor:default;pointer-events:none;color:var(--mat-fab-small-disabled-state-foreground-color);background-color:var(--mat-fab-small-disabled-state-container-color)}.mat-mdc-mini-fab.mat-mdc-button-disabled-interactive{pointer-events:auto}.mat-mdc-extended-fab{box-shadow:var(--mdc-extended-fab-container-elevation-shadow)}.mat-mdc-extended-fab:hover{box-shadow:var(--mdc-extended-fab-hover-container-elevation-shadow)}.mat-mdc-extended-fab:focus{box-shadow:var(--mdc-extended-fab-focus-container-elevation-shadow)}.mat-mdc-extended-fab:active,.mat-mdc-extended-fab:focus:active{box-shadow:var(--mdc-extended-fab-pressed-container-elevation-shadow)}.mat-mdc-extended-fab[disabled],.mat-mdc-extended-fab.mat-mdc-button-disabled{cursor:default;pointer-events:none}.mat-mdc-extended-fab[disabled],.mat-mdc-extended-fab[disabled]:focus,.mat-mdc-extended-fab.mat-mdc-button-disabled,.mat-mdc-extended-fab.mat-mdc-button-disabled:focus{box-shadow:none}.mat-mdc-extended-fab.mat-mdc-button-disabled-interactive{pointer-events:auto}.mat-mdc-extended-fab>.mat-icon,.mat-mdc-extended-fab>.material-icons{margin-left:calc(12px - 20px);margin-right:12px}[dir=rtl] .mat-mdc-extended-fab>.mat-icon,[dir=rtl] .mat-mdc-extended-fab>.material-icons,.mat-mdc-extended-fab>.mat-icon[dir=rtl],.mat-mdc-extended-fab>.material-icons[dir=rtl]{margin-left:12px;margin-right:calc(12px - 20px)}.mat-mdc-extended-fab .mat-mdc-button-touch-target{width:100%}.mat-mdc-extended-fab .mdc-button__label+.mat-icon,.mat-mdc-extended-fab .mdc-button__label+.material-icons{margin-left:12px;margin-right:calc(12px - 20px)}[dir=rtl] .mat-mdc-extended-fab .mdc-button__label+.mat-icon,[dir=rtl] .mat-mdc-extended-fab .mdc-button__label+.material-icons,.mat-mdc-extended-fab .mdc-button__label+.mat-icon[dir=rtl],.mat-mdc-extended-fab .mdc-button__label+.material-icons[dir=rtl]{margin-left:calc(12px - 20px);margin-right:12px}\"],\n        encapsulation: 2,\n        changeDetection: 0\n      });\n    }\n  }\n  return MatFabButton;\n})();\n/*#__PURE__*/(() => {\n  (typeof ngDevMode === \"undefined\" || ngDevMode) && void 0;\n})();\n/**\n * Material Design mini floating action button (FAB) component. These buttons represent the primary\n * or most common action for users to interact with.\n * See https://material.io/components/buttons-floating-action-button/\n */\nlet MatMiniFabButton = /*#__PURE__*/(() => {\n  class MatMiniFabButton extends MatButtonBase {\n    constructor(elementRef, platform, ngZone, animationMode, _options) {\n      super(elementRef, platform, ngZone, animationMode);\n      this._options = _options;\n      this._isFab = true;\n      this._options = this._options || defaults;\n      this.color = this._options.color || defaults.color;\n    }\n    static {\n      this.ɵfac = function MatMiniFabButton_Factory(t) {\n        return new (t || MatMiniFabButton)(i0.ɵɵdirectiveInject(i0.ElementRef), i0.ɵɵdirectiveInject(i1.Platform), i0.ɵɵdirectiveInject(i0.NgZone), i0.ɵɵdirectiveInject(ANIMATION_MODULE_TYPE, 8), i0.ɵɵdirectiveInject(MAT_FAB_DEFAULT_OPTIONS, 8));\n      };\n    }\n    static {\n      this.ɵcmp = /* @__PURE__ */i0.ɵɵdefineComponent({\n        type: MatMiniFabButton,\n        selectors: [[\"button\", \"mat-mini-fab\", \"\"]],\n        hostVars: 14,\n        hostBindings: function MatMiniFabButton_HostBindings(rf, ctx) {\n          if (rf & 2) {\n            i0.ɵɵattribute(\"disabled\", ctx._getDisabledAttribute())(\"aria-disabled\", ctx._getAriaDisabled());\n            i0.ɵɵclassMap(ctx.color ? \"mat-\" + ctx.color : \"\");\n            i0.ɵɵclassProp(\"mat-mdc-button-disabled\", ctx.disabled)(\"mat-mdc-button-disabled-interactive\", ctx.disabledInteractive)(\"_mat-animation-noopable\", ctx._animationMode === \"NoopAnimations\")(\"mat-unthemed\", !ctx.color)(\"mat-mdc-button-base\", true);\n          }\n        },\n        exportAs: [\"matButton\"],\n        standalone: true,\n        features: [i0.ɵɵInheritDefinitionFeature, i0.ɵɵStandaloneFeature],\n        attrs: _c6,\n        ngContentSelectors: _c2,\n        decls: 7,\n        vars: 4,\n        consts: [[1, \"mat-mdc-button-persistent-ripple\"], [1, \"mdc-button__label\"], [1, \"mat-mdc-focus-indicator\"], [1, \"mat-mdc-button-touch-target\"]],\n        template: function MatMiniFabButton_Template(rf, ctx) {\n          if (rf & 1) {\n            i0.ɵɵprojectionDef(_c1);\n            i0.ɵɵelement(0, \"span\", 0);\n            i0.ɵɵprojection(1);\n            i0.ɵɵelementStart(2, \"span\", 1);\n            i0.ɵɵprojection(3, 1);\n            i0.ɵɵelementEnd();\n            i0.ɵɵprojection(4, 2);\n            i0.ɵɵelement(5, \"span\", 2)(6, \"span\", 3);\n          }\n          if (rf & 2) {\n            i0.ɵɵclassProp(\"mdc-button__ripple\", !ctx._isFab)(\"mdc-fab__ripple\", ctx._isFab);\n          }\n        },\n        styles: [_c7],\n        encapsulation: 2,\n        changeDetection: 0\n      });\n    }\n  }\n  return MatMiniFabButton;\n})();\n/*#__PURE__*/(() => {\n  (typeof ngDevMode === \"undefined\" || ngDevMode) && void 0;\n})();\n/**\n * Material Design floating action button (FAB) component for anchor elements. Anchor elements\n * are used to provide links for the user to navigate across different routes or pages.\n * See https://material.io/components/buttons-floating-action-button/\n *\n * The `MatFabAnchor` class has two appearances: normal and extended.\n */\nlet MatFabAnchor = /*#__PURE__*/(() => {\n  class MatFabAnchor extends MatAnchor {\n    constructor(elementRef, platform, ngZone, animationMode, _options) {\n      super(elementRef, platform, ngZone, animationMode);\n      this._options = _options;\n      this._isFab = true;\n      this._options = this._options || defaults;\n      this.color = this._options.color || defaults.color;\n    }\n    static {\n      this.ɵfac = function MatFabAnchor_Factory(t) {\n        return new (t || MatFabAnchor)(i0.ɵɵdirectiveInject(i0.ElementRef), i0.ɵɵdirectiveInject(i1.Platform), i0.ɵɵdirectiveInject(i0.NgZone), i0.ɵɵdirectiveInject(ANIMATION_MODULE_TYPE, 8), i0.ɵɵdirectiveInject(MAT_FAB_DEFAULT_OPTIONS, 8));\n      };\n    }\n    static {\n      this.ɵcmp = /* @__PURE__ */i0.ɵɵdefineComponent({\n        type: MatFabAnchor,\n        selectors: [[\"a\", \"mat-fab\", \"\"]],\n        hostVars: 19,\n        hostBindings: function MatFabAnchor_HostBindings(rf, ctx) {\n          if (rf & 2) {\n            i0.ɵɵattribute(\"disabled\", ctx._getDisabledAttribute())(\"tabindex\", ctx.disabled && !ctx.disabledInteractive ? -1 : ctx.tabIndex)(\"aria-disabled\", ctx._getDisabledAttribute());\n            i0.ɵɵclassMap(ctx.color ? \"mat-\" + ctx.color : \"\");\n            i0.ɵɵclassProp(\"mat-mdc-button-disabled\", ctx.disabled)(\"mat-mdc-button-disabled-interactive\", ctx.disabledInteractive)(\"_mat-animation-noopable\", ctx._animationMode === \"NoopAnimations\")(\"mat-unthemed\", !ctx.color)(\"mat-mdc-button-base\", true)(\"mdc-fab--extended\", ctx.extended)(\"mat-mdc-extended-fab\", ctx.extended);\n          }\n        },\n        inputs: {\n          extended: [i0.ɵɵInputFlags.HasDecoratorInputTransform, \"extended\", \"extended\", booleanAttribute]\n        },\n        exportAs: [\"matButton\", \"matAnchor\"],\n        standalone: true,\n        features: [i0.ɵɵInputTransformsFeature, i0.ɵɵInheritDefinitionFeature, i0.ɵɵStandaloneFeature],\n        attrs: _c5,\n        ngContentSelectors: _c2,\n        decls: 7,\n        vars: 4,\n        consts: [[1, \"mat-mdc-button-persistent-ripple\"], [1, \"mdc-button__label\"], [1, \"mat-mdc-focus-indicator\"], [1, \"mat-mdc-button-touch-target\"]],\n        template: function MatFabAnchor_Template(rf, ctx) {\n          if (rf & 1) {\n            i0.ɵɵprojectionDef(_c1);\n            i0.ɵɵelement(0, \"span\", 0);\n            i0.ɵɵprojection(1);\n            i0.ɵɵelementStart(2, \"span\", 1);\n            i0.ɵɵprojection(3, 1);\n            i0.ɵɵelementEnd();\n            i0.ɵɵprojection(4, 2);\n            i0.ɵɵelement(5, \"span\", 2)(6, \"span\", 3);\n          }\n          if (rf & 2) {\n            i0.ɵɵclassProp(\"mdc-button__ripple\", !ctx._isFab)(\"mdc-fab__ripple\", ctx._isFab);\n          }\n        },\n        styles: [_c7],\n        encapsulation: 2,\n        changeDetection: 0\n      });\n    }\n  }\n  return MatFabAnchor;\n})();\n/*#__PURE__*/(() => {\n  (typeof ngDevMode === \"undefined\" || ngDevMode) && void 0;\n})();\n/**\n * Material Design mini floating action button (FAB) component for anchor elements. Anchor elements\n * are used to provide links for the user to navigate across different routes or pages.\n * See https://material.io/components/buttons-floating-action-button/\n */\nlet MatMiniFabAnchor = /*#__PURE__*/(() => {\n  class MatMiniFabAnchor extends MatAnchor {\n    constructor(elementRef, platform, ngZone, animationMode, _options) {\n      super(elementRef, platform, ngZone, animationMode);\n      this._options = _options;\n      this._isFab = true;\n      this._options = this._options || defaults;\n      this.color = this._options.color || defaults.color;\n    }\n    static {\n      this.ɵfac = function MatMiniFabAnchor_Factory(t) {\n        return new (t || MatMiniFabAnchor)(i0.ɵɵdirectiveInject(i0.ElementRef), i0.ɵɵdirectiveInject(i1.Platform), i0.ɵɵdirectiveInject(i0.NgZone), i0.ɵɵdirectiveInject(ANIMATION_MODULE_TYPE, 8), i0.ɵɵdirectiveInject(MAT_FAB_DEFAULT_OPTIONS, 8));\n      };\n    }\n    static {\n      this.ɵcmp = /* @__PURE__ */i0.ɵɵdefineComponent({\n        type: MatMiniFabAnchor,\n        selectors: [[\"a\", \"mat-mini-fab\", \"\"]],\n        hostVars: 15,\n        hostBindings: function MatMiniFabAnchor_HostBindings(rf, ctx) {\n          if (rf & 2) {\n            i0.ɵɵattribute(\"disabled\", ctx._getDisabledAttribute())(\"tabindex\", ctx.disabled && !ctx.disabledInteractive ? -1 : ctx.tabIndex)(\"aria-disabled\", ctx._getDisabledAttribute());\n            i0.ɵɵclassMap(ctx.color ? \"mat-\" + ctx.color : \"\");\n            i0.ɵɵclassProp(\"mat-mdc-button-disabled\", ctx.disabled)(\"mat-mdc-button-disabled-interactive\", ctx.disabledInteractive)(\"_mat-animation-noopable\", ctx._animationMode === \"NoopAnimations\")(\"mat-unthemed\", !ctx.color)(\"mat-mdc-button-base\", true);\n          }\n        },\n        exportAs: [\"matButton\", \"matAnchor\"],\n        standalone: true,\n        features: [i0.ɵɵInheritDefinitionFeature, i0.ɵɵStandaloneFeature],\n        attrs: _c6,\n        ngContentSelectors: _c2,\n        decls: 7,\n        vars: 4,\n        consts: [[1, \"mat-mdc-button-persistent-ripple\"], [1, \"mdc-button__label\"], [1, \"mat-mdc-focus-indicator\"], [1, \"mat-mdc-button-touch-target\"]],\n        template: function MatMiniFabAnchor_Template(rf, ctx) {\n          if (rf & 1) {\n            i0.ɵɵprojectionDef(_c1);\n            i0.ɵɵelement(0, \"span\", 0);\n            i0.ɵɵprojection(1);\n            i0.ɵɵelementStart(2, \"span\", 1);\n            i0.ɵɵprojection(3, 1);\n            i0.ɵɵelementEnd();\n            i0.ɵɵprojection(4, 2);\n            i0.ɵɵelement(5, \"span\", 2)(6, \"span\", 3);\n          }\n          if (rf & 2) {\n            i0.ɵɵclassProp(\"mdc-button__ripple\", !ctx._isFab)(\"mdc-fab__ripple\", ctx._isFab);\n          }\n        },\n        styles: [_c7],\n        encapsulation: 2,\n        changeDetection: 0\n      });\n    }\n  }\n  return MatMiniFabAnchor;\n})();\n/*#__PURE__*/(() => {\n  (typeof ngDevMode === \"undefined\" || ngDevMode) && void 0;\n})();\n\n/**\n * Material Design icon button component. This type of button displays a single interactive icon for\n * users to perform an action.\n * See https://material.io/develop/web/components/buttons/icon-buttons/\n */\nlet MatIconButton = /*#__PURE__*/(() => {\n  class MatIconButton extends MatButtonBase {\n    constructor(elementRef, platform, ngZone, animationMode) {\n      super(elementRef, platform, ngZone, animationMode);\n      this._rippleLoader.configureRipple(this._elementRef.nativeElement, {\n        centered: true\n      });\n    }\n    static {\n      this.ɵfac = function MatIconButton_Factory(t) {\n        return new (t || MatIconButton)(i0.ɵɵdirectiveInject(i0.ElementRef), i0.ɵɵdirectiveInject(i1.Platform), i0.ɵɵdirectiveInject(i0.NgZone), i0.ɵɵdirectiveInject(ANIMATION_MODULE_TYPE, 8));\n      };\n    }\n    static {\n      this.ɵcmp = /* @__PURE__ */i0.ɵɵdefineComponent({\n        type: MatIconButton,\n        selectors: [[\"button\", \"mat-icon-button\", \"\"]],\n        hostVars: 14,\n        hostBindings: function MatIconButton_HostBindings(rf, ctx) {\n          if (rf & 2) {\n            i0.ɵɵattribute(\"disabled\", ctx._getDisabledAttribute())(\"aria-disabled\", ctx._getAriaDisabled());\n            i0.ɵɵclassMap(ctx.color ? \"mat-\" + ctx.color : \"\");\n            i0.ɵɵclassProp(\"mat-mdc-button-disabled\", ctx.disabled)(\"mat-mdc-button-disabled-interactive\", ctx.disabledInteractive)(\"_mat-animation-noopable\", ctx._animationMode === \"NoopAnimations\")(\"mat-unthemed\", !ctx.color)(\"mat-mdc-button-base\", true);\n          }\n        },\n        exportAs: [\"matButton\"],\n        standalone: true,\n        features: [i0.ɵɵInheritDefinitionFeature, i0.ɵɵStandaloneFeature],\n        attrs: _c8,\n        ngContentSelectors: _c9,\n        decls: 4,\n        vars: 0,\n        consts: [[1, \"mat-mdc-button-persistent-ripple\", \"mdc-icon-button__ripple\"], [1, \"mat-mdc-focus-indicator\"], [1, \"mat-mdc-button-touch-target\"]],\n        template: function MatIconButton_Template(rf, ctx) {\n          if (rf & 1) {\n            i0.ɵɵprojectionDef();\n            i0.ɵɵelement(0, \"span\", 0);\n            i0.ɵɵprojection(1);\n            i0.ɵɵelement(2, \"span\", 1)(3, \"span\", 2);\n          }\n        },\n        styles: [\".mdc-icon-button{display:inline-block;position:relative;box-sizing:border-box;border:none;outline:none;background-color:rgba(0,0,0,0);fill:currentColor;color:inherit;text-decoration:none;cursor:pointer;user-select:none;z-index:0;overflow:visible}.mdc-icon-button .mdc-icon-button__touch{position:absolute;top:50%;height:48px;left:50%;width:48px;transform:translate(-50%, -50%)}@media screen and (forced-colors: active){.mdc-icon-button.mdc-ripple-upgraded--background-focused .mdc-icon-button__focus-ring,.mdc-icon-button:not(.mdc-ripple-upgraded):focus .mdc-icon-button__focus-ring{display:block}}.mdc-icon-button:disabled{cursor:default;pointer-events:none}.mdc-icon-button[hidden]{display:none}.mdc-icon-button--display-flex{align-items:center;display:inline-flex;justify-content:center}.mdc-icon-button__focus-ring{pointer-events:none;border:2px solid rgba(0,0,0,0);border-radius:6px;box-sizing:content-box;position:absolute;top:50%;left:50%;transform:translate(-50%, -50%);height:100%;width:100%;display:none}@media screen and (forced-colors: active){.mdc-icon-button__focus-ring{border-color:CanvasText}}.mdc-icon-button__focus-ring::after{content:\\\"\\\";border:2px solid rgba(0,0,0,0);border-radius:8px;display:block;position:absolute;top:50%;left:50%;transform:translate(-50%, -50%);height:calc(100% + 4px);width:calc(100% + 4px)}@media screen and (forced-colors: active){.mdc-icon-button__focus-ring::after{border-color:CanvasText}}.mdc-icon-button__icon{display:inline-block}.mdc-icon-button__icon.mdc-icon-button__icon--on{display:none}.mdc-icon-button--on .mdc-icon-button__icon{display:none}.mdc-icon-button--on .mdc-icon-button__icon.mdc-icon-button__icon--on{display:inline-block}.mdc-icon-button__link{height:100%;left:0;outline:none;position:absolute;top:0;width:100%}.mat-mdc-icon-button{color:var(--mdc-icon-button-icon-color)}.mat-mdc-icon-button .mdc-button__icon{font-size:var(--mdc-icon-button-icon-size)}.mat-mdc-icon-button svg,.mat-mdc-icon-button img{width:var(--mdc-icon-button-icon-size);height:var(--mdc-icon-button-icon-size)}.mat-mdc-icon-button:disabled{color:var(--mdc-icon-button-disabled-icon-color)}.mat-mdc-icon-button{border-radius:50%;flex-shrink:0;text-align:center;width:var(--mdc-icon-button-state-layer-size, 48px);height:var(--mdc-icon-button-state-layer-size, 48px);padding:calc(calc(var(--mdc-icon-button-state-layer-size, 48px) - var(--mdc-icon-button-icon-size, 24px)) / 2);font-size:var(--mdc-icon-button-icon-size);-webkit-tap-highlight-color:rgba(0,0,0,0)}.mat-mdc-icon-button svg{vertical-align:baseline}.mat-mdc-icon-button[disabled],.mat-mdc-icon-button.mat-mdc-button-disabled{cursor:default;pointer-events:none;color:var(--mdc-icon-button-disabled-icon-color)}.mat-mdc-icon-button.mat-mdc-button-disabled-interactive{pointer-events:auto}.mat-mdc-icon-button .mat-mdc-button-ripple,.mat-mdc-icon-button .mat-mdc-button-persistent-ripple,.mat-mdc-icon-button .mat-mdc-button-persistent-ripple::before{top:0;left:0;right:0;bottom:0;position:absolute;pointer-events:none;border-radius:inherit}.mat-mdc-icon-button .mat-mdc-button-ripple{overflow:hidden}.mat-mdc-icon-button .mat-mdc-button-persistent-ripple::before{content:\\\"\\\";opacity:0}.mat-mdc-icon-button .mdc-button__label{z-index:1}.mat-mdc-icon-button .mat-mdc-focus-indicator{top:0;left:0;right:0;bottom:0;position:absolute}.mat-mdc-icon-button:focus .mat-mdc-focus-indicator::before{content:\\\"\\\"}.mat-mdc-icon-button .mat-ripple-element{background-color:var(--mat-icon-button-ripple-color)}.mat-mdc-icon-button .mat-mdc-button-persistent-ripple::before{background-color:var(--mat-icon-button-state-layer-color)}.mat-mdc-icon-button.mat-mdc-button-disabled .mat-mdc-button-persistent-ripple::before{background-color:var(--mat-icon-button-disabled-state-layer-color)}.mat-mdc-icon-button:hover .mat-mdc-button-persistent-ripple::before{opacity:var(--mat-icon-button-hover-state-layer-opacity)}.mat-mdc-icon-button.cdk-program-focused .mat-mdc-button-persistent-ripple::before,.mat-mdc-icon-button.cdk-keyboard-focused .mat-mdc-button-persistent-ripple::before,.mat-mdc-icon-button.mat-mdc-button-disabled-interactive:focus .mat-mdc-button-persistent-ripple::before{opacity:var(--mat-icon-button-focus-state-layer-opacity)}.mat-mdc-icon-button:active .mat-mdc-button-persistent-ripple::before{opacity:var(--mat-icon-button-pressed-state-layer-opacity)}.mat-mdc-icon-button .mat-mdc-button-touch-target{position:absolute;top:50%;height:48px;left:50%;width:48px;transform:translate(-50%, -50%);display:var(--mat-icon-button-touch-target-display)}.mat-mdc-icon-button._mat-animation-noopable{transition:none !important;animation:none !important}.mat-mdc-icon-button .mat-mdc-button-persistent-ripple{border-radius:50%}.mat-mdc-icon-button.mat-unthemed:not(.mdc-ripple-upgraded):focus::before,.mat-mdc-icon-button.mat-primary:not(.mdc-ripple-upgraded):focus::before,.mat-mdc-icon-button.mat-accent:not(.mdc-ripple-upgraded):focus::before,.mat-mdc-icon-button.mat-warn:not(.mdc-ripple-upgraded):focus::before{background:rgba(0,0,0,0);opacity:1}\", _c4],\n        encapsulation: 2,\n        changeDetection: 0\n      });\n    }\n  }\n  return MatIconButton;\n})();\n/*#__PURE__*/(() => {\n  (typeof ngDevMode === \"undefined\" || ngDevMode) && void 0;\n})();\n/**\n * Material Design icon button component for anchor elements. This button displays a single\n * interaction icon that allows users to navigate across different routes or pages.\n * See https://material.io/develop/web/components/buttons/icon-buttons/\n */\nlet MatIconAnchor = /*#__PURE__*/(() => {\n  class MatIconAnchor extends MatAnchorBase {\n    constructor(elementRef, platform, ngZone, animationMode) {\n      super(elementRef, platform, ngZone, animationMode);\n    }\n    static {\n      this.ɵfac = function MatIconAnchor_Factory(t) {\n        return new (t || MatIconAnchor)(i0.ɵɵdirectiveInject(i0.ElementRef), i0.ɵɵdirectiveInject(i1.Platform), i0.ɵɵdirectiveInject(i0.NgZone), i0.ɵɵdirectiveInject(ANIMATION_MODULE_TYPE, 8));\n      };\n    }\n    static {\n      this.ɵcmp = /* @__PURE__ */i0.ɵɵdefineComponent({\n        type: MatIconAnchor,\n        selectors: [[\"a\", \"mat-icon-button\", \"\"]],\n        hostVars: 15,\n        hostBindings: function MatIconAnchor_HostBindings(rf, ctx) {\n          if (rf & 2) {\n            i0.ɵɵattribute(\"disabled\", ctx._getDisabledAttribute())(\"tabindex\", ctx.disabled && !ctx.disabledInteractive ? -1 : ctx.tabIndex)(\"aria-disabled\", ctx._getDisabledAttribute());\n            i0.ɵɵclassMap(ctx.color ? \"mat-\" + ctx.color : \"\");\n            i0.ɵɵclassProp(\"mat-mdc-button-disabled\", ctx.disabled)(\"mat-mdc-button-disabled-interactive\", ctx.disabledInteractive)(\"_mat-animation-noopable\", ctx._animationMode === \"NoopAnimations\")(\"mat-unthemed\", !ctx.color)(\"mat-mdc-button-base\", true);\n          }\n        },\n        exportAs: [\"matButton\", \"matAnchor\"],\n        standalone: true,\n        features: [i0.ɵɵInheritDefinitionFeature, i0.ɵɵStandaloneFeature],\n        attrs: _c8,\n        ngContentSelectors: _c2,\n        decls: 7,\n        vars: 4,\n        consts: [[1, \"mat-mdc-button-persistent-ripple\"], [1, \"mdc-button__label\"], [1, \"mat-mdc-focus-indicator\"], [1, \"mat-mdc-button-touch-target\"]],\n        template: function MatIconAnchor_Template(rf, ctx) {\n          if (rf & 1) {\n            i0.ɵɵprojectionDef(_c1);\n            i0.ɵɵelement(0, \"span\", 0);\n            i0.ɵɵprojection(1);\n            i0.ɵɵelementStart(2, \"span\", 1);\n            i0.ɵɵprojection(3, 1);\n            i0.ɵɵelementEnd();\n            i0.ɵɵprojection(4, 2);\n            i0.ɵɵelement(5, \"span\", 2)(6, \"span\", 3);\n          }\n          if (rf & 2) {\n            i0.ɵɵclassProp(\"mdc-button__ripple\", !ctx._isFab)(\"mdc-fab__ripple\", ctx._isFab);\n          }\n        },\n        styles: [_c10, _c4],\n        encapsulation: 2,\n        changeDetection: 0\n      });\n    }\n  }\n  return MatIconAnchor;\n})();\n/*#__PURE__*/(() => {\n  (typeof ngDevMode === \"undefined\" || ngDevMode) && void 0;\n})();\nlet MatButtonModule = /*#__PURE__*/(() => {\n  class MatButtonModule {\n    static {\n      this.ɵfac = function MatButtonModule_Factory(t) {\n        return new (t || MatButtonModule)();\n      };\n    }\n    static {\n      this.ɵmod = /* @__PURE__ */i0.ɵɵdefineNgModule({\n        type: MatButtonModule\n      });\n    }\n    static {\n      this.ɵinj = /* @__PURE__ */i0.ɵɵdefineInjector({\n        imports: [MatCommonModule, MatRippleModule, MatCommonModule]\n      });\n    }\n  }\n  return MatButtonModule;\n})();\n/*#__PURE__*/(() => {\n  (typeof ngDevMode === \"undefined\" || ngDevMode) && void 0;\n})();\n\n/**\n * Generated bundle index. Do not edit.\n */\n\nexport { MAT_BUTTON_CONFIG, MAT_FAB_DEFAULT_OPTIONS, MAT_FAB_DEFAULT_OPTIONS_FACTORY, MatAnchor, MatButton, MatButtonModule, MatFabAnchor, MatFabButton, MatIconAnchor, MatIconButton, MatMiniFabAnchor, MatMiniFabButton };\n","import { ConnectableObservable, isObservable, of, Subject } from 'rxjs';\nimport * as i0 from '@angular/core';\nimport { InjectionToken, Injectable } from '@angular/core';\nclass DataSource {}\n/** Checks whether an object is a data source. */\nfunction isDataSource(value) {\n  // Check if the value is a DataSource by observing if it has a connect function. Cannot\n  // be checked as an `instanceof DataSource` since people could create their own sources\n  // that match the interface, but don't extend DataSource. We also can't use `isObservable`\n  // here, because of some internal apps.\n  return value && typeof value.connect === 'function' && !(value instanceof ConnectableObservable);\n}\n\n/** DataSource wrapper for a native array. */\nclass ArrayDataSource extends DataSource {\n  constructor(_data) {\n    super();\n    this._data = _data;\n  }\n  connect() {\n    return isObservable(this._data) ? this._data : of(this._data);\n  }\n  disconnect() {}\n}\n\n/** Indicates how a view was changed by a {@link _ViewRepeater}. */\nvar _ViewRepeaterOperation = /*#__PURE__*/function (_ViewRepeaterOperation) {\n  /** The content of an existing view was replaced with another item. */\n  _ViewRepeaterOperation[_ViewRepeaterOperation[\"REPLACED\"] = 0] = \"REPLACED\";\n  /** A new view was created with `createEmbeddedView`. */\n  _ViewRepeaterOperation[_ViewRepeaterOperation[\"INSERTED\"] = 1] = \"INSERTED\";\n  /** The position of a view changed, but the content remains the same. */\n  _ViewRepeaterOperation[_ViewRepeaterOperation[\"MOVED\"] = 2] = \"MOVED\";\n  /** A view was detached from the view container. */\n  _ViewRepeaterOperation[_ViewRepeaterOperation[\"REMOVED\"] = 3] = \"REMOVED\";\n  return _ViewRepeaterOperation;\n}(_ViewRepeaterOperation || {});\n/**\n * Injection token for {@link _ViewRepeater}. This token is for use by Angular Material only.\n * @docs-private\n */\nconst _VIEW_REPEATER_STRATEGY = /*#__PURE__*/new InjectionToken('_ViewRepeater');\n\n/**\n * A repeater that destroys views when they are removed from a\n * {@link ViewContainerRef}. When new items are inserted into the container,\n * the repeater will always construct a new embedded view for each item.\n *\n * @template T The type for the embedded view's $implicit property.\n * @template R The type for the item in each IterableDiffer change record.\n * @template C The type for the context passed to each embedded view.\n */\nclass _DisposeViewRepeaterStrategy {\n  applyChanges(changes, viewContainerRef, itemContextFactory, itemValueResolver, itemViewChanged) {\n    changes.forEachOperation((record, adjustedPreviousIndex, currentIndex) => {\n      let view;\n      let operation;\n      if (record.previousIndex == null) {\n        const insertContext = itemContextFactory(record, adjustedPreviousIndex, currentIndex);\n        view = viewContainerRef.createEmbeddedView(insertContext.templateRef, insertContext.context, insertContext.index);\n        operation = _ViewRepeaterOperation.INSERTED;\n      } else if (currentIndex == null) {\n        viewContainerRef.remove(adjustedPreviousIndex);\n        operation = _ViewRepeaterOperation.REMOVED;\n      } else {\n        view = viewContainerRef.get(adjustedPreviousIndex);\n        viewContainerRef.move(view, currentIndex);\n        operation = _ViewRepeaterOperation.MOVED;\n      }\n      if (itemViewChanged) {\n        itemViewChanged({\n          context: view?.context,\n          operation,\n          record\n        });\n      }\n    });\n  }\n  detach() {}\n}\n\n/**\n * A repeater that caches views when they are removed from a\n * {@link ViewContainerRef}. When new items are inserted into the container,\n * the repeater will reuse one of the cached views instead of creating a new\n * embedded view. Recycling cached views reduces the quantity of expensive DOM\n * inserts.\n *\n * @template T The type for the embedded view's $implicit property.\n * @template R The type for the item in each IterableDiffer change record.\n * @template C The type for the context passed to each embedded view.\n */\nclass _RecycleViewRepeaterStrategy {\n  constructor() {\n    /**\n     * The size of the cache used to store unused views.\n     * Setting the cache size to `0` will disable caching. Defaults to 20 views.\n     */\n    this.viewCacheSize = 20;\n    /**\n     * View cache that stores embedded view instances that have been previously stamped out,\n     * but don't are not currently rendered. The view repeater will reuse these views rather than\n     * creating brand new ones.\n     *\n     * TODO(michaeljamesparsons) Investigate whether using a linked list would improve performance.\n     */\n    this._viewCache = [];\n  }\n  /** Apply changes to the DOM. */\n  applyChanges(changes, viewContainerRef, itemContextFactory, itemValueResolver, itemViewChanged) {\n    // Rearrange the views to put them in the right location.\n    changes.forEachOperation((record, adjustedPreviousIndex, currentIndex) => {\n      let view;\n      let operation;\n      if (record.previousIndex == null) {\n        // Item added.\n        const viewArgsFactory = () => itemContextFactory(record, adjustedPreviousIndex, currentIndex);\n        view = this._insertView(viewArgsFactory, currentIndex, viewContainerRef, itemValueResolver(record));\n        operation = view ? _ViewRepeaterOperation.INSERTED : _ViewRepeaterOperation.REPLACED;\n      } else if (currentIndex == null) {\n        // Item removed.\n        this._detachAndCacheView(adjustedPreviousIndex, viewContainerRef);\n        operation = _ViewRepeaterOperation.REMOVED;\n      } else {\n        // Item moved.\n        view = this._moveView(adjustedPreviousIndex, currentIndex, viewContainerRef, itemValueResolver(record));\n        operation = _ViewRepeaterOperation.MOVED;\n      }\n      if (itemViewChanged) {\n        itemViewChanged({\n          context: view?.context,\n          operation,\n          record\n        });\n      }\n    });\n  }\n  detach() {\n    for (const view of this._viewCache) {\n      view.destroy();\n    }\n    this._viewCache = [];\n  }\n  /**\n   * Inserts a view for a new item, either from the cache or by creating a new\n   * one. Returns `undefined` if the item was inserted into a cached view.\n   */\n  _insertView(viewArgsFactory, currentIndex, viewContainerRef, value) {\n    const cachedView = this._insertViewFromCache(currentIndex, viewContainerRef);\n    if (cachedView) {\n      cachedView.context.$implicit = value;\n      return undefined;\n    }\n    const viewArgs = viewArgsFactory();\n    return viewContainerRef.createEmbeddedView(viewArgs.templateRef, viewArgs.context, viewArgs.index);\n  }\n  /** Detaches the view at the given index and inserts into the view cache. */\n  _detachAndCacheView(index, viewContainerRef) {\n    const detachedView = viewContainerRef.detach(index);\n    this._maybeCacheView(detachedView, viewContainerRef);\n  }\n  /** Moves view at the previous index to the current index. */\n  _moveView(adjustedPreviousIndex, currentIndex, viewContainerRef, value) {\n    const view = viewContainerRef.get(adjustedPreviousIndex);\n    viewContainerRef.move(view, currentIndex);\n    view.context.$implicit = value;\n    return view;\n  }\n  /**\n   * Cache the given detached view. If the cache is full, the view will be\n   * destroyed.\n   */\n  _maybeCacheView(view, viewContainerRef) {\n    if (this._viewCache.length < this.viewCacheSize) {\n      this._viewCache.push(view);\n    } else {\n      const index = viewContainerRef.indexOf(view);\n      // The host component could remove views from the container outside of\n      // the view repeater. It's unlikely this will occur, but just in case,\n      // destroy the view on its own, otherwise destroy it through the\n      // container to ensure that all the references are removed.\n      if (index === -1) {\n        view.destroy();\n      } else {\n        viewContainerRef.remove(index);\n      }\n    }\n  }\n  /** Inserts a recycled view from the cache at the given index. */\n  _insertViewFromCache(index, viewContainerRef) {\n    const cachedView = this._viewCache.pop();\n    if (cachedView) {\n      viewContainerRef.insert(cachedView, index);\n    }\n    return cachedView || null;\n  }\n}\n\n/**\n * Class to be used to power selecting one or more options from a list.\n */\nclass SelectionModel {\n  /** Selected values. */\n  get selected() {\n    if (!this._selected) {\n      this._selected = Array.from(this._selection.values());\n    }\n    return this._selected;\n  }\n  constructor(_multiple = false, initiallySelectedValues, _emitChanges = true, compareWith) {\n    this._multiple = _multiple;\n    this._emitChanges = _emitChanges;\n    this.compareWith = compareWith;\n    /** Currently-selected values. */\n    this._selection = new Set();\n    /** Keeps track of the deselected options that haven't been emitted by the change event. */\n    this._deselectedToEmit = [];\n    /** Keeps track of the selected options that haven't been emitted by the change event. */\n    this._selectedToEmit = [];\n    /** Event emitted when the value has changed. */\n    this.changed = new Subject();\n    if (initiallySelectedValues && initiallySelectedValues.length) {\n      if (_multiple) {\n        initiallySelectedValues.forEach(value => this._markSelected(value));\n      } else {\n        this._markSelected(initiallySelectedValues[0]);\n      }\n      // Clear the array in order to avoid firing the change event for preselected values.\n      this._selectedToEmit.length = 0;\n    }\n  }\n  /**\n   * Selects a value or an array of values.\n   * @param values The values to select\n   * @return Whether the selection changed as a result of this call\n   * @breaking-change 16.0.0 make return type boolean\n   */\n  select(...values) {\n    this._verifyValueAssignment(values);\n    values.forEach(value => this._markSelected(value));\n    const changed = this._hasQueuedChanges();\n    this._emitChangeEvent();\n    return changed;\n  }\n  /**\n   * Deselects a value or an array of values.\n   * @param values The values to deselect\n   * @return Whether the selection changed as a result of this call\n   * @breaking-change 16.0.0 make return type boolean\n   */\n  deselect(...values) {\n    this._verifyValueAssignment(values);\n    values.forEach(value => this._unmarkSelected(value));\n    const changed = this._hasQueuedChanges();\n    this._emitChangeEvent();\n    return changed;\n  }\n  /**\n   * Sets the selected values\n   * @param values The new selected values\n   * @return Whether the selection changed as a result of this call\n   * @breaking-change 16.0.0 make return type boolean\n   */\n  setSelection(...values) {\n    this._verifyValueAssignment(values);\n    const oldValues = this.selected;\n    const newSelectedSet = new Set(values);\n    values.forEach(value => this._markSelected(value));\n    oldValues.filter(value => !newSelectedSet.has(this._getConcreteValue(value, newSelectedSet))).forEach(value => this._unmarkSelected(value));\n    const changed = this._hasQueuedChanges();\n    this._emitChangeEvent();\n    return changed;\n  }\n  /**\n   * Toggles a value between selected and deselected.\n   * @param value The value to toggle\n   * @return Whether the selection changed as a result of this call\n   * @breaking-change 16.0.0 make return type boolean\n   */\n  toggle(value) {\n    return this.isSelected(value) ? this.deselect(value) : this.select(value);\n  }\n  /**\n   * Clears all of the selected values.\n   * @param flushEvent Whether to flush the changes in an event.\n   *   If false, the changes to the selection will be flushed along with the next event.\n   * @return Whether the selection changed as a result of this call\n   * @breaking-change 16.0.0 make return type boolean\n   */\n  clear(flushEvent = true) {\n    this._unmarkAll();\n    const changed = this._hasQueuedChanges();\n    if (flushEvent) {\n      this._emitChangeEvent();\n    }\n    return changed;\n  }\n  /**\n   * Determines whether a value is selected.\n   */\n  isSelected(value) {\n    return this._selection.has(this._getConcreteValue(value));\n  }\n  /**\n   * Determines whether the model does not have a value.\n   */\n  isEmpty() {\n    return this._selection.size === 0;\n  }\n  /**\n   * Determines whether the model has a value.\n   */\n  hasValue() {\n    return !this.isEmpty();\n  }\n  /**\n   * Sorts the selected values based on a predicate function.\n   */\n  sort(predicate) {\n    if (this._multiple && this.selected) {\n      this._selected.sort(predicate);\n    }\n  }\n  /**\n   * Gets whether multiple values can be selected.\n   */\n  isMultipleSelection() {\n    return this._multiple;\n  }\n  /** Emits a change event and clears the records of selected and deselected values. */\n  _emitChangeEvent() {\n    // Clear the selected values so they can be re-cached.\n    this._selected = null;\n    if (this._selectedToEmit.length || this._deselectedToEmit.length) {\n      this.changed.next({\n        source: this,\n        added: this._selectedToEmit,\n        removed: this._deselectedToEmit\n      });\n      this._deselectedToEmit = [];\n      this._selectedToEmit = [];\n    }\n  }\n  /** Selects a value. */\n  _markSelected(value) {\n    value = this._getConcreteValue(value);\n    if (!this.isSelected(value)) {\n      if (!this._multiple) {\n        this._unmarkAll();\n      }\n      if (!this.isSelected(value)) {\n        this._selection.add(value);\n      }\n      if (this._emitChanges) {\n        this._selectedToEmit.push(value);\n      }\n    }\n  }\n  /** Deselects a value. */\n  _unmarkSelected(value) {\n    value = this._getConcreteValue(value);\n    if (this.isSelected(value)) {\n      this._selection.delete(value);\n      if (this._emitChanges) {\n        this._deselectedToEmit.push(value);\n      }\n    }\n  }\n  /** Clears out the selected values. */\n  _unmarkAll() {\n    if (!this.isEmpty()) {\n      this._selection.forEach(value => this._unmarkSelected(value));\n    }\n  }\n  /**\n   * Verifies the value assignment and throws an error if the specified value array is\n   * including multiple values while the selection model is not supporting multiple values.\n   */\n  _verifyValueAssignment(values) {\n    if (values.length > 1 && !this._multiple && (typeof ngDevMode === 'undefined' || ngDevMode)) {\n      throw getMultipleValuesInSingleSelectionError();\n    }\n  }\n  /** Whether there are queued up change to be emitted. */\n  _hasQueuedChanges() {\n    return !!(this._deselectedToEmit.length || this._selectedToEmit.length);\n  }\n  /** Returns a value that is comparable to inputValue by applying compareWith function, returns the same inputValue otherwise. */\n  _getConcreteValue(inputValue, selection) {\n    if (!this.compareWith) {\n      return inputValue;\n    } else {\n      selection = selection ?? this._selection;\n      for (let selectedValue of selection) {\n        if (this.compareWith(inputValue, selectedValue)) {\n          return selectedValue;\n        }\n      }\n      return inputValue;\n    }\n  }\n}\n/**\n * Returns an error that reports that multiple values are passed into a selection model\n * with a single value.\n * @docs-private\n */\nfunction getMultipleValuesInSingleSelectionError() {\n  return Error('Cannot pass multiple values into SelectionModel with single-value mode.');\n}\n\n/**\n * Class to coordinate unique selection based on name.\n * Intended to be consumed as an Angular service.\n * This service is needed because native radio change events are only fired on the item currently\n * being selected, and we still need to uncheck the previous selection.\n *\n * This service does not *store* any IDs and names because they may change at any time, so it is\n * less error-prone if they are simply passed through when the events occur.\n */\nlet UniqueSelectionDispatcher = /*#__PURE__*/(() => {\n  class UniqueSelectionDispatcher {\n    constructor() {\n      this._listeners = [];\n    }\n    /**\n     * Notify other items that selection for the given name has been set.\n     * @param id ID of the item.\n     * @param name Name of the item.\n     */\n    notify(id, name) {\n      for (let listener of this._listeners) {\n        listener(id, name);\n      }\n    }\n    /**\n     * Listen for future changes to item selection.\n     * @return Function used to deregister listener\n     */\n    listen(listener) {\n      this._listeners.push(listener);\n      return () => {\n        this._listeners = this._listeners.filter(registered => {\n          return listener !== registered;\n        });\n      };\n    }\n    ngOnDestroy() {\n      this._listeners = [];\n    }\n    static {\n      this.ɵfac = function UniqueSelectionDispatcher_Factory(t) {\n        return new (t || UniqueSelectionDispatcher)();\n      };\n    }\n    static {\n      this.ɵprov = /* @__PURE__ */i0.ɵɵdefineInjectable({\n        token: UniqueSelectionDispatcher,\n        factory: UniqueSelectionDispatcher.ɵfac,\n        providedIn: 'root'\n      });\n    }\n  }\n  return UniqueSelectionDispatcher;\n})();\n/*#__PURE__*/(() => {\n  (typeof ngDevMode === \"undefined\" || ngDevMode) && void 0;\n})();\n\n/**\n * Generated bundle index. Do not edit.\n */\n\nexport { ArrayDataSource, DataSource, SelectionModel, UniqueSelectionDispatcher, _DisposeViewRepeaterStrategy, _RecycleViewRepeaterStrategy, _VIEW_REPEATER_STRATEGY, _ViewRepeaterOperation, getMultipleValuesInSingleSelectionError, isDataSource };\n","import { coerceNumberProperty, coerceElement } from '@angular/cdk/coercion';\nimport * as i0 from '@angular/core';\nimport { InjectionToken, forwardRef, Directive, Input, Injectable, Optional, Inject, inject, booleanAttribute, Component, ViewEncapsulation, ChangeDetectionStrategy, Output, ViewChild, SkipSelf, ElementRef, NgModule } from '@angular/core';\nimport { Subject, of, Observable, fromEvent, animationFrameScheduler, asapScheduler, Subscription, isObservable } from 'rxjs';\nimport { distinctUntilChanged, auditTime, filter, takeUntil, startWith, pairwise, switchMap, shareReplay } from 'rxjs/operators';\nimport * as i1 from '@angular/cdk/platform';\nimport { getRtlScrollAxisType, RtlScrollAxisType, supportsScrollBehavior, Platform } from '@angular/cdk/platform';\nimport { DOCUMENT } from '@angular/common';\nimport * as i2 from '@angular/cdk/bidi';\nimport { BidiModule } from '@angular/cdk/bidi';\nimport * as i2$1 from '@angular/cdk/collections';\nimport { isDataSource, ArrayDataSource, _VIEW_REPEATER_STRATEGY, _RecycleViewRepeaterStrategy } from '@angular/cdk/collections';\n\n/** The injection token used to specify the virtual scrolling strategy. */\nconst _c0 = [\"contentWrapper\"];\nconst _c1 = [\"*\"];\nconst VIRTUAL_SCROLL_STRATEGY = /*#__PURE__*/new InjectionToken('VIRTUAL_SCROLL_STRATEGY');\n\n/** Virtual scrolling strategy for lists with items of known fixed size. */\nclass FixedSizeVirtualScrollStrategy {\n  /**\n   * @param itemSize The size of the items in the virtually scrolling list.\n   * @param minBufferPx The minimum amount of buffer (in pixels) before needing to render more\n   * @param maxBufferPx The amount of buffer (in pixels) to render when rendering more.\n   */\n  constructor(itemSize, minBufferPx, maxBufferPx) {\n    this._scrolledIndexChange = new Subject();\n    /** @docs-private Implemented as part of VirtualScrollStrategy. */\n    this.scrolledIndexChange = this._scrolledIndexChange.pipe(distinctUntilChanged());\n    /** The attached viewport. */\n    this._viewport = null;\n    this._itemSize = itemSize;\n    this._minBufferPx = minBufferPx;\n    this._maxBufferPx = maxBufferPx;\n  }\n  /**\n   * Attaches this scroll strategy to a viewport.\n   * @param viewport The viewport to attach this strategy to.\n   */\n  attach(viewport) {\n    this._viewport = viewport;\n    this._updateTotalContentSize();\n    this._updateRenderedRange();\n  }\n  /** Detaches this scroll strategy from the currently attached viewport. */\n  detach() {\n    this._scrolledIndexChange.complete();\n    this._viewport = null;\n  }\n  /**\n   * Update the item size and buffer size.\n   * @param itemSize The size of the items in the virtually scrolling list.\n   * @param minBufferPx The minimum amount of buffer (in pixels) before needing to render more\n   * @param maxBufferPx The amount of buffer (in pixels) to render when rendering more.\n   */\n  updateItemAndBufferSize(itemSize, minBufferPx, maxBufferPx) {\n    if (maxBufferPx < minBufferPx && (typeof ngDevMode === 'undefined' || ngDevMode)) {\n      throw Error('CDK virtual scroll: maxBufferPx must be greater than or equal to minBufferPx');\n    }\n    this._itemSize = itemSize;\n    this._minBufferPx = minBufferPx;\n    this._maxBufferPx = maxBufferPx;\n    this._updateTotalContentSize();\n    this._updateRenderedRange();\n  }\n  /** @docs-private Implemented as part of VirtualScrollStrategy. */\n  onContentScrolled() {\n    this._updateRenderedRange();\n  }\n  /** @docs-private Implemented as part of VirtualScrollStrategy. */\n  onDataLengthChanged() {\n    this._updateTotalContentSize();\n    this._updateRenderedRange();\n  }\n  /** @docs-private Implemented as part of VirtualScrollStrategy. */\n  onContentRendered() {\n    /* no-op */\n  }\n  /** @docs-private Implemented as part of VirtualScrollStrategy. */\n  onRenderedOffsetChanged() {\n    /* no-op */\n  }\n  /**\n   * Scroll to the offset for the given index.\n   * @param index The index of the element to scroll to.\n   * @param behavior The ScrollBehavior to use when scrolling.\n   */\n  scrollToIndex(index, behavior) {\n    if (this._viewport) {\n      this._viewport.scrollToOffset(index * this._itemSize, behavior);\n    }\n  }\n  /** Update the viewport's total content size. */\n  _updateTotalContentSize() {\n    if (!this._viewport) {\n      return;\n    }\n    this._viewport.setTotalContentSize(this._viewport.getDataLength() * this._itemSize);\n  }\n  /** Update the viewport's rendered range. */\n  _updateRenderedRange() {\n    if (!this._viewport) {\n      return;\n    }\n    const renderedRange = this._viewport.getRenderedRange();\n    const newRange = {\n      start: renderedRange.start,\n      end: renderedRange.end\n    };\n    const viewportSize = this._viewport.getViewportSize();\n    const dataLength = this._viewport.getDataLength();\n    let scrollOffset = this._viewport.measureScrollOffset();\n    // Prevent NaN as result when dividing by zero.\n    let firstVisibleIndex = this._itemSize > 0 ? scrollOffset / this._itemSize : 0;\n    // If user scrolls to the bottom of the list and data changes to a smaller list\n    if (newRange.end > dataLength) {\n      // We have to recalculate the first visible index based on new data length and viewport size.\n      const maxVisibleItems = Math.ceil(viewportSize / this._itemSize);\n      const newVisibleIndex = Math.max(0, Math.min(firstVisibleIndex, dataLength - maxVisibleItems));\n      // If first visible index changed we must update scroll offset to handle start/end buffers\n      // Current range must also be adjusted to cover the new position (bottom of new list).\n      if (firstVisibleIndex != newVisibleIndex) {\n        firstVisibleIndex = newVisibleIndex;\n        scrollOffset = newVisibleIndex * this._itemSize;\n        newRange.start = Math.floor(firstVisibleIndex);\n      }\n      newRange.end = Math.max(0, Math.min(dataLength, newRange.start + maxVisibleItems));\n    }\n    const startBuffer = scrollOffset - newRange.start * this._itemSize;\n    if (startBuffer < this._minBufferPx && newRange.start != 0) {\n      const expandStart = Math.ceil((this._maxBufferPx - startBuffer) / this._itemSize);\n      newRange.start = Math.max(0, newRange.start - expandStart);\n      newRange.end = Math.min(dataLength, Math.ceil(firstVisibleIndex + (viewportSize + this._minBufferPx) / this._itemSize));\n    } else {\n      const endBuffer = newRange.end * this._itemSize - (scrollOffset + viewportSize);\n      if (endBuffer < this._minBufferPx && newRange.end != dataLength) {\n        const expandEnd = Math.ceil((this._maxBufferPx - endBuffer) / this._itemSize);\n        if (expandEnd > 0) {\n          newRange.end = Math.min(dataLength, newRange.end + expandEnd);\n          newRange.start = Math.max(0, Math.floor(firstVisibleIndex - this._minBufferPx / this._itemSize));\n        }\n      }\n    }\n    this._viewport.setRenderedRange(newRange);\n    this._viewport.setRenderedContentOffset(this._itemSize * newRange.start);\n    this._scrolledIndexChange.next(Math.floor(firstVisibleIndex));\n  }\n}\n/**\n * Provider factory for `FixedSizeVirtualScrollStrategy` that simply extracts the already created\n * `FixedSizeVirtualScrollStrategy` from the given directive.\n * @param fixedSizeDir The instance of `CdkFixedSizeVirtualScroll` to extract the\n *     `FixedSizeVirtualScrollStrategy` from.\n */\nfunction _fixedSizeVirtualScrollStrategyFactory(fixedSizeDir) {\n  return fixedSizeDir._scrollStrategy;\n}\n/** A virtual scroll strategy that supports fixed-size items. */\nlet CdkFixedSizeVirtualScroll = /*#__PURE__*/(() => {\n  class CdkFixedSizeVirtualScroll {\n    constructor() {\n      this._itemSize = 20;\n      this._minBufferPx = 100;\n      this._maxBufferPx = 200;\n      /** The scroll strategy used by this directive. */\n      this._scrollStrategy = new FixedSizeVirtualScrollStrategy(this.itemSize, this.minBufferPx, this.maxBufferPx);\n    }\n    /** The size of the items in the list (in pixels). */\n    get itemSize() {\n      return this._itemSize;\n    }\n    set itemSize(value) {\n      this._itemSize = coerceNumberProperty(value);\n    }\n    /**\n     * The minimum amount of buffer rendered beyond the viewport (in pixels).\n     * If the amount of buffer dips below this number, more items will be rendered. Defaults to 100px.\n     */\n    get minBufferPx() {\n      return this._minBufferPx;\n    }\n    set minBufferPx(value) {\n      this._minBufferPx = coerceNumberProperty(value);\n    }\n    /**\n     * The number of pixels worth of buffer to render for when rendering new items. Defaults to 200px.\n     */\n    get maxBufferPx() {\n      return this._maxBufferPx;\n    }\n    set maxBufferPx(value) {\n      this._maxBufferPx = coerceNumberProperty(value);\n    }\n    ngOnChanges() {\n      this._scrollStrategy.updateItemAndBufferSize(this.itemSize, this.minBufferPx, this.maxBufferPx);\n    }\n    static {\n      this.ɵfac = function CdkFixedSizeVirtualScroll_Factory(t) {\n        return new (t || CdkFixedSizeVirtualScroll)();\n      };\n    }\n    static {\n      this.ɵdir = /* @__PURE__ */i0.ɵɵdefineDirective({\n        type: CdkFixedSizeVirtualScroll,\n        selectors: [[\"cdk-virtual-scroll-viewport\", \"itemSize\", \"\"]],\n        inputs: {\n          itemSize: \"itemSize\",\n          minBufferPx: \"minBufferPx\",\n          maxBufferPx: \"maxBufferPx\"\n        },\n        standalone: true,\n        features: [i0.ɵɵProvidersFeature([{\n          provide: VIRTUAL_SCROLL_STRATEGY,\n          useFactory: _fixedSizeVirtualScrollStrategyFactory,\n          deps: [forwardRef(() => CdkFixedSizeVirtualScroll)]\n        }]), i0.ɵɵNgOnChangesFeature]\n      });\n    }\n  }\n  return CdkFixedSizeVirtualScroll;\n})();\n/*#__PURE__*/(() => {\n  (typeof ngDevMode === \"undefined\" || ngDevMode) && void 0;\n})();\n\n/** Time in ms to throttle the scrolling events by default. */\nconst DEFAULT_SCROLL_TIME = 20;\n/**\n * Service contained all registered Scrollable references and emits an event when any one of the\n * Scrollable references emit a scrolled event.\n */\nlet ScrollDispatcher = /*#__PURE__*/(() => {\n  class ScrollDispatcher {\n    constructor(_ngZone, _platform, document) {\n      this._ngZone = _ngZone;\n      this._platform = _platform;\n      /** Subject for notifying that a registered scrollable reference element has been scrolled. */\n      this._scrolled = new Subject();\n      /** Keeps track of the global `scroll` and `resize` subscriptions. */\n      this._globalSubscription = null;\n      /** Keeps track of the amount of subscriptions to `scrolled`. Used for cleaning up afterwards. */\n      this._scrolledCount = 0;\n      /**\n       * Map of all the scrollable references that are registered with the service and their\n       * scroll event subscriptions.\n       */\n      this.scrollContainers = new Map();\n      this._document = document;\n    }\n    /**\n     * Registers a scrollable instance with the service and listens for its scrolled events. When the\n     * scrollable is scrolled, the service emits the event to its scrolled observable.\n     * @param scrollable Scrollable instance to be registered.\n     */\n    register(scrollable) {\n      if (!this.scrollContainers.has(scrollable)) {\n        this.scrollContainers.set(scrollable, scrollable.elementScrolled().subscribe(() => this._scrolled.next(scrollable)));\n      }\n    }\n    /**\n     * De-registers a Scrollable reference and unsubscribes from its scroll event observable.\n     * @param scrollable Scrollable instance to be deregistered.\n     */\n    deregister(scrollable) {\n      const scrollableReference = this.scrollContainers.get(scrollable);\n      if (scrollableReference) {\n        scrollableReference.unsubscribe();\n        this.scrollContainers.delete(scrollable);\n      }\n    }\n    /**\n     * Returns an observable that emits an event whenever any of the registered Scrollable\n     * references (or window, document, or body) fire a scrolled event. Can provide a time in ms\n     * to override the default \"throttle\" time.\n     *\n     * **Note:** in order to avoid hitting change detection for every scroll event,\n     * all of the events emitted from this stream will be run outside the Angular zone.\n     * If you need to update any data bindings as a result of a scroll event, you have\n     * to run the callback using `NgZone.run`.\n     */\n    scrolled(auditTimeInMs = DEFAULT_SCROLL_TIME) {\n      if (!this._platform.isBrowser) {\n        return of();\n      }\n      return new Observable(observer => {\n        if (!this._globalSubscription) {\n          this._addGlobalListener();\n        }\n        // In the case of a 0ms delay, use an observable without auditTime\n        // since it does add a perceptible delay in processing overhead.\n        const subscription = auditTimeInMs > 0 ? this._scrolled.pipe(auditTime(auditTimeInMs)).subscribe(observer) : this._scrolled.subscribe(observer);\n        this._scrolledCount++;\n        return () => {\n          subscription.unsubscribe();\n          this._scrolledCount--;\n          if (!this._scrolledCount) {\n            this._removeGlobalListener();\n          }\n        };\n      });\n    }\n    ngOnDestroy() {\n      this._removeGlobalListener();\n      this.scrollContainers.forEach((_, container) => this.deregister(container));\n      this._scrolled.complete();\n    }\n    /**\n     * Returns an observable that emits whenever any of the\n     * scrollable ancestors of an element are scrolled.\n     * @param elementOrElementRef Element whose ancestors to listen for.\n     * @param auditTimeInMs Time to throttle the scroll events.\n     */\n    ancestorScrolled(elementOrElementRef, auditTimeInMs) {\n      const ancestors = this.getAncestorScrollContainers(elementOrElementRef);\n      return this.scrolled(auditTimeInMs).pipe(filter(target => {\n        return !target || ancestors.indexOf(target) > -1;\n      }));\n    }\n    /** Returns all registered Scrollables that contain the provided element. */\n    getAncestorScrollContainers(elementOrElementRef) {\n      const scrollingContainers = [];\n      this.scrollContainers.forEach((_subscription, scrollable) => {\n        if (this._scrollableContainsElement(scrollable, elementOrElementRef)) {\n          scrollingContainers.push(scrollable);\n        }\n      });\n      return scrollingContainers;\n    }\n    /** Use defaultView of injected document if available or fallback to global window reference */\n    _getWindow() {\n      return this._document.defaultView || window;\n    }\n    /** Returns true if the element is contained within the provided Scrollable. */\n    _scrollableContainsElement(scrollable, elementOrElementRef) {\n      let element = coerceElement(elementOrElementRef);\n      let scrollableElement = scrollable.getElementRef().nativeElement;\n      // Traverse through the element parents until we reach null, checking if any of the elements\n      // are the scrollable's element.\n      do {\n        if (element == scrollableElement) {\n          return true;\n        }\n      } while (element = element.parentElement);\n      return false;\n    }\n    /** Sets up the global scroll listeners. */\n    _addGlobalListener() {\n      this._globalSubscription = this._ngZone.runOutsideAngular(() => {\n        const window = this._getWindow();\n        return fromEvent(window.document, 'scroll').subscribe(() => this._scrolled.next());\n      });\n    }\n    /** Cleans up the global scroll listener. */\n    _removeGlobalListener() {\n      if (this._globalSubscription) {\n        this._globalSubscription.unsubscribe();\n        this._globalSubscription = null;\n      }\n    }\n    static {\n      this.ɵfac = function ScrollDispatcher_Factory(t) {\n        return new (t || ScrollDispatcher)(i0.ɵɵinject(i0.NgZone), i0.ɵɵinject(i1.Platform), i0.ɵɵinject(DOCUMENT, 8));\n      };\n    }\n    static {\n      this.ɵprov = /* @__PURE__ */i0.ɵɵdefineInjectable({\n        token: ScrollDispatcher,\n        factory: ScrollDispatcher.ɵfac,\n        providedIn: 'root'\n      });\n    }\n  }\n  return ScrollDispatcher;\n})();\n/*#__PURE__*/(() => {\n  (typeof ngDevMode === \"undefined\" || ngDevMode) && void 0;\n})();\n\n/**\n * Sends an event when the directive's element is scrolled. Registers itself with the\n * ScrollDispatcher service to include itself as part of its collection of scrolling events that it\n * can be listened to through the service.\n */\nlet CdkScrollable = /*#__PURE__*/(() => {\n  class CdkScrollable {\n    constructor(elementRef, scrollDispatcher, ngZone, dir) {\n      this.elementRef = elementRef;\n      this.scrollDispatcher = scrollDispatcher;\n      this.ngZone = ngZone;\n      this.dir = dir;\n      this._destroyed = new Subject();\n      this._elementScrolled = new Observable(observer => this.ngZone.runOutsideAngular(() => fromEvent(this.elementRef.nativeElement, 'scroll').pipe(takeUntil(this._destroyed)).subscribe(observer)));\n    }\n    ngOnInit() {\n      this.scrollDispatcher.register(this);\n    }\n    ngOnDestroy() {\n      this.scrollDispatcher.deregister(this);\n      this._destroyed.next();\n      this._destroyed.complete();\n    }\n    /** Returns observable that emits when a scroll event is fired on the host element. */\n    elementScrolled() {\n      return this._elementScrolled;\n    }\n    /** Gets the ElementRef for the viewport. */\n    getElementRef() {\n      return this.elementRef;\n    }\n    /**\n     * Scrolls to the specified offsets. This is a normalized version of the browser's native scrollTo\n     * method, since browsers are not consistent about what scrollLeft means in RTL. For this method\n     * left and right always refer to the left and right side of the scrolling container irrespective\n     * of the layout direction. start and end refer to left and right in an LTR context and vice-versa\n     * in an RTL context.\n     * @param options specified the offsets to scroll to.\n     */\n    scrollTo(options) {\n      const el = this.elementRef.nativeElement;\n      const isRtl = this.dir && this.dir.value == 'rtl';\n      // Rewrite start & end offsets as right or left offsets.\n      if (options.left == null) {\n        options.left = isRtl ? options.end : options.start;\n      }\n      if (options.right == null) {\n        options.right = isRtl ? options.start : options.end;\n      }\n      // Rewrite the bottom offset as a top offset.\n      if (options.bottom != null) {\n        options.top = el.scrollHeight - el.clientHeight - options.bottom;\n      }\n      // Rewrite the right offset as a left offset.\n      if (isRtl && getRtlScrollAxisType() != RtlScrollAxisType.NORMAL) {\n        if (options.left != null) {\n          options.right = el.scrollWidth - el.clientWidth - options.left;\n        }\n        if (getRtlScrollAxisType() == RtlScrollAxisType.INVERTED) {\n          options.left = options.right;\n        } else if (getRtlScrollAxisType() == RtlScrollAxisType.NEGATED) {\n          options.left = options.right ? -options.right : options.right;\n        }\n      } else {\n        if (options.right != null) {\n          options.left = el.scrollWidth - el.clientWidth - options.right;\n        }\n      }\n      this._applyScrollToOptions(options);\n    }\n    _applyScrollToOptions(options) {\n      const el = this.elementRef.nativeElement;\n      if (supportsScrollBehavior()) {\n        el.scrollTo(options);\n      } else {\n        if (options.top != null) {\n          el.scrollTop = options.top;\n        }\n        if (options.left != null) {\n          el.scrollLeft = options.left;\n        }\n      }\n    }\n    /**\n     * Measures the scroll offset relative to the specified edge of the viewport. This method can be\n     * used instead of directly checking scrollLeft or scrollTop, since browsers are not consistent\n     * about what scrollLeft means in RTL. The values returned by this method are normalized such that\n     * left and right always refer to the left and right side of the scrolling container irrespective\n     * of the layout direction. start and end refer to left and right in an LTR context and vice-versa\n     * in an RTL context.\n     * @param from The edge to measure from.\n     */\n    measureScrollOffset(from) {\n      const LEFT = 'left';\n      const RIGHT = 'right';\n      const el = this.elementRef.nativeElement;\n      if (from == 'top') {\n        return el.scrollTop;\n      }\n      if (from == 'bottom') {\n        return el.scrollHeight - el.clientHeight - el.scrollTop;\n      }\n      // Rewrite start & end as left or right offsets.\n      const isRtl = this.dir && this.dir.value == 'rtl';\n      if (from == 'start') {\n        from = isRtl ? RIGHT : LEFT;\n      } else if (from == 'end') {\n        from = isRtl ? LEFT : RIGHT;\n      }\n      if (isRtl && getRtlScrollAxisType() == RtlScrollAxisType.INVERTED) {\n        // For INVERTED, scrollLeft is (scrollWidth - clientWidth) when scrolled all the way left and\n        // 0 when scrolled all the way right.\n        if (from == LEFT) {\n          return el.scrollWidth - el.clientWidth - el.scrollLeft;\n        } else {\n          return el.scrollLeft;\n        }\n      } else if (isRtl && getRtlScrollAxisType() == RtlScrollAxisType.NEGATED) {\n        // For NEGATED, scrollLeft is -(scrollWidth - clientWidth) when scrolled all the way left and\n        // 0 when scrolled all the way right.\n        if (from == LEFT) {\n          return el.scrollLeft + el.scrollWidth - el.clientWidth;\n        } else {\n          return -el.scrollLeft;\n        }\n      } else {\n        // For NORMAL, as well as non-RTL contexts, scrollLeft is 0 when scrolled all the way left and\n        // (scrollWidth - clientWidth) when scrolled all the way right.\n        if (from == LEFT) {\n          return el.scrollLeft;\n        } else {\n          return el.scrollWidth - el.clientWidth - el.scrollLeft;\n        }\n      }\n    }\n    static {\n      this.ɵfac = function CdkScrollable_Factory(t) {\n        return new (t || CdkScrollable)(i0.ɵɵdirectiveInject(i0.ElementRef), i0.ɵɵdirectiveInject(ScrollDispatcher), i0.ɵɵdirectiveInject(i0.NgZone), i0.ɵɵdirectiveInject(i2.Directionality, 8));\n      };\n    }\n    static {\n      this.ɵdir = /* @__PURE__ */i0.ɵɵdefineDirective({\n        type: CdkScrollable,\n        selectors: [[\"\", \"cdk-scrollable\", \"\"], [\"\", \"cdkScrollable\", \"\"]],\n        standalone: true\n      });\n    }\n  }\n  return CdkScrollable;\n})();\n/*#__PURE__*/(() => {\n  (typeof ngDevMode === \"undefined\" || ngDevMode) && void 0;\n})();\n\n/** Time in ms to throttle the resize events by default. */\nconst DEFAULT_RESIZE_TIME = 20;\n/**\n * Simple utility for getting the bounds of the browser viewport.\n * @docs-private\n */\nlet ViewportRuler = /*#__PURE__*/(() => {\n  class ViewportRuler {\n    constructor(_platform, ngZone, document) {\n      this._platform = _platform;\n      /** Stream of viewport change events. */\n      this._change = new Subject();\n      /** Event listener that will be used to handle the viewport change events. */\n      this._changeListener = event => {\n        this._change.next(event);\n      };\n      this._document = document;\n      ngZone.runOutsideAngular(() => {\n        if (_platform.isBrowser) {\n          const window = this._getWindow();\n          // Note that bind the events ourselves, rather than going through something like RxJS's\n          // `fromEvent` so that we can ensure that they're bound outside of the NgZone.\n          window.addEventListener('resize', this._changeListener);\n          window.addEventListener('orientationchange', this._changeListener);\n        }\n        // Clear the cached position so that the viewport is re-measured next time it is required.\n        // We don't need to keep track of the subscription, because it is completed on destroy.\n        this.change().subscribe(() => this._viewportSize = null);\n      });\n    }\n    ngOnDestroy() {\n      if (this._platform.isBrowser) {\n        const window = this._getWindow();\n        window.removeEventListener('resize', this._changeListener);\n        window.removeEventListener('orientationchange', this._changeListener);\n      }\n      this._change.complete();\n    }\n    /** Returns the viewport's width and height. */\n    getViewportSize() {\n      if (!this._viewportSize) {\n        this._updateViewportSize();\n      }\n      const output = {\n        width: this._viewportSize.width,\n        height: this._viewportSize.height\n      };\n      // If we're not on a browser, don't cache the size since it'll be mocked out anyway.\n      if (!this._platform.isBrowser) {\n        this._viewportSize = null;\n      }\n      return output;\n    }\n    /** Gets a DOMRect for the viewport's bounds. */\n    getViewportRect() {\n      // Use the document element's bounding rect rather than the window scroll properties\n      // (e.g. pageYOffset, scrollY) due to in issue in Chrome and IE where window scroll\n      // properties and client coordinates (boundingClientRect, clientX/Y, etc.) are in different\n      // conceptual viewports. Under most circumstances these viewports are equivalent, but they\n      // can disagree when the page is pinch-zoomed (on devices that support touch).\n      // See https://bugs.chromium.org/p/chromium/issues/detail?id=489206#c4\n      // We use the documentElement instead of the body because, by default (without a css reset)\n      // browsers typically give the document body an 8px margin, which is not included in\n      // getBoundingClientRect().\n      const scrollPosition = this.getViewportScrollPosition();\n      const {\n        width,\n        height\n      } = this.getViewportSize();\n      return {\n        top: scrollPosition.top,\n        left: scrollPosition.left,\n        bottom: scrollPosition.top + height,\n        right: scrollPosition.left + width,\n        height,\n        width\n      };\n    }\n    /** Gets the (top, left) scroll position of the viewport. */\n    getViewportScrollPosition() {\n      // While we can get a reference to the fake document\n      // during SSR, it doesn't have getBoundingClientRect.\n      if (!this._platform.isBrowser) {\n        return {\n          top: 0,\n          left: 0\n        };\n      }\n      // The top-left-corner of the viewport is determined by the scroll position of the document\n      // body, normally just (scrollLeft, scrollTop). However, Chrome and Firefox disagree about\n      // whether `document.body` or `document.documentElement` is the scrolled element, so reading\n      // `scrollTop` and `scrollLeft` is inconsistent. However, using the bounding rect of\n      // `document.documentElement` works consistently, where the `top` and `left` values will\n      // equal negative the scroll position.\n      const document = this._document;\n      const window = this._getWindow();\n      const documentElement = document.documentElement;\n      const documentRect = documentElement.getBoundingClientRect();\n      const top = -documentRect.top || document.body.scrollTop || window.scrollY || documentElement.scrollTop || 0;\n      const left = -documentRect.left || document.body.scrollLeft || window.scrollX || documentElement.scrollLeft || 0;\n      return {\n        top,\n        left\n      };\n    }\n    /**\n     * Returns a stream that emits whenever the size of the viewport changes.\n     * This stream emits outside of the Angular zone.\n     * @param throttleTime Time in milliseconds to throttle the stream.\n     */\n    change(throttleTime = DEFAULT_RESIZE_TIME) {\n      return throttleTime > 0 ? this._change.pipe(auditTime(throttleTime)) : this._change;\n    }\n    /** Use defaultView of injected document if available or fallback to global window reference */\n    _getWindow() {\n      return this._document.defaultView || window;\n    }\n    /** Updates the cached viewport size. */\n    _updateViewportSize() {\n      const window = this._getWindow();\n      this._viewportSize = this._platform.isBrowser ? {\n        width: window.innerWidth,\n        height: window.innerHeight\n      } : {\n        width: 0,\n        height: 0\n      };\n    }\n    static {\n      this.ɵfac = function ViewportRuler_Factory(t) {\n        return new (t || ViewportRuler)(i0.ɵɵinject(i1.Platform), i0.ɵɵinject(i0.NgZone), i0.ɵɵinject(DOCUMENT, 8));\n      };\n    }\n    static {\n      this.ɵprov = /* @__PURE__ */i0.ɵɵdefineInjectable({\n        token: ViewportRuler,\n        factory: ViewportRuler.ɵfac,\n        providedIn: 'root'\n      });\n    }\n  }\n  return ViewportRuler;\n})();\n/*#__PURE__*/(() => {\n  (typeof ngDevMode === \"undefined\" || ngDevMode) && void 0;\n})();\nconst VIRTUAL_SCROLLABLE = /*#__PURE__*/new InjectionToken('VIRTUAL_SCROLLABLE');\n/**\n * Extending the {@link CdkScrollable} to be used as scrolling container for virtual scrolling.\n */\nlet CdkVirtualScrollable = /*#__PURE__*/(() => {\n  class CdkVirtualScrollable extends CdkScrollable {\n    constructor(elementRef, scrollDispatcher, ngZone, dir) {\n      super(elementRef, scrollDispatcher, ngZone, dir);\n    }\n    /**\n     * Measure the viewport size for the provided orientation.\n     *\n     * @param orientation The orientation to measure the size from.\n     */\n    measureViewportSize(orientation) {\n      const viewportEl = this.elementRef.nativeElement;\n      return orientation === 'horizontal' ? viewportEl.clientWidth : viewportEl.clientHeight;\n    }\n    static {\n      this.ɵfac = function CdkVirtualScrollable_Factory(t) {\n        return new (t || CdkVirtualScrollable)(i0.ɵɵdirectiveInject(i0.ElementRef), i0.ɵɵdirectiveInject(ScrollDispatcher), i0.ɵɵdirectiveInject(i0.NgZone), i0.ɵɵdirectiveInject(i2.Directionality, 8));\n      };\n    }\n    static {\n      this.ɵdir = /* @__PURE__ */i0.ɵɵdefineDirective({\n        type: CdkVirtualScrollable,\n        features: [i0.ɵɵInheritDefinitionFeature]\n      });\n    }\n  }\n  return CdkVirtualScrollable;\n})();\n/*#__PURE__*/(() => {\n  (typeof ngDevMode === \"undefined\" || ngDevMode) && void 0;\n})();\n\n/** Checks if the given ranges are equal. */\nfunction rangesEqual(r1, r2) {\n  return r1.start == r2.start && r1.end == r2.end;\n}\n/**\n * Scheduler to be used for scroll events. Needs to fall back to\n * something that doesn't rely on requestAnimationFrame on environments\n * that don't support it (e.g. server-side rendering).\n */\nconst SCROLL_SCHEDULER = typeof requestAnimationFrame !== 'undefined' ? animationFrameScheduler : asapScheduler;\n/** A viewport that virtualizes its scrolling with the help of `CdkVirtualForOf`. */\nlet CdkVirtualScrollViewport = /*#__PURE__*/(() => {\n  class CdkVirtualScrollViewport extends CdkVirtualScrollable {\n    /** The direction the viewport scrolls. */\n    get orientation() {\n      return this._orientation;\n    }\n    set orientation(orientation) {\n      if (this._orientation !== orientation) {\n        this._orientation = orientation;\n        this._calculateSpacerSize();\n      }\n    }\n    constructor(elementRef, _changeDetectorRef, ngZone, _scrollStrategy, dir, scrollDispatcher, viewportRuler, scrollable) {\n      super(elementRef, scrollDispatcher, ngZone, dir);\n      this.elementRef = elementRef;\n      this._changeDetectorRef = _changeDetectorRef;\n      this._scrollStrategy = _scrollStrategy;\n      this.scrollable = scrollable;\n      this._platform = inject(Platform);\n      /** Emits when the viewport is detached from a CdkVirtualForOf. */\n      this._detachedSubject = new Subject();\n      /** Emits when the rendered range changes. */\n      this._renderedRangeSubject = new Subject();\n      this._orientation = 'vertical';\n      /**\n       * Whether rendered items should persist in the DOM after scrolling out of view. By default, items\n       * will be removed.\n       */\n      this.appendOnly = false;\n      // Note: we don't use the typical EventEmitter here because we need to subscribe to the scroll\n      // strategy lazily (i.e. only if the user is actually listening to the events). We do this because\n      // depending on how the strategy calculates the scrolled index, it may come at a cost to\n      // performance.\n      /** Emits when the index of the first element visible in the viewport changes. */\n      this.scrolledIndexChange = new Observable(observer => this._scrollStrategy.scrolledIndexChange.subscribe(index => Promise.resolve().then(() => this.ngZone.run(() => observer.next(index)))));\n      /** A stream that emits whenever the rendered range changes. */\n      this.renderedRangeStream = this._renderedRangeSubject;\n      /**\n       * The total size of all content (in pixels), including content that is not currently rendered.\n       */\n      this._totalContentSize = 0;\n      /** A string representing the `style.width` property value to be used for the spacer element. */\n      this._totalContentWidth = '';\n      /** A string representing the `style.height` property value to be used for the spacer element. */\n      this._totalContentHeight = '';\n      /** The currently rendered range of indices. */\n      this._renderedRange = {\n        start: 0,\n        end: 0\n      };\n      /** The length of the data bound to this viewport (in number of items). */\n      this._dataLength = 0;\n      /** The size of the viewport (in pixels). */\n      this._viewportSize = 0;\n      /** The last rendered content offset that was set. */\n      this._renderedContentOffset = 0;\n      /**\n       * Whether the last rendered content offset was to the end of the content (and therefore needs to\n       * be rewritten as an offset to the start of the content).\n       */\n      this._renderedContentOffsetNeedsRewrite = false;\n      /** Whether there is a pending change detection cycle. */\n      this._isChangeDetectionPending = false;\n      /** A list of functions to run after the next change detection cycle. */\n      this._runAfterChangeDetection = [];\n      /** Subscription to changes in the viewport size. */\n      this._viewportChanges = Subscription.EMPTY;\n      if (!_scrollStrategy && (typeof ngDevMode === 'undefined' || ngDevMode)) {\n        throw Error('Error: cdk-virtual-scroll-viewport requires the \"itemSize\" property to be set.');\n      }\n      this._viewportChanges = viewportRuler.change().subscribe(() => {\n        this.checkViewportSize();\n      });\n      if (!this.scrollable) {\n        // No scrollable is provided, so the virtual-scroll-viewport needs to become a scrollable\n        this.elementRef.nativeElement.classList.add('cdk-virtual-scrollable');\n        this.scrollable = this;\n      }\n    }\n    ngOnInit() {\n      // Scrolling depends on the element dimensions which we can't get during SSR.\n      if (!this._platform.isBrowser) {\n        return;\n      }\n      if (this.scrollable === this) {\n        super.ngOnInit();\n      }\n      // It's still too early to measure the viewport at this point. Deferring with a promise allows\n      // the Viewport to be rendered with the correct size before we measure. We run this outside the\n      // zone to avoid causing more change detection cycles. We handle the change detection loop\n      // ourselves instead.\n      this.ngZone.runOutsideAngular(() => Promise.resolve().then(() => {\n        this._measureViewportSize();\n        this._scrollStrategy.attach(this);\n        this.scrollable.elementScrolled().pipe(\n        // Start off with a fake scroll event so we properly detect our initial position.\n        startWith(null),\n        // Collect multiple events into one until the next animation frame. This way if\n        // there are multiple scroll events in the same frame we only need to recheck\n        // our layout once.\n        auditTime(0, SCROLL_SCHEDULER),\n        // Usually `elementScrolled` is completed when the scrollable is destroyed, but\n        // that may not be the case if a `CdkVirtualScrollableElement` is used so we have\n        // to unsubscribe here just in case.\n        takeUntil(this._destroyed)).subscribe(() => this._scrollStrategy.onContentScrolled());\n        this._markChangeDetectionNeeded();\n      }));\n    }\n    ngOnDestroy() {\n      this.detach();\n      this._scrollStrategy.detach();\n      // Complete all subjects\n      this._renderedRangeSubject.complete();\n      this._detachedSubject.complete();\n      this._viewportChanges.unsubscribe();\n      super.ngOnDestroy();\n    }\n    /** Attaches a `CdkVirtualScrollRepeater` to this viewport. */\n    attach(forOf) {\n      if (this._forOf && (typeof ngDevMode === 'undefined' || ngDevMode)) {\n        throw Error('CdkVirtualScrollViewport is already attached.');\n      }\n      // Subscribe to the data stream of the CdkVirtualForOf to keep track of when the data length\n      // changes. Run outside the zone to avoid triggering change detection, since we're managing the\n      // change detection loop ourselves.\n      this.ngZone.runOutsideAngular(() => {\n        this._forOf = forOf;\n        this._forOf.dataStream.pipe(takeUntil(this._detachedSubject)).subscribe(data => {\n          const newLength = data.length;\n          if (newLength !== this._dataLength) {\n            this._dataLength = newLength;\n            this._scrollStrategy.onDataLengthChanged();\n          }\n          this._doChangeDetection();\n        });\n      });\n    }\n    /** Detaches the current `CdkVirtualForOf`. */\n    detach() {\n      this._forOf = null;\n      this._detachedSubject.next();\n    }\n    /** Gets the length of the data bound to this viewport (in number of items). */\n    getDataLength() {\n      return this._dataLength;\n    }\n    /** Gets the size of the viewport (in pixels). */\n    getViewportSize() {\n      return this._viewportSize;\n    }\n    // TODO(mmalerba): This is technically out of sync with what's really rendered until a render\n    // cycle happens. I'm being careful to only call it after the render cycle is complete and before\n    // setting it to something else, but its error prone and should probably be split into\n    // `pendingRange` and `renderedRange`, the latter reflecting whats actually in the DOM.\n    /** Get the current rendered range of items. */\n    getRenderedRange() {\n      return this._renderedRange;\n    }\n    measureBoundingClientRectWithScrollOffset(from) {\n      return this.getElementRef().nativeElement.getBoundingClientRect()[from];\n    }\n    /**\n     * Sets the total size of all content (in pixels), including content that is not currently\n     * rendered.\n     */\n    setTotalContentSize(size) {\n      if (this._totalContentSize !== size) {\n        this._totalContentSize = size;\n        this._calculateSpacerSize();\n        this._markChangeDetectionNeeded();\n      }\n    }\n    /** Sets the currently rendered range of indices. */\n    setRenderedRange(range) {\n      if (!rangesEqual(this._renderedRange, range)) {\n        if (this.appendOnly) {\n          range = {\n            start: 0,\n            end: Math.max(this._renderedRange.end, range.end)\n          };\n        }\n        this._renderedRangeSubject.next(this._renderedRange = range);\n        this._markChangeDetectionNeeded(() => this._scrollStrategy.onContentRendered());\n      }\n    }\n    /**\n     * Gets the offset from the start of the viewport to the start of the rendered data (in pixels).\n     */\n    getOffsetToRenderedContentStart() {\n      return this._renderedContentOffsetNeedsRewrite ? null : this._renderedContentOffset;\n    }\n    /**\n     * Sets the offset from the start of the viewport to either the start or end of the rendered data\n     * (in pixels).\n     */\n    setRenderedContentOffset(offset, to = 'to-start') {\n      // In appendOnly, we always start from the top\n      offset = this.appendOnly && to === 'to-start' ? 0 : offset;\n      // For a horizontal viewport in a right-to-left language we need to translate along the x-axis\n      // in the negative direction.\n      const isRtl = this.dir && this.dir.value == 'rtl';\n      const isHorizontal = this.orientation == 'horizontal';\n      const axis = isHorizontal ? 'X' : 'Y';\n      const axisDirection = isHorizontal && isRtl ? -1 : 1;\n      let transform = `translate${axis}(${Number(axisDirection * offset)}px)`;\n      this._renderedContentOffset = offset;\n      if (to === 'to-end') {\n        transform += ` translate${axis}(-100%)`;\n        // The viewport should rewrite this as a `to-start` offset on the next render cycle. Otherwise\n        // elements will appear to expand in the wrong direction (e.g. `mat-expansion-panel` would\n        // expand upward).\n        this._renderedContentOffsetNeedsRewrite = true;\n      }\n      if (this._renderedContentTransform != transform) {\n        // We know this value is safe because we parse `offset` with `Number()` before passing it\n        // into the string.\n        this._renderedContentTransform = transform;\n        this._markChangeDetectionNeeded(() => {\n          if (this._renderedContentOffsetNeedsRewrite) {\n            this._renderedContentOffset -= this.measureRenderedContentSize();\n            this._renderedContentOffsetNeedsRewrite = false;\n            this.setRenderedContentOffset(this._renderedContentOffset);\n          } else {\n            this._scrollStrategy.onRenderedOffsetChanged();\n          }\n        });\n      }\n    }\n    /**\n     * Scrolls to the given offset from the start of the viewport. Please note that this is not always\n     * the same as setting `scrollTop` or `scrollLeft`. In a horizontal viewport with right-to-left\n     * direction, this would be the equivalent of setting a fictional `scrollRight` property.\n     * @param offset The offset to scroll to.\n     * @param behavior The ScrollBehavior to use when scrolling. Default is behavior is `auto`.\n     */\n    scrollToOffset(offset, behavior = 'auto') {\n      const options = {\n        behavior\n      };\n      if (this.orientation === 'horizontal') {\n        options.start = offset;\n      } else {\n        options.top = offset;\n      }\n      this.scrollable.scrollTo(options);\n    }\n    /**\n     * Scrolls to the offset for the given index.\n     * @param index The index of the element to scroll to.\n     * @param behavior The ScrollBehavior to use when scrolling. Default is behavior is `auto`.\n     */\n    scrollToIndex(index, behavior = 'auto') {\n      this._scrollStrategy.scrollToIndex(index, behavior);\n    }\n    /**\n     * Gets the current scroll offset from the start of the scrollable (in pixels).\n     * @param from The edge to measure the offset from. Defaults to 'top' in vertical mode and 'start'\n     *     in horizontal mode.\n     */\n    measureScrollOffset(from) {\n      // This is to break the call cycle\n      let measureScrollOffset;\n      if (this.scrollable == this) {\n        measureScrollOffset = _from => super.measureScrollOffset(_from);\n      } else {\n        measureScrollOffset = _from => this.scrollable.measureScrollOffset(_from);\n      }\n      return Math.max(0, measureScrollOffset(from ?? (this.orientation === 'horizontal' ? 'start' : 'top')) - this.measureViewportOffset());\n    }\n    /**\n     * Measures the offset of the viewport from the scrolling container\n     * @param from The edge to measure from.\n     */\n    measureViewportOffset(from) {\n      let fromRect;\n      const LEFT = 'left';\n      const RIGHT = 'right';\n      const isRtl = this.dir?.value == 'rtl';\n      if (from == 'start') {\n        fromRect = isRtl ? RIGHT : LEFT;\n      } else if (from == 'end') {\n        fromRect = isRtl ? LEFT : RIGHT;\n      } else if (from) {\n        fromRect = from;\n      } else {\n        fromRect = this.orientation === 'horizontal' ? 'left' : 'top';\n      }\n      const scrollerClientRect = this.scrollable.measureBoundingClientRectWithScrollOffset(fromRect);\n      const viewportClientRect = this.elementRef.nativeElement.getBoundingClientRect()[fromRect];\n      return viewportClientRect - scrollerClientRect;\n    }\n    /** Measure the combined size of all of the rendered items. */\n    measureRenderedContentSize() {\n      const contentEl = this._contentWrapper.nativeElement;\n      return this.orientation === 'horizontal' ? contentEl.offsetWidth : contentEl.offsetHeight;\n    }\n    /**\n     * Measure the total combined size of the given range. Throws if the range includes items that are\n     * not rendered.\n     */\n    measureRangeSize(range) {\n      if (!this._forOf) {\n        return 0;\n      }\n      return this._forOf.measureRangeSize(range, this.orientation);\n    }\n    /** Update the viewport dimensions and re-render. */\n    checkViewportSize() {\n      // TODO: Cleanup later when add logic for handling content resize\n      this._measureViewportSize();\n      this._scrollStrategy.onDataLengthChanged();\n    }\n    /** Measure the viewport size. */\n    _measureViewportSize() {\n      this._viewportSize = this.scrollable.measureViewportSize(this.orientation);\n    }\n    /** Queue up change detection to run. */\n    _markChangeDetectionNeeded(runAfter) {\n      if (runAfter) {\n        this._runAfterChangeDetection.push(runAfter);\n      }\n      // Use a Promise to batch together calls to `_doChangeDetection`. This way if we set a bunch of\n      // properties sequentially we only have to run `_doChangeDetection` once at the end.\n      if (!this._isChangeDetectionPending) {\n        this._isChangeDetectionPending = true;\n        this.ngZone.runOutsideAngular(() => Promise.resolve().then(() => {\n          this._doChangeDetection();\n        }));\n      }\n    }\n    /** Run change detection. */\n    _doChangeDetection() {\n      this._isChangeDetectionPending = false;\n      // Apply the content transform. The transform can't be set via an Angular binding because\n      // bypassSecurityTrustStyle is banned in Google. However the value is safe, it's composed of\n      // string literals, a variable that can only be 'X' or 'Y', and user input that is run through\n      // the `Number` function first to coerce it to a numeric value.\n      this._contentWrapper.nativeElement.style.transform = this._renderedContentTransform;\n      // Apply changes to Angular bindings. Note: We must call `markForCheck` to run change detection\n      // from the root, since the repeated items are content projected in. Calling `detectChanges`\n      // instead does not properly check the projected content.\n      this.ngZone.run(() => this._changeDetectorRef.markForCheck());\n      const runAfterChangeDetection = this._runAfterChangeDetection;\n      this._runAfterChangeDetection = [];\n      for (const fn of runAfterChangeDetection) {\n        fn();\n      }\n    }\n    /** Calculates the `style.width` and `style.height` for the spacer element. */\n    _calculateSpacerSize() {\n      this._totalContentHeight = this.orientation === 'horizontal' ? '' : `${this._totalContentSize}px`;\n      this._totalContentWidth = this.orientation === 'horizontal' ? `${this._totalContentSize}px` : '';\n    }\n    static {\n      this.ɵfac = function CdkVirtualScrollViewport_Factory(t) {\n        return new (t || CdkVirtualScrollViewport)(i0.ɵɵdirectiveInject(i0.ElementRef), i0.ɵɵdirectiveInject(i0.ChangeDetectorRef), i0.ɵɵdirectiveInject(i0.NgZone), i0.ɵɵdirectiveInject(VIRTUAL_SCROLL_STRATEGY, 8), i0.ɵɵdirectiveInject(i2.Directionality, 8), i0.ɵɵdirectiveInject(ScrollDispatcher), i0.ɵɵdirectiveInject(ViewportRuler), i0.ɵɵdirectiveInject(VIRTUAL_SCROLLABLE, 8));\n      };\n    }\n    static {\n      this.ɵcmp = /* @__PURE__ */i0.ɵɵdefineComponent({\n        type: CdkVirtualScrollViewport,\n        selectors: [[\"cdk-virtual-scroll-viewport\"]],\n        viewQuery: function CdkVirtualScrollViewport_Query(rf, ctx) {\n          if (rf & 1) {\n            i0.ɵɵviewQuery(_c0, 7);\n          }\n          if (rf & 2) {\n            let _t;\n            i0.ɵɵqueryRefresh(_t = i0.ɵɵloadQuery()) && (ctx._contentWrapper = _t.first);\n          }\n        },\n        hostAttrs: [1, \"cdk-virtual-scroll-viewport\"],\n        hostVars: 4,\n        hostBindings: function CdkVirtualScrollViewport_HostBindings(rf, ctx) {\n          if (rf & 2) {\n            i0.ɵɵclassProp(\"cdk-virtual-scroll-orientation-horizontal\", ctx.orientation === \"horizontal\")(\"cdk-virtual-scroll-orientation-vertical\", ctx.orientation !== \"horizontal\");\n          }\n        },\n        inputs: {\n          orientation: \"orientation\",\n          appendOnly: [i0.ɵɵInputFlags.HasDecoratorInputTransform, \"appendOnly\", \"appendOnly\", booleanAttribute]\n        },\n        outputs: {\n          scrolledIndexChange: \"scrolledIndexChange\"\n        },\n        standalone: true,\n        features: [i0.ɵɵProvidersFeature([{\n          provide: CdkScrollable,\n          useFactory: (virtualScrollable, viewport) => virtualScrollable || viewport,\n          deps: [[new Optional(), new Inject(VIRTUAL_SCROLLABLE)], CdkVirtualScrollViewport]\n        }]), i0.ɵɵInputTransformsFeature, i0.ɵɵInheritDefinitionFeature, i0.ɵɵStandaloneFeature],\n        ngContentSelectors: _c1,\n        decls: 4,\n        vars: 4,\n        consts: [[\"contentWrapper\", \"\"], [1, \"cdk-virtual-scroll-content-wrapper\"], [1, \"cdk-virtual-scroll-spacer\"]],\n        template: function CdkVirtualScrollViewport_Template(rf, ctx) {\n          if (rf & 1) {\n            i0.ɵɵprojectionDef();\n            i0.ɵɵelementStart(0, \"div\", 1, 0);\n            i0.ɵɵprojection(2);\n            i0.ɵɵelementEnd();\n            i0.ɵɵelement(3, \"div\", 2);\n          }\n          if (rf & 2) {\n            i0.ɵɵadvance(3);\n            i0.ɵɵstyleProp(\"width\", ctx._totalContentWidth)(\"height\", ctx._totalContentHeight);\n          }\n        },\n        styles: [\"cdk-virtual-scroll-viewport{display:block;position:relative;transform:translateZ(0)}.cdk-virtual-scrollable{overflow:auto;will-change:scroll-position;contain:strict;-webkit-overflow-scrolling:touch}.cdk-virtual-scroll-content-wrapper{position:absolute;top:0;left:0;contain:content}[dir=rtl] .cdk-virtual-scroll-content-wrapper{right:0;left:auto}.cdk-virtual-scroll-orientation-horizontal .cdk-virtual-scroll-content-wrapper{min-height:100%}.cdk-virtual-scroll-orientation-horizontal .cdk-virtual-scroll-content-wrapper>dl:not([cdkVirtualFor]),.cdk-virtual-scroll-orientation-horizontal .cdk-virtual-scroll-content-wrapper>ol:not([cdkVirtualFor]),.cdk-virtual-scroll-orientation-horizontal .cdk-virtual-scroll-content-wrapper>table:not([cdkVirtualFor]),.cdk-virtual-scroll-orientation-horizontal .cdk-virtual-scroll-content-wrapper>ul:not([cdkVirtualFor]){padding-left:0;padding-right:0;margin-left:0;margin-right:0;border-left-width:0;border-right-width:0;outline:none}.cdk-virtual-scroll-orientation-vertical .cdk-virtual-scroll-content-wrapper{min-width:100%}.cdk-virtual-scroll-orientation-vertical .cdk-virtual-scroll-content-wrapper>dl:not([cdkVirtualFor]),.cdk-virtual-scroll-orientation-vertical .cdk-virtual-scroll-content-wrapper>ol:not([cdkVirtualFor]),.cdk-virtual-scroll-orientation-vertical .cdk-virtual-scroll-content-wrapper>table:not([cdkVirtualFor]),.cdk-virtual-scroll-orientation-vertical .cdk-virtual-scroll-content-wrapper>ul:not([cdkVirtualFor]){padding-top:0;padding-bottom:0;margin-top:0;margin-bottom:0;border-top-width:0;border-bottom-width:0;outline:none}.cdk-virtual-scroll-spacer{height:1px;transform-origin:0 0;flex:0 0 auto}[dir=rtl] .cdk-virtual-scroll-spacer{transform-origin:100% 0}\"],\n        encapsulation: 2,\n        changeDetection: 0\n      });\n    }\n  }\n  return CdkVirtualScrollViewport;\n})();\n/*#__PURE__*/(() => {\n  (typeof ngDevMode === \"undefined\" || ngDevMode) && void 0;\n})();\n\n/** Helper to extract the offset of a DOM Node in a certain direction. */\nfunction getOffset(orientation, direction, node) {\n  const el = node;\n  if (!el.getBoundingClientRect) {\n    return 0;\n  }\n  const rect = el.getBoundingClientRect();\n  if (orientation === 'horizontal') {\n    return direction === 'start' ? rect.left : rect.right;\n  }\n  return direction === 'start' ? rect.top : rect.bottom;\n}\n/**\n * A directive similar to `ngForOf` to be used for rendering data inside a virtual scrolling\n * container.\n */\nlet CdkVirtualForOf = /*#__PURE__*/(() => {\n  class CdkVirtualForOf {\n    /** The DataSource to display. */\n    get cdkVirtualForOf() {\n      return this._cdkVirtualForOf;\n    }\n    set cdkVirtualForOf(value) {\n      this._cdkVirtualForOf = value;\n      if (isDataSource(value)) {\n        this._dataSourceChanges.next(value);\n      } else {\n        // If value is an an NgIterable, convert it to an array.\n        this._dataSourceChanges.next(new ArrayDataSource(isObservable(value) ? value : Array.from(value || [])));\n      }\n    }\n    /**\n     * The `TrackByFunction` to use for tracking changes. The `TrackByFunction` takes the index and\n     * the item and produces a value to be used as the item's identity when tracking changes.\n     */\n    get cdkVirtualForTrackBy() {\n      return this._cdkVirtualForTrackBy;\n    }\n    set cdkVirtualForTrackBy(fn) {\n      this._needsUpdate = true;\n      this._cdkVirtualForTrackBy = fn ? (index, item) => fn(index + (this._renderedRange ? this._renderedRange.start : 0), item) : undefined;\n    }\n    /** The template used to stamp out new elements. */\n    set cdkVirtualForTemplate(value) {\n      if (value) {\n        this._needsUpdate = true;\n        this._template = value;\n      }\n    }\n    /**\n     * The size of the cache used to store templates that are not being used for re-use later.\n     * Setting the cache size to `0` will disable caching. Defaults to 20 templates.\n     */\n    get cdkVirtualForTemplateCacheSize() {\n      return this._viewRepeater.viewCacheSize;\n    }\n    set cdkVirtualForTemplateCacheSize(size) {\n      this._viewRepeater.viewCacheSize = coerceNumberProperty(size);\n    }\n    constructor( /** The view container to add items to. */\n    _viewContainerRef, /** The template to use when stamping out new items. */\n    _template, /** The set of available differs. */\n    _differs, /** The strategy used to render items in the virtual scroll viewport. */\n    _viewRepeater, /** The virtual scrolling viewport that these items are being rendered in. */\n    _viewport, ngZone) {\n      this._viewContainerRef = _viewContainerRef;\n      this._template = _template;\n      this._differs = _differs;\n      this._viewRepeater = _viewRepeater;\n      this._viewport = _viewport;\n      /** Emits when the rendered view of the data changes. */\n      this.viewChange = new Subject();\n      /** Subject that emits when a new DataSource instance is given. */\n      this._dataSourceChanges = new Subject();\n      /** Emits whenever the data in the current DataSource changes. */\n      this.dataStream = this._dataSourceChanges.pipe(\n      // Start off with null `DataSource`.\n      startWith(null),\n      // Bundle up the previous and current data sources so we can work with both.\n      pairwise(),\n      // Use `_changeDataSource` to disconnect from the previous data source and connect to the\n      // new one, passing back a stream of data changes which we run through `switchMap` to give\n      // us a data stream that emits the latest data from whatever the current `DataSource` is.\n      switchMap(([prev, cur]) => this._changeDataSource(prev, cur)),\n      // Replay the last emitted data when someone subscribes.\n      shareReplay(1));\n      /** The differ used to calculate changes to the data. */\n      this._differ = null;\n      /** Whether the rendered data should be updated during the next ngDoCheck cycle. */\n      this._needsUpdate = false;\n      this._destroyed = new Subject();\n      this.dataStream.subscribe(data => {\n        this._data = data;\n        this._onRenderedDataChange();\n      });\n      this._viewport.renderedRangeStream.pipe(takeUntil(this._destroyed)).subscribe(range => {\n        this._renderedRange = range;\n        if (this.viewChange.observers.length) {\n          ngZone.run(() => this.viewChange.next(this._renderedRange));\n        }\n        this._onRenderedDataChange();\n      });\n      this._viewport.attach(this);\n    }\n    /**\n     * Measures the combined size (width for horizontal orientation, height for vertical) of all items\n     * in the specified range. Throws an error if the range includes items that are not currently\n     * rendered.\n     */\n    measureRangeSize(range, orientation) {\n      if (range.start >= range.end) {\n        return 0;\n      }\n      if ((range.start < this._renderedRange.start || range.end > this._renderedRange.end) && (typeof ngDevMode === 'undefined' || ngDevMode)) {\n        throw Error(`Error: attempted to measure an item that isn't rendered.`);\n      }\n      // The index into the list of rendered views for the first item in the range.\n      const renderedStartIndex = range.start - this._renderedRange.start;\n      // The length of the range we're measuring.\n      const rangeLen = range.end - range.start;\n      // Loop over all the views, find the first and land node and compute the size by subtracting\n      // the top of the first node from the bottom of the last one.\n      let firstNode;\n      let lastNode;\n      // Find the first node by starting from the beginning and going forwards.\n      for (let i = 0; i < rangeLen; i++) {\n        const view = this._viewContainerRef.get(i + renderedStartIndex);\n        if (view && view.rootNodes.length) {\n          firstNode = lastNode = view.rootNodes[0];\n          break;\n        }\n      }\n      // Find the last node by starting from the end and going backwards.\n      for (let i = rangeLen - 1; i > -1; i--) {\n        const view = this._viewContainerRef.get(i + renderedStartIndex);\n        if (view && view.rootNodes.length) {\n          lastNode = view.rootNodes[view.rootNodes.length - 1];\n          break;\n        }\n      }\n      return firstNode && lastNode ? getOffset(orientation, 'end', lastNode) - getOffset(orientation, 'start', firstNode) : 0;\n    }\n    ngDoCheck() {\n      if (this._differ && this._needsUpdate) {\n        // TODO(mmalerba): We should differentiate needs update due to scrolling and a new portion of\n        // this list being rendered (can use simpler algorithm) vs needs update due to data actually\n        // changing (need to do this diff).\n        const changes = this._differ.diff(this._renderedItems);\n        if (!changes) {\n          this._updateContext();\n        } else {\n          this._applyChanges(changes);\n        }\n        this._needsUpdate = false;\n      }\n    }\n    ngOnDestroy() {\n      this._viewport.detach();\n      this._dataSourceChanges.next(undefined);\n      this._dataSourceChanges.complete();\n      this.viewChange.complete();\n      this._destroyed.next();\n      this._destroyed.complete();\n      this._viewRepeater.detach();\n    }\n    /** React to scroll state changes in the viewport. */\n    _onRenderedDataChange() {\n      if (!this._renderedRange) {\n        return;\n      }\n      this._renderedItems = this._data.slice(this._renderedRange.start, this._renderedRange.end);\n      if (!this._differ) {\n        // Use a wrapper function for the `trackBy` so any new values are\n        // picked up automatically without having to recreate the differ.\n        this._differ = this._differs.find(this._renderedItems).create((index, item) => {\n          return this.cdkVirtualForTrackBy ? this.cdkVirtualForTrackBy(index, item) : item;\n        });\n      }\n      this._needsUpdate = true;\n    }\n    /** Swap out one `DataSource` for another. */\n    _changeDataSource(oldDs, newDs) {\n      if (oldDs) {\n        oldDs.disconnect(this);\n      }\n      this._needsUpdate = true;\n      return newDs ? newDs.connect(this) : of();\n    }\n    /** Update the `CdkVirtualForOfContext` for all views. */\n    _updateContext() {\n      const count = this._data.length;\n      let i = this._viewContainerRef.length;\n      while (i--) {\n        const view = this._viewContainerRef.get(i);\n        view.context.index = this._renderedRange.start + i;\n        view.context.count = count;\n        this._updateComputedContextProperties(view.context);\n        view.detectChanges();\n      }\n    }\n    /** Apply changes to the DOM. */\n    _applyChanges(changes) {\n      this._viewRepeater.applyChanges(changes, this._viewContainerRef, (record, _adjustedPreviousIndex, currentIndex) => this._getEmbeddedViewArgs(record, currentIndex), record => record.item);\n      // Update $implicit for any items that had an identity change.\n      changes.forEachIdentityChange(record => {\n        const view = this._viewContainerRef.get(record.currentIndex);\n        view.context.$implicit = record.item;\n      });\n      // Update the context variables on all items.\n      const count = this._data.length;\n      let i = this._viewContainerRef.length;\n      while (i--) {\n        const view = this._viewContainerRef.get(i);\n        view.context.index = this._renderedRange.start + i;\n        view.context.count = count;\n        this._updateComputedContextProperties(view.context);\n      }\n    }\n    /** Update the computed properties on the `CdkVirtualForOfContext`. */\n    _updateComputedContextProperties(context) {\n      context.first = context.index === 0;\n      context.last = context.index === context.count - 1;\n      context.even = context.index % 2 === 0;\n      context.odd = !context.even;\n    }\n    _getEmbeddedViewArgs(record, index) {\n      // Note that it's important that we insert the item directly at the proper index,\n      // rather than inserting it and the moving it in place, because if there's a directive\n      // on the same node that injects the `ViewContainerRef`, Angular will insert another\n      // comment node which can throw off the move when it's being repeated for all items.\n      return {\n        templateRef: this._template,\n        context: {\n          $implicit: record.item,\n          // It's guaranteed that the iterable is not \"undefined\" or \"null\" because we only\n          // generate views for elements if the \"cdkVirtualForOf\" iterable has elements.\n          cdkVirtualForOf: this._cdkVirtualForOf,\n          index: -1,\n          count: -1,\n          first: false,\n          last: false,\n          odd: false,\n          even: false\n        },\n        index\n      };\n    }\n    static {\n      this.ɵfac = function CdkVirtualForOf_Factory(t) {\n        return new (t || CdkVirtualForOf)(i0.ɵɵdirectiveInject(i0.ViewContainerRef), i0.ɵɵdirectiveInject(i0.TemplateRef), i0.ɵɵdirectiveInject(i0.IterableDiffers), i0.ɵɵdirectiveInject(_VIEW_REPEATER_STRATEGY), i0.ɵɵdirectiveInject(CdkVirtualScrollViewport, 4), i0.ɵɵdirectiveInject(i0.NgZone));\n      };\n    }\n    static {\n      this.ɵdir = /* @__PURE__ */i0.ɵɵdefineDirective({\n        type: CdkVirtualForOf,\n        selectors: [[\"\", \"cdkVirtualFor\", \"\", \"cdkVirtualForOf\", \"\"]],\n        inputs: {\n          cdkVirtualForOf: \"cdkVirtualForOf\",\n          cdkVirtualForTrackBy: \"cdkVirtualForTrackBy\",\n          cdkVirtualForTemplate: \"cdkVirtualForTemplate\",\n          cdkVirtualForTemplateCacheSize: \"cdkVirtualForTemplateCacheSize\"\n        },\n        standalone: true,\n        features: [i0.ɵɵProvidersFeature([{\n          provide: _VIEW_REPEATER_STRATEGY,\n          useClass: _RecycleViewRepeaterStrategy\n        }])]\n      });\n    }\n  }\n  return CdkVirtualForOf;\n})();\n/*#__PURE__*/(() => {\n  (typeof ngDevMode === \"undefined\" || ngDevMode) && void 0;\n})();\n\n/**\n * Provides a virtual scrollable for the element it is attached to.\n */\nlet CdkVirtualScrollableElement = /*#__PURE__*/(() => {\n  class CdkVirtualScrollableElement extends CdkVirtualScrollable {\n    constructor(elementRef, scrollDispatcher, ngZone, dir) {\n      super(elementRef, scrollDispatcher, ngZone, dir);\n    }\n    measureBoundingClientRectWithScrollOffset(from) {\n      return this.getElementRef().nativeElement.getBoundingClientRect()[from] - this.measureScrollOffset(from);\n    }\n    static {\n      this.ɵfac = function CdkVirtualScrollableElement_Factory(t) {\n        return new (t || CdkVirtualScrollableElement)(i0.ɵɵdirectiveInject(i0.ElementRef), i0.ɵɵdirectiveInject(ScrollDispatcher), i0.ɵɵdirectiveInject(i0.NgZone), i0.ɵɵdirectiveInject(i2.Directionality, 8));\n      };\n    }\n    static {\n      this.ɵdir = /* @__PURE__ */i0.ɵɵdefineDirective({\n        type: CdkVirtualScrollableElement,\n        selectors: [[\"\", \"cdkVirtualScrollingElement\", \"\"]],\n        hostAttrs: [1, \"cdk-virtual-scrollable\"],\n        standalone: true,\n        features: [i0.ɵɵProvidersFeature([{\n          provide: VIRTUAL_SCROLLABLE,\n          useExisting: CdkVirtualScrollableElement\n        }]), i0.ɵɵInheritDefinitionFeature]\n      });\n    }\n  }\n  return CdkVirtualScrollableElement;\n})();\n/*#__PURE__*/(() => {\n  (typeof ngDevMode === \"undefined\" || ngDevMode) && void 0;\n})();\n\n/**\n * Provides as virtual scrollable for the global / window scrollbar.\n */\nlet CdkVirtualScrollableWindow = /*#__PURE__*/(() => {\n  class CdkVirtualScrollableWindow extends CdkVirtualScrollable {\n    constructor(scrollDispatcher, ngZone, dir) {\n      super(new ElementRef(document.documentElement), scrollDispatcher, ngZone, dir);\n      this._elementScrolled = new Observable(observer => this.ngZone.runOutsideAngular(() => fromEvent(document, 'scroll').pipe(takeUntil(this._destroyed)).subscribe(observer)));\n    }\n    measureBoundingClientRectWithScrollOffset(from) {\n      return this.getElementRef().nativeElement.getBoundingClientRect()[from];\n    }\n    static {\n      this.ɵfac = function CdkVirtualScrollableWindow_Factory(t) {\n        return new (t || CdkVirtualScrollableWindow)(i0.ɵɵdirectiveInject(ScrollDispatcher), i0.ɵɵdirectiveInject(i0.NgZone), i0.ɵɵdirectiveInject(i2.Directionality, 8));\n      };\n    }\n    static {\n      this.ɵdir = /* @__PURE__ */i0.ɵɵdefineDirective({\n        type: CdkVirtualScrollableWindow,\n        selectors: [[\"cdk-virtual-scroll-viewport\", \"scrollWindow\", \"\"]],\n        standalone: true,\n        features: [i0.ɵɵProvidersFeature([{\n          provide: VIRTUAL_SCROLLABLE,\n          useExisting: CdkVirtualScrollableWindow\n        }]), i0.ɵɵInheritDefinitionFeature]\n      });\n    }\n  }\n  return CdkVirtualScrollableWindow;\n})();\n/*#__PURE__*/(() => {\n  (typeof ngDevMode === \"undefined\" || ngDevMode) && void 0;\n})();\nlet CdkScrollableModule = /*#__PURE__*/(() => {\n  class CdkScrollableModule {\n    static {\n      this.ɵfac = function CdkScrollableModule_Factory(t) {\n        return new (t || CdkScrollableModule)();\n      };\n    }\n    static {\n      this.ɵmod = /* @__PURE__ */i0.ɵɵdefineNgModule({\n        type: CdkScrollableModule\n      });\n    }\n    static {\n      this.ɵinj = /* @__PURE__ */i0.ɵɵdefineInjector({});\n    }\n  }\n  return CdkScrollableModule;\n})();\n/*#__PURE__*/(() => {\n  (typeof ngDevMode === \"undefined\" || ngDevMode) && void 0;\n})();\n/**\n * @docs-primary-export\n */\nlet ScrollingModule = /*#__PURE__*/(() => {\n  class ScrollingModule {\n    static {\n      this.ɵfac = function ScrollingModule_Factory(t) {\n        return new (t || ScrollingModule)();\n      };\n    }\n    static {\n      this.ɵmod = /* @__PURE__ */i0.ɵɵdefineNgModule({\n        type: ScrollingModule\n      });\n    }\n    static {\n      this.ɵinj = /* @__PURE__ */i0.ɵɵdefineInjector({\n        imports: [BidiModule, CdkScrollableModule, BidiModule, CdkScrollableModule]\n      });\n    }\n  }\n  return ScrollingModule;\n})();\n/*#__PURE__*/(() => {\n  (typeof ngDevMode === \"undefined\" || ngDevMode) && void 0;\n})();\n\n/**\n * Generated bundle index. Do not edit.\n */\n\nexport { CdkFixedSizeVirtualScroll, CdkScrollable, CdkScrollableModule, CdkVirtualForOf, CdkVirtualScrollViewport, CdkVirtualScrollable, CdkVirtualScrollableElement, CdkVirtualScrollableWindow, DEFAULT_RESIZE_TIME, DEFAULT_SCROLL_TIME, FixedSizeVirtualScrollStrategy, ScrollDispatcher, ScrollingModule, VIRTUAL_SCROLLABLE, VIRTUAL_SCROLL_STRATEGY, ViewportRuler, _fixedSizeVirtualScrollStrategyFactory };\n","import * as i0 from '@angular/core';\nimport { ElementRef, Injector, Directive, EventEmitter, Inject, Input, Output, NgModule } from '@angular/core';\nimport { DOCUMENT } from '@angular/common';\n\n/**\n * Throws an exception when attempting to attach a null portal to a host.\n * @docs-private\n */\nfunction throwNullPortalError() {\n  throw Error('Must provide a portal to attach');\n}\n/**\n * Throws an exception when attempting to attach a portal to a host that is already attached.\n * @docs-private\n */\nfunction throwPortalAlreadyAttachedError() {\n  throw Error('Host already has a portal attached');\n}\n/**\n * Throws an exception when attempting to attach a portal to an already-disposed host.\n * @docs-private\n */\nfunction throwPortalOutletAlreadyDisposedError() {\n  throw Error('This PortalOutlet has already been disposed');\n}\n/**\n * Throws an exception when attempting to attach an unknown portal type.\n * @docs-private\n */\nfunction throwUnknownPortalTypeError() {\n  throw Error('Attempting to attach an unknown Portal type. BasePortalOutlet accepts either ' + 'a ComponentPortal or a TemplatePortal.');\n}\n/**\n * Throws an exception when attempting to attach a portal to a null host.\n * @docs-private\n */\nfunction throwNullPortalOutletError() {\n  throw Error('Attempting to attach a portal to a null PortalOutlet');\n}\n/**\n * Throws an exception when attempting to detach a portal that is not attached.\n * @docs-private\n */\nfunction throwNoPortalAttachedError() {\n  throw Error('Attempting to detach a portal that is not attached to a host');\n}\n\n/**\n * A `Portal` is something that you want to render somewhere else.\n * It can be attach to / detached from a `PortalOutlet`.\n */\nclass Portal {\n  /** Attach this portal to a host. */\n  attach(host) {\n    if (typeof ngDevMode === 'undefined' || ngDevMode) {\n      if (host == null) {\n        throwNullPortalOutletError();\n      }\n      if (host.hasAttached()) {\n        throwPortalAlreadyAttachedError();\n      }\n    }\n    this._attachedHost = host;\n    return host.attach(this);\n  }\n  /** Detach this portal from its host */\n  detach() {\n    let host = this._attachedHost;\n    if (host != null) {\n      this._attachedHost = null;\n      host.detach();\n    } else if (typeof ngDevMode === 'undefined' || ngDevMode) {\n      throwNoPortalAttachedError();\n    }\n  }\n  /** Whether this portal is attached to a host. */\n  get isAttached() {\n    return this._attachedHost != null;\n  }\n  /**\n   * Sets the PortalOutlet reference without performing `attach()`. This is used directly by\n   * the PortalOutlet when it is performing an `attach()` or `detach()`.\n   */\n  setAttachedHost(host) {\n    this._attachedHost = host;\n  }\n}\n/**\n * A `ComponentPortal` is a portal that instantiates some Component upon attachment.\n */\nclass ComponentPortal extends Portal {\n  constructor(component, viewContainerRef, injector, componentFactoryResolver, projectableNodes) {\n    super();\n    this.component = component;\n    this.viewContainerRef = viewContainerRef;\n    this.injector = injector;\n    this.componentFactoryResolver = componentFactoryResolver;\n    this.projectableNodes = projectableNodes;\n  }\n}\n/**\n * A `TemplatePortal` is a portal that represents some embedded template (TemplateRef).\n */\nclass TemplatePortal extends Portal {\n  constructor( /** The embedded template that will be used to instantiate an embedded View in the host. */\n  templateRef, /** Reference to the ViewContainer into which the template will be stamped out. */\n  viewContainerRef, /** Contextual data to be passed in to the embedded view. */\n  context, /** The injector to use for the embedded view. */\n  injector) {\n    super();\n    this.templateRef = templateRef;\n    this.viewContainerRef = viewContainerRef;\n    this.context = context;\n    this.injector = injector;\n  }\n  get origin() {\n    return this.templateRef.elementRef;\n  }\n  /**\n   * Attach the portal to the provided `PortalOutlet`.\n   * When a context is provided it will override the `context` property of the `TemplatePortal`\n   * instance.\n   */\n  attach(host, context = this.context) {\n    this.context = context;\n    return super.attach(host);\n  }\n  detach() {\n    this.context = undefined;\n    return super.detach();\n  }\n}\n/**\n * A `DomPortal` is a portal whose DOM element will be taken from its current position\n * in the DOM and moved into a portal outlet, when it is attached. On detach, the content\n * will be restored to its original position.\n */\nclass DomPortal extends Portal {\n  constructor(element) {\n    super();\n    this.element = element instanceof ElementRef ? element.nativeElement : element;\n  }\n}\n/**\n * Partial implementation of PortalOutlet that handles attaching\n * ComponentPortal and TemplatePortal.\n */\nclass BasePortalOutlet {\n  constructor() {\n    /** Whether this host has already been permanently disposed. */\n    this._isDisposed = false;\n    // @breaking-change 10.0.0 `attachDomPortal` to become a required abstract method.\n    this.attachDomPortal = null;\n  }\n  /** Whether this host has an attached portal. */\n  hasAttached() {\n    return !!this._attachedPortal;\n  }\n  /** Attaches a portal. */\n  attach(portal) {\n    if (typeof ngDevMode === 'undefined' || ngDevMode) {\n      if (!portal) {\n        throwNullPortalError();\n      }\n      if (this.hasAttached()) {\n        throwPortalAlreadyAttachedError();\n      }\n      if (this._isDisposed) {\n        throwPortalOutletAlreadyDisposedError();\n      }\n    }\n    if (portal instanceof ComponentPortal) {\n      this._attachedPortal = portal;\n      return this.attachComponentPortal(portal);\n    } else if (portal instanceof TemplatePortal) {\n      this._attachedPortal = portal;\n      return this.attachTemplatePortal(portal);\n      // @breaking-change 10.0.0 remove null check for `this.attachDomPortal`.\n    } else if (this.attachDomPortal && portal instanceof DomPortal) {\n      this._attachedPortal = portal;\n      return this.attachDomPortal(portal);\n    }\n    if (typeof ngDevMode === 'undefined' || ngDevMode) {\n      throwUnknownPortalTypeError();\n    }\n  }\n  /** Detaches a previously attached portal. */\n  detach() {\n    if (this._attachedPortal) {\n      this._attachedPortal.setAttachedHost(null);\n      this._attachedPortal = null;\n    }\n    this._invokeDisposeFn();\n  }\n  /** Permanently dispose of this portal host. */\n  dispose() {\n    if (this.hasAttached()) {\n      this.detach();\n    }\n    this._invokeDisposeFn();\n    this._isDisposed = true;\n  }\n  /** @docs-private */\n  setDisposeFn(fn) {\n    this._disposeFn = fn;\n  }\n  _invokeDisposeFn() {\n    if (this._disposeFn) {\n      this._disposeFn();\n      this._disposeFn = null;\n    }\n  }\n}\n/**\n * @deprecated Use `BasePortalOutlet` instead.\n * @breaking-change 9.0.0\n */\nclass BasePortalHost extends BasePortalOutlet {}\n\n/**\n * A PortalOutlet for attaching portals to an arbitrary DOM element outside of the Angular\n * application context.\n */\nclass DomPortalOutlet extends BasePortalOutlet {\n  /**\n   * @param outletElement Element into which the content is projected.\n   * @param _componentFactoryResolver Used to resolve the component factory.\n   *   Only required when attaching component portals.\n   * @param _appRef Reference to the application. Only used in component portals when there\n   *   is no `ViewContainerRef` available.\n   * @param _defaultInjector Injector to use as a fallback when the portal being attached doesn't\n   *   have one. Only used for component portals.\n   * @param _document Reference to the document. Used when attaching a DOM portal. Will eventually\n   *   become a required parameter.\n   */\n  constructor( /** Element into which the content is projected. */\n  outletElement, _componentFactoryResolver, _appRef, _defaultInjector,\n  /**\n   * @deprecated `_document` Parameter to be made required.\n   * @breaking-change 10.0.0\n   */\n  _document) {\n    super();\n    this.outletElement = outletElement;\n    this._componentFactoryResolver = _componentFactoryResolver;\n    this._appRef = _appRef;\n    this._defaultInjector = _defaultInjector;\n    /**\n     * Attaches a DOM portal by transferring its content into the outlet.\n     * @param portal Portal to be attached.\n     * @deprecated To be turned into a method.\n     * @breaking-change 10.0.0\n     */\n    this.attachDomPortal = portal => {\n      // @breaking-change 10.0.0 Remove check and error once the\n      // `_document` constructor parameter is required.\n      if (!this._document && (typeof ngDevMode === 'undefined' || ngDevMode)) {\n        throw Error('Cannot attach DOM portal without _document constructor parameter');\n      }\n      const element = portal.element;\n      if (!element.parentNode && (typeof ngDevMode === 'undefined' || ngDevMode)) {\n        throw Error('DOM portal content must be attached to a parent node.');\n      }\n      // Anchor used to save the element's previous position so\n      // that we can restore it when the portal is detached.\n      const anchorNode = this._document.createComment('dom-portal');\n      element.parentNode.insertBefore(anchorNode, element);\n      this.outletElement.appendChild(element);\n      this._attachedPortal = portal;\n      super.setDisposeFn(() => {\n        // We can't use `replaceWith` here because IE doesn't support it.\n        if (anchorNode.parentNode) {\n          anchorNode.parentNode.replaceChild(element, anchorNode);\n        }\n      });\n    };\n    this._document = _document;\n  }\n  /**\n   * Attach the given ComponentPortal to DOM element using the ComponentFactoryResolver.\n   * @param portal Portal to be attached\n   * @returns Reference to the created component.\n   */\n  attachComponentPortal(portal) {\n    const resolver = portal.componentFactoryResolver || this._componentFactoryResolver;\n    if ((typeof ngDevMode === 'undefined' || ngDevMode) && !resolver) {\n      throw Error('Cannot attach component portal to outlet without a ComponentFactoryResolver.');\n    }\n    const componentFactory = resolver.resolveComponentFactory(portal.component);\n    let componentRef;\n    // If the portal specifies a ViewContainerRef, we will use that as the attachment point\n    // for the component (in terms of Angular's component tree, not rendering).\n    // When the ViewContainerRef is missing, we use the factory to create the component directly\n    // and then manually attach the view to the application.\n    if (portal.viewContainerRef) {\n      componentRef = portal.viewContainerRef.createComponent(componentFactory, portal.viewContainerRef.length, portal.injector || portal.viewContainerRef.injector, portal.projectableNodes || undefined);\n      this.setDisposeFn(() => componentRef.destroy());\n    } else {\n      if ((typeof ngDevMode === 'undefined' || ngDevMode) && !this._appRef) {\n        throw Error('Cannot attach component portal to outlet without an ApplicationRef.');\n      }\n      componentRef = componentFactory.create(portal.injector || this._defaultInjector || Injector.NULL);\n      this._appRef.attachView(componentRef.hostView);\n      this.setDisposeFn(() => {\n        // Verify that the ApplicationRef has registered views before trying to detach a host view.\n        // This check also protects the `detachView` from being called on a destroyed ApplicationRef.\n        if (this._appRef.viewCount > 0) {\n          this._appRef.detachView(componentRef.hostView);\n        }\n        componentRef.destroy();\n      });\n    }\n    // At this point the component has been instantiated, so we move it to the location in the DOM\n    // where we want it to be rendered.\n    this.outletElement.appendChild(this._getComponentRootNode(componentRef));\n    this._attachedPortal = portal;\n    return componentRef;\n  }\n  /**\n   * Attaches a template portal to the DOM as an embedded view.\n   * @param portal Portal to be attached.\n   * @returns Reference to the created embedded view.\n   */\n  attachTemplatePortal(portal) {\n    let viewContainer = portal.viewContainerRef;\n    let viewRef = viewContainer.createEmbeddedView(portal.templateRef, portal.context, {\n      injector: portal.injector\n    });\n    // The method `createEmbeddedView` will add the view as a child of the viewContainer.\n    // But for the DomPortalOutlet the view can be added everywhere in the DOM\n    // (e.g Overlay Container) To move the view to the specified host element. We just\n    // re-append the existing root nodes.\n    viewRef.rootNodes.forEach(rootNode => this.outletElement.appendChild(rootNode));\n    // Note that we want to detect changes after the nodes have been moved so that\n    // any directives inside the portal that are looking at the DOM inside a lifecycle\n    // hook won't be invoked too early.\n    viewRef.detectChanges();\n    this.setDisposeFn(() => {\n      let index = viewContainer.indexOf(viewRef);\n      if (index !== -1) {\n        viewContainer.remove(index);\n      }\n    });\n    this._attachedPortal = portal;\n    // TODO(jelbourn): Return locals from view.\n    return viewRef;\n  }\n  /**\n   * Clears out a portal from the DOM.\n   */\n  dispose() {\n    super.dispose();\n    this.outletElement.remove();\n  }\n  /** Gets the root HTMLElement for an instantiated component. */\n  _getComponentRootNode(componentRef) {\n    return componentRef.hostView.rootNodes[0];\n  }\n}\n/**\n * @deprecated Use `DomPortalOutlet` instead.\n * @breaking-change 9.0.0\n */\nclass DomPortalHost extends DomPortalOutlet {}\n\n/**\n * Directive version of a `TemplatePortal`. Because the directive *is* a TemplatePortal,\n * the directive instance itself can be attached to a host, enabling declarative use of portals.\n */\nlet CdkPortal = /*#__PURE__*/(() => {\n  class CdkPortal extends TemplatePortal {\n    constructor(templateRef, viewContainerRef) {\n      super(templateRef, viewContainerRef);\n    }\n    static {\n      this.ɵfac = function CdkPortal_Factory(t) {\n        return new (t || CdkPortal)(i0.ɵɵdirectiveInject(i0.TemplateRef), i0.ɵɵdirectiveInject(i0.ViewContainerRef));\n      };\n    }\n    static {\n      this.ɵdir = /* @__PURE__ */i0.ɵɵdefineDirective({\n        type: CdkPortal,\n        selectors: [[\"\", \"cdkPortal\", \"\"]],\n        exportAs: [\"cdkPortal\"],\n        standalone: true,\n        features: [i0.ɵɵInheritDefinitionFeature]\n      });\n    }\n  }\n  return CdkPortal;\n})();\n/*#__PURE__*/(() => {\n  (typeof ngDevMode === \"undefined\" || ngDevMode) && void 0;\n})();\n/**\n * @deprecated Use `CdkPortal` instead.\n * @breaking-change 9.0.0\n */\nlet TemplatePortalDirective = /*#__PURE__*/(() => {\n  class TemplatePortalDirective extends CdkPortal {\n    static {\n      this.ɵfac = /* @__PURE__ */(() => {\n        let ɵTemplatePortalDirective_BaseFactory;\n        return function TemplatePortalDirective_Factory(t) {\n          return (ɵTemplatePortalDirective_BaseFactory || (ɵTemplatePortalDirective_BaseFactory = i0.ɵɵgetInheritedFactory(TemplatePortalDirective)))(t || TemplatePortalDirective);\n        };\n      })();\n    }\n    static {\n      this.ɵdir = /* @__PURE__ */i0.ɵɵdefineDirective({\n        type: TemplatePortalDirective,\n        selectors: [[\"\", \"cdk-portal\", \"\"], [\"\", \"portal\", \"\"]],\n        exportAs: [\"cdkPortal\"],\n        standalone: true,\n        features: [i0.ɵɵProvidersFeature([{\n          provide: CdkPortal,\n          useExisting: TemplatePortalDirective\n        }]), i0.ɵɵInheritDefinitionFeature]\n      });\n    }\n  }\n  return TemplatePortalDirective;\n})();\n/*#__PURE__*/(() => {\n  (typeof ngDevMode === \"undefined\" || ngDevMode) && void 0;\n})();\n/**\n * Directive version of a PortalOutlet. Because the directive *is* a PortalOutlet, portals can be\n * directly attached to it, enabling declarative use.\n *\n * Usage:\n * `<ng-template [cdkPortalOutlet]=\"greeting\"></ng-template>`\n */\nlet CdkPortalOutlet = /*#__PURE__*/(() => {\n  class CdkPortalOutlet extends BasePortalOutlet {\n    constructor(_componentFactoryResolver, _viewContainerRef,\n    /**\n     * @deprecated `_document` parameter to be made required.\n     * @breaking-change 9.0.0\n     */\n    _document) {\n      super();\n      this._componentFactoryResolver = _componentFactoryResolver;\n      this._viewContainerRef = _viewContainerRef;\n      /** Whether the portal component is initialized. */\n      this._isInitialized = false;\n      /** Emits when a portal is attached to the outlet. */\n      this.attached = new EventEmitter();\n      /**\n       * Attaches the given DomPortal to this PortalHost by moving all of the portal content into it.\n       * @param portal Portal to be attached.\n       * @deprecated To be turned into a method.\n       * @breaking-change 10.0.0\n       */\n      this.attachDomPortal = portal => {\n        // @breaking-change 9.0.0 Remove check and error once the\n        // `_document` constructor parameter is required.\n        if (!this._document && (typeof ngDevMode === 'undefined' || ngDevMode)) {\n          throw Error('Cannot attach DOM portal without _document constructor parameter');\n        }\n        const element = portal.element;\n        if (!element.parentNode && (typeof ngDevMode === 'undefined' || ngDevMode)) {\n          throw Error('DOM portal content must be attached to a parent node.');\n        }\n        // Anchor used to save the element's previous position so\n        // that we can restore it when the portal is detached.\n        const anchorNode = this._document.createComment('dom-portal');\n        portal.setAttachedHost(this);\n        element.parentNode.insertBefore(anchorNode, element);\n        this._getRootNode().appendChild(element);\n        this._attachedPortal = portal;\n        super.setDisposeFn(() => {\n          if (anchorNode.parentNode) {\n            anchorNode.parentNode.replaceChild(element, anchorNode);\n          }\n        });\n      };\n      this._document = _document;\n    }\n    /** Portal associated with the Portal outlet. */\n    get portal() {\n      return this._attachedPortal;\n    }\n    set portal(portal) {\n      // Ignore the cases where the `portal` is set to a falsy value before the lifecycle hooks have\n      // run. This handles the cases where the user might do something like `<div cdkPortalOutlet>`\n      // and attach a portal programmatically in the parent component. When Angular does the first CD\n      // round, it will fire the setter with empty string, causing the user's content to be cleared.\n      if (this.hasAttached() && !portal && !this._isInitialized) {\n        return;\n      }\n      if (this.hasAttached()) {\n        super.detach();\n      }\n      if (portal) {\n        super.attach(portal);\n      }\n      this._attachedPortal = portal || null;\n    }\n    /** Component or view reference that is attached to the portal. */\n    get attachedRef() {\n      return this._attachedRef;\n    }\n    ngOnInit() {\n      this._isInitialized = true;\n    }\n    ngOnDestroy() {\n      super.dispose();\n      this._attachedRef = this._attachedPortal = null;\n    }\n    /**\n     * Attach the given ComponentPortal to this PortalOutlet using the ComponentFactoryResolver.\n     *\n     * @param portal Portal to be attached to the portal outlet.\n     * @returns Reference to the created component.\n     */\n    attachComponentPortal(portal) {\n      portal.setAttachedHost(this);\n      // If the portal specifies an origin, use that as the logical location of the component\n      // in the application tree. Otherwise use the location of this PortalOutlet.\n      const viewContainerRef = portal.viewContainerRef != null ? portal.viewContainerRef : this._viewContainerRef;\n      const resolver = portal.componentFactoryResolver || this._componentFactoryResolver;\n      const componentFactory = resolver.resolveComponentFactory(portal.component);\n      const ref = viewContainerRef.createComponent(componentFactory, viewContainerRef.length, portal.injector || viewContainerRef.injector, portal.projectableNodes || undefined);\n      // If we're using a view container that's different from the injected one (e.g. when the portal\n      // specifies its own) we need to move the component into the outlet, otherwise it'll be rendered\n      // inside of the alternate view container.\n      if (viewContainerRef !== this._viewContainerRef) {\n        this._getRootNode().appendChild(ref.hostView.rootNodes[0]);\n      }\n      super.setDisposeFn(() => ref.destroy());\n      this._attachedPortal = portal;\n      this._attachedRef = ref;\n      this.attached.emit(ref);\n      return ref;\n    }\n    /**\n     * Attach the given TemplatePortal to this PortalHost as an embedded View.\n     * @param portal Portal to be attached.\n     * @returns Reference to the created embedded view.\n     */\n    attachTemplatePortal(portal) {\n      portal.setAttachedHost(this);\n      const viewRef = this._viewContainerRef.createEmbeddedView(portal.templateRef, portal.context, {\n        injector: portal.injector\n      });\n      super.setDisposeFn(() => this._viewContainerRef.clear());\n      this._attachedPortal = portal;\n      this._attachedRef = viewRef;\n      this.attached.emit(viewRef);\n      return viewRef;\n    }\n    /** Gets the root node of the portal outlet. */\n    _getRootNode() {\n      const nativeElement = this._viewContainerRef.element.nativeElement;\n      // The directive could be set on a template which will result in a comment\n      // node being the root. Use the comment's parent node if that is the case.\n      return nativeElement.nodeType === nativeElement.ELEMENT_NODE ? nativeElement : nativeElement.parentNode;\n    }\n    static {\n      this.ɵfac = function CdkPortalOutlet_Factory(t) {\n        return new (t || CdkPortalOutlet)(i0.ɵɵdirectiveInject(i0.ComponentFactoryResolver), i0.ɵɵdirectiveInject(i0.ViewContainerRef), i0.ɵɵdirectiveInject(DOCUMENT));\n      };\n    }\n    static {\n      this.ɵdir = /* @__PURE__ */i0.ɵɵdefineDirective({\n        type: CdkPortalOutlet,\n        selectors: [[\"\", \"cdkPortalOutlet\", \"\"]],\n        inputs: {\n          portal: [i0.ɵɵInputFlags.None, \"cdkPortalOutlet\", \"portal\"]\n        },\n        outputs: {\n          attached: \"attached\"\n        },\n        exportAs: [\"cdkPortalOutlet\"],\n        standalone: true,\n        features: [i0.ɵɵInheritDefinitionFeature]\n      });\n    }\n  }\n  return CdkPortalOutlet;\n})();\n/*#__PURE__*/(() => {\n  (typeof ngDevMode === \"undefined\" || ngDevMode) && void 0;\n})();\n/**\n * @deprecated Use `CdkPortalOutlet` instead.\n * @breaking-change 9.0.0\n */\nlet PortalHostDirective = /*#__PURE__*/(() => {\n  class PortalHostDirective extends CdkPortalOutlet {\n    static {\n      this.ɵfac = /* @__PURE__ */(() => {\n        let ɵPortalHostDirective_BaseFactory;\n        return function PortalHostDirective_Factory(t) {\n          return (ɵPortalHostDirective_BaseFactory || (ɵPortalHostDirective_BaseFactory = i0.ɵɵgetInheritedFactory(PortalHostDirective)))(t || PortalHostDirective);\n        };\n      })();\n    }\n    static {\n      this.ɵdir = /* @__PURE__ */i0.ɵɵdefineDirective({\n        type: PortalHostDirective,\n        selectors: [[\"\", \"cdkPortalHost\", \"\"], [\"\", \"portalHost\", \"\"]],\n        inputs: {\n          portal: [i0.ɵɵInputFlags.None, \"cdkPortalHost\", \"portal\"]\n        },\n        exportAs: [\"cdkPortalHost\"],\n        standalone: true,\n        features: [i0.ɵɵProvidersFeature([{\n          provide: CdkPortalOutlet,\n          useExisting: PortalHostDirective\n        }]), i0.ɵɵInheritDefinitionFeature]\n      });\n    }\n  }\n  return PortalHostDirective;\n})();\n/*#__PURE__*/(() => {\n  (typeof ngDevMode === \"undefined\" || ngDevMode) && void 0;\n})();\nlet PortalModule = /*#__PURE__*/(() => {\n  class PortalModule {\n    static {\n      this.ɵfac = function PortalModule_Factory(t) {\n        return new (t || PortalModule)();\n      };\n    }\n    static {\n      this.ɵmod = /* @__PURE__ */i0.ɵɵdefineNgModule({\n        type: PortalModule\n      });\n    }\n    static {\n      this.ɵinj = /* @__PURE__ */i0.ɵɵdefineInjector({});\n    }\n  }\n  return PortalModule;\n})();\n/*#__PURE__*/(() => {\n  (typeof ngDevMode === \"undefined\" || ngDevMode) && void 0;\n})();\n\n/**\n * Custom injector to be used when providing custom\n * injection tokens to components inside a portal.\n * @docs-private\n * @deprecated Use `Injector.create` instead.\n * @breaking-change 11.0.0\n */\nclass PortalInjector {\n  constructor(_parentInjector, _customTokens) {\n    this._parentInjector = _parentInjector;\n    this._customTokens = _customTokens;\n  }\n  get(token, notFoundValue) {\n    const value = this._customTokens.get(token);\n    if (typeof value !== 'undefined') {\n      return value;\n    }\n    return this._parentInjector.get(token, notFoundValue);\n  }\n}\n\n/**\n * Generated bundle index. Do not edit.\n */\n\nexport { BasePortalHost, BasePortalOutlet, CdkPortal, CdkPortalOutlet, ComponentPortal, DomPortal, DomPortalHost, DomPortalOutlet, Portal, PortalHostDirective, PortalInjector, PortalModule, TemplatePortal, TemplatePortalDirective };\n","import * as i1 from '@angular/cdk/scrolling';\nimport { ScrollingModule } from '@angular/cdk/scrolling';\nexport { CdkScrollable, ScrollDispatcher, ViewportRuler } from '@angular/cdk/scrolling';\nimport * as i6 from '@angular/common';\nimport { DOCUMENT } from '@angular/common';\nimport * as i0 from '@angular/core';\nimport { Injectable, Inject, Optional, ElementRef, ApplicationRef, ANIMATION_MODULE_TYPE, InjectionToken, inject, Directive, NgZone, EventEmitter, booleanAttribute, Input, Output, NgModule } from '@angular/core';\nimport { coerceCssPixelValue, coerceArray } from '@angular/cdk/coercion';\nimport * as i1$1 from '@angular/cdk/platform';\nimport { supportsScrollBehavior, _getEventTarget, _isTestEnvironment } from '@angular/cdk/platform';\nimport { filter, take, takeUntil, takeWhile } from 'rxjs/operators';\nimport * as i5 from '@angular/cdk/bidi';\nimport { BidiModule } from '@angular/cdk/bidi';\nimport { DomPortalOutlet, TemplatePortal, PortalModule } from '@angular/cdk/portal';\nimport { Subject, Subscription, merge } from 'rxjs';\nimport { ESCAPE, hasModifierKey } from '@angular/cdk/keycodes';\nconst scrollBehaviorSupported = /*#__PURE__*/supportsScrollBehavior();\n/**\n * Strategy that will prevent the user from scrolling while the overlay is visible.\n */\nclass BlockScrollStrategy {\n  constructor(_viewportRuler, document) {\n    this._viewportRuler = _viewportRuler;\n    this._previousHTMLStyles = {\n      top: '',\n      left: ''\n    };\n    this._isEnabled = false;\n    this._document = document;\n  }\n  /** Attaches this scroll strategy to an overlay. */\n  attach() {}\n  /** Blocks page-level scroll while the attached overlay is open. */\n  enable() {\n    if (this._canBeEnabled()) {\n      const root = this._document.documentElement;\n      this._previousScrollPosition = this._viewportRuler.getViewportScrollPosition();\n      // Cache the previous inline styles in case the user had set them.\n      this._previousHTMLStyles.left = root.style.left || '';\n      this._previousHTMLStyles.top = root.style.top || '';\n      // Note: we're using the `html` node, instead of the `body`, because the `body` may\n      // have the user agent margin, whereas the `html` is guaranteed not to have one.\n      root.style.left = coerceCssPixelValue(-this._previousScrollPosition.left);\n      root.style.top = coerceCssPixelValue(-this._previousScrollPosition.top);\n      root.classList.add('cdk-global-scrollblock');\n      this._isEnabled = true;\n    }\n  }\n  /** Unblocks page-level scroll while the attached overlay is open. */\n  disable() {\n    if (this._isEnabled) {\n      const html = this._document.documentElement;\n      const body = this._document.body;\n      const htmlStyle = html.style;\n      const bodyStyle = body.style;\n      const previousHtmlScrollBehavior = htmlStyle.scrollBehavior || '';\n      const previousBodyScrollBehavior = bodyStyle.scrollBehavior || '';\n      this._isEnabled = false;\n      htmlStyle.left = this._previousHTMLStyles.left;\n      htmlStyle.top = this._previousHTMLStyles.top;\n      html.classList.remove('cdk-global-scrollblock');\n      // Disable user-defined smooth scrolling temporarily while we restore the scroll position.\n      // See https://developer.mozilla.org/en-US/docs/Web/CSS/scroll-behavior\n      // Note that we don't mutate the property if the browser doesn't support `scroll-behavior`,\n      // because it can throw off feature detections in `supportsScrollBehavior` which\n      // checks for `'scrollBehavior' in documentElement.style`.\n      if (scrollBehaviorSupported) {\n        htmlStyle.scrollBehavior = bodyStyle.scrollBehavior = 'auto';\n      }\n      window.scroll(this._previousScrollPosition.left, this._previousScrollPosition.top);\n      if (scrollBehaviorSupported) {\n        htmlStyle.scrollBehavior = previousHtmlScrollBehavior;\n        bodyStyle.scrollBehavior = previousBodyScrollBehavior;\n      }\n    }\n  }\n  _canBeEnabled() {\n    // Since the scroll strategies can't be singletons, we have to use a global CSS class\n    // (`cdk-global-scrollblock`) to make sure that we don't try to disable global\n    // scrolling multiple times.\n    const html = this._document.documentElement;\n    if (html.classList.contains('cdk-global-scrollblock') || this._isEnabled) {\n      return false;\n    }\n    const body = this._document.body;\n    const viewport = this._viewportRuler.getViewportSize();\n    return body.scrollHeight > viewport.height || body.scrollWidth > viewport.width;\n  }\n}\n\n/**\n * Returns an error to be thrown when attempting to attach an already-attached scroll strategy.\n */\nfunction getMatScrollStrategyAlreadyAttachedError() {\n  return Error(`Scroll strategy has already been attached.`);\n}\n\n/**\n * Strategy that will close the overlay as soon as the user starts scrolling.\n */\nclass CloseScrollStrategy {\n  constructor(_scrollDispatcher, _ngZone, _viewportRuler, _config) {\n    this._scrollDispatcher = _scrollDispatcher;\n    this._ngZone = _ngZone;\n    this._viewportRuler = _viewportRuler;\n    this._config = _config;\n    this._scrollSubscription = null;\n    /** Detaches the overlay ref and disables the scroll strategy. */\n    this._detach = () => {\n      this.disable();\n      if (this._overlayRef.hasAttached()) {\n        this._ngZone.run(() => this._overlayRef.detach());\n      }\n    };\n  }\n  /** Attaches this scroll strategy to an overlay. */\n  attach(overlayRef) {\n    if (this._overlayRef && (typeof ngDevMode === 'undefined' || ngDevMode)) {\n      throw getMatScrollStrategyAlreadyAttachedError();\n    }\n    this._overlayRef = overlayRef;\n  }\n  /** Enables the closing of the attached overlay on scroll. */\n  enable() {\n    if (this._scrollSubscription) {\n      return;\n    }\n    const stream = this._scrollDispatcher.scrolled(0).pipe(filter(scrollable => {\n      return !scrollable || !this._overlayRef.overlayElement.contains(scrollable.getElementRef().nativeElement);\n    }));\n    if (this._config && this._config.threshold && this._config.threshold > 1) {\n      this._initialScrollPosition = this._viewportRuler.getViewportScrollPosition().top;\n      this._scrollSubscription = stream.subscribe(() => {\n        const scrollPosition = this._viewportRuler.getViewportScrollPosition().top;\n        if (Math.abs(scrollPosition - this._initialScrollPosition) > this._config.threshold) {\n          this._detach();\n        } else {\n          this._overlayRef.updatePosition();\n        }\n      });\n    } else {\n      this._scrollSubscription = stream.subscribe(this._detach);\n    }\n  }\n  /** Disables the closing the attached overlay on scroll. */\n  disable() {\n    if (this._scrollSubscription) {\n      this._scrollSubscription.unsubscribe();\n      this._scrollSubscription = null;\n    }\n  }\n  detach() {\n    this.disable();\n    this._overlayRef = null;\n  }\n}\n\n/** Scroll strategy that doesn't do anything. */\nclass NoopScrollStrategy {\n  /** Does nothing, as this scroll strategy is a no-op. */\n  enable() {}\n  /** Does nothing, as this scroll strategy is a no-op. */\n  disable() {}\n  /** Does nothing, as this scroll strategy is a no-op. */\n  attach() {}\n}\n\n/**\n * Gets whether an element is scrolled outside of view by any of its parent scrolling containers.\n * @param element Dimensions of the element (from getBoundingClientRect)\n * @param scrollContainers Dimensions of element's scrolling containers (from getBoundingClientRect)\n * @returns Whether the element is scrolled out of view\n * @docs-private\n */\nfunction isElementScrolledOutsideView(element, scrollContainers) {\n  return scrollContainers.some(containerBounds => {\n    const outsideAbove = element.bottom < containerBounds.top;\n    const outsideBelow = element.top > containerBounds.bottom;\n    const outsideLeft = element.right < containerBounds.left;\n    const outsideRight = element.left > containerBounds.right;\n    return outsideAbove || outsideBelow || outsideLeft || outsideRight;\n  });\n}\n/**\n * Gets whether an element is clipped by any of its scrolling containers.\n * @param element Dimensions of the element (from getBoundingClientRect)\n * @param scrollContainers Dimensions of element's scrolling containers (from getBoundingClientRect)\n * @returns Whether the element is clipped\n * @docs-private\n */\nfunction isElementClippedByScrolling(element, scrollContainers) {\n  return scrollContainers.some(scrollContainerRect => {\n    const clippedAbove = element.top < scrollContainerRect.top;\n    const clippedBelow = element.bottom > scrollContainerRect.bottom;\n    const clippedLeft = element.left < scrollContainerRect.left;\n    const clippedRight = element.right > scrollContainerRect.right;\n    return clippedAbove || clippedBelow || clippedLeft || clippedRight;\n  });\n}\n\n/**\n * Strategy that will update the element position as the user is scrolling.\n */\nclass RepositionScrollStrategy {\n  constructor(_scrollDispatcher, _viewportRuler, _ngZone, _config) {\n    this._scrollDispatcher = _scrollDispatcher;\n    this._viewportRuler = _viewportRuler;\n    this._ngZone = _ngZone;\n    this._config = _config;\n    this._scrollSubscription = null;\n  }\n  /** Attaches this scroll strategy to an overlay. */\n  attach(overlayRef) {\n    if (this._overlayRef && (typeof ngDevMode === 'undefined' || ngDevMode)) {\n      throw getMatScrollStrategyAlreadyAttachedError();\n    }\n    this._overlayRef = overlayRef;\n  }\n  /** Enables repositioning of the attached overlay on scroll. */\n  enable() {\n    if (!this._scrollSubscription) {\n      const throttle = this._config ? this._config.scrollThrottle : 0;\n      this._scrollSubscription = this._scrollDispatcher.scrolled(throttle).subscribe(() => {\n        this._overlayRef.updatePosition();\n        // TODO(crisbeto): make `close` on by default once all components can handle it.\n        if (this._config && this._config.autoClose) {\n          const overlayRect = this._overlayRef.overlayElement.getBoundingClientRect();\n          const {\n            width,\n            height\n          } = this._viewportRuler.getViewportSize();\n          // TODO(crisbeto): include all ancestor scroll containers here once\n          // we have a way of exposing the trigger element to the scroll strategy.\n          const parentRects = [{\n            width,\n            height,\n            bottom: height,\n            right: width,\n            top: 0,\n            left: 0\n          }];\n          if (isElementScrolledOutsideView(overlayRect, parentRects)) {\n            this.disable();\n            this._ngZone.run(() => this._overlayRef.detach());\n          }\n        }\n      });\n    }\n  }\n  /** Disables repositioning of the attached overlay on scroll. */\n  disable() {\n    if (this._scrollSubscription) {\n      this._scrollSubscription.unsubscribe();\n      this._scrollSubscription = null;\n    }\n  }\n  detach() {\n    this.disable();\n    this._overlayRef = null;\n  }\n}\n\n/**\n * Options for how an overlay will handle scrolling.\n *\n * Users can provide a custom value for `ScrollStrategyOptions` to replace the default\n * behaviors. This class primarily acts as a factory for ScrollStrategy instances.\n */\nlet ScrollStrategyOptions = /*#__PURE__*/(() => {\n  class ScrollStrategyOptions {\n    constructor(_scrollDispatcher, _viewportRuler, _ngZone, document) {\n      this._scrollDispatcher = _scrollDispatcher;\n      this._viewportRuler = _viewportRuler;\n      this._ngZone = _ngZone;\n      /** Do nothing on scroll. */\n      this.noop = () => new NoopScrollStrategy();\n      /**\n       * Close the overlay as soon as the user scrolls.\n       * @param config Configuration to be used inside the scroll strategy.\n       */\n      this.close = config => new CloseScrollStrategy(this._scrollDispatcher, this._ngZone, this._viewportRuler, config);\n      /** Block scrolling. */\n      this.block = () => new BlockScrollStrategy(this._viewportRuler, this._document);\n      /**\n       * Update the overlay's position on scroll.\n       * @param config Configuration to be used inside the scroll strategy.\n       * Allows debouncing the reposition calls.\n       */\n      this.reposition = config => new RepositionScrollStrategy(this._scrollDispatcher, this._viewportRuler, this._ngZone, config);\n      this._document = document;\n    }\n    static {\n      this.ɵfac = function ScrollStrategyOptions_Factory(t) {\n        return new (t || ScrollStrategyOptions)(i0.ɵɵinject(i1.ScrollDispatcher), i0.ɵɵinject(i1.ViewportRuler), i0.ɵɵinject(i0.NgZone), i0.ɵɵinject(DOCUMENT));\n      };\n    }\n    static {\n      this.ɵprov = /* @__PURE__ */i0.ɵɵdefineInjectable({\n        token: ScrollStrategyOptions,\n        factory: ScrollStrategyOptions.ɵfac,\n        providedIn: 'root'\n      });\n    }\n  }\n  return ScrollStrategyOptions;\n})();\n/*#__PURE__*/(() => {\n  (typeof ngDevMode === \"undefined\" || ngDevMode) && void 0;\n})();\n\n/** Initial configuration used when creating an overlay. */\nclass OverlayConfig {\n  constructor(config) {\n    /** Strategy to be used when handling scroll events while the overlay is open. */\n    this.scrollStrategy = new NoopScrollStrategy();\n    /** Custom class to add to the overlay pane. */\n    this.panelClass = '';\n    /** Whether the overlay has a backdrop. */\n    this.hasBackdrop = false;\n    /** Custom class to add to the backdrop */\n    this.backdropClass = 'cdk-overlay-dark-backdrop';\n    /**\n     * Whether the overlay should be disposed of when the user goes backwards/forwards in history.\n     * Note that this usually doesn't include clicking on links (unless the user is using\n     * the `HashLocationStrategy`).\n     */\n    this.disposeOnNavigation = false;\n    if (config) {\n      // Use `Iterable` instead of `Array` because TypeScript, as of 3.6.3,\n      // loses the array generic type in the `for of`. But we *also* have to use `Array` because\n      // typescript won't iterate over an `Iterable` unless you compile with `--downlevelIteration`\n      const configKeys = Object.keys(config);\n      for (const key of configKeys) {\n        if (config[key] !== undefined) {\n          // TypeScript, as of version 3.5, sees the left-hand-side of this expression\n          // as \"I don't know *which* key this is, so the only valid value is the intersection\n          // of all the possible values.\" In this case, that happens to be `undefined`. TypeScript\n          // is not smart enough to see that the right-hand-side is actually an access of the same\n          // exact type with the same exact key, meaning that the value type must be identical.\n          // So we use `any` to work around this.\n          this[key] = config[key];\n        }\n      }\n    }\n  }\n}\n\n/** The points of the origin element and the overlay element to connect. */\nclass ConnectionPositionPair {\n  constructor(origin, overlay, /** Offset along the X axis. */\n  offsetX, /** Offset along the Y axis. */\n  offsetY, /** Class(es) to be applied to the panel while this position is active. */\n  panelClass) {\n    this.offsetX = offsetX;\n    this.offsetY = offsetY;\n    this.panelClass = panelClass;\n    this.originX = origin.originX;\n    this.originY = origin.originY;\n    this.overlayX = overlay.overlayX;\n    this.overlayY = overlay.overlayY;\n  }\n}\n/**\n * Set of properties regarding the position of the origin and overlay relative to the viewport\n * with respect to the containing Scrollable elements.\n *\n * The overlay and origin are clipped if any part of their bounding client rectangle exceeds the\n * bounds of any one of the strategy's Scrollable's bounding client rectangle.\n *\n * The overlay and origin are outside view if there is no overlap between their bounding client\n * rectangle and any one of the strategy's Scrollable's bounding client rectangle.\n *\n *       -----------                    -----------\n *       | outside |                    | clipped |\n *       |  view   |              --------------------------\n *       |         |              |     |         |        |\n *       ----------               |     -----------        |\n *  --------------------------    |                        |\n *  |                        |    |      Scrollable        |\n *  |                        |    |                        |\n *  |                        |     --------------------------\n *  |      Scrollable        |\n *  |                        |\n *  --------------------------\n *\n *  @docs-private\n */\nclass ScrollingVisibility {}\n/** The change event emitted by the strategy when a fallback position is used. */\nclass ConnectedOverlayPositionChange {\n  constructor( /** The position used as a result of this change. */\n  connectionPair, /** @docs-private */\n  scrollableViewProperties) {\n    this.connectionPair = connectionPair;\n    this.scrollableViewProperties = scrollableViewProperties;\n  }\n}\n/**\n * Validates whether a vertical position property matches the expected values.\n * @param property Name of the property being validated.\n * @param value Value of the property being validated.\n * @docs-private\n */\nfunction validateVerticalPosition(property, value) {\n  if (value !== 'top' && value !== 'bottom' && value !== 'center') {\n    throw Error(`ConnectedPosition: Invalid ${property} \"${value}\". ` + `Expected \"top\", \"bottom\" or \"center\".`);\n  }\n}\n/**\n * Validates whether a horizontal position property matches the expected values.\n * @param property Name of the property being validated.\n * @param value Value of the property being validated.\n * @docs-private\n */\nfunction validateHorizontalPosition(property, value) {\n  if (value !== 'start' && value !== 'end' && value !== 'center') {\n    throw Error(`ConnectedPosition: Invalid ${property} \"${value}\". ` + `Expected \"start\", \"end\" or \"center\".`);\n  }\n}\n\n/**\n * Service for dispatching events that land on the body to appropriate overlay ref,\n * if any. It maintains a list of attached overlays to determine best suited overlay based\n * on event target and order of overlay opens.\n */\nlet BaseOverlayDispatcher = /*#__PURE__*/(() => {\n  class BaseOverlayDispatcher {\n    constructor(document) {\n      /** Currently attached overlays in the order they were attached. */\n      this._attachedOverlays = [];\n      this._document = document;\n    }\n    ngOnDestroy() {\n      this.detach();\n    }\n    /** Add a new overlay to the list of attached overlay refs. */\n    add(overlayRef) {\n      // Ensure that we don't get the same overlay multiple times.\n      this.remove(overlayRef);\n      this._attachedOverlays.push(overlayRef);\n    }\n    /** Remove an overlay from the list of attached overlay refs. */\n    remove(overlayRef) {\n      const index = this._attachedOverlays.indexOf(overlayRef);\n      if (index > -1) {\n        this._attachedOverlays.splice(index, 1);\n      }\n      // Remove the global listener once there are no more overlays.\n      if (this._attachedOverlays.length === 0) {\n        this.detach();\n      }\n    }\n    static {\n      this.ɵfac = function BaseOverlayDispatcher_Factory(t) {\n        return new (t || BaseOverlayDispatcher)(i0.ɵɵinject(DOCUMENT));\n      };\n    }\n    static {\n      this.ɵprov = /* @__PURE__ */i0.ɵɵdefineInjectable({\n        token: BaseOverlayDispatcher,\n        factory: BaseOverlayDispatcher.ɵfac,\n        providedIn: 'root'\n      });\n    }\n  }\n  return BaseOverlayDispatcher;\n})();\n/*#__PURE__*/(() => {\n  (typeof ngDevMode === \"undefined\" || ngDevMode) && void 0;\n})();\n\n/**\n * Service for dispatching keyboard events that land on the body to appropriate overlay ref,\n * if any. It maintains a list of attached overlays to determine best suited overlay based\n * on event target and order of overlay opens.\n */\nlet OverlayKeyboardDispatcher = /*#__PURE__*/(() => {\n  class OverlayKeyboardDispatcher extends BaseOverlayDispatcher {\n    constructor(document, /** @breaking-change 14.0.0 _ngZone will be required. */\n    _ngZone) {\n      super(document);\n      this._ngZone = _ngZone;\n      /** Keyboard event listener that will be attached to the body. */\n      this._keydownListener = event => {\n        const overlays = this._attachedOverlays;\n        for (let i = overlays.length - 1; i > -1; i--) {\n          // Dispatch the keydown event to the top overlay which has subscribers to its keydown events.\n          // We want to target the most recent overlay, rather than trying to match where the event came\n          // from, because some components might open an overlay, but keep focus on a trigger element\n          // (e.g. for select and autocomplete). We skip overlays without keydown event subscriptions,\n          // because we don't want overlays that don't handle keyboard events to block the ones below\n          // them that do.\n          if (overlays[i]._keydownEvents.observers.length > 0) {\n            const keydownEvents = overlays[i]._keydownEvents;\n            /** @breaking-change 14.0.0 _ngZone will be required. */\n            if (this._ngZone) {\n              this._ngZone.run(() => keydownEvents.next(event));\n            } else {\n              keydownEvents.next(event);\n            }\n            break;\n          }\n        }\n      };\n    }\n    /** Add a new overlay to the list of attached overlay refs. */\n    add(overlayRef) {\n      super.add(overlayRef);\n      // Lazily start dispatcher once first overlay is added\n      if (!this._isAttached) {\n        /** @breaking-change 14.0.0 _ngZone will be required. */\n        if (this._ngZone) {\n          this._ngZone.runOutsideAngular(() => this._document.body.addEventListener('keydown', this._keydownListener));\n        } else {\n          this._document.body.addEventListener('keydown', this._keydownListener);\n        }\n        this._isAttached = true;\n      }\n    }\n    /** Detaches the global keyboard event listener. */\n    detach() {\n      if (this._isAttached) {\n        this._document.body.removeEventListener('keydown', this._keydownListener);\n        this._isAttached = false;\n      }\n    }\n    static {\n      this.ɵfac = function OverlayKeyboardDispatcher_Factory(t) {\n        return new (t || OverlayKeyboardDispatcher)(i0.ɵɵinject(DOCUMENT), i0.ɵɵinject(i0.NgZone, 8));\n      };\n    }\n    static {\n      this.ɵprov = /* @__PURE__ */i0.ɵɵdefineInjectable({\n        token: OverlayKeyboardDispatcher,\n        factory: OverlayKeyboardDispatcher.ɵfac,\n        providedIn: 'root'\n      });\n    }\n  }\n  return OverlayKeyboardDispatcher;\n})();\n/*#__PURE__*/(() => {\n  (typeof ngDevMode === \"undefined\" || ngDevMode) && void 0;\n})();\n\n/**\n * Service for dispatching mouse click events that land on the body to appropriate overlay ref,\n * if any. It maintains a list of attached overlays to determine best suited overlay based\n * on event target and order of overlay opens.\n */\nlet OverlayOutsideClickDispatcher = /*#__PURE__*/(() => {\n  class OverlayOutsideClickDispatcher extends BaseOverlayDispatcher {\n    constructor(document, _platform, /** @breaking-change 14.0.0 _ngZone will be required. */\n    _ngZone) {\n      super(document);\n      this._platform = _platform;\n      this._ngZone = _ngZone;\n      this._cursorStyleIsSet = false;\n      /** Store pointerdown event target to track origin of click. */\n      this._pointerDownListener = event => {\n        this._pointerDownEventTarget = _getEventTarget(event);\n      };\n      /** Click event listener that will be attached to the body propagate phase. */\n      this._clickListener = event => {\n        const target = _getEventTarget(event);\n        // In case of a click event, we want to check the origin of the click\n        // (e.g. in case where a user starts a click inside the overlay and\n        // releases the click outside of it).\n        // This is done by using the event target of the preceding pointerdown event.\n        // Every click event caused by a pointer device has a preceding pointerdown\n        // event, unless the click was programmatically triggered (e.g. in a unit test).\n        const origin = event.type === 'click' && this._pointerDownEventTarget ? this._pointerDownEventTarget : target;\n        // Reset the stored pointerdown event target, to avoid having it interfere\n        // in subsequent events.\n        this._pointerDownEventTarget = null;\n        // We copy the array because the original may be modified asynchronously if the\n        // outsidePointerEvents listener decides to detach overlays resulting in index errors inside\n        // the for loop.\n        const overlays = this._attachedOverlays.slice();\n        // Dispatch the mouse event to the top overlay which has subscribers to its mouse events.\n        // We want to target all overlays for which the click could be considered as outside click.\n        // As soon as we reach an overlay for which the click is not outside click we break off\n        // the loop.\n        for (let i = overlays.length - 1; i > -1; i--) {\n          const overlayRef = overlays[i];\n          if (overlayRef._outsidePointerEvents.observers.length < 1 || !overlayRef.hasAttached()) {\n            continue;\n          }\n          // If it's a click inside the overlay, just break - we should do nothing\n          // If it's an outside click (both origin and target of the click) dispatch the mouse event,\n          // and proceed with the next overlay\n          if (overlayRef.overlayElement.contains(target) || overlayRef.overlayElement.contains(origin)) {\n            break;\n          }\n          const outsidePointerEvents = overlayRef._outsidePointerEvents;\n          /** @breaking-change 14.0.0 _ngZone will be required. */\n          if (this._ngZone) {\n            this._ngZone.run(() => outsidePointerEvents.next(event));\n          } else {\n            outsidePointerEvents.next(event);\n          }\n        }\n      };\n    }\n    /** Add a new overlay to the list of attached overlay refs. */\n    add(overlayRef) {\n      super.add(overlayRef);\n      // Safari on iOS does not generate click events for non-interactive\n      // elements. However, we want to receive a click for any element outside\n      // the overlay. We can force a \"clickable\" state by setting\n      // `cursor: pointer` on the document body. See:\n      // https://developer.mozilla.org/en-US/docs/Web/API/Element/click_event#Safari_Mobile\n      // https://developer.apple.com/library/archive/documentation/AppleApplications/Reference/SafariWebContent/HandlingEvents/HandlingEvents.html\n      if (!this._isAttached) {\n        const body = this._document.body;\n        /** @breaking-change 14.0.0 _ngZone will be required. */\n        if (this._ngZone) {\n          this._ngZone.runOutsideAngular(() => this._addEventListeners(body));\n        } else {\n          this._addEventListeners(body);\n        }\n        // click event is not fired on iOS. To make element \"clickable\" we are\n        // setting the cursor to pointer\n        if (this._platform.IOS && !this._cursorStyleIsSet) {\n          this._cursorOriginalValue = body.style.cursor;\n          body.style.cursor = 'pointer';\n          this._cursorStyleIsSet = true;\n        }\n        this._isAttached = true;\n      }\n    }\n    /** Detaches the global keyboard event listener. */\n    detach() {\n      if (this._isAttached) {\n        const body = this._document.body;\n        body.removeEventListener('pointerdown', this._pointerDownListener, true);\n        body.removeEventListener('click', this._clickListener, true);\n        body.removeEventListener('auxclick', this._clickListener, true);\n        body.removeEventListener('contextmenu', this._clickListener, true);\n        if (this._platform.IOS && this._cursorStyleIsSet) {\n          body.style.cursor = this._cursorOriginalValue;\n          this._cursorStyleIsSet = false;\n        }\n        this._isAttached = false;\n      }\n    }\n    _addEventListeners(body) {\n      body.addEventListener('pointerdown', this._pointerDownListener, true);\n      body.addEventListener('click', this._clickListener, true);\n      body.addEventListener('auxclick', this._clickListener, true);\n      body.addEventListener('contextmenu', this._clickListener, true);\n    }\n    static {\n      this.ɵfac = function OverlayOutsideClickDispatcher_Factory(t) {\n        return new (t || OverlayOutsideClickDispatcher)(i0.ɵɵinject(DOCUMENT), i0.ɵɵinject(i1$1.Platform), i0.ɵɵinject(i0.NgZone, 8));\n      };\n    }\n    static {\n      this.ɵprov = /* @__PURE__ */i0.ɵɵdefineInjectable({\n        token: OverlayOutsideClickDispatcher,\n        factory: OverlayOutsideClickDispatcher.ɵfac,\n        providedIn: 'root'\n      });\n    }\n  }\n  return OverlayOutsideClickDispatcher;\n})();\n/*#__PURE__*/(() => {\n  (typeof ngDevMode === \"undefined\" || ngDevMode) && void 0;\n})();\n\n/** Container inside which all overlays will render. */\nlet OverlayContainer = /*#__PURE__*/(() => {\n  class OverlayContainer {\n    constructor(document, _platform) {\n      this._platform = _platform;\n      this._document = document;\n    }\n    ngOnDestroy() {\n      this._containerElement?.remove();\n    }\n    /**\n     * This method returns the overlay container element. It will lazily\n     * create the element the first time it is called to facilitate using\n     * the container in non-browser environments.\n     * @returns the container element\n     */\n    getContainerElement() {\n      if (!this._containerElement) {\n        this._createContainer();\n      }\n      return this._containerElement;\n    }\n    /**\n     * Create the overlay container element, which is simply a div\n     * with the 'cdk-overlay-container' class on the document body.\n     */\n    _createContainer() {\n      const containerClass = 'cdk-overlay-container';\n      // TODO(crisbeto): remove the testing check once we have an overlay testing\n      // module or Angular starts tearing down the testing `NgModule`. See:\n      // https://github.com/angular/angular/issues/18831\n      if (this._platform.isBrowser || _isTestEnvironment()) {\n        const oppositePlatformContainers = this._document.querySelectorAll(`.${containerClass}[platform=\"server\"], ` + `.${containerClass}[platform=\"test\"]`);\n        // Remove any old containers from the opposite platform.\n        // This can happen when transitioning from the server to the client.\n        for (let i = 0; i < oppositePlatformContainers.length; i++) {\n          oppositePlatformContainers[i].remove();\n        }\n      }\n      const container = this._document.createElement('div');\n      container.classList.add(containerClass);\n      // A long time ago we kept adding new overlay containers whenever a new app was instantiated,\n      // but at some point we added logic which clears the duplicate ones in order to avoid leaks.\n      // The new logic was a little too aggressive since it was breaking some legitimate use cases.\n      // To mitigate the problem we made it so that only containers from a different platform are\n      // cleared, but the side-effect was that people started depending on the overly-aggressive\n      // logic to clean up their tests for them. Until we can introduce an overlay-specific testing\n      // module which does the cleanup, we try to detect that we're in a test environment and we\n      // always clear the container. See #17006.\n      // TODO(crisbeto): remove the test environment check once we have an overlay testing module.\n      if (_isTestEnvironment()) {\n        container.setAttribute('platform', 'test');\n      } else if (!this._platform.isBrowser) {\n        container.setAttribute('platform', 'server');\n      }\n      this._document.body.appendChild(container);\n      this._containerElement = container;\n    }\n    static {\n      this.ɵfac = function OverlayContainer_Factory(t) {\n        return new (t || OverlayContainer)(i0.ɵɵinject(DOCUMENT), i0.ɵɵinject(i1$1.Platform));\n      };\n    }\n    static {\n      this.ɵprov = /* @__PURE__ */i0.ɵɵdefineInjectable({\n        token: OverlayContainer,\n        factory: OverlayContainer.ɵfac,\n        providedIn: 'root'\n      });\n    }\n  }\n  return OverlayContainer;\n})();\n/*#__PURE__*/(() => {\n  (typeof ngDevMode === \"undefined\" || ngDevMode) && void 0;\n})();\n\n/**\n * Reference to an overlay that has been created with the Overlay service.\n * Used to manipulate or dispose of said overlay.\n */\nclass OverlayRef {\n  constructor(_portalOutlet, _host, _pane, _config, _ngZone, _keyboardDispatcher, _document, _location, _outsideClickDispatcher, _animationsDisabled = false) {\n    this._portalOutlet = _portalOutlet;\n    this._host = _host;\n    this._pane = _pane;\n    this._config = _config;\n    this._ngZone = _ngZone;\n    this._keyboardDispatcher = _keyboardDispatcher;\n    this._document = _document;\n    this._location = _location;\n    this._outsideClickDispatcher = _outsideClickDispatcher;\n    this._animationsDisabled = _animationsDisabled;\n    this._backdropElement = null;\n    this._backdropClick = new Subject();\n    this._attachments = new Subject();\n    this._detachments = new Subject();\n    this._locationChanges = Subscription.EMPTY;\n    this._backdropClickHandler = event => this._backdropClick.next(event);\n    this._backdropTransitionendHandler = event => {\n      this._disposeBackdrop(event.target);\n    };\n    /** Stream of keydown events dispatched to this overlay. */\n    this._keydownEvents = new Subject();\n    /** Stream of mouse outside events dispatched to this overlay. */\n    this._outsidePointerEvents = new Subject();\n    if (_config.scrollStrategy) {\n      this._scrollStrategy = _config.scrollStrategy;\n      this._scrollStrategy.attach(this);\n    }\n    this._positionStrategy = _config.positionStrategy;\n  }\n  /** The overlay's HTML element */\n  get overlayElement() {\n    return this._pane;\n  }\n  /** The overlay's backdrop HTML element. */\n  get backdropElement() {\n    return this._backdropElement;\n  }\n  /**\n   * Wrapper around the panel element. Can be used for advanced\n   * positioning where a wrapper with specific styling is\n   * required around the overlay pane.\n   */\n  get hostElement() {\n    return this._host;\n  }\n  /**\n   * Attaches content, given via a Portal, to the overlay.\n   * If the overlay is configured to have a backdrop, it will be created.\n   *\n   * @param portal Portal instance to which to attach the overlay.\n   * @returns The portal attachment result.\n   */\n  attach(portal) {\n    // Insert the host into the DOM before attaching the portal, otherwise\n    // the animations module will skip animations on repeat attachments.\n    if (!this._host.parentElement && this._previousHostParent) {\n      this._previousHostParent.appendChild(this._host);\n    }\n    const attachResult = this._portalOutlet.attach(portal);\n    if (this._positionStrategy) {\n      this._positionStrategy.attach(this);\n    }\n    this._updateStackingOrder();\n    this._updateElementSize();\n    this._updateElementDirection();\n    if (this._scrollStrategy) {\n      this._scrollStrategy.enable();\n    }\n    // Update the position once the zone is stable so that the overlay will be fully rendered\n    // before attempting to position it, as the position may depend on the size of the rendered\n    // content.\n    this._ngZone.onStable.pipe(take(1)).subscribe(() => {\n      // The overlay could've been detached before the zone has stabilized.\n      if (this.hasAttached()) {\n        this.updatePosition();\n      }\n    });\n    // Enable pointer events for the overlay pane element.\n    this._togglePointerEvents(true);\n    if (this._config.hasBackdrop) {\n      this._attachBackdrop();\n    }\n    if (this._config.panelClass) {\n      this._toggleClasses(this._pane, this._config.panelClass, true);\n    }\n    // Only emit the `attachments` event once all other setup is done.\n    this._attachments.next();\n    // Track this overlay by the keyboard dispatcher\n    this._keyboardDispatcher.add(this);\n    if (this._config.disposeOnNavigation) {\n      this._locationChanges = this._location.subscribe(() => this.dispose());\n    }\n    this._outsideClickDispatcher.add(this);\n    // TODO(crisbeto): the null check is here, because the portal outlet returns `any`.\n    // We should be guaranteed for the result to be `ComponentRef | EmbeddedViewRef`, but\n    // `instanceof EmbeddedViewRef` doesn't appear to work at the moment.\n    if (typeof attachResult?.onDestroy === 'function') {\n      // In most cases we control the portal and we know when it is being detached so that\n      // we can finish the disposal process. The exception is if the user passes in a custom\n      // `ViewContainerRef` that isn't destroyed through the overlay API. Note that we use\n      // `detach` here instead of `dispose`, because we don't know if the user intends to\n      // reattach the overlay at a later point. It also has the advantage of waiting for animations.\n      attachResult.onDestroy(() => {\n        if (this.hasAttached()) {\n          // We have to delay the `detach` call, because detaching immediately prevents\n          // other destroy hooks from running. This is likely a framework bug similar to\n          // https://github.com/angular/angular/issues/46119\n          this._ngZone.runOutsideAngular(() => Promise.resolve().then(() => this.detach()));\n        }\n      });\n    }\n    return attachResult;\n  }\n  /**\n   * Detaches an overlay from a portal.\n   * @returns The portal detachment result.\n   */\n  detach() {\n    if (!this.hasAttached()) {\n      return;\n    }\n    this.detachBackdrop();\n    // When the overlay is detached, the pane element should disable pointer events.\n    // This is necessary because otherwise the pane element will cover the page and disable\n    // pointer events therefore. Depends on the position strategy and the applied pane boundaries.\n    this._togglePointerEvents(false);\n    if (this._positionStrategy && this._positionStrategy.detach) {\n      this._positionStrategy.detach();\n    }\n    if (this._scrollStrategy) {\n      this._scrollStrategy.disable();\n    }\n    const detachmentResult = this._portalOutlet.detach();\n    // Only emit after everything is detached.\n    this._detachments.next();\n    // Remove this overlay from keyboard dispatcher tracking.\n    this._keyboardDispatcher.remove(this);\n    // Keeping the host element in the DOM can cause scroll jank, because it still gets\n    // rendered, even though it's transparent and unclickable which is why we remove it.\n    this._detachContentWhenStable();\n    this._locationChanges.unsubscribe();\n    this._outsideClickDispatcher.remove(this);\n    return detachmentResult;\n  }\n  /** Cleans up the overlay from the DOM. */\n  dispose() {\n    const isAttached = this.hasAttached();\n    if (this._positionStrategy) {\n      this._positionStrategy.dispose();\n    }\n    this._disposeScrollStrategy();\n    this._disposeBackdrop(this._backdropElement);\n    this._locationChanges.unsubscribe();\n    this._keyboardDispatcher.remove(this);\n    this._portalOutlet.dispose();\n    this._attachments.complete();\n    this._backdropClick.complete();\n    this._keydownEvents.complete();\n    this._outsidePointerEvents.complete();\n    this._outsideClickDispatcher.remove(this);\n    this._host?.remove();\n    this._previousHostParent = this._pane = this._host = null;\n    if (isAttached) {\n      this._detachments.next();\n    }\n    this._detachments.complete();\n  }\n  /** Whether the overlay has attached content. */\n  hasAttached() {\n    return this._portalOutlet.hasAttached();\n  }\n  /** Gets an observable that emits when the backdrop has been clicked. */\n  backdropClick() {\n    return this._backdropClick;\n  }\n  /** Gets an observable that emits when the overlay has been attached. */\n  attachments() {\n    return this._attachments;\n  }\n  /** Gets an observable that emits when the overlay has been detached. */\n  detachments() {\n    return this._detachments;\n  }\n  /** Gets an observable of keydown events targeted to this overlay. */\n  keydownEvents() {\n    return this._keydownEvents;\n  }\n  /** Gets an observable of pointer events targeted outside this overlay. */\n  outsidePointerEvents() {\n    return this._outsidePointerEvents;\n  }\n  /** Gets the current overlay configuration, which is immutable. */\n  getConfig() {\n    return this._config;\n  }\n  /** Updates the position of the overlay based on the position strategy. */\n  updatePosition() {\n    if (this._positionStrategy) {\n      this._positionStrategy.apply();\n    }\n  }\n  /** Switches to a new position strategy and updates the overlay position. */\n  updatePositionStrategy(strategy) {\n    if (strategy === this._positionStrategy) {\n      return;\n    }\n    if (this._positionStrategy) {\n      this._positionStrategy.dispose();\n    }\n    this._positionStrategy = strategy;\n    if (this.hasAttached()) {\n      strategy.attach(this);\n      this.updatePosition();\n    }\n  }\n  /** Update the size properties of the overlay. */\n  updateSize(sizeConfig) {\n    this._config = {\n      ...this._config,\n      ...sizeConfig\n    };\n    this._updateElementSize();\n  }\n  /** Sets the LTR/RTL direction for the overlay. */\n  setDirection(dir) {\n    this._config = {\n      ...this._config,\n      direction: dir\n    };\n    this._updateElementDirection();\n  }\n  /** Add a CSS class or an array of classes to the overlay pane. */\n  addPanelClass(classes) {\n    if (this._pane) {\n      this._toggleClasses(this._pane, classes, true);\n    }\n  }\n  /** Remove a CSS class or an array of classes from the overlay pane. */\n  removePanelClass(classes) {\n    if (this._pane) {\n      this._toggleClasses(this._pane, classes, false);\n    }\n  }\n  /**\n   * Returns the layout direction of the overlay panel.\n   */\n  getDirection() {\n    const direction = this._config.direction;\n    if (!direction) {\n      return 'ltr';\n    }\n    return typeof direction === 'string' ? direction : direction.value;\n  }\n  /** Switches to a new scroll strategy. */\n  updateScrollStrategy(strategy) {\n    if (strategy === this._scrollStrategy) {\n      return;\n    }\n    this._disposeScrollStrategy();\n    this._scrollStrategy = strategy;\n    if (this.hasAttached()) {\n      strategy.attach(this);\n      strategy.enable();\n    }\n  }\n  /** Updates the text direction of the overlay panel. */\n  _updateElementDirection() {\n    this._host.setAttribute('dir', this.getDirection());\n  }\n  /** Updates the size of the overlay element based on the overlay config. */\n  _updateElementSize() {\n    if (!this._pane) {\n      return;\n    }\n    const style = this._pane.style;\n    style.width = coerceCssPixelValue(this._config.width);\n    style.height = coerceCssPixelValue(this._config.height);\n    style.minWidth = coerceCssPixelValue(this._config.minWidth);\n    style.minHeight = coerceCssPixelValue(this._config.minHeight);\n    style.maxWidth = coerceCssPixelValue(this._config.maxWidth);\n    style.maxHeight = coerceCssPixelValue(this._config.maxHeight);\n  }\n  /** Toggles the pointer events for the overlay pane element. */\n  _togglePointerEvents(enablePointer) {\n    this._pane.style.pointerEvents = enablePointer ? '' : 'none';\n  }\n  /** Attaches a backdrop for this overlay. */\n  _attachBackdrop() {\n    const showingClass = 'cdk-overlay-backdrop-showing';\n    this._backdropElement = this._document.createElement('div');\n    this._backdropElement.classList.add('cdk-overlay-backdrop');\n    if (this._animationsDisabled) {\n      this._backdropElement.classList.add('cdk-overlay-backdrop-noop-animation');\n    }\n    if (this._config.backdropClass) {\n      this._toggleClasses(this._backdropElement, this._config.backdropClass, true);\n    }\n    // Insert the backdrop before the pane in the DOM order,\n    // in order to handle stacked overlays properly.\n    this._host.parentElement.insertBefore(this._backdropElement, this._host);\n    // Forward backdrop clicks such that the consumer of the overlay can perform whatever\n    // action desired when such a click occurs (usually closing the overlay).\n    this._backdropElement.addEventListener('click', this._backdropClickHandler);\n    // Add class to fade-in the backdrop after one frame.\n    if (!this._animationsDisabled && typeof requestAnimationFrame !== 'undefined') {\n      this._ngZone.runOutsideAngular(() => {\n        requestAnimationFrame(() => {\n          if (this._backdropElement) {\n            this._backdropElement.classList.add(showingClass);\n          }\n        });\n      });\n    } else {\n      this._backdropElement.classList.add(showingClass);\n    }\n  }\n  /**\n   * Updates the stacking order of the element, moving it to the top if necessary.\n   * This is required in cases where one overlay was detached, while another one,\n   * that should be behind it, was destroyed. The next time both of them are opened,\n   * the stacking will be wrong, because the detached element's pane will still be\n   * in its original DOM position.\n   */\n  _updateStackingOrder() {\n    if (this._host.nextSibling) {\n      this._host.parentNode.appendChild(this._host);\n    }\n  }\n  /** Detaches the backdrop (if any) associated with the overlay. */\n  detachBackdrop() {\n    const backdropToDetach = this._backdropElement;\n    if (!backdropToDetach) {\n      return;\n    }\n    if (this._animationsDisabled) {\n      this._disposeBackdrop(backdropToDetach);\n      return;\n    }\n    backdropToDetach.classList.remove('cdk-overlay-backdrop-showing');\n    this._ngZone.runOutsideAngular(() => {\n      backdropToDetach.addEventListener('transitionend', this._backdropTransitionendHandler);\n    });\n    // If the backdrop doesn't have a transition, the `transitionend` event won't fire.\n    // In this case we make it unclickable and we try to remove it after a delay.\n    backdropToDetach.style.pointerEvents = 'none';\n    // Run this outside the Angular zone because there's nothing that Angular cares about.\n    // If it were to run inside the Angular zone, every test that used Overlay would have to be\n    // either async or fakeAsync.\n    this._backdropTimeout = this._ngZone.runOutsideAngular(() => setTimeout(() => {\n      this._disposeBackdrop(backdropToDetach);\n    }, 500));\n  }\n  /** Toggles a single CSS class or an array of classes on an element. */\n  _toggleClasses(element, cssClasses, isAdd) {\n    const classes = coerceArray(cssClasses || []).filter(c => !!c);\n    if (classes.length) {\n      isAdd ? element.classList.add(...classes) : element.classList.remove(...classes);\n    }\n  }\n  /** Detaches the overlay content next time the zone stabilizes. */\n  _detachContentWhenStable() {\n    // Normally we wouldn't have to explicitly run this outside the `NgZone`, however\n    // if the consumer is using `zone-patch-rxjs`, the `Subscription.unsubscribe` call will\n    // be patched to run inside the zone, which will throw us into an infinite loop.\n    this._ngZone.runOutsideAngular(() => {\n      // We can't remove the host here immediately, because the overlay pane's content\n      // might still be animating. This stream helps us avoid interrupting the animation\n      // by waiting for the pane to become empty.\n      const subscription = this._ngZone.onStable.pipe(takeUntil(merge(this._attachments, this._detachments))).subscribe(() => {\n        // Needs a couple of checks for the pane and host, because\n        // they may have been removed by the time the zone stabilizes.\n        if (!this._pane || !this._host || this._pane.children.length === 0) {\n          if (this._pane && this._config.panelClass) {\n            this._toggleClasses(this._pane, this._config.panelClass, false);\n          }\n          if (this._host && this._host.parentElement) {\n            this._previousHostParent = this._host.parentElement;\n            this._host.remove();\n          }\n          subscription.unsubscribe();\n        }\n      });\n    });\n  }\n  /** Disposes of a scroll strategy. */\n  _disposeScrollStrategy() {\n    const scrollStrategy = this._scrollStrategy;\n    if (scrollStrategy) {\n      scrollStrategy.disable();\n      if (scrollStrategy.detach) {\n        scrollStrategy.detach();\n      }\n    }\n  }\n  /** Removes a backdrop element from the DOM. */\n  _disposeBackdrop(backdrop) {\n    if (backdrop) {\n      backdrop.removeEventListener('click', this._backdropClickHandler);\n      backdrop.removeEventListener('transitionend', this._backdropTransitionendHandler);\n      backdrop.remove();\n      // It is possible that a new portal has been attached to this overlay since we started\n      // removing the backdrop. If that is the case, only clear the backdrop reference if it\n      // is still the same instance that we started to remove.\n      if (this._backdropElement === backdrop) {\n        this._backdropElement = null;\n      }\n    }\n    if (this._backdropTimeout) {\n      clearTimeout(this._backdropTimeout);\n      this._backdropTimeout = undefined;\n    }\n  }\n}\n\n// TODO: refactor clipping detection into a separate thing (part of scrolling module)\n// TODO: doesn't handle both flexible width and height when it has to scroll along both axis.\n/** Class to be added to the overlay bounding box. */\nconst boundingBoxClass = 'cdk-overlay-connected-position-bounding-box';\n/** Regex used to split a string on its CSS units. */\nconst cssUnitPattern = /([A-Za-z%]+)$/;\n/**\n * A strategy for positioning overlays. Using this strategy, an overlay is given an\n * implicit position relative some origin element. The relative position is defined in terms of\n * a point on the origin element that is connected to a point on the overlay element. For example,\n * a basic dropdown is connecting the bottom-left corner of the origin to the top-left corner\n * of the overlay.\n */\nclass FlexibleConnectedPositionStrategy {\n  /** Ordered list of preferred positions, from most to least desirable. */\n  get positions() {\n    return this._preferredPositions;\n  }\n  constructor(connectedTo, _viewportRuler, _document, _platform, _overlayContainer) {\n    this._viewportRuler = _viewportRuler;\n    this._document = _document;\n    this._platform = _platform;\n    this._overlayContainer = _overlayContainer;\n    /** Last size used for the bounding box. Used to avoid resizing the overlay after open. */\n    this._lastBoundingBoxSize = {\n      width: 0,\n      height: 0\n    };\n    /** Whether the overlay was pushed in a previous positioning. */\n    this._isPushed = false;\n    /** Whether the overlay can be pushed on-screen on the initial open. */\n    this._canPush = true;\n    /** Whether the overlay can grow via flexible width/height after the initial open. */\n    this._growAfterOpen = false;\n    /** Whether the overlay's width and height can be constrained to fit within the viewport. */\n    this._hasFlexibleDimensions = true;\n    /** Whether the overlay position is locked. */\n    this._positionLocked = false;\n    /** Amount of space that must be maintained between the overlay and the edge of the viewport. */\n    this._viewportMargin = 0;\n    /** The Scrollable containers used to check scrollable view properties on position change. */\n    this._scrollables = [];\n    /** Ordered list of preferred positions, from most to least desirable. */\n    this._preferredPositions = [];\n    /** Subject that emits whenever the position changes. */\n    this._positionChanges = new Subject();\n    /** Subscription to viewport size changes. */\n    this._resizeSubscription = Subscription.EMPTY;\n    /** Default offset for the overlay along the x axis. */\n    this._offsetX = 0;\n    /** Default offset for the overlay along the y axis. */\n    this._offsetY = 0;\n    /** Keeps track of the CSS classes that the position strategy has applied on the overlay panel. */\n    this._appliedPanelClasses = [];\n    /** Observable sequence of position changes. */\n    this.positionChanges = this._positionChanges;\n    this.setOrigin(connectedTo);\n  }\n  /** Attaches this position strategy to an overlay. */\n  attach(overlayRef) {\n    if (this._overlayRef && overlayRef !== this._overlayRef && (typeof ngDevMode === 'undefined' || ngDevMode)) {\n      throw Error('This position strategy is already attached to an overlay');\n    }\n    this._validatePositions();\n    overlayRef.hostElement.classList.add(boundingBoxClass);\n    this._overlayRef = overlayRef;\n    this._boundingBox = overlayRef.hostElement;\n    this._pane = overlayRef.overlayElement;\n    this._isDisposed = false;\n    this._isInitialRender = true;\n    this._lastPosition = null;\n    this._resizeSubscription.unsubscribe();\n    this._resizeSubscription = this._viewportRuler.change().subscribe(() => {\n      // When the window is resized, we want to trigger the next reposition as if it\n      // was an initial render, in order for the strategy to pick a new optimal position,\n      // otherwise position locking will cause it to stay at the old one.\n      this._isInitialRender = true;\n      this.apply();\n    });\n  }\n  /**\n   * Updates the position of the overlay element, using whichever preferred position relative\n   * to the origin best fits on-screen.\n   *\n   * The selection of a position goes as follows:\n   *  - If any positions fit completely within the viewport as-is,\n   *      choose the first position that does so.\n   *  - If flexible dimensions are enabled and at least one satisfies the given minimum width/height,\n   *      choose the position with the greatest available size modified by the positions' weight.\n   *  - If pushing is enabled, take the position that went off-screen the least and push it\n   *      on-screen.\n   *  - If none of the previous criteria were met, use the position that goes off-screen the least.\n   * @docs-private\n   */\n  apply() {\n    // We shouldn't do anything if the strategy was disposed or we're on the server.\n    if (this._isDisposed || !this._platform.isBrowser) {\n      return;\n    }\n    // If the position has been applied already (e.g. when the overlay was opened) and the\n    // consumer opted into locking in the position, re-use the old position, in order to\n    // prevent the overlay from jumping around.\n    if (!this._isInitialRender && this._positionLocked && this._lastPosition) {\n      this.reapplyLastPosition();\n      return;\n    }\n    this._clearPanelClasses();\n    this._resetOverlayElementStyles();\n    this._resetBoundingBoxStyles();\n    // We need the bounding rects for the origin, the overlay and the container to determine how to position\n    // the overlay relative to the origin.\n    // We use the viewport rect to determine whether a position would go off-screen.\n    this._viewportRect = this._getNarrowedViewportRect();\n    this._originRect = this._getOriginRect();\n    this._overlayRect = this._pane.getBoundingClientRect();\n    this._containerRect = this._overlayContainer.getContainerElement().getBoundingClientRect();\n    const originRect = this._originRect;\n    const overlayRect = this._overlayRect;\n    const viewportRect = this._viewportRect;\n    const containerRect = this._containerRect;\n    // Positions where the overlay will fit with flexible dimensions.\n    const flexibleFits = [];\n    // Fallback if none of the preferred positions fit within the viewport.\n    let fallback;\n    // Go through each of the preferred positions looking for a good fit.\n    // If a good fit is found, it will be applied immediately.\n    for (let pos of this._preferredPositions) {\n      // Get the exact (x, y) coordinate for the point-of-origin on the origin element.\n      let originPoint = this._getOriginPoint(originRect, containerRect, pos);\n      // From that point-of-origin, get the exact (x, y) coordinate for the top-left corner of the\n      // overlay in this position. We use the top-left corner for calculations and later translate\n      // this into an appropriate (top, left, bottom, right) style.\n      let overlayPoint = this._getOverlayPoint(originPoint, overlayRect, pos);\n      // Calculate how well the overlay would fit into the viewport with this point.\n      let overlayFit = this._getOverlayFit(overlayPoint, overlayRect, viewportRect, pos);\n      // If the overlay, without any further work, fits into the viewport, use this position.\n      if (overlayFit.isCompletelyWithinViewport) {\n        this._isPushed = false;\n        this._applyPosition(pos, originPoint);\n        return;\n      }\n      // If the overlay has flexible dimensions, we can use this position\n      // so long as there's enough space for the minimum dimensions.\n      if (this._canFitWithFlexibleDimensions(overlayFit, overlayPoint, viewportRect)) {\n        // Save positions where the overlay will fit with flexible dimensions. We will use these\n        // if none of the positions fit *without* flexible dimensions.\n        flexibleFits.push({\n          position: pos,\n          origin: originPoint,\n          overlayRect,\n          boundingBoxRect: this._calculateBoundingBoxRect(originPoint, pos)\n        });\n        continue;\n      }\n      // If the current preferred position does not fit on the screen, remember the position\n      // if it has more visible area on-screen than we've seen and move onto the next preferred\n      // position.\n      if (!fallback || fallback.overlayFit.visibleArea < overlayFit.visibleArea) {\n        fallback = {\n          overlayFit,\n          overlayPoint,\n          originPoint,\n          position: pos,\n          overlayRect\n        };\n      }\n    }\n    // If there are any positions where the overlay would fit with flexible dimensions, choose the\n    // one that has the greatest area available modified by the position's weight\n    if (flexibleFits.length) {\n      let bestFit = null;\n      let bestScore = -1;\n      for (const fit of flexibleFits) {\n        const score = fit.boundingBoxRect.width * fit.boundingBoxRect.height * (fit.position.weight || 1);\n        if (score > bestScore) {\n          bestScore = score;\n          bestFit = fit;\n        }\n      }\n      this._isPushed = false;\n      this._applyPosition(bestFit.position, bestFit.origin);\n      return;\n    }\n    // When none of the preferred positions fit within the viewport, take the position\n    // that went off-screen the least and attempt to push it on-screen.\n    if (this._canPush) {\n      // TODO(jelbourn): after pushing, the opening \"direction\" of the overlay might not make sense.\n      this._isPushed = true;\n      this._applyPosition(fallback.position, fallback.originPoint);\n      return;\n    }\n    // All options for getting the overlay within the viewport have been exhausted, so go with the\n    // position that went off-screen the least.\n    this._applyPosition(fallback.position, fallback.originPoint);\n  }\n  detach() {\n    this._clearPanelClasses();\n    this._lastPosition = null;\n    this._previousPushAmount = null;\n    this._resizeSubscription.unsubscribe();\n  }\n  /** Cleanup after the element gets destroyed. */\n  dispose() {\n    if (this._isDisposed) {\n      return;\n    }\n    // We can't use `_resetBoundingBoxStyles` here, because it resets\n    // some properties to zero, rather than removing them.\n    if (this._boundingBox) {\n      extendStyles(this._boundingBox.style, {\n        top: '',\n        left: '',\n        right: '',\n        bottom: '',\n        height: '',\n        width: '',\n        alignItems: '',\n        justifyContent: ''\n      });\n    }\n    if (this._pane) {\n      this._resetOverlayElementStyles();\n    }\n    if (this._overlayRef) {\n      this._overlayRef.hostElement.classList.remove(boundingBoxClass);\n    }\n    this.detach();\n    this._positionChanges.complete();\n    this._overlayRef = this._boundingBox = null;\n    this._isDisposed = true;\n  }\n  /**\n   * This re-aligns the overlay element with the trigger in its last calculated position,\n   * even if a position higher in the \"preferred positions\" list would now fit. This\n   * allows one to re-align the panel without changing the orientation of the panel.\n   */\n  reapplyLastPosition() {\n    if (this._isDisposed || !this._platform.isBrowser) {\n      return;\n    }\n    const lastPosition = this._lastPosition;\n    if (lastPosition) {\n      this._originRect = this._getOriginRect();\n      this._overlayRect = this._pane.getBoundingClientRect();\n      this._viewportRect = this._getNarrowedViewportRect();\n      this._containerRect = this._overlayContainer.getContainerElement().getBoundingClientRect();\n      const originPoint = this._getOriginPoint(this._originRect, this._containerRect, lastPosition);\n      this._applyPosition(lastPosition, originPoint);\n    } else {\n      this.apply();\n    }\n  }\n  /**\n   * Sets the list of Scrollable containers that host the origin element so that\n   * on reposition we can evaluate if it or the overlay has been clipped or outside view. Every\n   * Scrollable must be an ancestor element of the strategy's origin element.\n   */\n  withScrollableContainers(scrollables) {\n    this._scrollables = scrollables;\n    return this;\n  }\n  /**\n   * Adds new preferred positions.\n   * @param positions List of positions options for this overlay.\n   */\n  withPositions(positions) {\n    this._preferredPositions = positions;\n    // If the last calculated position object isn't part of the positions anymore, clear\n    // it in order to avoid it being picked up if the consumer tries to re-apply.\n    if (positions.indexOf(this._lastPosition) === -1) {\n      this._lastPosition = null;\n    }\n    this._validatePositions();\n    return this;\n  }\n  /**\n   * Sets a minimum distance the overlay may be positioned to the edge of the viewport.\n   * @param margin Required margin between the overlay and the viewport edge in pixels.\n   */\n  withViewportMargin(margin) {\n    this._viewportMargin = margin;\n    return this;\n  }\n  /** Sets whether the overlay's width and height can be constrained to fit within the viewport. */\n  withFlexibleDimensions(flexibleDimensions = true) {\n    this._hasFlexibleDimensions = flexibleDimensions;\n    return this;\n  }\n  /** Sets whether the overlay can grow after the initial open via flexible width/height. */\n  withGrowAfterOpen(growAfterOpen = true) {\n    this._growAfterOpen = growAfterOpen;\n    return this;\n  }\n  /** Sets whether the overlay can be pushed on-screen if none of the provided positions fit. */\n  withPush(canPush = true) {\n    this._canPush = canPush;\n    return this;\n  }\n  /**\n   * Sets whether the overlay's position should be locked in after it is positioned\n   * initially. When an overlay is locked in, it won't attempt to reposition itself\n   * when the position is re-applied (e.g. when the user scrolls away).\n   * @param isLocked Whether the overlay should locked in.\n   */\n  withLockedPosition(isLocked = true) {\n    this._positionLocked = isLocked;\n    return this;\n  }\n  /**\n   * Sets the origin, relative to which to position the overlay.\n   * Using an element origin is useful for building components that need to be positioned\n   * relatively to a trigger (e.g. dropdown menus or tooltips), whereas using a point can be\n   * used for cases like contextual menus which open relative to the user's pointer.\n   * @param origin Reference to the new origin.\n   */\n  setOrigin(origin) {\n    this._origin = origin;\n    return this;\n  }\n  /**\n   * Sets the default offset for the overlay's connection point on the x-axis.\n   * @param offset New offset in the X axis.\n   */\n  withDefaultOffsetX(offset) {\n    this._offsetX = offset;\n    return this;\n  }\n  /**\n   * Sets the default offset for the overlay's connection point on the y-axis.\n   * @param offset New offset in the Y axis.\n   */\n  withDefaultOffsetY(offset) {\n    this._offsetY = offset;\n    return this;\n  }\n  /**\n   * Configures that the position strategy should set a `transform-origin` on some elements\n   * inside the overlay, depending on the current position that is being applied. This is\n   * useful for the cases where the origin of an animation can change depending on the\n   * alignment of the overlay.\n   * @param selector CSS selector that will be used to find the target\n   *    elements onto which to set the transform origin.\n   */\n  withTransformOriginOn(selector) {\n    this._transformOriginSelector = selector;\n    return this;\n  }\n  /**\n   * Gets the (x, y) coordinate of a connection point on the origin based on a relative position.\n   */\n  _getOriginPoint(originRect, containerRect, pos) {\n    let x;\n    if (pos.originX == 'center') {\n      // Note: when centering we should always use the `left`\n      // offset, otherwise the position will be wrong in RTL.\n      x = originRect.left + originRect.width / 2;\n    } else {\n      const startX = this._isRtl() ? originRect.right : originRect.left;\n      const endX = this._isRtl() ? originRect.left : originRect.right;\n      x = pos.originX == 'start' ? startX : endX;\n    }\n    // When zooming in Safari the container rectangle contains negative values for the position\n    // and we need to re-add them to the calculated coordinates.\n    if (containerRect.left < 0) {\n      x -= containerRect.left;\n    }\n    let y;\n    if (pos.originY == 'center') {\n      y = originRect.top + originRect.height / 2;\n    } else {\n      y = pos.originY == 'top' ? originRect.top : originRect.bottom;\n    }\n    // Normally the containerRect's top value would be zero, however when the overlay is attached to an input\n    // (e.g. in an autocomplete), mobile browsers will shift everything in order to put the input in the middle\n    // of the screen and to make space for the virtual keyboard. We need to account for this offset,\n    // otherwise our positioning will be thrown off.\n    // Additionally, when zooming in Safari this fixes the vertical position.\n    if (containerRect.top < 0) {\n      y -= containerRect.top;\n    }\n    return {\n      x,\n      y\n    };\n  }\n  /**\n   * Gets the (x, y) coordinate of the top-left corner of the overlay given a given position and\n   * origin point to which the overlay should be connected.\n   */\n  _getOverlayPoint(originPoint, overlayRect, pos) {\n    // Calculate the (overlayStartX, overlayStartY), the start of the\n    // potential overlay position relative to the origin point.\n    let overlayStartX;\n    if (pos.overlayX == 'center') {\n      overlayStartX = -overlayRect.width / 2;\n    } else if (pos.overlayX === 'start') {\n      overlayStartX = this._isRtl() ? -overlayRect.width : 0;\n    } else {\n      overlayStartX = this._isRtl() ? 0 : -overlayRect.width;\n    }\n    let overlayStartY;\n    if (pos.overlayY == 'center') {\n      overlayStartY = -overlayRect.height / 2;\n    } else {\n      overlayStartY = pos.overlayY == 'top' ? 0 : -overlayRect.height;\n    }\n    // The (x, y) coordinates of the overlay.\n    return {\n      x: originPoint.x + overlayStartX,\n      y: originPoint.y + overlayStartY\n    };\n  }\n  /** Gets how well an overlay at the given point will fit within the viewport. */\n  _getOverlayFit(point, rawOverlayRect, viewport, position) {\n    // Round the overlay rect when comparing against the\n    // viewport, because the viewport is always rounded.\n    const overlay = getRoundedBoundingClientRect(rawOverlayRect);\n    let {\n      x,\n      y\n    } = point;\n    let offsetX = this._getOffset(position, 'x');\n    let offsetY = this._getOffset(position, 'y');\n    // Account for the offsets since they could push the overlay out of the viewport.\n    if (offsetX) {\n      x += offsetX;\n    }\n    if (offsetY) {\n      y += offsetY;\n    }\n    // How much the overlay would overflow at this position, on each side.\n    let leftOverflow = 0 - x;\n    let rightOverflow = x + overlay.width - viewport.width;\n    let topOverflow = 0 - y;\n    let bottomOverflow = y + overlay.height - viewport.height;\n    // Visible parts of the element on each axis.\n    let visibleWidth = this._subtractOverflows(overlay.width, leftOverflow, rightOverflow);\n    let visibleHeight = this._subtractOverflows(overlay.height, topOverflow, bottomOverflow);\n    let visibleArea = visibleWidth * visibleHeight;\n    return {\n      visibleArea,\n      isCompletelyWithinViewport: overlay.width * overlay.height === visibleArea,\n      fitsInViewportVertically: visibleHeight === overlay.height,\n      fitsInViewportHorizontally: visibleWidth == overlay.width\n    };\n  }\n  /**\n   * Whether the overlay can fit within the viewport when it may resize either its width or height.\n   * @param fit How well the overlay fits in the viewport at some position.\n   * @param point The (x, y) coordinates of the overlay at some position.\n   * @param viewport The geometry of the viewport.\n   */\n  _canFitWithFlexibleDimensions(fit, point, viewport) {\n    if (this._hasFlexibleDimensions) {\n      const availableHeight = viewport.bottom - point.y;\n      const availableWidth = viewport.right - point.x;\n      const minHeight = getPixelValue(this._overlayRef.getConfig().minHeight);\n      const minWidth = getPixelValue(this._overlayRef.getConfig().minWidth);\n      const verticalFit = fit.fitsInViewportVertically || minHeight != null && minHeight <= availableHeight;\n      const horizontalFit = fit.fitsInViewportHorizontally || minWidth != null && minWidth <= availableWidth;\n      return verticalFit && horizontalFit;\n    }\n    return false;\n  }\n  /**\n   * Gets the point at which the overlay can be \"pushed\" on-screen. If the overlay is larger than\n   * the viewport, the top-left corner will be pushed on-screen (with overflow occurring on the\n   * right and bottom).\n   *\n   * @param start Starting point from which the overlay is pushed.\n   * @param rawOverlayRect Dimensions of the overlay.\n   * @param scrollPosition Current viewport scroll position.\n   * @returns The point at which to position the overlay after pushing. This is effectively a new\n   *     originPoint.\n   */\n  _pushOverlayOnScreen(start, rawOverlayRect, scrollPosition) {\n    // If the position is locked and we've pushed the overlay already, reuse the previous push\n    // amount, rather than pushing it again. If we were to continue pushing, the element would\n    // remain in the viewport, which goes against the expectations when position locking is enabled.\n    if (this._previousPushAmount && this._positionLocked) {\n      return {\n        x: start.x + this._previousPushAmount.x,\n        y: start.y + this._previousPushAmount.y\n      };\n    }\n    // Round the overlay rect when comparing against the\n    // viewport, because the viewport is always rounded.\n    const overlay = getRoundedBoundingClientRect(rawOverlayRect);\n    const viewport = this._viewportRect;\n    // Determine how much the overlay goes outside the viewport on each\n    // side, which we'll use to decide which direction to push it.\n    const overflowRight = Math.max(start.x + overlay.width - viewport.width, 0);\n    const overflowBottom = Math.max(start.y + overlay.height - viewport.height, 0);\n    const overflowTop = Math.max(viewport.top - scrollPosition.top - start.y, 0);\n    const overflowLeft = Math.max(viewport.left - scrollPosition.left - start.x, 0);\n    // Amount by which to push the overlay in each axis such that it remains on-screen.\n    let pushX = 0;\n    let pushY = 0;\n    // If the overlay fits completely within the bounds of the viewport, push it from whichever\n    // direction is goes off-screen. Otherwise, push the top-left corner such that its in the\n    // viewport and allow for the trailing end of the overlay to go out of bounds.\n    if (overlay.width <= viewport.width) {\n      pushX = overflowLeft || -overflowRight;\n    } else {\n      pushX = start.x < this._viewportMargin ? viewport.left - scrollPosition.left - start.x : 0;\n    }\n    if (overlay.height <= viewport.height) {\n      pushY = overflowTop || -overflowBottom;\n    } else {\n      pushY = start.y < this._viewportMargin ? viewport.top - scrollPosition.top - start.y : 0;\n    }\n    this._previousPushAmount = {\n      x: pushX,\n      y: pushY\n    };\n    return {\n      x: start.x + pushX,\n      y: start.y + pushY\n    };\n  }\n  /**\n   * Applies a computed position to the overlay and emits a position change.\n   * @param position The position preference\n   * @param originPoint The point on the origin element where the overlay is connected.\n   */\n  _applyPosition(position, originPoint) {\n    this._setTransformOrigin(position);\n    this._setOverlayElementStyles(originPoint, position);\n    this._setBoundingBoxStyles(originPoint, position);\n    if (position.panelClass) {\n      this._addPanelClasses(position.panelClass);\n    }\n    // Notify that the position has been changed along with its change properties.\n    // We only emit if we've got any subscriptions, because the scroll visibility\n    // calculations can be somewhat expensive.\n    if (this._positionChanges.observers.length) {\n      const scrollVisibility = this._getScrollVisibility();\n      // We're recalculating on scroll, but we only want to emit if anything\n      // changed since downstream code might be hitting the `NgZone`.\n      if (position !== this._lastPosition || !this._lastScrollVisibility || !compareScrollVisibility(this._lastScrollVisibility, scrollVisibility)) {\n        const changeEvent = new ConnectedOverlayPositionChange(position, scrollVisibility);\n        this._positionChanges.next(changeEvent);\n      }\n      this._lastScrollVisibility = scrollVisibility;\n    }\n    // Save the last connected position in case the position needs to be re-calculated.\n    this._lastPosition = position;\n    this._isInitialRender = false;\n  }\n  /** Sets the transform origin based on the configured selector and the passed-in position.  */\n  _setTransformOrigin(position) {\n    if (!this._transformOriginSelector) {\n      return;\n    }\n    const elements = this._boundingBox.querySelectorAll(this._transformOriginSelector);\n    let xOrigin;\n    let yOrigin = position.overlayY;\n    if (position.overlayX === 'center') {\n      xOrigin = 'center';\n    } else if (this._isRtl()) {\n      xOrigin = position.overlayX === 'start' ? 'right' : 'left';\n    } else {\n      xOrigin = position.overlayX === 'start' ? 'left' : 'right';\n    }\n    for (let i = 0; i < elements.length; i++) {\n      elements[i].style.transformOrigin = `${xOrigin} ${yOrigin}`;\n    }\n  }\n  /**\n   * Gets the position and size of the overlay's sizing container.\n   *\n   * This method does no measuring and applies no styles so that we can cheaply compute the\n   * bounds for all positions and choose the best fit based on these results.\n   */\n  _calculateBoundingBoxRect(origin, position) {\n    const viewport = this._viewportRect;\n    const isRtl = this._isRtl();\n    let height, top, bottom;\n    if (position.overlayY === 'top') {\n      // Overlay is opening \"downward\" and thus is bound by the bottom viewport edge.\n      top = origin.y;\n      height = viewport.height - top + this._viewportMargin;\n    } else if (position.overlayY === 'bottom') {\n      // Overlay is opening \"upward\" and thus is bound by the top viewport edge. We need to add\n      // the viewport margin back in, because the viewport rect is narrowed down to remove the\n      // margin, whereas the `origin` position is calculated based on its `DOMRect`.\n      bottom = viewport.height - origin.y + this._viewportMargin * 2;\n      height = viewport.height - bottom + this._viewportMargin;\n    } else {\n      // If neither top nor bottom, it means that the overlay is vertically centered on the\n      // origin point. Note that we want the position relative to the viewport, rather than\n      // the page, which is why we don't use something like `viewport.bottom - origin.y` and\n      // `origin.y - viewport.top`.\n      const smallestDistanceToViewportEdge = Math.min(viewport.bottom - origin.y + viewport.top, origin.y);\n      const previousHeight = this._lastBoundingBoxSize.height;\n      height = smallestDistanceToViewportEdge * 2;\n      top = origin.y - smallestDistanceToViewportEdge;\n      if (height > previousHeight && !this._isInitialRender && !this._growAfterOpen) {\n        top = origin.y - previousHeight / 2;\n      }\n    }\n    // The overlay is opening 'right-ward' (the content flows to the right).\n    const isBoundedByRightViewportEdge = position.overlayX === 'start' && !isRtl || position.overlayX === 'end' && isRtl;\n    // The overlay is opening 'left-ward' (the content flows to the left).\n    const isBoundedByLeftViewportEdge = position.overlayX === 'end' && !isRtl || position.overlayX === 'start' && isRtl;\n    let width, left, right;\n    if (isBoundedByLeftViewportEdge) {\n      right = viewport.width - origin.x + this._viewportMargin * 2;\n      width = origin.x - this._viewportMargin;\n    } else if (isBoundedByRightViewportEdge) {\n      left = origin.x;\n      width = viewport.right - origin.x;\n    } else {\n      // If neither start nor end, it means that the overlay is horizontally centered on the\n      // origin point. Note that we want the position relative to the viewport, rather than\n      // the page, which is why we don't use something like `viewport.right - origin.x` and\n      // `origin.x - viewport.left`.\n      const smallestDistanceToViewportEdge = Math.min(viewport.right - origin.x + viewport.left, origin.x);\n      const previousWidth = this._lastBoundingBoxSize.width;\n      width = smallestDistanceToViewportEdge * 2;\n      left = origin.x - smallestDistanceToViewportEdge;\n      if (width > previousWidth && !this._isInitialRender && !this._growAfterOpen) {\n        left = origin.x - previousWidth / 2;\n      }\n    }\n    return {\n      top: top,\n      left: left,\n      bottom: bottom,\n      right: right,\n      width,\n      height\n    };\n  }\n  /**\n   * Sets the position and size of the overlay's sizing wrapper. The wrapper is positioned on the\n   * origin's connection point and stretches to the bounds of the viewport.\n   *\n   * @param origin The point on the origin element where the overlay is connected.\n   * @param position The position preference\n   */\n  _setBoundingBoxStyles(origin, position) {\n    const boundingBoxRect = this._calculateBoundingBoxRect(origin, position);\n    // It's weird if the overlay *grows* while scrolling, so we take the last size into account\n    // when applying a new size.\n    if (!this._isInitialRender && !this._growAfterOpen) {\n      boundingBoxRect.height = Math.min(boundingBoxRect.height, this._lastBoundingBoxSize.height);\n      boundingBoxRect.width = Math.min(boundingBoxRect.width, this._lastBoundingBoxSize.width);\n    }\n    const styles = {};\n    if (this._hasExactPosition()) {\n      styles.top = styles.left = '0';\n      styles.bottom = styles.right = styles.maxHeight = styles.maxWidth = '';\n      styles.width = styles.height = '100%';\n    } else {\n      const maxHeight = this._overlayRef.getConfig().maxHeight;\n      const maxWidth = this._overlayRef.getConfig().maxWidth;\n      styles.height = coerceCssPixelValue(boundingBoxRect.height);\n      styles.top = coerceCssPixelValue(boundingBoxRect.top);\n      styles.bottom = coerceCssPixelValue(boundingBoxRect.bottom);\n      styles.width = coerceCssPixelValue(boundingBoxRect.width);\n      styles.left = coerceCssPixelValue(boundingBoxRect.left);\n      styles.right = coerceCssPixelValue(boundingBoxRect.right);\n      // Push the pane content towards the proper direction.\n      if (position.overlayX === 'center') {\n        styles.alignItems = 'center';\n      } else {\n        styles.alignItems = position.overlayX === 'end' ? 'flex-end' : 'flex-start';\n      }\n      if (position.overlayY === 'center') {\n        styles.justifyContent = 'center';\n      } else {\n        styles.justifyContent = position.overlayY === 'bottom' ? 'flex-end' : 'flex-start';\n      }\n      if (maxHeight) {\n        styles.maxHeight = coerceCssPixelValue(maxHeight);\n      }\n      if (maxWidth) {\n        styles.maxWidth = coerceCssPixelValue(maxWidth);\n      }\n    }\n    this._lastBoundingBoxSize = boundingBoxRect;\n    extendStyles(this._boundingBox.style, styles);\n  }\n  /** Resets the styles for the bounding box so that a new positioning can be computed. */\n  _resetBoundingBoxStyles() {\n    extendStyles(this._boundingBox.style, {\n      top: '0',\n      left: '0',\n      right: '0',\n      bottom: '0',\n      height: '',\n      width: '',\n      alignItems: '',\n      justifyContent: ''\n    });\n  }\n  /** Resets the styles for the overlay pane so that a new positioning can be computed. */\n  _resetOverlayElementStyles() {\n    extendStyles(this._pane.style, {\n      top: '',\n      left: '',\n      bottom: '',\n      right: '',\n      position: '',\n      transform: ''\n    });\n  }\n  /** Sets positioning styles to the overlay element. */\n  _setOverlayElementStyles(originPoint, position) {\n    const styles = {};\n    const hasExactPosition = this._hasExactPosition();\n    const hasFlexibleDimensions = this._hasFlexibleDimensions;\n    const config = this._overlayRef.getConfig();\n    if (hasExactPosition) {\n      const scrollPosition = this._viewportRuler.getViewportScrollPosition();\n      extendStyles(styles, this._getExactOverlayY(position, originPoint, scrollPosition));\n      extendStyles(styles, this._getExactOverlayX(position, originPoint, scrollPosition));\n    } else {\n      styles.position = 'static';\n    }\n    // Use a transform to apply the offsets. We do this because the `center` positions rely on\n    // being in the normal flex flow and setting a `top` / `left` at all will completely throw\n    // off the position. We also can't use margins, because they won't have an effect in some\n    // cases where the element doesn't have anything to \"push off of\". Finally, this works\n    // better both with flexible and non-flexible positioning.\n    let transformString = '';\n    let offsetX = this._getOffset(position, 'x');\n    let offsetY = this._getOffset(position, 'y');\n    if (offsetX) {\n      transformString += `translateX(${offsetX}px) `;\n    }\n    if (offsetY) {\n      transformString += `translateY(${offsetY}px)`;\n    }\n    styles.transform = transformString.trim();\n    // If a maxWidth or maxHeight is specified on the overlay, we remove them. We do this because\n    // we need these values to both be set to \"100%\" for the automatic flexible sizing to work.\n    // The maxHeight and maxWidth are set on the boundingBox in order to enforce the constraint.\n    // Note that this doesn't apply when we have an exact position, in which case we do want to\n    // apply them because they'll be cleared from the bounding box.\n    if (config.maxHeight) {\n      if (hasExactPosition) {\n        styles.maxHeight = coerceCssPixelValue(config.maxHeight);\n      } else if (hasFlexibleDimensions) {\n        styles.maxHeight = '';\n      }\n    }\n    if (config.maxWidth) {\n      if (hasExactPosition) {\n        styles.maxWidth = coerceCssPixelValue(config.maxWidth);\n      } else if (hasFlexibleDimensions) {\n        styles.maxWidth = '';\n      }\n    }\n    extendStyles(this._pane.style, styles);\n  }\n  /** Gets the exact top/bottom for the overlay when not using flexible sizing or when pushing. */\n  _getExactOverlayY(position, originPoint, scrollPosition) {\n    // Reset any existing styles. This is necessary in case the\n    // preferred position has changed since the last `apply`.\n    let styles = {\n      top: '',\n      bottom: ''\n    };\n    let overlayPoint = this._getOverlayPoint(originPoint, this._overlayRect, position);\n    if (this._isPushed) {\n      overlayPoint = this._pushOverlayOnScreen(overlayPoint, this._overlayRect, scrollPosition);\n    }\n    // We want to set either `top` or `bottom` based on whether the overlay wants to appear\n    // above or below the origin and the direction in which the element will expand.\n    if (position.overlayY === 'bottom') {\n      // When using `bottom`, we adjust the y position such that it is the distance\n      // from the bottom of the viewport rather than the top.\n      const documentHeight = this._document.documentElement.clientHeight;\n      styles.bottom = `${documentHeight - (overlayPoint.y + this._overlayRect.height)}px`;\n    } else {\n      styles.top = coerceCssPixelValue(overlayPoint.y);\n    }\n    return styles;\n  }\n  /** Gets the exact left/right for the overlay when not using flexible sizing or when pushing. */\n  _getExactOverlayX(position, originPoint, scrollPosition) {\n    // Reset any existing styles. This is necessary in case the preferred position has\n    // changed since the last `apply`.\n    let styles = {\n      left: '',\n      right: ''\n    };\n    let overlayPoint = this._getOverlayPoint(originPoint, this._overlayRect, position);\n    if (this._isPushed) {\n      overlayPoint = this._pushOverlayOnScreen(overlayPoint, this._overlayRect, scrollPosition);\n    }\n    // We want to set either `left` or `right` based on whether the overlay wants to appear \"before\"\n    // or \"after\" the origin, which determines the direction in which the element will expand.\n    // For the horizontal axis, the meaning of \"before\" and \"after\" change based on whether the\n    // page is in RTL or LTR.\n    let horizontalStyleProperty;\n    if (this._isRtl()) {\n      horizontalStyleProperty = position.overlayX === 'end' ? 'left' : 'right';\n    } else {\n      horizontalStyleProperty = position.overlayX === 'end' ? 'right' : 'left';\n    }\n    // When we're setting `right`, we adjust the x position such that it is the distance\n    // from the right edge of the viewport rather than the left edge.\n    if (horizontalStyleProperty === 'right') {\n      const documentWidth = this._document.documentElement.clientWidth;\n      styles.right = `${documentWidth - (overlayPoint.x + this._overlayRect.width)}px`;\n    } else {\n      styles.left = coerceCssPixelValue(overlayPoint.x);\n    }\n    return styles;\n  }\n  /**\n   * Gets the view properties of the trigger and overlay, including whether they are clipped\n   * or completely outside the view of any of the strategy's scrollables.\n   */\n  _getScrollVisibility() {\n    // Note: needs fresh rects since the position could've changed.\n    const originBounds = this._getOriginRect();\n    const overlayBounds = this._pane.getBoundingClientRect();\n    // TODO(jelbourn): instead of needing all of the client rects for these scrolling containers\n    // every time, we should be able to use the scrollTop of the containers if the size of those\n    // containers hasn't changed.\n    const scrollContainerBounds = this._scrollables.map(scrollable => {\n      return scrollable.getElementRef().nativeElement.getBoundingClientRect();\n    });\n    return {\n      isOriginClipped: isElementClippedByScrolling(originBounds, scrollContainerBounds),\n      isOriginOutsideView: isElementScrolledOutsideView(originBounds, scrollContainerBounds),\n      isOverlayClipped: isElementClippedByScrolling(overlayBounds, scrollContainerBounds),\n      isOverlayOutsideView: isElementScrolledOutsideView(overlayBounds, scrollContainerBounds)\n    };\n  }\n  /** Subtracts the amount that an element is overflowing on an axis from its length. */\n  _subtractOverflows(length, ...overflows) {\n    return overflows.reduce((currentValue, currentOverflow) => {\n      return currentValue - Math.max(currentOverflow, 0);\n    }, length);\n  }\n  /** Narrows the given viewport rect by the current _viewportMargin. */\n  _getNarrowedViewportRect() {\n    // We recalculate the viewport rect here ourselves, rather than using the ViewportRuler,\n    // because we want to use the `clientWidth` and `clientHeight` as the base. The difference\n    // being that the client properties don't include the scrollbar, as opposed to `innerWidth`\n    // and `innerHeight` that do. This is necessary, because the overlay container uses\n    // 100% `width` and `height` which don't include the scrollbar either.\n    const width = this._document.documentElement.clientWidth;\n    const height = this._document.documentElement.clientHeight;\n    const scrollPosition = this._viewportRuler.getViewportScrollPosition();\n    return {\n      top: scrollPosition.top + this._viewportMargin,\n      left: scrollPosition.left + this._viewportMargin,\n      right: scrollPosition.left + width - this._viewportMargin,\n      bottom: scrollPosition.top + height - this._viewportMargin,\n      width: width - 2 * this._viewportMargin,\n      height: height - 2 * this._viewportMargin\n    };\n  }\n  /** Whether the we're dealing with an RTL context */\n  _isRtl() {\n    return this._overlayRef.getDirection() === 'rtl';\n  }\n  /** Determines whether the overlay uses exact or flexible positioning. */\n  _hasExactPosition() {\n    return !this._hasFlexibleDimensions || this._isPushed;\n  }\n  /** Retrieves the offset of a position along the x or y axis. */\n  _getOffset(position, axis) {\n    if (axis === 'x') {\n      // We don't do something like `position['offset' + axis]` in\n      // order to avoid breaking minifiers that rename properties.\n      return position.offsetX == null ? this._offsetX : position.offsetX;\n    }\n    return position.offsetY == null ? this._offsetY : position.offsetY;\n  }\n  /** Validates that the current position match the expected values. */\n  _validatePositions() {\n    if (typeof ngDevMode === 'undefined' || ngDevMode) {\n      if (!this._preferredPositions.length) {\n        throw Error('FlexibleConnectedPositionStrategy: At least one position is required.');\n      }\n      // TODO(crisbeto): remove these once Angular's template type\n      // checking is advanced enough to catch these cases.\n      this._preferredPositions.forEach(pair => {\n        validateHorizontalPosition('originX', pair.originX);\n        validateVerticalPosition('originY', pair.originY);\n        validateHorizontalPosition('overlayX', pair.overlayX);\n        validateVerticalPosition('overlayY', pair.overlayY);\n      });\n    }\n  }\n  /** Adds a single CSS class or an array of classes on the overlay panel. */\n  _addPanelClasses(cssClasses) {\n    if (this._pane) {\n      coerceArray(cssClasses).forEach(cssClass => {\n        if (cssClass !== '' && this._appliedPanelClasses.indexOf(cssClass) === -1) {\n          this._appliedPanelClasses.push(cssClass);\n          this._pane.classList.add(cssClass);\n        }\n      });\n    }\n  }\n  /** Clears the classes that the position strategy has applied from the overlay panel. */\n  _clearPanelClasses() {\n    if (this._pane) {\n      this._appliedPanelClasses.forEach(cssClass => {\n        this._pane.classList.remove(cssClass);\n      });\n      this._appliedPanelClasses = [];\n    }\n  }\n  /** Returns the DOMRect of the current origin. */\n  _getOriginRect() {\n    const origin = this._origin;\n    if (origin instanceof ElementRef) {\n      return origin.nativeElement.getBoundingClientRect();\n    }\n    // Check for Element so SVG elements are also supported.\n    if (origin instanceof Element) {\n      return origin.getBoundingClientRect();\n    }\n    const width = origin.width || 0;\n    const height = origin.height || 0;\n    // If the origin is a point, return a client rect as if it was a 0x0 element at the point.\n    return {\n      top: origin.y,\n      bottom: origin.y + height,\n      left: origin.x,\n      right: origin.x + width,\n      height,\n      width\n    };\n  }\n}\n/** Shallow-extends a stylesheet object with another stylesheet object. */\nfunction extendStyles(destination, source) {\n  for (let key in source) {\n    if (source.hasOwnProperty(key)) {\n      destination[key] = source[key];\n    }\n  }\n  return destination;\n}\n/**\n * Extracts the pixel value as a number from a value, if it's a number\n * or a CSS pixel string (e.g. `1337px`). Otherwise returns null.\n */\nfunction getPixelValue(input) {\n  if (typeof input !== 'number' && input != null) {\n    const [value, units] = input.split(cssUnitPattern);\n    return !units || units === 'px' ? parseFloat(value) : null;\n  }\n  return input || null;\n}\n/**\n * Gets a version of an element's bounding `DOMRect` where all the values are rounded down to\n * the nearest pixel. This allows us to account for the cases where there may be sub-pixel\n * deviations in the `DOMRect` returned by the browser (e.g. when zoomed in with a percentage\n * size, see #21350).\n */\nfunction getRoundedBoundingClientRect(clientRect) {\n  return {\n    top: Math.floor(clientRect.top),\n    right: Math.floor(clientRect.right),\n    bottom: Math.floor(clientRect.bottom),\n    left: Math.floor(clientRect.left),\n    width: Math.floor(clientRect.width),\n    height: Math.floor(clientRect.height)\n  };\n}\n/** Returns whether two `ScrollingVisibility` objects are identical. */\nfunction compareScrollVisibility(a, b) {\n  if (a === b) {\n    return true;\n  }\n  return a.isOriginClipped === b.isOriginClipped && a.isOriginOutsideView === b.isOriginOutsideView && a.isOverlayClipped === b.isOverlayClipped && a.isOverlayOutsideView === b.isOverlayOutsideView;\n}\nconst STANDARD_DROPDOWN_BELOW_POSITIONS = [{\n  originX: 'start',\n  originY: 'bottom',\n  overlayX: 'start',\n  overlayY: 'top'\n}, {\n  originX: 'start',\n  originY: 'top',\n  overlayX: 'start',\n  overlayY: 'bottom'\n}, {\n  originX: 'end',\n  originY: 'bottom',\n  overlayX: 'end',\n  overlayY: 'top'\n}, {\n  originX: 'end',\n  originY: 'top',\n  overlayX: 'end',\n  overlayY: 'bottom'\n}];\nconst STANDARD_DROPDOWN_ADJACENT_POSITIONS = [{\n  originX: 'end',\n  originY: 'top',\n  overlayX: 'start',\n  overlayY: 'top'\n}, {\n  originX: 'end',\n  originY: 'bottom',\n  overlayX: 'start',\n  overlayY: 'bottom'\n}, {\n  originX: 'start',\n  originY: 'top',\n  overlayX: 'end',\n  overlayY: 'top'\n}, {\n  originX: 'start',\n  originY: 'bottom',\n  overlayX: 'end',\n  overlayY: 'bottom'\n}];\n\n/** Class to be added to the overlay pane wrapper. */\nconst wrapperClass = 'cdk-global-overlay-wrapper';\n/**\n * A strategy for positioning overlays. Using this strategy, an overlay is given an\n * explicit position relative to the browser's viewport. We use flexbox, instead of\n * transforms, in order to avoid issues with subpixel rendering which can cause the\n * element to become blurry.\n */\nclass GlobalPositionStrategy {\n  constructor() {\n    this._cssPosition = 'static';\n    this._topOffset = '';\n    this._bottomOffset = '';\n    this._alignItems = '';\n    this._xPosition = '';\n    this._xOffset = '';\n    this._width = '';\n    this._height = '';\n    this._isDisposed = false;\n  }\n  attach(overlayRef) {\n    const config = overlayRef.getConfig();\n    this._overlayRef = overlayRef;\n    if (this._width && !config.width) {\n      overlayRef.updateSize({\n        width: this._width\n      });\n    }\n    if (this._height && !config.height) {\n      overlayRef.updateSize({\n        height: this._height\n      });\n    }\n    overlayRef.hostElement.classList.add(wrapperClass);\n    this._isDisposed = false;\n  }\n  /**\n   * Sets the top position of the overlay. Clears any previously set vertical position.\n   * @param value New top offset.\n   */\n  top(value = '') {\n    this._bottomOffset = '';\n    this._topOffset = value;\n    this._alignItems = 'flex-start';\n    return this;\n  }\n  /**\n   * Sets the left position of the overlay. Clears any previously set horizontal position.\n   * @param value New left offset.\n   */\n  left(value = '') {\n    this._xOffset = value;\n    this._xPosition = 'left';\n    return this;\n  }\n  /**\n   * Sets the bottom position of the overlay. Clears any previously set vertical position.\n   * @param value New bottom offset.\n   */\n  bottom(value = '') {\n    this._topOffset = '';\n    this._bottomOffset = value;\n    this._alignItems = 'flex-end';\n    return this;\n  }\n  /**\n   * Sets the right position of the overlay. Clears any previously set horizontal position.\n   * @param value New right offset.\n   */\n  right(value = '') {\n    this._xOffset = value;\n    this._xPosition = 'right';\n    return this;\n  }\n  /**\n   * Sets the overlay to the start of the viewport, depending on the overlay direction.\n   * This will be to the left in LTR layouts and to the right in RTL.\n   * @param offset Offset from the edge of the screen.\n   */\n  start(value = '') {\n    this._xOffset = value;\n    this._xPosition = 'start';\n    return this;\n  }\n  /**\n   * Sets the overlay to the end of the viewport, depending on the overlay direction.\n   * This will be to the right in LTR layouts and to the left in RTL.\n   * @param offset Offset from the edge of the screen.\n   */\n  end(value = '') {\n    this._xOffset = value;\n    this._xPosition = 'end';\n    return this;\n  }\n  /**\n   * Sets the overlay width and clears any previously set width.\n   * @param value New width for the overlay\n   * @deprecated Pass the `width` through the `OverlayConfig`.\n   * @breaking-change 8.0.0\n   */\n  width(value = '') {\n    if (this._overlayRef) {\n      this._overlayRef.updateSize({\n        width: value\n      });\n    } else {\n      this._width = value;\n    }\n    return this;\n  }\n  /**\n   * Sets the overlay height and clears any previously set height.\n   * @param value New height for the overlay\n   * @deprecated Pass the `height` through the `OverlayConfig`.\n   * @breaking-change 8.0.0\n   */\n  height(value = '') {\n    if (this._overlayRef) {\n      this._overlayRef.updateSize({\n        height: value\n      });\n    } else {\n      this._height = value;\n    }\n    return this;\n  }\n  /**\n   * Centers the overlay horizontally with an optional offset.\n   * Clears any previously set horizontal position.\n   *\n   * @param offset Overlay offset from the horizontal center.\n   */\n  centerHorizontally(offset = '') {\n    this.left(offset);\n    this._xPosition = 'center';\n    return this;\n  }\n  /**\n   * Centers the overlay vertically with an optional offset.\n   * Clears any previously set vertical position.\n   *\n   * @param offset Overlay offset from the vertical center.\n   */\n  centerVertically(offset = '') {\n    this.top(offset);\n    this._alignItems = 'center';\n    return this;\n  }\n  /**\n   * Apply the position to the element.\n   * @docs-private\n   */\n  apply() {\n    // Since the overlay ref applies the strategy asynchronously, it could\n    // have been disposed before it ends up being applied. If that is the\n    // case, we shouldn't do anything.\n    if (!this._overlayRef || !this._overlayRef.hasAttached()) {\n      return;\n    }\n    const styles = this._overlayRef.overlayElement.style;\n    const parentStyles = this._overlayRef.hostElement.style;\n    const config = this._overlayRef.getConfig();\n    const {\n      width,\n      height,\n      maxWidth,\n      maxHeight\n    } = config;\n    const shouldBeFlushHorizontally = (width === '100%' || width === '100vw') && (!maxWidth || maxWidth === '100%' || maxWidth === '100vw');\n    const shouldBeFlushVertically = (height === '100%' || height === '100vh') && (!maxHeight || maxHeight === '100%' || maxHeight === '100vh');\n    const xPosition = this._xPosition;\n    const xOffset = this._xOffset;\n    const isRtl = this._overlayRef.getConfig().direction === 'rtl';\n    let marginLeft = '';\n    let marginRight = '';\n    let justifyContent = '';\n    if (shouldBeFlushHorizontally) {\n      justifyContent = 'flex-start';\n    } else if (xPosition === 'center') {\n      justifyContent = 'center';\n      if (isRtl) {\n        marginRight = xOffset;\n      } else {\n        marginLeft = xOffset;\n      }\n    } else if (isRtl) {\n      if (xPosition === 'left' || xPosition === 'end') {\n        justifyContent = 'flex-end';\n        marginLeft = xOffset;\n      } else if (xPosition === 'right' || xPosition === 'start') {\n        justifyContent = 'flex-start';\n        marginRight = xOffset;\n      }\n    } else if (xPosition === 'left' || xPosition === 'start') {\n      justifyContent = 'flex-start';\n      marginLeft = xOffset;\n    } else if (xPosition === 'right' || xPosition === 'end') {\n      justifyContent = 'flex-end';\n      marginRight = xOffset;\n    }\n    styles.position = this._cssPosition;\n    styles.marginLeft = shouldBeFlushHorizontally ? '0' : marginLeft;\n    styles.marginTop = shouldBeFlushVertically ? '0' : this._topOffset;\n    styles.marginBottom = this._bottomOffset;\n    styles.marginRight = shouldBeFlushHorizontally ? '0' : marginRight;\n    parentStyles.justifyContent = justifyContent;\n    parentStyles.alignItems = shouldBeFlushVertically ? 'flex-start' : this._alignItems;\n  }\n  /**\n   * Cleans up the DOM changes from the position strategy.\n   * @docs-private\n   */\n  dispose() {\n    if (this._isDisposed || !this._overlayRef) {\n      return;\n    }\n    const styles = this._overlayRef.overlayElement.style;\n    const parent = this._overlayRef.hostElement;\n    const parentStyles = parent.style;\n    parent.classList.remove(wrapperClass);\n    parentStyles.justifyContent = parentStyles.alignItems = styles.marginTop = styles.marginBottom = styles.marginLeft = styles.marginRight = styles.position = '';\n    this._overlayRef = null;\n    this._isDisposed = true;\n  }\n}\n\n/** Builder for overlay position strategy. */\nlet OverlayPositionBuilder = /*#__PURE__*/(() => {\n  class OverlayPositionBuilder {\n    constructor(_viewportRuler, _document, _platform, _overlayContainer) {\n      this._viewportRuler = _viewportRuler;\n      this._document = _document;\n      this._platform = _platform;\n      this._overlayContainer = _overlayContainer;\n    }\n    /**\n     * Creates a global position strategy.\n     */\n    global() {\n      return new GlobalPositionStrategy();\n    }\n    /**\n     * Creates a flexible position strategy.\n     * @param origin Origin relative to which to position the overlay.\n     */\n    flexibleConnectedTo(origin) {\n      return new FlexibleConnectedPositionStrategy(origin, this._viewportRuler, this._document, this._platform, this._overlayContainer);\n    }\n    static {\n      this.ɵfac = function OverlayPositionBuilder_Factory(t) {\n        return new (t || OverlayPositionBuilder)(i0.ɵɵinject(i1.ViewportRuler), i0.ɵɵinject(DOCUMENT), i0.ɵɵinject(i1$1.Platform), i0.ɵɵinject(OverlayContainer));\n      };\n    }\n    static {\n      this.ɵprov = /* @__PURE__ */i0.ɵɵdefineInjectable({\n        token: OverlayPositionBuilder,\n        factory: OverlayPositionBuilder.ɵfac,\n        providedIn: 'root'\n      });\n    }\n  }\n  return OverlayPositionBuilder;\n})();\n/*#__PURE__*/(() => {\n  (typeof ngDevMode === \"undefined\" || ngDevMode) && void 0;\n})();\n\n/** Next overlay unique ID. */\nlet nextUniqueId = 0;\n// Note that Overlay is *not* scoped to the app root because of the ComponentFactoryResolver\n// which needs to be different depending on where OverlayModule is imported.\n/**\n * Service to create Overlays. Overlays are dynamically added pieces of floating UI, meant to be\n * used as a low-level building block for other components. Dialogs, tooltips, menus,\n * selects, etc. can all be built using overlays. The service should primarily be used by authors\n * of re-usable components rather than developers building end-user applications.\n *\n * An overlay *is* a PortalOutlet, so any kind of Portal can be loaded into one.\n */\nlet Overlay = /*#__PURE__*/(() => {\n  class Overlay {\n    constructor( /** Scrolling strategies that can be used when creating an overlay. */\n    scrollStrategies, _overlayContainer, _componentFactoryResolver, _positionBuilder, _keyboardDispatcher, _injector, _ngZone, _document, _directionality, _location, _outsideClickDispatcher, _animationsModuleType) {\n      this.scrollStrategies = scrollStrategies;\n      this._overlayContainer = _overlayContainer;\n      this._componentFactoryResolver = _componentFactoryResolver;\n      this._positionBuilder = _positionBuilder;\n      this._keyboardDispatcher = _keyboardDispatcher;\n      this._injector = _injector;\n      this._ngZone = _ngZone;\n      this._document = _document;\n      this._directionality = _directionality;\n      this._location = _location;\n      this._outsideClickDispatcher = _outsideClickDispatcher;\n      this._animationsModuleType = _animationsModuleType;\n    }\n    /**\n     * Creates an overlay.\n     * @param config Configuration applied to the overlay.\n     * @returns Reference to the created overlay.\n     */\n    create(config) {\n      const host = this._createHostElement();\n      const pane = this._createPaneElement(host);\n      const portalOutlet = this._createPortalOutlet(pane);\n      const overlayConfig = new OverlayConfig(config);\n      overlayConfig.direction = overlayConfig.direction || this._directionality.value;\n      return new OverlayRef(portalOutlet, host, pane, overlayConfig, this._ngZone, this._keyboardDispatcher, this._document, this._location, this._outsideClickDispatcher, this._animationsModuleType === 'NoopAnimations');\n    }\n    /**\n     * Gets a position builder that can be used, via fluent API,\n     * to construct and configure a position strategy.\n     * @returns An overlay position builder.\n     */\n    position() {\n      return this._positionBuilder;\n    }\n    /**\n     * Creates the DOM element for an overlay and appends it to the overlay container.\n     * @returns Newly-created pane element\n     */\n    _createPaneElement(host) {\n      const pane = this._document.createElement('div');\n      pane.id = `cdk-overlay-${nextUniqueId++}`;\n      pane.classList.add('cdk-overlay-pane');\n      host.appendChild(pane);\n      return pane;\n    }\n    /**\n     * Creates the host element that wraps around an overlay\n     * and can be used for advanced positioning.\n     * @returns Newly-create host element.\n     */\n    _createHostElement() {\n      const host = this._document.createElement('div');\n      this._overlayContainer.getContainerElement().appendChild(host);\n      return host;\n    }\n    /**\n     * Create a DomPortalOutlet into which the overlay content can be loaded.\n     * @param pane The DOM element to turn into a portal outlet.\n     * @returns A portal outlet for the given DOM element.\n     */\n    _createPortalOutlet(pane) {\n      // We have to resolve the ApplicationRef later in order to allow people\n      // to use overlay-based providers during app initialization.\n      if (!this._appRef) {\n        this._appRef = this._injector.get(ApplicationRef);\n      }\n      return new DomPortalOutlet(pane, this._componentFactoryResolver, this._appRef, this._injector, this._document);\n    }\n    static {\n      this.ɵfac = function Overlay_Factory(t) {\n        return new (t || Overlay)(i0.ɵɵinject(ScrollStrategyOptions), i0.ɵɵinject(OverlayContainer), i0.ɵɵinject(i0.ComponentFactoryResolver), i0.ɵɵinject(OverlayPositionBuilder), i0.ɵɵinject(OverlayKeyboardDispatcher), i0.ɵɵinject(i0.Injector), i0.ɵɵinject(i0.NgZone), i0.ɵɵinject(DOCUMENT), i0.ɵɵinject(i5.Directionality), i0.ɵɵinject(i6.Location), i0.ɵɵinject(OverlayOutsideClickDispatcher), i0.ɵɵinject(ANIMATION_MODULE_TYPE, 8));\n      };\n    }\n    static {\n      this.ɵprov = /* @__PURE__ */i0.ɵɵdefineInjectable({\n        token: Overlay,\n        factory: Overlay.ɵfac,\n        providedIn: 'root'\n      });\n    }\n  }\n  return Overlay;\n})();\n/*#__PURE__*/(() => {\n  (typeof ngDevMode === \"undefined\" || ngDevMode) && void 0;\n})();\n\n/** Default set of positions for the overlay. Follows the behavior of a dropdown. */\nconst defaultPositionList = [{\n  originX: 'start',\n  originY: 'bottom',\n  overlayX: 'start',\n  overlayY: 'top'\n}, {\n  originX: 'start',\n  originY: 'top',\n  overlayX: 'start',\n  overlayY: 'bottom'\n}, {\n  originX: 'end',\n  originY: 'top',\n  overlayX: 'end',\n  overlayY: 'bottom'\n}, {\n  originX: 'end',\n  originY: 'bottom',\n  overlayX: 'end',\n  overlayY: 'top'\n}];\n/** Injection token that determines the scroll handling while the connected overlay is open. */\nconst CDK_CONNECTED_OVERLAY_SCROLL_STRATEGY = /*#__PURE__*/new InjectionToken('cdk-connected-overlay-scroll-strategy', {\n  providedIn: 'root',\n  factory: () => {\n    const overlay = inject(Overlay);\n    return () => overlay.scrollStrategies.reposition();\n  }\n});\n/**\n * Directive applied to an element to make it usable as an origin for an Overlay using a\n * ConnectedPositionStrategy.\n */\nlet CdkOverlayOrigin = /*#__PURE__*/(() => {\n  class CdkOverlayOrigin {\n    constructor( /** Reference to the element on which the directive is applied. */\n    elementRef) {\n      this.elementRef = elementRef;\n    }\n    static {\n      this.ɵfac = function CdkOverlayOrigin_Factory(t) {\n        return new (t || CdkOverlayOrigin)(i0.ɵɵdirectiveInject(i0.ElementRef));\n      };\n    }\n    static {\n      this.ɵdir = /* @__PURE__ */i0.ɵɵdefineDirective({\n        type: CdkOverlayOrigin,\n        selectors: [[\"\", \"cdk-overlay-origin\", \"\"], [\"\", \"overlay-origin\", \"\"], [\"\", \"cdkOverlayOrigin\", \"\"]],\n        exportAs: [\"cdkOverlayOrigin\"],\n        standalone: true\n      });\n    }\n  }\n  return CdkOverlayOrigin;\n})();\n/*#__PURE__*/(() => {\n  (typeof ngDevMode === \"undefined\" || ngDevMode) && void 0;\n})();\n/**\n * Directive to facilitate declarative creation of an\n * Overlay using a FlexibleConnectedPositionStrategy.\n */\nlet CdkConnectedOverlay = /*#__PURE__*/(() => {\n  class CdkConnectedOverlay {\n    /** The offset in pixels for the overlay connection point on the x-axis */\n    get offsetX() {\n      return this._offsetX;\n    }\n    set offsetX(offsetX) {\n      this._offsetX = offsetX;\n      if (this._position) {\n        this._updatePositionStrategy(this._position);\n      }\n    }\n    /** The offset in pixels for the overlay connection point on the y-axis */\n    get offsetY() {\n      return this._offsetY;\n    }\n    set offsetY(offsetY) {\n      this._offsetY = offsetY;\n      if (this._position) {\n        this._updatePositionStrategy(this._position);\n      }\n    }\n    /** Whether the overlay should be disposed of when the user goes backwards/forwards in history. */\n    get disposeOnNavigation() {\n      return this._disposeOnNavigation;\n    }\n    set disposeOnNavigation(value) {\n      this._disposeOnNavigation = value;\n    }\n    // TODO(jelbourn): inputs for size, scroll behavior, animation, etc.\n    constructor(_overlay, templateRef, viewContainerRef, scrollStrategyFactory, _dir) {\n      this._overlay = _overlay;\n      this._dir = _dir;\n      this._backdropSubscription = Subscription.EMPTY;\n      this._attachSubscription = Subscription.EMPTY;\n      this._detachSubscription = Subscription.EMPTY;\n      this._positionSubscription = Subscription.EMPTY;\n      this._disposeOnNavigation = false;\n      this._ngZone = inject(NgZone);\n      /** Margin between the overlay and the viewport edges. */\n      this.viewportMargin = 0;\n      /** Whether the overlay is open. */\n      this.open = false;\n      /** Whether the overlay can be closed by user interaction. */\n      this.disableClose = false;\n      /** Whether or not the overlay should attach a backdrop. */\n      this.hasBackdrop = false;\n      /** Whether or not the overlay should be locked when scrolling. */\n      this.lockPosition = false;\n      /** Whether the overlay's width and height can be constrained to fit within the viewport. */\n      this.flexibleDimensions = false;\n      /** Whether the overlay can grow after the initial open when flexible positioning is turned on. */\n      this.growAfterOpen = false;\n      /** Whether the overlay can be pushed on-screen if none of the provided positions fit. */\n      this.push = false;\n      /** Event emitted when the backdrop is clicked. */\n      this.backdropClick = new EventEmitter();\n      /** Event emitted when the position has changed. */\n      this.positionChange = new EventEmitter();\n      /** Event emitted when the overlay has been attached. */\n      this.attach = new EventEmitter();\n      /** Event emitted when the overlay has been detached. */\n      this.detach = new EventEmitter();\n      /** Emits when there are keyboard events that are targeted at the overlay. */\n      this.overlayKeydown = new EventEmitter();\n      /** Emits when there are mouse outside click events that are targeted at the overlay. */\n      this.overlayOutsideClick = new EventEmitter();\n      this._templatePortal = new TemplatePortal(templateRef, viewContainerRef);\n      this._scrollStrategyFactory = scrollStrategyFactory;\n      this.scrollStrategy = this._scrollStrategyFactory();\n    }\n    /** The associated overlay reference. */\n    get overlayRef() {\n      return this._overlayRef;\n    }\n    /** The element's layout direction. */\n    get dir() {\n      return this._dir ? this._dir.value : 'ltr';\n    }\n    ngOnDestroy() {\n      this._attachSubscription.unsubscribe();\n      this._detachSubscription.unsubscribe();\n      this._backdropSubscription.unsubscribe();\n      this._positionSubscription.unsubscribe();\n      if (this._overlayRef) {\n        this._overlayRef.dispose();\n      }\n    }\n    ngOnChanges(changes) {\n      if (this._position) {\n        this._updatePositionStrategy(this._position);\n        this._overlayRef.updateSize({\n          width: this.width,\n          minWidth: this.minWidth,\n          height: this.height,\n          minHeight: this.minHeight\n        });\n        if (changes['origin'] && this.open) {\n          this._position.apply();\n        }\n      }\n      if (changes['open']) {\n        this.open ? this._attachOverlay() : this._detachOverlay();\n      }\n    }\n    /** Creates an overlay */\n    _createOverlay() {\n      if (!this.positions || !this.positions.length) {\n        this.positions = defaultPositionList;\n      }\n      const overlayRef = this._overlayRef = this._overlay.create(this._buildConfig());\n      this._attachSubscription = overlayRef.attachments().subscribe(() => this.attach.emit());\n      this._detachSubscription = overlayRef.detachments().subscribe(() => this.detach.emit());\n      overlayRef.keydownEvents().subscribe(event => {\n        this.overlayKeydown.next(event);\n        if (event.keyCode === ESCAPE && !this.disableClose && !hasModifierKey(event)) {\n          event.preventDefault();\n          this._detachOverlay();\n        }\n      });\n      this._overlayRef.outsidePointerEvents().subscribe(event => {\n        this.overlayOutsideClick.next(event);\n      });\n    }\n    /** Builds the overlay config based on the directive's inputs */\n    _buildConfig() {\n      const positionStrategy = this._position = this.positionStrategy || this._createPositionStrategy();\n      const overlayConfig = new OverlayConfig({\n        direction: this._dir,\n        positionStrategy,\n        scrollStrategy: this.scrollStrategy,\n        hasBackdrop: this.hasBackdrop,\n        disposeOnNavigation: this.disposeOnNavigation\n      });\n      if (this.width || this.width === 0) {\n        overlayConfig.width = this.width;\n      }\n      if (this.height || this.height === 0) {\n        overlayConfig.height = this.height;\n      }\n      if (this.minWidth || this.minWidth === 0) {\n        overlayConfig.minWidth = this.minWidth;\n      }\n      if (this.minHeight || this.minHeight === 0) {\n        overlayConfig.minHeight = this.minHeight;\n      }\n      if (this.backdropClass) {\n        overlayConfig.backdropClass = this.backdropClass;\n      }\n      if (this.panelClass) {\n        overlayConfig.panelClass = this.panelClass;\n      }\n      return overlayConfig;\n    }\n    /** Updates the state of a position strategy, based on the values of the directive inputs. */\n    _updatePositionStrategy(positionStrategy) {\n      const positions = this.positions.map(currentPosition => ({\n        originX: currentPosition.originX,\n        originY: currentPosition.originY,\n        overlayX: currentPosition.overlayX,\n        overlayY: currentPosition.overlayY,\n        offsetX: currentPosition.offsetX || this.offsetX,\n        offsetY: currentPosition.offsetY || this.offsetY,\n        panelClass: currentPosition.panelClass || undefined\n      }));\n      return positionStrategy.setOrigin(this._getFlexibleConnectedPositionStrategyOrigin()).withPositions(positions).withFlexibleDimensions(this.flexibleDimensions).withPush(this.push).withGrowAfterOpen(this.growAfterOpen).withViewportMargin(this.viewportMargin).withLockedPosition(this.lockPosition).withTransformOriginOn(this.transformOriginSelector);\n    }\n    /** Returns the position strategy of the overlay to be set on the overlay config */\n    _createPositionStrategy() {\n      const strategy = this._overlay.position().flexibleConnectedTo(this._getFlexibleConnectedPositionStrategyOrigin());\n      this._updatePositionStrategy(strategy);\n      return strategy;\n    }\n    _getFlexibleConnectedPositionStrategyOrigin() {\n      if (this.origin instanceof CdkOverlayOrigin) {\n        return this.origin.elementRef;\n      } else {\n        return this.origin;\n      }\n    }\n    /** Attaches the overlay and subscribes to backdrop clicks if backdrop exists */\n    _attachOverlay() {\n      if (!this._overlayRef) {\n        this._createOverlay();\n      } else {\n        // Update the overlay size, in case the directive's inputs have changed\n        this._overlayRef.getConfig().hasBackdrop = this.hasBackdrop;\n      }\n      if (!this._overlayRef.hasAttached()) {\n        this._overlayRef.attach(this._templatePortal);\n      }\n      if (this.hasBackdrop) {\n        this._backdropSubscription = this._overlayRef.backdropClick().subscribe(event => {\n          this.backdropClick.emit(event);\n        });\n      } else {\n        this._backdropSubscription.unsubscribe();\n      }\n      this._positionSubscription.unsubscribe();\n      // Only subscribe to `positionChanges` if requested, because putting\n      // together all the information for it can be expensive.\n      if (this.positionChange.observers.length > 0) {\n        this._positionSubscription = this._position.positionChanges.pipe(takeWhile(() => this.positionChange.observers.length > 0)).subscribe(position => {\n          this._ngZone.run(() => this.positionChange.emit(position));\n          if (this.positionChange.observers.length === 0) {\n            this._positionSubscription.unsubscribe();\n          }\n        });\n      }\n    }\n    /** Detaches the overlay and unsubscribes to backdrop clicks if backdrop exists */\n    _detachOverlay() {\n      if (this._overlayRef) {\n        this._overlayRef.detach();\n      }\n      this._backdropSubscription.unsubscribe();\n      this._positionSubscription.unsubscribe();\n    }\n    static {\n      this.ɵfac = function CdkConnectedOverlay_Factory(t) {\n        return new (t || CdkConnectedOverlay)(i0.ɵɵdirectiveInject(Overlay), i0.ɵɵdirectiveInject(i0.TemplateRef), i0.ɵɵdirectiveInject(i0.ViewContainerRef), i0.ɵɵdirectiveInject(CDK_CONNECTED_OVERLAY_SCROLL_STRATEGY), i0.ɵɵdirectiveInject(i5.Directionality, 8));\n      };\n    }\n    static {\n      this.ɵdir = /* @__PURE__ */i0.ɵɵdefineDirective({\n        type: CdkConnectedOverlay,\n        selectors: [[\"\", \"cdk-connected-overlay\", \"\"], [\"\", \"connected-overlay\", \"\"], [\"\", \"cdkConnectedOverlay\", \"\"]],\n        inputs: {\n          origin: [i0.ɵɵInputFlags.None, \"cdkConnectedOverlayOrigin\", \"origin\"],\n          positions: [i0.ɵɵInputFlags.None, \"cdkConnectedOverlayPositions\", \"positions\"],\n          positionStrategy: [i0.ɵɵInputFlags.None, \"cdkConnectedOverlayPositionStrategy\", \"positionStrategy\"],\n          offsetX: [i0.ɵɵInputFlags.None, \"cdkConnectedOverlayOffsetX\", \"offsetX\"],\n          offsetY: [i0.ɵɵInputFlags.None, \"cdkConnectedOverlayOffsetY\", \"offsetY\"],\n          width: [i0.ɵɵInputFlags.None, \"cdkConnectedOverlayWidth\", \"width\"],\n          height: [i0.ɵɵInputFlags.None, \"cdkConnectedOverlayHeight\", \"height\"],\n          minWidth: [i0.ɵɵInputFlags.None, \"cdkConnectedOverlayMinWidth\", \"minWidth\"],\n          minHeight: [i0.ɵɵInputFlags.None, \"cdkConnectedOverlayMinHeight\", \"minHeight\"],\n          backdropClass: [i0.ɵɵInputFlags.None, \"cdkConnectedOverlayBackdropClass\", \"backdropClass\"],\n          panelClass: [i0.ɵɵInputFlags.None, \"cdkConnectedOverlayPanelClass\", \"panelClass\"],\n          viewportMargin: [i0.ɵɵInputFlags.None, \"cdkConnectedOverlayViewportMargin\", \"viewportMargin\"],\n          scrollStrategy: [i0.ɵɵInputFlags.None, \"cdkConnectedOverlayScrollStrategy\", \"scrollStrategy\"],\n          open: [i0.ɵɵInputFlags.None, \"cdkConnectedOverlayOpen\", \"open\"],\n          disableClose: [i0.ɵɵInputFlags.None, \"cdkConnectedOverlayDisableClose\", \"disableClose\"],\n          transformOriginSelector: [i0.ɵɵInputFlags.None, \"cdkConnectedOverlayTransformOriginOn\", \"transformOriginSelector\"],\n          hasBackdrop: [i0.ɵɵInputFlags.HasDecoratorInputTransform, \"cdkConnectedOverlayHasBackdrop\", \"hasBackdrop\", booleanAttribute],\n          lockPosition: [i0.ɵɵInputFlags.HasDecoratorInputTransform, \"cdkConnectedOverlayLockPosition\", \"lockPosition\", booleanAttribute],\n          flexibleDimensions: [i0.ɵɵInputFlags.HasDecoratorInputTransform, \"cdkConnectedOverlayFlexibleDimensions\", \"flexibleDimensions\", booleanAttribute],\n          growAfterOpen: [i0.ɵɵInputFlags.HasDecoratorInputTransform, \"cdkConnectedOverlayGrowAfterOpen\", \"growAfterOpen\", booleanAttribute],\n          push: [i0.ɵɵInputFlags.HasDecoratorInputTransform, \"cdkConnectedOverlayPush\", \"push\", booleanAttribute],\n          disposeOnNavigation: [i0.ɵɵInputFlags.HasDecoratorInputTransform, \"cdkConnectedOverlayDisposeOnNavigation\", \"disposeOnNavigation\", booleanAttribute]\n        },\n        outputs: {\n          backdropClick: \"backdropClick\",\n          positionChange: \"positionChange\",\n          attach: \"attach\",\n          detach: \"detach\",\n          overlayKeydown: \"overlayKeydown\",\n          overlayOutsideClick: \"overlayOutsideClick\"\n        },\n        exportAs: [\"cdkConnectedOverlay\"],\n        standalone: true,\n        features: [i0.ɵɵInputTransformsFeature, i0.ɵɵNgOnChangesFeature]\n      });\n    }\n  }\n  return CdkConnectedOverlay;\n})();\n/*#__PURE__*/(() => {\n  (typeof ngDevMode === \"undefined\" || ngDevMode) && void 0;\n})();\n/** @docs-private */\nfunction CDK_CONNECTED_OVERLAY_SCROLL_STRATEGY_PROVIDER_FACTORY(overlay) {\n  return () => overlay.scrollStrategies.reposition();\n}\n/** @docs-private */\nconst CDK_CONNECTED_OVERLAY_SCROLL_STRATEGY_PROVIDER = {\n  provide: CDK_CONNECTED_OVERLAY_SCROLL_STRATEGY,\n  deps: [Overlay],\n  useFactory: CDK_CONNECTED_OVERLAY_SCROLL_STRATEGY_PROVIDER_FACTORY\n};\nlet OverlayModule = /*#__PURE__*/(() => {\n  class OverlayModule {\n    static {\n      this.ɵfac = function OverlayModule_Factory(t) {\n        return new (t || OverlayModule)();\n      };\n    }\n    static {\n      this.ɵmod = /* @__PURE__ */i0.ɵɵdefineNgModule({\n        type: OverlayModule\n      });\n    }\n    static {\n      this.ɵinj = /* @__PURE__ */i0.ɵɵdefineInjector({\n        providers: [Overlay, CDK_CONNECTED_OVERLAY_SCROLL_STRATEGY_PROVIDER],\n        imports: [BidiModule, PortalModule, ScrollingModule, ScrollingModule]\n      });\n    }\n  }\n  return OverlayModule;\n})();\n/*#__PURE__*/(() => {\n  (typeof ngDevMode === \"undefined\" || ngDevMode) && void 0;\n})();\n\n/**\n * Alternative to OverlayContainer that supports correct displaying of overlay elements in\n * Fullscreen mode\n * https://developer.mozilla.org/en-US/docs/Web/API/Element/requestFullScreen\n *\n * Should be provided in the root component.\n */\nlet FullscreenOverlayContainer = /*#__PURE__*/(() => {\n  class FullscreenOverlayContainer extends OverlayContainer {\n    constructor(_document, platform) {\n      super(_document, platform);\n    }\n    ngOnDestroy() {\n      super.ngOnDestroy();\n      if (this._fullScreenEventName && this._fullScreenListener) {\n        this._document.removeEventListener(this._fullScreenEventName, this._fullScreenListener);\n      }\n    }\n    _createContainer() {\n      super._createContainer();\n      this._adjustParentForFullscreenChange();\n      this._addFullscreenChangeListener(() => this._adjustParentForFullscreenChange());\n    }\n    _adjustParentForFullscreenChange() {\n      if (!this._containerElement) {\n        return;\n      }\n      const fullscreenElement = this.getFullscreenElement();\n      const parent = fullscreenElement || this._document.body;\n      parent.appendChild(this._containerElement);\n    }\n    _addFullscreenChangeListener(fn) {\n      const eventName = this._getEventName();\n      if (eventName) {\n        if (this._fullScreenListener) {\n          this._document.removeEventListener(eventName, this._fullScreenListener);\n        }\n        this._document.addEventListener(eventName, fn);\n        this._fullScreenListener = fn;\n      }\n    }\n    _getEventName() {\n      if (!this._fullScreenEventName) {\n        const _document = this._document;\n        if (_document.fullscreenEnabled) {\n          this._fullScreenEventName = 'fullscreenchange';\n        } else if (_document.webkitFullscreenEnabled) {\n          this._fullScreenEventName = 'webkitfullscreenchange';\n        } else if (_document.mozFullScreenEnabled) {\n          this._fullScreenEventName = 'mozfullscreenchange';\n        } else if (_document.msFullscreenEnabled) {\n          this._fullScreenEventName = 'MSFullscreenChange';\n        }\n      }\n      return this._fullScreenEventName;\n    }\n    /**\n     * When the page is put into fullscreen mode, a specific element is specified.\n     * Only that element and its children are visible when in fullscreen mode.\n     */\n    getFullscreenElement() {\n      const _document = this._document;\n      return _document.fullscreenElement || _document.webkitFullscreenElement || _document.mozFullScreenElement || _document.msFullscreenElement || null;\n    }\n    static {\n      this.ɵfac = function FullscreenOverlayContainer_Factory(t) {\n        return new (t || FullscreenOverlayContainer)(i0.ɵɵinject(DOCUMENT), i0.ɵɵinject(i1$1.Platform));\n      };\n    }\n    static {\n      this.ɵprov = /* @__PURE__ */i0.ɵɵdefineInjectable({\n        token: FullscreenOverlayContainer,\n        factory: FullscreenOverlayContainer.ɵfac,\n        providedIn: 'root'\n      });\n    }\n  }\n  return FullscreenOverlayContainer;\n})();\n/*#__PURE__*/(() => {\n  (typeof ngDevMode === \"undefined\" || ngDevMode) && void 0;\n})();\n\n/**\n * Generated bundle index. Do not edit.\n */\n\nexport { BlockScrollStrategy, CdkConnectedOverlay, CdkOverlayOrigin, CloseScrollStrategy, ConnectedOverlayPositionChange, ConnectionPositionPair, FlexibleConnectedPositionStrategy, FullscreenOverlayContainer, GlobalPositionStrategy, NoopScrollStrategy, Overlay, OverlayConfig, OverlayContainer, OverlayKeyboardDispatcher, OverlayModule, OverlayOutsideClickDispatcher, OverlayPositionBuilder, OverlayRef, RepositionScrollStrategy, STANDARD_DROPDOWN_ADJACENT_POSITIONS, STANDARD_DROPDOWN_BELOW_POSITIONS, ScrollStrategyOptions, ScrollingVisibility, validateHorizontalPosition, validateVerticalPosition };\n","/**\n * @license Angular v17.3.0\n * (c) 2010-2022 Google LLC. https://angular.io/\n * License: MIT\n */\n\nimport { DOCUMENT } from '@angular/common';\nimport * as i0 from '@angular/core';\nimport { inject, Injectable, ANIMATION_MODULE_TYPE, ViewEncapsulation, ɵRuntimeError, Inject } from '@angular/core';\n\n/**\n * @description Constants for the categories of parameters that can be defined for animations.\n *\n * A corresponding function defines a set of parameters for each category, and\n * collects them into a corresponding `AnimationMetadata` object.\n *\n * @publicApi\n */\nvar AnimationMetadataType = /*#__PURE__*/function (AnimationMetadataType) {\n  /**\n   * Associates a named animation state with a set of CSS styles.\n   * See [`state()`](api/animations/state)\n   */\n  AnimationMetadataType[AnimationMetadataType[\"State\"] = 0] = \"State\";\n  /**\n   * Data for a transition from one animation state to another.\n   * See `transition()`\n   */\n  AnimationMetadataType[AnimationMetadataType[\"Transition\"] = 1] = \"Transition\";\n  /**\n   * Contains a set of animation steps.\n   * See `sequence()`\n   */\n  AnimationMetadataType[AnimationMetadataType[\"Sequence\"] = 2] = \"Sequence\";\n  /**\n   * Contains a set of animation steps.\n   * See `{@link animations/group group()}`\n   */\n  AnimationMetadataType[AnimationMetadataType[\"Group\"] = 3] = \"Group\";\n  /**\n   * Contains an animation step.\n   * See `animate()`\n   */\n  AnimationMetadataType[AnimationMetadataType[\"Animate\"] = 4] = \"Animate\";\n  /**\n   * Contains a set of animation steps.\n   * See `keyframes()`\n   */\n  AnimationMetadataType[AnimationMetadataType[\"Keyframes\"] = 5] = \"Keyframes\";\n  /**\n   * Contains a set of CSS property-value pairs into a named style.\n   * See `style()`\n   */\n  AnimationMetadataType[AnimationMetadataType[\"Style\"] = 6] = \"Style\";\n  /**\n   * Associates an animation with an entry trigger that can be attached to an element.\n   * See `trigger()`\n   */\n  AnimationMetadataType[AnimationMetadataType[\"Trigger\"] = 7] = \"Trigger\";\n  /**\n   * Contains a re-usable animation.\n   * See `animation()`\n   */\n  AnimationMetadataType[AnimationMetadataType[\"Reference\"] = 8] = \"Reference\";\n  /**\n   * Contains data to use in executing child animations returned by a query.\n   * See `animateChild()`\n   */\n  AnimationMetadataType[AnimationMetadataType[\"AnimateChild\"] = 9] = \"AnimateChild\";\n  /**\n   * Contains animation parameters for a re-usable animation.\n   * See `useAnimation()`\n   */\n  AnimationMetadataType[AnimationMetadataType[\"AnimateRef\"] = 10] = \"AnimateRef\";\n  /**\n   * Contains child-animation query data.\n   * See `query()`\n   */\n  AnimationMetadataType[AnimationMetadataType[\"Query\"] = 11] = \"Query\";\n  /**\n   * Contains data for staggering an animation sequence.\n   * See `stagger()`\n   */\n  AnimationMetadataType[AnimationMetadataType[\"Stagger\"] = 12] = \"Stagger\";\n  return AnimationMetadataType;\n}(AnimationMetadataType || {});\n/**\n * Specifies automatic styling.\n *\n * @publicApi\n */\nconst AUTO_STYLE = '*';\n/**\n * Creates a named animation trigger, containing a  list of [`state()`](api/animations/state)\n * and `transition()` entries to be evaluated when the expression\n * bound to the trigger changes.\n *\n * @param name An identifying string.\n * @param definitions  An animation definition object, containing an array of\n * [`state()`](api/animations/state) and `transition()` declarations.\n *\n * @return An object that encapsulates the trigger data.\n *\n * @usageNotes\n * Define an animation trigger in the `animations` section of `@Component` metadata.\n * In the template, reference the trigger by name and bind it to a trigger expression that\n * evaluates to a defined animation state, using the following format:\n *\n * `[@triggerName]=\"expression\"`\n *\n * Animation trigger bindings convert all values to strings, and then match the\n * previous and current values against any linked transitions.\n * Booleans can be specified as `1` or `true` and `0` or `false`.\n *\n * ### Usage Example\n *\n * The following example creates an animation trigger reference based on the provided\n * name value.\n * The provided animation value is expected to be an array consisting of state and\n * transition declarations.\n *\n * ```typescript\n * @Component({\n *   selector: \"my-component\",\n *   templateUrl: \"my-component-tpl.html\",\n *   animations: [\n *     trigger(\"myAnimationTrigger\", [\n *       state(...),\n *       state(...),\n *       transition(...),\n *       transition(...)\n *     ])\n *   ]\n * })\n * class MyComponent {\n *   myStatusExp = \"something\";\n * }\n * ```\n *\n * The template associated with this component makes use of the defined trigger\n * by binding to an element within its template code.\n *\n * ```html\n * <!-- somewhere inside of my-component-tpl.html -->\n * <div [@myAnimationTrigger]=\"myStatusExp\">...</div>\n * ```\n *\n * ### Using an inline function\n * The `transition` animation method also supports reading an inline function which can decide\n * if its associated animation should be run.\n *\n * ```typescript\n * // this method is run each time the `myAnimationTrigger` trigger value changes.\n * function myInlineMatcherFn(fromState: string, toState: string, element: any, params: {[key:\n string]: any}): boolean {\n *   // notice that `element` and `params` are also available here\n *   return toState == 'yes-please-animate';\n * }\n *\n * @Component({\n *   selector: 'my-component',\n *   templateUrl: 'my-component-tpl.html',\n *   animations: [\n *     trigger('myAnimationTrigger', [\n *       transition(myInlineMatcherFn, [\n *         // the animation sequence code\n *       ]),\n *     ])\n *   ]\n * })\n * class MyComponent {\n *   myStatusExp = \"yes-please-animate\";\n * }\n * ```\n *\n * ### Disabling Animations\n * When true, the special animation control binding `@.disabled` binding prevents\n * all animations from rendering.\n * Place the  `@.disabled` binding on an element to disable\n * animations on the element itself, as well as any inner animation triggers\n * within the element.\n *\n * The following example shows how to use this feature:\n *\n * ```typescript\n * @Component({\n *   selector: 'my-component',\n *   template: `\n *     <div [@.disabled]=\"isDisabled\">\n *       <div [@childAnimation]=\"exp\"></div>\n *     </div>\n *   `,\n *   animations: [\n *     trigger(\"childAnimation\", [\n *       // ...\n *     ])\n *   ]\n * })\n * class MyComponent {\n *   isDisabled = true;\n *   exp = '...';\n * }\n * ```\n *\n * When `@.disabled` is true, it prevents the `@childAnimation` trigger from animating,\n * along with any inner animations.\n *\n * ### Disable animations application-wide\n * When an area of the template is set to have animations disabled,\n * **all** inner components have their animations disabled as well.\n * This means that you can disable all animations for an app\n * by placing a host binding set on `@.disabled` on the topmost Angular component.\n *\n * ```typescript\n * import {Component, HostBinding} from '@angular/core';\n *\n * @Component({\n *   selector: 'app-component',\n *   templateUrl: 'app.component.html',\n * })\n * class AppComponent {\n *   @HostBinding('@.disabled')\n *   public animationsDisabled = true;\n * }\n * ```\n *\n * ### Overriding disablement of inner animations\n * Despite inner animations being disabled, a parent animation can `query()`\n * for inner elements located in disabled areas of the template and still animate\n * them if needed. This is also the case for when a sub animation is\n * queried by a parent and then later animated using `animateChild()`.\n *\n * ### Detecting when an animation is disabled\n * If a region of the DOM (or the entire application) has its animations disabled, the animation\n * trigger callbacks still fire, but for zero seconds. When the callback fires, it provides\n * an instance of an `AnimationEvent`. If animations are disabled,\n * the `.disabled` flag on the event is true.\n *\n * @publicApi\n */\nfunction trigger(name, definitions) {\n  return {\n    type: AnimationMetadataType.Trigger,\n    name,\n    definitions,\n    options: {}\n  };\n}\n/**\n * Defines an animation step that combines styling information with timing information.\n *\n * @param timings Sets `AnimateTimings` for the parent animation.\n * A string in the format \"duration [delay] [easing]\".\n *  - Duration and delay are expressed as a number and optional time unit,\n * such as \"1s\" or \"10ms\" for one second and 10 milliseconds, respectively.\n * The default unit is milliseconds.\n *  - The easing value controls how the animation accelerates and decelerates\n * during its runtime. Value is one of  `ease`, `ease-in`, `ease-out`,\n * `ease-in-out`, or a `cubic-bezier()` function call.\n * If not supplied, no easing is applied.\n *\n * For example, the string \"1s 100ms ease-out\" specifies a duration of\n * 1000 milliseconds, and delay of 100 ms, and the \"ease-out\" easing style,\n * which decelerates near the end of the duration.\n * @param styles Sets AnimationStyles for the parent animation.\n * A function call to either `style()` or `keyframes()`\n * that returns a collection of CSS style entries to be applied to the parent animation.\n * When null, uses the styles from the destination state.\n * This is useful when describing an animation step that will complete an animation;\n * see \"Animating to the final state\" in `transitions()`.\n * @returns An object that encapsulates the animation step.\n *\n * @usageNotes\n * Call within an animation `sequence()`, `{@link animations/group group()}`, or\n * `transition()` call to specify an animation step\n * that applies given style data to the parent animation for a given amount of time.\n *\n * ### Syntax Examples\n * **Timing examples**\n *\n * The following examples show various `timings` specifications.\n * - `animate(500)` : Duration is 500 milliseconds.\n * - `animate(\"1s\")` : Duration is 1000 milliseconds.\n * - `animate(\"100ms 0.5s\")` : Duration is 100 milliseconds, delay is 500 milliseconds.\n * - `animate(\"5s ease-in\")` : Duration is 5000 milliseconds, easing in.\n * - `animate(\"5s 10ms cubic-bezier(.17,.67,.88,.1)\")` : Duration is 5000 milliseconds, delay is 10\n * milliseconds, easing according to a bezier curve.\n *\n * **Style examples**\n *\n * The following example calls `style()` to set a single CSS style.\n * ```typescript\n * animate(500, style({ background: \"red\" }))\n * ```\n * The following example calls `keyframes()` to set a CSS style\n * to different values for successive keyframes.\n * ```typescript\n * animate(500, keyframes(\n *  [\n *   style({ background: \"blue\" }),\n *   style({ background: \"red\" })\n *  ])\n * ```\n *\n * @publicApi\n */\nfunction animate(timings, styles = null) {\n  return {\n    type: AnimationMetadataType.Animate,\n    styles,\n    timings\n  };\n}\n/**\n * @description Defines a list of animation steps to be run in parallel.\n *\n * @param steps An array of animation step objects.\n * - When steps are defined by `style()` or `animate()`\n * function calls, each call within the group is executed instantly.\n * - To specify offset styles to be applied at a later time, define steps with\n * `keyframes()`, or use `animate()` calls with a delay value.\n * For example:\n *\n * ```typescript\n * group([\n *   animate(\"1s\", style({ background: \"black\" })),\n *   animate(\"2s\", style({ color: \"white\" }))\n * ])\n * ```\n *\n * @param options An options object containing a delay and\n * developer-defined parameters that provide styling defaults and\n * can be overridden on invocation.\n *\n * @return An object that encapsulates the group data.\n *\n * @usageNotes\n * Grouped animations are useful when a series of styles must be\n * animated at different starting times and closed off at different ending times.\n *\n * When called within a `sequence()` or a\n * `transition()` call, does not continue to the next\n * instruction until all of the inner animation steps have completed.\n *\n * @publicApi\n */\nfunction group(steps, options = null) {\n  return {\n    type: AnimationMetadataType.Group,\n    steps,\n    options\n  };\n}\n/**\n * Defines a list of animation steps to be run sequentially, one by one.\n *\n * @param steps An array of animation step objects.\n * - Steps defined by `style()` calls apply the styling data immediately.\n * - Steps defined by `animate()` calls apply the styling data over time\n *   as specified by the timing data.\n *\n * ```typescript\n * sequence([\n *   style({ opacity: 0 }),\n *   animate(\"1s\", style({ opacity: 1 }))\n * ])\n * ```\n *\n * @param options An options object containing a delay and\n * developer-defined parameters that provide styling defaults and\n * can be overridden on invocation.\n *\n * @return An object that encapsulates the sequence data.\n *\n * @usageNotes\n * When you pass an array of steps to a\n * `transition()` call, the steps run sequentially by default.\n * Compare this to the `{@link animations/group group()}` call, which runs animation steps in\n *parallel.\n *\n * When a sequence is used within a `{@link animations/group group()}` or a `transition()` call,\n * execution continues to the next instruction only after each of the inner animation\n * steps have completed.\n *\n * @publicApi\n **/\nfunction sequence(steps, options = null) {\n  return {\n    type: AnimationMetadataType.Sequence,\n    steps,\n    options\n  };\n}\n/**\n * Declares a key/value object containing CSS properties/styles that\n * can then be used for an animation [`state`](api/animations/state), within an animation\n *`sequence`, or as styling data for calls to `animate()` and `keyframes()`.\n *\n * @param tokens A set of CSS styles or HTML styles associated with an animation state.\n * The value can be any of the following:\n * - A key-value style pair associating a CSS property with a value.\n * - An array of key-value style pairs.\n * - An asterisk (*), to use auto-styling, where styles are derived from the element\n * being animated and applied to the animation when it starts.\n *\n * Auto-styling can be used to define a state that depends on layout or other\n * environmental factors.\n *\n * @return An object that encapsulates the style data.\n *\n * @usageNotes\n * The following examples create animation styles that collect a set of\n * CSS property values:\n *\n * ```typescript\n * // string values for CSS properties\n * style({ background: \"red\", color: \"blue\" })\n *\n * // numerical pixel values\n * style({ width: 100, height: 0 })\n * ```\n *\n * The following example uses auto-styling to allow an element to animate from\n * a height of 0 up to its full height:\n *\n * ```\n * style({ height: 0 }),\n * animate(\"1s\", style({ height: \"*\" }))\n * ```\n *\n * @publicApi\n **/\nfunction style(tokens) {\n  return {\n    type: AnimationMetadataType.Style,\n    styles: tokens,\n    offset: null\n  };\n}\n/**\n * Declares an animation state within a trigger attached to an element.\n *\n * @param name One or more names for the defined state in a comma-separated string.\n * The following reserved state names can be supplied to define a style for specific use\n * cases:\n *\n * - `void` You can associate styles with this name to be used when\n * the element is detached from the application. For example, when an `ngIf` evaluates\n * to false, the state of the associated element is void.\n *  - `*` (asterisk) Indicates the default state. You can associate styles with this name\n * to be used as the fallback when the state that is being animated is not declared\n * within the trigger.\n *\n * @param styles A set of CSS styles associated with this state, created using the\n * `style()` function.\n * This set of styles persists on the element once the state has been reached.\n * @param options Parameters that can be passed to the state when it is invoked.\n * 0 or more key-value pairs.\n * @return An object that encapsulates the new state data.\n *\n * @usageNotes\n * Use the `trigger()` function to register states to an animation trigger.\n * Use the `transition()` function to animate between states.\n * When a state is active within a component, its associated styles persist on the element,\n * even when the animation ends.\n *\n * @publicApi\n **/\nfunction state(name, styles, options) {\n  return {\n    type: AnimationMetadataType.State,\n    name,\n    styles,\n    options\n  };\n}\n/**\n * Defines a set of animation styles, associating each style with an optional `offset` value.\n *\n * @param steps A set of animation styles with optional offset data.\n * The optional `offset` value for a style specifies a percentage of the total animation\n * time at which that style is applied.\n * @returns An object that encapsulates the keyframes data.\n *\n * @usageNotes\n * Use with the `animate()` call. Instead of applying animations\n * from the current state\n * to the destination state, keyframes describe how each style entry is applied and at what point\n * within the animation arc.\n * Compare [CSS Keyframe Animations](https://www.w3schools.com/css/css3_animations.asp).\n *\n * ### Usage\n *\n * In the following example, the offset values describe\n * when each `backgroundColor` value is applied. The color is red at the start, and changes to\n * blue when 20% of the total time has elapsed.\n *\n * ```typescript\n * // the provided offset values\n * animate(\"5s\", keyframes([\n *   style({ backgroundColor: \"red\", offset: 0 }),\n *   style({ backgroundColor: \"blue\", offset: 0.2 }),\n *   style({ backgroundColor: \"orange\", offset: 0.3 }),\n *   style({ backgroundColor: \"black\", offset: 1 })\n * ]))\n * ```\n *\n * If there are no `offset` values specified in the style entries, the offsets\n * are calculated automatically.\n *\n * ```typescript\n * animate(\"5s\", keyframes([\n *   style({ backgroundColor: \"red\" }) // offset = 0\n *   style({ backgroundColor: \"blue\" }) // offset = 0.33\n *   style({ backgroundColor: \"orange\" }) // offset = 0.66\n *   style({ backgroundColor: \"black\" }) // offset = 1\n * ]))\n *```\n\n * @publicApi\n */\nfunction keyframes(steps) {\n  return {\n    type: AnimationMetadataType.Keyframes,\n    steps\n  };\n}\n/**\n * Declares an animation transition which is played when a certain specified condition is met.\n *\n * @param stateChangeExpr A string with a specific format or a function that specifies when the\n * animation transition should occur (see [State Change Expression](#state-change-expression)).\n *\n * @param steps One or more animation objects that represent the animation's instructions.\n *\n * @param options An options object that can be used to specify a delay for the animation or provide\n * custom parameters for it.\n *\n * @returns An object that encapsulates the transition data.\n *\n * @usageNotes\n *\n * ### State Change Expression\n *\n * The State Change Expression instructs Angular when to run the transition's animations, it can\n *either be\n *  - a string with a specific syntax\n *  - or a function that compares the previous and current state (value of the expression bound to\n *    the element's trigger) and returns `true` if the transition should occur or `false` otherwise\n *\n * The string format can be:\n *  - `fromState => toState`, which indicates that the transition's animations should occur then the\n *    expression bound to the trigger's element goes from `fromState` to `toState`\n *\n *    _Example:_\n *      ```typescript\n *        transition('open => closed', animate('.5s ease-out', style({ height: 0 }) ))\n *      ```\n *\n *  - `fromState <=> toState`, which indicates that the transition's animations should occur then\n *    the expression bound to the trigger's element goes from `fromState` to `toState` or vice versa\n *\n *    _Example:_\n *      ```typescript\n *        transition('enabled <=> disabled', animate('1s cubic-bezier(0.8,0.3,0,1)'))\n *      ```\n *\n *  - `:enter`/`:leave`, which indicates that the transition's animations should occur when the\n *    element enters or exists the DOM\n *\n *    _Example:_\n *      ```typescript\n *        transition(':enter', [\n *          style({ opacity: 0 }),\n *          animate('500ms', style({ opacity: 1 }))\n *        ])\n *      ```\n *\n *  - `:increment`/`:decrement`, which indicates that the transition's animations should occur when\n *    the numerical expression bound to the trigger's element has increased in value or decreased\n *\n *    _Example:_\n *      ```typescript\n *        transition(':increment', query('@counter', animateChild()))\n *      ```\n *\n *  - a sequence of any of the above divided by commas, which indicates that transition's animations\n *    should occur whenever one of the state change expressions matches\n *\n *    _Example:_\n *      ```typescript\n *        transition(':increment, * => enabled, :enter', animate('1s ease', keyframes([\n *          style({ transform: 'scale(1)', offset: 0}),\n *          style({ transform: 'scale(1.1)', offset: 0.7}),\n *          style({ transform: 'scale(1)', offset: 1})\n *        ]))),\n *      ```\n *\n * Also note that in such context:\n *  - `void` can be used to indicate the absence of the element\n *  - asterisks can be used as wildcards that match any state\n *  - (as a consequence of the above, `void => *` is equivalent to `:enter` and `* => void` is\n *    equivalent to `:leave`)\n *  - `true` and `false` also match expression values of `1` and `0` respectively (but do not match\n *    _truthy_ and _falsy_ values)\n *\n * <div class=\"alert is-helpful\">\n *\n *  Be careful about entering end leaving elements as their transitions present a common\n *  pitfall for developers.\n *\n *  Note that when an element with a trigger enters the DOM its `:enter` transition always\n *  gets executed, but its `:leave` transition will not be executed if the element is removed\n *  alongside its parent (as it will be removed \"without warning\" before its transition has\n *  a chance to be executed, the only way that such transition can occur is if the element\n *  is exiting the DOM on its own).\n *\n *\n * </div>\n *\n * ### Animating to a Final State\n *\n * If the final step in a transition is a call to `animate()` that uses a timing value\n * with no `style` data, that step is automatically considered the final animation arc,\n * for the element to reach the final state, in such case Angular automatically adds or removes\n * CSS styles to ensure that the element is in the correct final state.\n *\n *\n * ### Usage Examples\n *\n *  - Transition animations applied based on\n *    the trigger's expression value\n *\n *   ```HTML\n *   <div [@myAnimationTrigger]=\"myStatusExp\">\n *    ...\n *   </div>\n *   ```\n *\n *   ```typescript\n *   trigger(\"myAnimationTrigger\", [\n *     ..., // states\n *     transition(\"on => off, open => closed\", animate(500)),\n *     transition(\"* <=> error\", query('.indicator', animateChild()))\n *   ])\n *   ```\n *\n *  - Transition animations applied based on custom logic dependent\n *    on the trigger's expression value and provided parameters\n *\n *    ```HTML\n *    <div [@myAnimationTrigger]=\"{\n *     value: stepName,\n *     params: { target: currentTarget }\n *    }\">\n *     ...\n *    </div>\n *    ```\n *\n *    ```typescript\n *    trigger(\"myAnimationTrigger\", [\n *      ..., // states\n *      transition(\n *        (fromState, toState, _element, params) =>\n *          ['firststep', 'laststep'].includes(fromState.toLowerCase())\n *          && toState === params?.['target'],\n *        animate('1s')\n *      )\n *    ])\n *    ```\n *\n * @publicApi\n **/\nfunction transition(stateChangeExpr, steps, options = null) {\n  return {\n    type: AnimationMetadataType.Transition,\n    expr: stateChangeExpr,\n    animation: steps,\n    options\n  };\n}\n/**\n * Produces a reusable animation that can be invoked in another animation or sequence,\n * by calling the `useAnimation()` function.\n *\n * @param steps One or more animation objects, as returned by the `animate()`\n * or `sequence()` function, that form a transformation from one state to another.\n * A sequence is used by default when you pass an array.\n * @param options An options object that can contain a delay value for the start of the\n * animation, and additional developer-defined parameters.\n * Provided values for additional parameters are used as defaults,\n * and override values can be passed to the caller on invocation.\n * @returns An object that encapsulates the animation data.\n *\n * @usageNotes\n * The following example defines a reusable animation, providing some default parameter\n * values.\n *\n * ```typescript\n * var fadeAnimation = animation([\n *   style({ opacity: '{{ start }}' }),\n *   animate('{{ time }}',\n *   style({ opacity: '{{ end }}'}))\n *   ],\n *   { params: { time: '1000ms', start: 0, end: 1 }});\n * ```\n *\n * The following invokes the defined animation with a call to `useAnimation()`,\n * passing in override parameter values.\n *\n * ```js\n * useAnimation(fadeAnimation, {\n *   params: {\n *     time: '2s',\n *     start: 1,\n *     end: 0\n *   }\n * })\n * ```\n *\n * If any of the passed-in parameter values are missing from this call,\n * the default values are used. If one or more parameter values are missing before a step is\n * animated, `useAnimation()` throws an error.\n *\n * @publicApi\n */\nfunction animation(steps, options = null) {\n  return {\n    type: AnimationMetadataType.Reference,\n    animation: steps,\n    options\n  };\n}\n/**\n * Executes a queried inner animation element within an animation sequence.\n *\n * @param options An options object that can contain a delay value for the start of the\n * animation, and additional override values for developer-defined parameters.\n * @return An object that encapsulates the child animation data.\n *\n * @usageNotes\n * Each time an animation is triggered in Angular, the parent animation\n * has priority and any child animations are blocked. In order\n * for a child animation to run, the parent animation must query each of the elements\n * containing child animations, and run them using this function.\n *\n * Note that this feature is designed to be used with `query()` and it will only work\n * with animations that are assigned using the Angular animation library. CSS keyframes\n * and transitions are not handled by this API.\n *\n * @publicApi\n */\nfunction animateChild(options = null) {\n  return {\n    type: AnimationMetadataType.AnimateChild,\n    options\n  };\n}\n/**\n * Starts a reusable animation that is created using the `animation()` function.\n *\n * @param animation The reusable animation to start.\n * @param options An options object that can contain a delay value for the start of\n * the animation, and additional override values for developer-defined parameters.\n * @return An object that contains the animation parameters.\n *\n * @publicApi\n */\nfunction useAnimation(animation, options = null) {\n  return {\n    type: AnimationMetadataType.AnimateRef,\n    animation,\n    options\n  };\n}\n/**\n * Finds one or more inner elements within the current element that is\n * being animated within a sequence. Use with `animate()`.\n *\n * @param selector The element to query, or a set of elements that contain Angular-specific\n * characteristics, specified with one or more of the following tokens.\n *  - `query(\":enter\")` or `query(\":leave\")` : Query for newly inserted/removed elements (not\n *     all elements can be queried via these tokens, see\n *     [Entering and Leaving Elements](#entering-and-leaving-elements))\n *  - `query(\":animating\")` : Query all currently animating elements.\n *  - `query(\"@triggerName\")` : Query elements that contain an animation trigger.\n *  - `query(\"@*\")` : Query all elements that contain an animation triggers.\n *  - `query(\":self\")` : Include the current element into the animation sequence.\n *\n * @param animation One or more animation steps to apply to the queried element or elements.\n * An array is treated as an animation sequence.\n * @param options An options object. Use the 'limit' field to limit the total number of\n * items to collect.\n * @return An object that encapsulates the query data.\n *\n * @usageNotes\n *\n * ### Multiple Tokens\n *\n * Tokens can be merged into a combined query selector string. For example:\n *\n * ```typescript\n *  query(':self, .record:enter, .record:leave, @subTrigger', [...])\n * ```\n *\n * The `query()` function collects multiple elements and works internally by using\n * `element.querySelectorAll`. Use the `limit` field of an options object to limit\n * the total number of items to be collected. For example:\n *\n * ```js\n * query('div', [\n *   animate(...),\n *   animate(...)\n * ], { limit: 1 })\n * ```\n *\n * By default, throws an error when zero items are found. Set the\n * `optional` flag to ignore this error. For example:\n *\n * ```js\n * query('.some-element-that-may-not-be-there', [\n *   animate(...),\n *   animate(...)\n * ], { optional: true })\n * ```\n *\n * ### Entering and Leaving Elements\n *\n * Not all elements can be queried via the `:enter` and `:leave` tokens, the only ones\n * that can are those that Angular assumes can enter/leave based on their own logic\n * (if their insertion/removal is simply a consequence of that of their parent they\n * should be queried via a different token in their parent's `:enter`/`:leave` transitions).\n *\n * The only elements Angular assumes can enter/leave based on their own logic (thus the only\n * ones that can be queried via the `:enter` and `:leave` tokens) are:\n *  - Those inserted dynamically (via `ViewContainerRef`)\n *  - Those that have a structural directive (which, under the hood, are a subset of the above ones)\n *\n * <div class=\"alert is-helpful\">\n *\n *  Note that elements will be successfully queried via `:enter`/`:leave` even if their\n *  insertion/removal is not done manually via `ViewContainerRef`or caused by their structural\n *  directive (e.g. they enter/exit alongside their parent).\n *\n * </div>\n *\n * <div class=\"alert is-important\">\n *\n *  There is an exception to what previously mentioned, besides elements entering/leaving based on\n *  their own logic, elements with an animation trigger can always be queried via `:leave` when\n * their parent is also leaving.\n *\n * </div>\n *\n * ### Usage Example\n *\n * The following example queries for inner elements and animates them\n * individually using `animate()`.\n *\n * ```typescript\n * @Component({\n *   selector: 'inner',\n *   template: `\n *     <div [@queryAnimation]=\"exp\">\n *       <h1>Title</h1>\n *       <div class=\"content\">\n *         Blah blah blah\n *       </div>\n *     </div>\n *   `,\n *   animations: [\n *    trigger('queryAnimation', [\n *      transition('* => goAnimate', [\n *        // hide the inner elements\n *        query('h1', style({ opacity: 0 })),\n *        query('.content', style({ opacity: 0 })),\n *\n *        // animate the inner elements in, one by one\n *        query('h1', animate(1000, style({ opacity: 1 }))),\n *        query('.content', animate(1000, style({ opacity: 1 }))),\n *      ])\n *    ])\n *  ]\n * })\n * class Cmp {\n *   exp = '';\n *\n *   goAnimate() {\n *     this.exp = 'goAnimate';\n *   }\n * }\n * ```\n *\n * @publicApi\n */\nfunction query(selector, animation, options = null) {\n  return {\n    type: AnimationMetadataType.Query,\n    selector,\n    animation,\n    options\n  };\n}\n/**\n * Use within an animation `query()` call to issue a timing gap after\n * each queried item is animated.\n *\n * @param timings A delay value.\n * @param animation One ore more animation steps.\n * @returns An object that encapsulates the stagger data.\n *\n * @usageNotes\n * In the following example, a container element wraps a list of items stamped out\n * by an `ngFor`. The container element contains an animation trigger that will later be set\n * to query for each of the inner items.\n *\n * Each time items are added, the opacity fade-in animation runs,\n * and each removed item is faded out.\n * When either of these animations occur, the stagger effect is\n * applied after each item's animation is started.\n *\n * ```html\n * <!-- list.component.html -->\n * <button (click)=\"toggle()\">Show / Hide Items</button>\n * <hr />\n * <div [@listAnimation]=\"items.length\">\n *   <div *ngFor=\"let item of items\">\n *     {{ item }}\n *   </div>\n * </div>\n * ```\n *\n * Here is the component code:\n *\n * ```typescript\n * import {trigger, transition, style, animate, query, stagger} from '@angular/animations';\n * @Component({\n *   templateUrl: 'list.component.html',\n *   animations: [\n *     trigger('listAnimation', [\n *     ...\n *     ])\n *   ]\n * })\n * class ListComponent {\n *   items = [];\n *\n *   showItems() {\n *     this.items = [0,1,2,3,4];\n *   }\n *\n *   hideItems() {\n *     this.items = [];\n *   }\n *\n *   toggle() {\n *     this.items.length ? this.hideItems() : this.showItems();\n *    }\n *  }\n * ```\n *\n * Here is the animation trigger code:\n *\n * ```typescript\n * trigger('listAnimation', [\n *   transition('* => *', [ // each time the binding value changes\n *     query(':leave', [\n *       stagger(100, [\n *         animate('0.5s', style({ opacity: 0 }))\n *       ])\n *     ]),\n *     query(':enter', [\n *       style({ opacity: 0 }),\n *       stagger(100, [\n *         animate('0.5s', style({ opacity: 1 }))\n *       ])\n *     ])\n *   ])\n * ])\n * ```\n *\n * @publicApi\n */\nfunction stagger(timings, animation) {\n  return {\n    type: AnimationMetadataType.Stagger,\n    timings,\n    animation\n  };\n}\n\n/**\n * An injectable service that produces an animation sequence programmatically within an\n * Angular component or directive.\n * Provided by the `BrowserAnimationsModule` or `NoopAnimationsModule`.\n *\n * @usageNotes\n *\n * To use this service, add it to your component or directive as a dependency.\n * The service is instantiated along with your component.\n *\n * Apps do not typically need to create their own animation players, but if you\n * do need to, follow these steps:\n *\n * 1. Use the <code>[AnimationBuilder.build](api/animations/AnimationBuilder#build)()</code> method\n * to create a programmatic animation. The method returns an `AnimationFactory` instance.\n *\n * 2. Use the factory object to create an `AnimationPlayer` and attach it to a DOM element.\n *\n * 3. Use the player object to control the animation programmatically.\n *\n * For example:\n *\n * ```ts\n * // import the service from BrowserAnimationsModule\n * import {AnimationBuilder} from '@angular/animations';\n * // require the service as a dependency\n * class MyCmp {\n *   constructor(private _builder: AnimationBuilder) {}\n *\n *   makeAnimation(element: any) {\n *     // first define a reusable animation\n *     const myAnimation = this._builder.build([\n *       style({ width: 0 }),\n *       animate(1000, style({ width: '100px' }))\n *     ]);\n *\n *     // use the returned factory object to create a player\n *     const player = myAnimation.create(element);\n *\n *     player.play();\n *   }\n * }\n * ```\n *\n * @publicApi\n */\nlet AnimationBuilder = /*#__PURE__*/(() => {\n  class AnimationBuilder {\n    static {\n      this.ɵfac = function AnimationBuilder_Factory(t) {\n        return new (t || AnimationBuilder)();\n      };\n    }\n    static {\n      this.ɵprov = /* @__PURE__ */i0.ɵɵdefineInjectable({\n        token: AnimationBuilder,\n        factory: () => (() => inject(BrowserAnimationBuilder))(),\n        providedIn: 'root'\n      });\n    }\n  }\n  return AnimationBuilder;\n})();\n/*#__PURE__*/(() => {\n  (typeof ngDevMode === \"undefined\" || ngDevMode) && void 0;\n})();\n/**\n * A factory object returned from the\n * <code>[AnimationBuilder.build](api/animations/AnimationBuilder#build)()</code>\n * method.\n *\n * @publicApi\n */\nclass AnimationFactory {}\nlet BrowserAnimationBuilder = /*#__PURE__*/(() => {\n  class BrowserAnimationBuilder extends AnimationBuilder {\n    constructor(rootRenderer, doc) {\n      super();\n      this.animationModuleType = inject(ANIMATION_MODULE_TYPE, {\n        optional: true\n      });\n      this._nextAnimationId = 0;\n      const typeData = {\n        id: '0',\n        encapsulation: ViewEncapsulation.None,\n        styles: [],\n        data: {\n          animation: []\n        }\n      };\n      this._renderer = rootRenderer.createRenderer(doc.body, typeData);\n      if (this.animationModuleType === null && !isAnimationRenderer(this._renderer)) {\n        // We only support AnimationRenderer & DynamicDelegationRenderer for this AnimationBuilder\n        throw new ɵRuntimeError(3600 /* RuntimeErrorCode.BROWSER_ANIMATION_BUILDER_INJECTED_WITHOUT_ANIMATIONS */, (typeof ngDevMode === 'undefined' || ngDevMode) && 'Angular detected that the `AnimationBuilder` was injected, but animation support was not enabled. ' + 'Please make sure that you enable animations in your application by calling `provideAnimations()` or `provideAnimationsAsync()` function.');\n      }\n    }\n    build(animation) {\n      const id = this._nextAnimationId;\n      this._nextAnimationId++;\n      const entry = Array.isArray(animation) ? sequence(animation) : animation;\n      issueAnimationCommand(this._renderer, null, id, 'register', [entry]);\n      return new BrowserAnimationFactory(id, this._renderer);\n    }\n    static {\n      this.ɵfac = function BrowserAnimationBuilder_Factory(t) {\n        return new (t || BrowserAnimationBuilder)(i0.ɵɵinject(i0.RendererFactory2), i0.ɵɵinject(DOCUMENT));\n      };\n    }\n    static {\n      this.ɵprov = /* @__PURE__ */i0.ɵɵdefineInjectable({\n        token: BrowserAnimationBuilder,\n        factory: BrowserAnimationBuilder.ɵfac,\n        providedIn: 'root'\n      });\n    }\n  }\n  return BrowserAnimationBuilder;\n})();\n/*#__PURE__*/(() => {\n  (typeof ngDevMode === \"undefined\" || ngDevMode) && void 0;\n})();\nclass BrowserAnimationFactory extends AnimationFactory {\n  constructor(_id, _renderer) {\n    super();\n    this._id = _id;\n    this._renderer = _renderer;\n  }\n  create(element, options) {\n    return new RendererAnimationPlayer(this._id, element, options || {}, this._renderer);\n  }\n}\nclass RendererAnimationPlayer {\n  constructor(id, element, options, _renderer) {\n    this.id = id;\n    this.element = element;\n    this._renderer = _renderer;\n    this.parentPlayer = null;\n    this._started = false;\n    this.totalTime = 0;\n    this._command('create', options);\n  }\n  _listen(eventName, callback) {\n    return this._renderer.listen(this.element, `@@${this.id}:${eventName}`, callback);\n  }\n  _command(command, ...args) {\n    issueAnimationCommand(this._renderer, this.element, this.id, command, args);\n  }\n  onDone(fn) {\n    this._listen('done', fn);\n  }\n  onStart(fn) {\n    this._listen('start', fn);\n  }\n  onDestroy(fn) {\n    this._listen('destroy', fn);\n  }\n  init() {\n    this._command('init');\n  }\n  hasStarted() {\n    return this._started;\n  }\n  play() {\n    this._command('play');\n    this._started = true;\n  }\n  pause() {\n    this._command('pause');\n  }\n  restart() {\n    this._command('restart');\n  }\n  finish() {\n    this._command('finish');\n  }\n  destroy() {\n    this._command('destroy');\n  }\n  reset() {\n    this._command('reset');\n    this._started = false;\n  }\n  setPosition(p) {\n    this._command('setPosition', p);\n  }\n  getPosition() {\n    return unwrapAnimationRenderer(this._renderer)?.engine?.players[this.id]?.getPosition() ?? 0;\n  }\n}\nfunction issueAnimationCommand(renderer, element, id, command, args) {\n  renderer.setProperty(element, `@@${id}:${command}`, args);\n}\n/**\n * The following 2 methods cannot reference their correct types (AnimationRenderer &\n * DynamicDelegationRenderer) since this would introduce a import cycle.\n */\nfunction unwrapAnimationRenderer(renderer) {\n  const type = renderer.ɵtype;\n  if (type === 0 /* AnimationRendererType.Regular */) {\n    return renderer;\n  } else if (type === 1 /* AnimationRendererType.Delegated */) {\n    return renderer.animationRenderer;\n  }\n  return null;\n}\nfunction isAnimationRenderer(renderer) {\n  const type = renderer.ɵtype;\n  return type === 0 /* AnimationRendererType.Regular */ || type === 1 /* AnimationRendererType.Delegated */;\n}\n\n/**\n * An empty programmatic controller for reusable animations.\n * Used internally when animations are disabled, to avoid\n * checking for the null case when an animation player is expected.\n *\n * @see {@link animate}\n * @see {@link AnimationPlayer}\n * @see {@link ɵAnimationGroupPlayer AnimationGroupPlayer}\n *\n * @publicApi\n */\nclass NoopAnimationPlayer {\n  constructor(duration = 0, delay = 0) {\n    this._onDoneFns = [];\n    this._onStartFns = [];\n    this._onDestroyFns = [];\n    this._originalOnDoneFns = [];\n    this._originalOnStartFns = [];\n    this._started = false;\n    this._destroyed = false;\n    this._finished = false;\n    this._position = 0;\n    this.parentPlayer = null;\n    this.totalTime = duration + delay;\n  }\n  _onFinish() {\n    if (!this._finished) {\n      this._finished = true;\n      this._onDoneFns.forEach(fn => fn());\n      this._onDoneFns = [];\n    }\n  }\n  onStart(fn) {\n    this._originalOnStartFns.push(fn);\n    this._onStartFns.push(fn);\n  }\n  onDone(fn) {\n    this._originalOnDoneFns.push(fn);\n    this._onDoneFns.push(fn);\n  }\n  onDestroy(fn) {\n    this._onDestroyFns.push(fn);\n  }\n  hasStarted() {\n    return this._started;\n  }\n  init() {}\n  play() {\n    if (!this.hasStarted()) {\n      this._onStart();\n      this.triggerMicrotask();\n    }\n    this._started = true;\n  }\n  /** @internal */\n  triggerMicrotask() {\n    queueMicrotask(() => this._onFinish());\n  }\n  _onStart() {\n    this._onStartFns.forEach(fn => fn());\n    this._onStartFns = [];\n  }\n  pause() {}\n  restart() {}\n  finish() {\n    this._onFinish();\n  }\n  destroy() {\n    if (!this._destroyed) {\n      this._destroyed = true;\n      if (!this.hasStarted()) {\n        this._onStart();\n      }\n      this.finish();\n      this._onDestroyFns.forEach(fn => fn());\n      this._onDestroyFns = [];\n    }\n  }\n  reset() {\n    this._started = false;\n    this._finished = false;\n    this._onStartFns = this._originalOnStartFns;\n    this._onDoneFns = this._originalOnDoneFns;\n  }\n  setPosition(position) {\n    this._position = this.totalTime ? position * this.totalTime : 1;\n  }\n  getPosition() {\n    return this.totalTime ? this._position / this.totalTime : 1;\n  }\n  /** @internal */\n  triggerCallback(phaseName) {\n    const methods = phaseName == 'start' ? this._onStartFns : this._onDoneFns;\n    methods.forEach(fn => fn());\n    methods.length = 0;\n  }\n}\n\n/**\n * A programmatic controller for a group of reusable animations.\n * Used internally to control animations.\n *\n * @see {@link AnimationPlayer}\n * @see {@link animations/group group}\n *\n */\nclass AnimationGroupPlayer {\n  constructor(_players) {\n    this._onDoneFns = [];\n    this._onStartFns = [];\n    this._finished = false;\n    this._started = false;\n    this._destroyed = false;\n    this._onDestroyFns = [];\n    this.parentPlayer = null;\n    this.totalTime = 0;\n    this.players = _players;\n    let doneCount = 0;\n    let destroyCount = 0;\n    let startCount = 0;\n    const total = this.players.length;\n    if (total == 0) {\n      queueMicrotask(() => this._onFinish());\n    } else {\n      this.players.forEach(player => {\n        player.onDone(() => {\n          if (++doneCount == total) {\n            this._onFinish();\n          }\n        });\n        player.onDestroy(() => {\n          if (++destroyCount == total) {\n            this._onDestroy();\n          }\n        });\n        player.onStart(() => {\n          if (++startCount == total) {\n            this._onStart();\n          }\n        });\n      });\n    }\n    this.totalTime = this.players.reduce((time, player) => Math.max(time, player.totalTime), 0);\n  }\n  _onFinish() {\n    if (!this._finished) {\n      this._finished = true;\n      this._onDoneFns.forEach(fn => fn());\n      this._onDoneFns = [];\n    }\n  }\n  init() {\n    this.players.forEach(player => player.init());\n  }\n  onStart(fn) {\n    this._onStartFns.push(fn);\n  }\n  _onStart() {\n    if (!this.hasStarted()) {\n      this._started = true;\n      this._onStartFns.forEach(fn => fn());\n      this._onStartFns = [];\n    }\n  }\n  onDone(fn) {\n    this._onDoneFns.push(fn);\n  }\n  onDestroy(fn) {\n    this._onDestroyFns.push(fn);\n  }\n  hasStarted() {\n    return this._started;\n  }\n  play() {\n    if (!this.parentPlayer) {\n      this.init();\n    }\n    this._onStart();\n    this.players.forEach(player => player.play());\n  }\n  pause() {\n    this.players.forEach(player => player.pause());\n  }\n  restart() {\n    this.players.forEach(player => player.restart());\n  }\n  finish() {\n    this._onFinish();\n    this.players.forEach(player => player.finish());\n  }\n  destroy() {\n    this._onDestroy();\n  }\n  _onDestroy() {\n    if (!this._destroyed) {\n      this._destroyed = true;\n      this._onFinish();\n      this.players.forEach(player => player.destroy());\n      this._onDestroyFns.forEach(fn => fn());\n      this._onDestroyFns = [];\n    }\n  }\n  reset() {\n    this.players.forEach(player => player.reset());\n    this._destroyed = false;\n    this._finished = false;\n    this._started = false;\n  }\n  setPosition(p) {\n    const timeAtPosition = p * this.totalTime;\n    this.players.forEach(player => {\n      const position = player.totalTime ? Math.min(1, timeAtPosition / player.totalTime) : 1;\n      player.setPosition(position);\n    });\n  }\n  getPosition() {\n    const longestPlayer = this.players.reduce((longestSoFar, player) => {\n      const newPlayerIsLongest = longestSoFar === null || player.totalTime > longestSoFar.totalTime;\n      return newPlayerIsLongest ? player : longestSoFar;\n    }, null);\n    return longestPlayer != null ? longestPlayer.getPosition() : 0;\n  }\n  beforeDestroy() {\n    this.players.forEach(player => {\n      if (player.beforeDestroy) {\n        player.beforeDestroy();\n      }\n    });\n  }\n  /** @internal */\n  triggerCallback(phaseName) {\n    const methods = phaseName == 'start' ? this._onStartFns : this._onDoneFns;\n    methods.forEach(fn => fn());\n    methods.length = 0;\n  }\n}\nconst ɵPRE_STYLE = '!';\n\n/**\n * @module\n * @description\n * Entry point for all animation APIs of the animation package.\n */\n\n/**\n * @module\n * @description\n * Entry point for all public APIs of this package.\n */\n\n// This file is not used to build this module. It is only used during editing\n\n/**\n * Generated bundle index. Do not edit.\n */\n\nexport { AUTO_STYLE, AnimationBuilder, AnimationFactory, AnimationMetadataType, NoopAnimationPlayer, animate, animateChild, animation, group, keyframes, query, sequence, stagger, state, style, transition, trigger, useAnimation, AnimationGroupPlayer as ɵAnimationGroupPlayer, BrowserAnimationBuilder as ɵBrowserAnimationBuilder, ɵPRE_STYLE 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