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{ Injectable } from '@angular/core';\n\n@Injectable()\nexport class PasswordProtector {\n private readonly obfuscatedPassword = 'c3RpbGxtYW4=';\n\n public locked = true;\n\n public constructor() {\n this.locked = !sessionStorage.getItem('locked');\n }\n\n public unlock(password: string) {\n if (btoa(password) === this.obfuscatedPassword) {\n this.locked = false;\n sessionStorage.setItem('locked', 'false');\n return true;\n }\n return false;\n }\n}\n","export const environment = {\n RECAPTCHA_SITE_KEY: '6LdXV8cpAAAAAMa5fieHqhi0KLvSlwtW-A6A-UzC',\n PRODUCTION: true,\n SUMSUB: {\n INTERNAL_API_BASE_URL: 'https://sumsub.stillmandigital.com',\n LINK: {\n COMPANY_US: 'https://in.sumsub.com/idensic/l/#/uni_9difR7Li8LI5sXum',\n PRIVATE_US: 'https://in.sumsub.com/websdk/p/uni_0hSNgQsB83sdUbWW',\n COMPANY_WORLD: 'https://in.sumsub.com/idensic/l/#/uni_9difR7Li8LI5sXum',\n PRIVATE_WORLD: 'https://in.sumsub.com/websdk/p/uni_0hSNgQsB83sdUbWW',\n },\n },\n DOCUSIGN: {\n CLIENT_ID: 'b7a830e98569708707e499842f17100f',\n API_KEY: '81620191c5a417abcc28e3de390f49ccd479edbcdba462f3201a8e7a0fd9f61e',\n CC_EMAIL: 'sales@stillmandigital.com',\n TEMPLATE_IDS: {\n COMPANY_US: 'a0ee94134eb47db62f94457a05f83297c44ddd38', //Stillman Digital Entity Digital Asset Purchase & Sale Agreement 2.0\n PRIVATE_US: '864b9b3423bdf93f2723bdb8d44b9cd8a327f9a8', //Stillman Digital Individual Digital Asset Purchase & Sale Agreement 2.0\n WORLD: '5e5fa8db944e9e8a3c6592f1da28f3b67eeabe8b',\n WORLD_WITH_CHECKING: '78d62ba8fa6291d70fae79a48431dc9c96933806',\n },\n },\n};\n","const SDK_VERSION = '8.27.0';\n\nexport { SDK_VERSION };\n","import { SDK_VERSION } from './version.js';\n\n/** Get's the global object for the current JavaScript runtime */\nconst GLOBAL_OBJ = globalThis ;\n\n/**\n * Returns a global singleton contained in the global `__SENTRY__[]` object.\n *\n * If the singleton doesn't already exist in `__SENTRY__`, it will be created using the given factory\n * function and added to the `__SENTRY__` object.\n *\n * @param name name of the global singleton on __SENTRY__\n * @param creator creator Factory function to create the singleton if it doesn't already exist on `__SENTRY__`\n * @param obj (Optional) The global object on which to look for `__SENTRY__`, if not `GLOBAL_OBJ`'s return value\n * @returns the singleton\n */\nfunction getGlobalSingleton(name, creator, obj) {\n const gbl = (obj || GLOBAL_OBJ) ;\n const __SENTRY__ = (gbl.__SENTRY__ = gbl.__SENTRY__ || {});\n const versionedCarrier = (__SENTRY__[SDK_VERSION] = __SENTRY__[SDK_VERSION] || {});\n return versionedCarrier[name] || (versionedCarrier[name] = creator());\n}\n\nexport { GLOBAL_OBJ, getGlobalSingleton };\n","const DEFAULT_ENVIRONMENT = 'production';\n\nexport { DEFAULT_ENVIRONMENT };\n","import { GLOBAL_OBJ, SDK_VERSION } from '@sentry/utils';\n\n/**\n * An object that contains globally accessible properties and maintains a scope stack.\n * @hidden\n */\n\n/**\n * Returns the global shim registry.\n *\n * FIXME: This function is problematic, because despite always returning a valid Carrier,\n * it has an optional `__SENTRY__` property, which then in turn requires us to always perform an unnecessary check\n * at the call-site. We always access the carrier through this function, so we can guarantee that `__SENTRY__` is there.\n **/\nfunction getMainCarrier() {\n // This ensures a Sentry carrier exists\n getSentryCarrier(GLOBAL_OBJ);\n return GLOBAL_OBJ;\n}\n\n/** Will either get the existing sentry carrier, or create a new one. */\nfunction getSentryCarrier(carrier) {\n const __SENTRY__ = (carrier.__SENTRY__ = carrier.__SENTRY__ || {});\n\n // For now: First SDK that sets the .version property wins\n __SENTRY__.version = __SENTRY__.version || SDK_VERSION;\n\n // Intentionally populating and returning the version of \"this\" SDK instance\n // rather than what's set in .version so that \"this\" SDK always gets its carrier\n return (__SENTRY__[SDK_VERSION] = __SENTRY__[SDK_VERSION] || {});\n}\n\nexport { getMainCarrier, getSentryCarrier };\n","// eslint-disable-next-line @typescript-eslint/unbound-method\nconst objectToString = Object.prototype.toString;\n\n/**\n * Checks whether given value's type is one of a few Error or Error-like\n * {@link isError}.\n *\n * @param wat A value to be checked.\n * @returns A boolean representing the result.\n */\nfunction isError(wat) {\n switch (objectToString.call(wat)) {\n case '[object Error]':\n case '[object Exception]':\n case '[object DOMException]':\n return true;\n default:\n return isInstanceOf(wat, Error);\n }\n}\n/**\n * Checks whether given value is an instance of the given built-in class.\n *\n * @param wat The value to be checked\n * @param className\n * @returns A boolean representing the result.\n */\nfunction isBuiltin(wat, className) {\n return objectToString.call(wat) === `[object ${className}]`;\n}\n\n/**\n * Checks whether given value's type is ErrorEvent\n * {@link isErrorEvent}.\n *\n * @param wat A value to be checked.\n * @returns A boolean representing the result.\n */\nfunction isErrorEvent(wat) {\n return isBuiltin(wat, 'ErrorEvent');\n}\n\n/**\n * Checks whether given value's type is DOMError\n * {@link isDOMError}.\n *\n * @param wat A value to be checked.\n * @returns A boolean representing the result.\n */\nfunction isDOMError(wat) {\n return isBuiltin(wat, 'DOMError');\n}\n\n/**\n * Checks whether given value's type is DOMException\n * {@link isDOMException}.\n *\n * @param wat A value to be checked.\n * @returns A boolean representing the result.\n */\nfunction isDOMException(wat) {\n return isBuiltin(wat, 'DOMException');\n}\n\n/**\n * Checks whether given value's type is a string\n * {@link isString}.\n *\n * @param wat A value to be checked.\n * @returns A boolean representing the result.\n */\nfunction isString(wat) {\n return isBuiltin(wat, 'String');\n}\n\n/**\n * Checks whether given string is parameterized\n * {@link isParameterizedString}.\n *\n * @param wat A value to be checked.\n * @returns A boolean representing the result.\n */\nfunction isParameterizedString(wat) {\n return (\n typeof wat === 'object' &&\n wat !== null &&\n '__sentry_template_string__' in wat &&\n '__sentry_template_values__' in wat\n );\n}\n\n/**\n * Checks whether given value is a primitive (undefined, null, number, boolean, string, bigint, symbol)\n * {@link isPrimitive}.\n *\n * @param wat A value to be checked.\n * @returns A boolean representing the result.\n */\nfunction isPrimitive(wat) {\n return wat === null || isParameterizedString(wat) || (typeof wat !== 'object' && typeof wat !== 'function');\n}\n\n/**\n * Checks whether given value's type is an object literal, or a class instance.\n * {@link isPlainObject}.\n *\n * @param wat A value to be checked.\n * @returns A boolean representing the result.\n */\nfunction isPlainObject(wat) {\n return isBuiltin(wat, 'Object');\n}\n\n/**\n * Checks whether given value's type is an Event instance\n * {@link isEvent}.\n *\n * @param wat A value to be checked.\n * @returns A boolean representing the result.\n */\nfunction isEvent(wat) {\n return typeof Event !== 'undefined' && isInstanceOf(wat, Event);\n}\n\n/**\n * Checks whether given value's type is an Element instance\n * {@link isElement}.\n *\n * @param wat A value to be checked.\n * @returns A boolean representing the result.\n */\nfunction isElement(wat) {\n return typeof Element !== 'undefined' && isInstanceOf(wat, Element);\n}\n\n/**\n * Checks whether given value's type is an regexp\n * {@link isRegExp}.\n *\n * @param wat A value to be checked.\n * @returns A boolean representing the result.\n */\nfunction isRegExp(wat) {\n return isBuiltin(wat, 'RegExp');\n}\n\n/**\n * Checks whether given value has a then function.\n * @param wat A value to be checked.\n */\nfunction isThenable(wat) {\n // eslint-disable-next-line @typescript-eslint/no-unsafe-member-access\n return Boolean(wat && wat.then && typeof wat.then === 'function');\n}\n\n/**\n * Checks whether given value's type is a SyntheticEvent\n * {@link isSyntheticEvent}.\n *\n * @param wat A value to be checked.\n * @returns A boolean representing the result.\n */\nfunction isSyntheticEvent(wat) {\n return isPlainObject(wat) && 'nativeEvent' in wat && 'preventDefault' in wat && 'stopPropagation' in wat;\n}\n\n/**\n * Checks whether given value's type is an instance of provided constructor.\n * {@link isInstanceOf}.\n *\n * @param wat A value to be checked.\n * @param base A constructor to be used in a check.\n * @returns A boolean representing the result.\n */\nfunction isInstanceOf(wat, base) {\n try {\n return wat instanceof base;\n } catch (_e) {\n return false;\n }\n}\n\n/**\n * Checks whether given value's type is a Vue ViewModel.\n *\n * @param wat A value to be checked.\n * @returns A boolean representing the result.\n */\nfunction isVueViewModel(wat) {\n // Not using Object.prototype.toString because in Vue 3 it would read the instance's Symbol(Symbol.toStringTag) property.\n return !!(typeof wat === 'object' && wat !== null && ((wat ).__isVue || (wat )._isVue));\n}\n\nexport { isDOMError, isDOMException, isElement, isError, isErrorEvent, isEvent, isInstanceOf, isParameterizedString, isPlainObject, isPrimitive, isRegExp, isString, isSyntheticEvent, isThenable, isVueViewModel };\n","import { isString } from './is.js';\nimport { GLOBAL_OBJ } from './worldwide.js';\n\nconst WINDOW = GLOBAL_OBJ ;\n\nconst DEFAULT_MAX_STRING_LENGTH = 80;\n\n/**\n * Given a child DOM element, returns a query-selector statement describing that\n * and its ancestors\n * e.g. [HTMLElement] => body > div > input#foo.btn[name=baz]\n * @returns generated DOM path\n */\nfunction htmlTreeAsString(\n elem,\n options = {},\n) {\n if (!elem) {\n return '';\n }\n\n // try/catch both:\n // - accessing event.target (see getsentry/raven-js#838, #768)\n // - `htmlTreeAsString` because it's complex, and just accessing the DOM incorrectly\n // - can throw an exception in some circumstances.\n try {\n let currentElem = elem ;\n const MAX_TRAVERSE_HEIGHT = 5;\n const out = [];\n let height = 0;\n let len = 0;\n const separator = ' > ';\n const sepLength = separator.length;\n let nextStr;\n const keyAttrs = Array.isArray(options) ? options : options.keyAttrs;\n const maxStringLength = (!Array.isArray(options) && options.maxStringLength) || DEFAULT_MAX_STRING_LENGTH;\n\n while (currentElem && height++ < MAX_TRAVERSE_HEIGHT) {\n nextStr = _htmlElementAsString(currentElem, keyAttrs);\n // bail out if\n // - nextStr is the 'html' element\n // - the length of the string that would be created exceeds maxStringLength\n // (ignore this limit if we are on the first iteration)\n if (nextStr === 'html' || (height > 1 && len + out.length * sepLength + nextStr.length >= maxStringLength)) {\n break;\n }\n\n out.push(nextStr);\n\n len += nextStr.length;\n currentElem = currentElem.parentNode;\n }\n\n return out.reverse().join(separator);\n } catch (_oO) {\n return '';\n }\n}\n\n/**\n * Returns a simple, query-selector representation of a DOM element\n * e.g. [HTMLElement] => input#foo.btn[name=baz]\n * @returns generated DOM path\n */\nfunction _htmlElementAsString(el, keyAttrs) {\n const elem = el\n\n;\n\n const out = [];\n\n if (!elem || !elem.tagName) {\n return '';\n }\n\n // @ts-expect-error WINDOW has HTMLElement\n if (WINDOW.HTMLElement) {\n // If using the component name annotation plugin, this value may be available on the DOM node\n if (elem instanceof HTMLElement && elem.dataset) {\n if (elem.dataset['sentryComponent']) {\n return elem.dataset['sentryComponent'];\n }\n if (elem.dataset['sentryElement']) {\n return elem.dataset['sentryElement'];\n }\n }\n }\n\n out.push(elem.tagName.toLowerCase());\n\n // Pairs of attribute keys defined in `serializeAttribute` and their values on element.\n const keyAttrPairs =\n keyAttrs && keyAttrs.length\n ? keyAttrs.filter(keyAttr => elem.getAttribute(keyAttr)).map(keyAttr => [keyAttr, elem.getAttribute(keyAttr)])\n : null;\n\n if (keyAttrPairs && keyAttrPairs.length) {\n keyAttrPairs.forEach(keyAttrPair => {\n out.push(`[${keyAttrPair[0]}=\"${keyAttrPair[1]}\"]`);\n });\n } else {\n if (elem.id) {\n out.push(`#${elem.id}`);\n }\n\n const className = elem.className;\n if (className && isString(className)) {\n const classes = className.split(/\\s+/);\n for (const c of classes) {\n out.push(`.${c}`);\n }\n }\n }\n const allowedAttrs = ['aria-label', 'type', 'name', 'title', 'alt'];\n for (const k of allowedAttrs) {\n const attr = elem.getAttribute(k);\n if (attr) {\n out.push(`[${k}=\"${attr}\"]`);\n }\n }\n\n return out.join('');\n}\n\n/**\n * A safe form of location.href\n */\nfunction getLocationHref() {\n try {\n return WINDOW.document.location.href;\n } catch (oO) {\n return '';\n }\n}\n\n/**\n * Gets a DOM element by using document.querySelector.\n *\n * This wrapper will first check for the existance of the function before\n * actually calling it so that we don't have to take care of this check,\n * every time we want to access the DOM.\n *\n * Reason: DOM/querySelector is not available in all environments.\n *\n * We have to cast to any because utils can be consumed by a variety of environments,\n * and we don't want to break TS users. If you know what element will be selected by\n * `document.querySelector`, specify it as part of the generic call. For example,\n * `const element = getDomElement('selector');`\n *\n * @param selector the selector string passed on to document.querySelector\n */\n// eslint-disable-next-line @typescript-eslint/no-explicit-any\nfunction getDomElement(selector) {\n if (WINDOW.document && WINDOW.document.querySelector) {\n return WINDOW.document.querySelector(selector) ;\n }\n return null;\n}\n\n/**\n * Given a DOM element, traverses up the tree until it finds the first ancestor node\n * that has the `data-sentry-component` or `data-sentry-element` attribute with `data-sentry-component` taking\n * precendence. This attribute is added at build-time by projects that have the component name annotation plugin installed.\n *\n * @returns a string representation of the component for the provided DOM element, or `null` if not found\n */\nfunction getComponentName(elem) {\n // @ts-expect-error WINDOW has HTMLElement\n if (!WINDOW.HTMLElement) {\n return null;\n }\n\n let currentElem = elem ;\n const MAX_TRAVERSE_HEIGHT = 5;\n for (let i = 0; i < MAX_TRAVERSE_HEIGHT; i++) {\n if (!currentElem) {\n return null;\n }\n\n if (currentElem instanceof HTMLElement) {\n if (currentElem.dataset['sentryComponent']) {\n return currentElem.dataset['sentryComponent'];\n }\n if (currentElem.dataset['sentryElement']) {\n return currentElem.dataset['sentryElement'];\n }\n }\n\n currentElem = currentElem.parentNode;\n }\n\n return null;\n}\n\nexport { getComponentName, getDomElement, getLocationHref, htmlTreeAsString };\n","/**\n * This serves as a build time flag that will be true by default, but false in non-debug builds or if users replace `__SENTRY_DEBUG__` in their generated code.\n *\n * ATTENTION: This constant must never cross package boundaries (i.e. be exported) to guarantee that it can be used for tree shaking.\n */\nconst DEBUG_BUILD = (typeof __SENTRY_DEBUG__ === 'undefined' || __SENTRY_DEBUG__);\n\nexport { DEBUG_BUILD };\n","import { DEBUG_BUILD } from './debug-build.js';\nimport { GLOBAL_OBJ } from './worldwide.js';\n\n/** Prefix for logging strings */\nconst PREFIX = 'Sentry Logger ';\n\nconst CONSOLE_LEVELS = [\n 'debug',\n 'info',\n 'warn',\n 'error',\n 'log',\n 'assert',\n 'trace',\n] ;\n\n/** This may be mutated by the console instrumentation. */\nconst originalConsoleMethods\n\n = {};\n\n/** JSDoc */\n\n/**\n * Temporarily disable sentry console instrumentations.\n *\n * @param callback The function to run against the original `console` messages\n * @returns The results of the callback\n */\nfunction consoleSandbox(callback) {\n if (!('console' in GLOBAL_OBJ)) {\n return callback();\n }\n\n const console = GLOBAL_OBJ.console ;\n const wrappedFuncs = {};\n\n const wrappedLevels = Object.keys(originalConsoleMethods) ;\n\n // Restore all wrapped console methods\n wrappedLevels.forEach(level => {\n const originalConsoleMethod = originalConsoleMethods[level] ;\n wrappedFuncs[level] = console[level] ;\n console[level] = originalConsoleMethod;\n });\n\n try {\n return callback();\n } finally {\n // Revert restoration to wrapped state\n wrappedLevels.forEach(level => {\n console[level] = wrappedFuncs[level] ;\n });\n }\n}\n\nfunction makeLogger() {\n let enabled = false;\n const logger = {\n enable: () => {\n enabled = true;\n },\n disable: () => {\n enabled = false;\n },\n isEnabled: () => enabled,\n };\n\n if (DEBUG_BUILD) {\n CONSOLE_LEVELS.forEach(name => {\n // eslint-disable-next-line @typescript-eslint/no-explicit-any\n logger[name] = (...args) => {\n if (enabled) {\n consoleSandbox(() => {\n GLOBAL_OBJ.console[name](`${PREFIX}[${name}]:`, ...args);\n });\n }\n };\n });\n } else {\n CONSOLE_LEVELS.forEach(name => {\n logger[name] = () => undefined;\n });\n }\n\n return logger ;\n}\n\nconst logger = makeLogger();\n\nexport { CONSOLE_LEVELS, consoleSandbox, logger, originalConsoleMethods };\n","import { isVueViewModel, isString, isRegExp } from './is.js';\n\n/**\n * Truncates given string to the maximum characters count\n *\n * @param str An object that contains serializable values\n * @param max Maximum number of characters in truncated string (0 = unlimited)\n * @returns string Encoded\n */\nfunction truncate(str, max = 0) {\n if (typeof str !== 'string' || max === 0) {\n return str;\n }\n return str.length <= max ? str : `${str.slice(0, max)}...`;\n}\n\n/**\n * This is basically just `trim_line` from\n * https://github.com/getsentry/sentry/blob/master/src/sentry/lang/javascript/processor.py#L67\n *\n * @param str An object that contains serializable values\n * @param max Maximum number of characters in truncated string\n * @returns string Encoded\n */\nfunction snipLine(line, colno) {\n let newLine = line;\n const lineLength = newLine.length;\n if (lineLength <= 150) {\n return newLine;\n }\n if (colno > lineLength) {\n // eslint-disable-next-line no-param-reassign\n colno = lineLength;\n }\n\n let start = Math.max(colno - 60, 0);\n if (start < 5) {\n start = 0;\n }\n\n let end = Math.min(start + 140, lineLength);\n if (end > lineLength - 5) {\n end = lineLength;\n }\n if (end === lineLength) {\n start = Math.max(end - 140, 0);\n }\n\n newLine = newLine.slice(start, end);\n if (start > 0) {\n newLine = `'{snip} ${newLine}`;\n }\n if (end < lineLength) {\n newLine += ' {snip}';\n }\n\n return newLine;\n}\n\n/**\n * Join values in array\n * @param input array of values to be joined together\n * @param delimiter string to be placed in-between values\n * @returns Joined values\n */\n// eslint-disable-next-line @typescript-eslint/no-explicit-any\nfunction safeJoin(input, delimiter) {\n if (!Array.isArray(input)) {\n return '';\n }\n\n const output = [];\n // eslint-disable-next-line @typescript-eslint/prefer-for-of\n for (let i = 0; i < input.length; i++) {\n const value = input[i];\n try {\n // This is a hack to fix a Vue3-specific bug that causes an infinite loop of\n // console warnings. This happens when a Vue template is rendered with\n // an undeclared variable, which we try to stringify, ultimately causing\n // Vue to issue another warning which repeats indefinitely.\n // see: https://github.com/getsentry/sentry-javascript/pull/8981\n if (isVueViewModel(value)) {\n output.push('[VueViewModel]');\n } else {\n output.push(String(value));\n }\n } catch (e) {\n output.push('[value cannot be serialized]');\n }\n }\n\n return output.join(delimiter);\n}\n\n/**\n * Checks if the given value matches a regex or string\n *\n * @param value The string to test\n * @param pattern Either a regex or a string against which `value` will be matched\n * @param requireExactStringMatch If true, `value` must match `pattern` exactly. If false, `value` will match\n * `pattern` if it contains `pattern`. Only applies to string-type patterns.\n */\nfunction isMatchingPattern(\n value,\n pattern,\n requireExactStringMatch = false,\n) {\n if (!isString(value)) {\n return false;\n }\n\n if (isRegExp(pattern)) {\n return pattern.test(value);\n }\n if (isString(pattern)) {\n return requireExactStringMatch ? value === pattern : value.includes(pattern);\n }\n\n return false;\n}\n\n/**\n * Test the given string against an array of strings and regexes. By default, string matching is done on a\n * substring-inclusion basis rather than a strict equality basis\n *\n * @param testString The string to test\n * @param patterns The patterns against which to test the string\n * @param requireExactStringMatch If true, `testString` must match one of the given string patterns exactly in order to\n * count. If false, `testString` will match a string pattern if it contains that pattern.\n * @returns\n */\nfunction stringMatchesSomePattern(\n testString,\n patterns = [],\n requireExactStringMatch = false,\n) {\n return patterns.some(pattern => isMatchingPattern(testString, pattern, requireExactStringMatch));\n}\n\nexport { isMatchingPattern, safeJoin, snipLine, stringMatchesSomePattern, truncate };\n","import { htmlTreeAsString } from './browser.js';\nimport { DEBUG_BUILD } from './debug-build.js';\nimport { isError, isEvent, isInstanceOf, isElement, isPlainObject, isPrimitive } from './is.js';\nimport { logger } from './logger.js';\nimport { truncate } from './string.js';\n\n/**\n * Replace a method in an object with a wrapped version of itself.\n *\n * @param source An object that contains a method to be wrapped.\n * @param name The name of the method to be wrapped.\n * @param replacementFactory A higher-order function that takes the original version of the given method and returns a\n * wrapped version. Note: The function returned by `replacementFactory` needs to be a non-arrow function, in order to\n * preserve the correct value of `this`, and the original method must be called using `origMethod.call(this, )` or `origMethod.apply(this, [])` (rather than being called directly), again to preserve `this`.\n * @returns void\n */\nfunction fill(source, name, replacementFactory) {\n if (!(name in source)) {\n return;\n }\n\n const original = source[name] ;\n const wrapped = replacementFactory(original) ;\n\n // Make sure it's a function first, as we need to attach an empty prototype for `defineProperties` to work\n // otherwise it'll throw \"TypeError: Object.defineProperties called on non-object\"\n if (typeof wrapped === 'function') {\n markFunctionWrapped(wrapped, original);\n }\n\n source[name] = wrapped;\n}\n\n/**\n * Defines a non-enumerable property on the given object.\n *\n * @param obj The object on which to set the property\n * @param name The name of the property to be set\n * @param value The value to which to set the property\n */\nfunction addNonEnumerableProperty(obj, name, value) {\n try {\n Object.defineProperty(obj, name, {\n // enumerable: false, // the default, so we can save on bundle size by not explicitly setting it\n value: value,\n writable: true,\n configurable: true,\n });\n } catch (o_O) {\n DEBUG_BUILD && logger.log(`Failed to add non-enumerable property \"${name}\" to object`, obj);\n }\n}\n\n/**\n * Remembers the original function on the wrapped function and\n * patches up the prototype.\n *\n * @param wrapped the wrapper function\n * @param original the original function that gets wrapped\n */\nfunction markFunctionWrapped(wrapped, original) {\n try {\n const proto = original.prototype || {};\n wrapped.prototype = original.prototype = proto;\n addNonEnumerableProperty(wrapped, '__sentry_original__', original);\n } catch (o_O) {} // eslint-disable-line no-empty\n}\n\n/**\n * This extracts the original function if available. See\n * `markFunctionWrapped` for more information.\n *\n * @param func the function to unwrap\n * @returns the unwrapped version of the function if available.\n */\nfunction getOriginalFunction(func) {\n return func.__sentry_original__;\n}\n\n/**\n * Encodes given object into url-friendly format\n *\n * @param object An object that contains serializable values\n * @returns string Encoded\n */\nfunction urlEncode(object) {\n return Object.keys(object)\n .map(key => `${encodeURIComponent(key)}=${encodeURIComponent(object[key])}`)\n .join('&');\n}\n\n/**\n * Transforms any `Error` or `Event` into a plain object with all of their enumerable properties, and some of their\n * non-enumerable properties attached.\n *\n * @param value Initial source that we have to transform in order for it to be usable by the serializer\n * @returns An Event or Error turned into an object - or the value argurment itself, when value is neither an Event nor\n * an Error.\n */\nfunction convertToPlainObject(\n value,\n)\n\n {\n if (isError(value)) {\n return {\n message: value.message,\n name: value.name,\n stack: value.stack,\n ...getOwnProperties(value),\n };\n } else if (isEvent(value)) {\n const newObj\n\n = {\n type: value.type,\n target: serializeEventTarget(value.target),\n currentTarget: serializeEventTarget(value.currentTarget),\n ...getOwnProperties(value),\n };\n\n if (typeof CustomEvent !== 'undefined' && isInstanceOf(value, CustomEvent)) {\n newObj.detail = value.detail;\n }\n\n return newObj;\n } else {\n return value;\n }\n}\n\n/** Creates a string representation of the target of an `Event` object */\nfunction serializeEventTarget(target) {\n try {\n return isElement(target) ? htmlTreeAsString(target) : Object.prototype.toString.call(target);\n } catch (_oO) {\n return '';\n }\n}\n\n/** Filters out all but an object's own properties */\nfunction getOwnProperties(obj) {\n if (typeof obj === 'object' && obj !== null) {\n const extractedProps = {};\n for (const property in obj) {\n if (Object.prototype.hasOwnProperty.call(obj, property)) {\n extractedProps[property] = (obj )[property];\n }\n }\n return extractedProps;\n } else {\n return {};\n }\n}\n\n/**\n * Given any captured exception, extract its keys and create a sorted\n * and truncated list that will be used inside the event message.\n * eg. `Non-error exception captured with keys: foo, bar, baz`\n */\nfunction extractExceptionKeysForMessage(exception, maxLength = 40) {\n const keys = Object.keys(convertToPlainObject(exception));\n keys.sort();\n\n const firstKey = keys[0];\n\n if (!firstKey) {\n return '[object has no keys]';\n }\n\n if (firstKey.length >= maxLength) {\n return truncate(firstKey, maxLength);\n }\n\n for (let includedKeys = keys.length; includedKeys > 0; includedKeys--) {\n const serialized = keys.slice(0, includedKeys).join(', ');\n if (serialized.length > maxLength) {\n continue;\n }\n if (includedKeys === keys.length) {\n return serialized;\n }\n return truncate(serialized, maxLength);\n }\n\n return '';\n}\n\n/**\n * Given any object, return a new object having removed all fields whose value was `undefined`.\n * Works recursively on objects and arrays.\n *\n * Attention: This function keeps circular references in the returned object.\n */\nfunction dropUndefinedKeys(inputValue) {\n // This map keeps track of what already visited nodes map to.\n // Our Set - based memoBuilder doesn't work here because we want to the output object to have the same circular\n // references as the input object.\n const memoizationMap = new Map();\n\n // This function just proxies `_dropUndefinedKeys` to keep the `memoBuilder` out of this function's API\n return _dropUndefinedKeys(inputValue, memoizationMap);\n}\n\nfunction _dropUndefinedKeys(inputValue, memoizationMap) {\n if (isPojo(inputValue)) {\n // If this node has already been visited due to a circular reference, return the object it was mapped to in the new object\n const memoVal = memoizationMap.get(inputValue);\n if (memoVal !== undefined) {\n return memoVal ;\n }\n\n const returnValue = {};\n // Store the mapping of this value in case we visit it again, in case of circular data\n memoizationMap.set(inputValue, returnValue);\n\n for (const key of Object.keys(inputValue)) {\n if (typeof inputValue[key] !== 'undefined') {\n returnValue[key] = _dropUndefinedKeys(inputValue[key], memoizationMap);\n }\n }\n\n return returnValue ;\n }\n\n if (Array.isArray(inputValue)) {\n // If this node has already been visited due to a circular reference, return the array it was mapped to in the new object\n const memoVal = memoizationMap.get(inputValue);\n if (memoVal !== undefined) {\n return memoVal ;\n }\n\n const returnValue = [];\n // Store the mapping of this value in case we visit it again, in case of circular data\n memoizationMap.set(inputValue, returnValue);\n\n inputValue.forEach((item) => {\n returnValue.push(_dropUndefinedKeys(item, memoizationMap));\n });\n\n return returnValue ;\n }\n\n return inputValue;\n}\n\nfunction isPojo(input) {\n if (!isPlainObject(input)) {\n return false;\n }\n\n try {\n const name = (Object.getPrototypeOf(input) ).constructor.name;\n return !name || name === 'Object';\n } catch (e) {\n return true;\n }\n}\n\n/**\n * Ensure that something is an object.\n *\n * Turns `undefined` and `null` into `String`s and all other primitives into instances of their respective wrapper\n * classes (String, Boolean, Number, etc.). Acts as the identity function on non-primitives.\n *\n * @param wat The subject of the objectification\n * @returns A version of `wat` which can safely be used with `Object` class methods\n */\nfunction objectify(wat) {\n let objectified;\n switch (true) {\n case wat === undefined || wat === null:\n objectified = new String(wat);\n break;\n\n // Though symbols and bigints do have wrapper classes (`Symbol` and `BigInt`, respectively), for whatever reason\n // those classes don't have constructors which can be used with the `new` keyword. We therefore need to cast each as\n // an object in order to wrap it.\n case typeof wat === 'symbol' || typeof wat === 'bigint':\n objectified = Object(wat);\n break;\n\n // this will catch the remaining primitives: `String`, `Number`, and `Boolean`\n case isPrimitive(wat):\n // eslint-disable-next-line @typescript-eslint/no-unsafe-member-access\n objectified = new (wat ).constructor(wat);\n break;\n\n // by process of elimination, at this point we know that `wat` must already be an object\n default:\n objectified = wat;\n break;\n }\n return objectified;\n}\n\nexport { addNonEnumerableProperty, convertToPlainObject, dropUndefinedKeys, extractExceptionKeysForMessage, fill, getOriginalFunction, markFunctionWrapped, objectify, urlEncode };\n","import { addNonEnumerableProperty } from './object.js';\nimport { snipLine } from './string.js';\nimport { GLOBAL_OBJ } from './worldwide.js';\n\n/**\n * UUID4 generator\n *\n * @returns string Generated UUID4.\n */\nfunction uuid4() {\n const gbl = GLOBAL_OBJ ;\n const crypto = gbl.crypto || gbl.msCrypto;\n\n let getRandomByte = () => Math.random() * 16;\n try {\n if (crypto && crypto.randomUUID) {\n return crypto.randomUUID().replace(/-/g, '');\n }\n if (crypto && crypto.getRandomValues) {\n getRandomByte = () => {\n // crypto.getRandomValues might return undefined instead of the typed array\n // in old Chromium versions (e.g. 23.0.1235.0 (151422))\n // However, `typedArray` is still filled in-place.\n // @see https://developer.mozilla.org/en-US/docs/Web/API/Crypto/getRandomValues#typedarray\n const typedArray = new Uint8Array(1);\n crypto.getRandomValues(typedArray);\n // eslint-disable-next-line @typescript-eslint/no-non-null-assertion\n return typedArray[0];\n };\n }\n } catch (_) {\n // some runtimes can crash invoking crypto\n // https://github.com/getsentry/sentry-javascript/issues/8935\n }\n\n // http://stackoverflow.com/questions/105034/how-to-create-a-guid-uuid-in-javascript/2117523#2117523\n // Concatenating the following numbers as strings results in '10000000100040008000100000000000'\n return (([1e7] ) + 1e3 + 4e3 + 8e3 + 1e11).replace(/[018]/g, c =>\n // eslint-disable-next-line no-bitwise\n ((c ) ^ ((getRandomByte() & 15) >> ((c ) / 4))).toString(16),\n );\n}\n\nfunction getFirstException(event) {\n return event.exception && event.exception.values ? event.exception.values[0] : undefined;\n}\n\n/**\n * Extracts either message or type+value from an event that can be used for user-facing logs\n * @returns event's description\n */\nfunction getEventDescription(event) {\n const { message, event_id: eventId } = event;\n if (message) {\n return message;\n }\n\n const firstException = getFirstException(event);\n if (firstException) {\n if (firstException.type && firstException.value) {\n return `${firstException.type}: ${firstException.value}`;\n }\n return firstException.type || firstException.value || eventId || '';\n }\n return eventId || '';\n}\n\n/**\n * Adds exception values, type and value to an synthetic Exception.\n * @param event The event to modify.\n * @param value Value of the exception.\n * @param type Type of the exception.\n * @hidden\n */\nfunction addExceptionTypeValue(event, value, type) {\n const exception = (event.exception = event.exception || {});\n const values = (exception.values = exception.values || []);\n const firstException = (values[0] = values[0] || {});\n if (!firstException.value) {\n firstException.value = value || '';\n }\n if (!firstException.type) {\n firstException.type = type || 'Error';\n }\n}\n\n/**\n * Adds exception mechanism data to a given event. Uses defaults if the second parameter is not passed.\n *\n * @param event The event to modify.\n * @param newMechanism Mechanism data to add to the event.\n * @hidden\n */\nfunction addExceptionMechanism(event, newMechanism) {\n const firstException = getFirstException(event);\n if (!firstException) {\n return;\n }\n\n const defaultMechanism = { type: 'generic', handled: true };\n const currentMechanism = firstException.mechanism;\n firstException.mechanism = { ...defaultMechanism, ...currentMechanism, ...newMechanism };\n\n if (newMechanism && 'data' in newMechanism) {\n const mergedData = { ...(currentMechanism && currentMechanism.data), ...newMechanism.data };\n firstException.mechanism.data = mergedData;\n }\n}\n\n// https://semver.org/#is-there-a-suggested-regular-expression-regex-to-check-a-semver-string\nconst SEMVER_REGEXP =\n /^(0|[1-9]\\d*)\\.(0|[1-9]\\d*)\\.(0|[1-9]\\d*)(?:-((?:0|[1-9]\\d*|\\d*[a-zA-Z-][0-9a-zA-Z-]*)(?:\\.(?:0|[1-9]\\d*|\\d*[a-zA-Z-][0-9a-zA-Z-]*))*))?(?:\\+([0-9a-zA-Z-]+(?:\\.[0-9a-zA-Z-]+)*))?$/;\n\n/**\n * Represents Semantic Versioning object\n */\n\nfunction _parseInt(input) {\n return parseInt(input || '', 10);\n}\n\n/**\n * Parses input into a SemVer interface\n * @param input string representation of a semver version\n */\nfunction parseSemver(input) {\n const match = input.match(SEMVER_REGEXP) || [];\n const major = _parseInt(match[1]);\n const minor = _parseInt(match[2]);\n const patch = _parseInt(match[3]);\n return {\n buildmetadata: match[5],\n major: isNaN(major) ? undefined : major,\n minor: isNaN(minor) ? undefined : minor,\n patch: isNaN(patch) ? undefined : patch,\n prerelease: match[4],\n };\n}\n\n/**\n * This function adds context (pre/post/line) lines to the provided frame\n *\n * @param lines string[] containing all lines\n * @param frame StackFrame that will be mutated\n * @param linesOfContext number of context lines we want to add pre/post\n */\nfunction addContextToFrame(lines, frame, linesOfContext = 5) {\n // When there is no line number in the frame, attaching context is nonsensical and will even break grouping\n if (frame.lineno === undefined) {\n return;\n }\n\n const maxLines = lines.length;\n const sourceLine = Math.max(Math.min(maxLines - 1, frame.lineno - 1), 0);\n\n frame.pre_context = lines\n .slice(Math.max(0, sourceLine - linesOfContext), sourceLine)\n .map((line) => snipLine(line, 0));\n\n // We guard here to ensure this is not larger than the existing number of lines\n const lineIndex = Math.min(maxLines - 1, sourceLine);\n\n // eslint-disable-next-line @typescript-eslint/no-non-null-assertion\n frame.context_line = snipLine(lines[lineIndex], frame.colno || 0);\n\n frame.post_context = lines\n .slice(Math.min(sourceLine + 1, maxLines), sourceLine + 1 + linesOfContext)\n .map((line) => snipLine(line, 0));\n}\n\n/**\n * Checks whether or not we've already captured the given exception (note: not an identical exception - the very object\n * in question), and marks it captured if not.\n *\n * This is useful because it's possible for an error to get captured by more than one mechanism. After we intercept and\n * record an error, we rethrow it (assuming we've intercepted it before it's reached the top-level global handlers), so\n * that we don't interfere with whatever effects the error might have had were the SDK not there. At that point, because\n * the error has been rethrown, it's possible for it to bubble up to some other code we've instrumented. If it's not\n * caught after that, it will bubble all the way up to the global handlers (which of course we also instrument). This\n * function helps us ensure that even if we encounter the same error more than once, we only record it the first time we\n * see it.\n *\n * Note: It will ignore primitives (always return `false` and not mark them as seen), as properties can't be set on\n * them. {@link: Object.objectify} can be used on exceptions to convert any that are primitives into their equivalent\n * object wrapper forms so that this check will always work. However, because we need to flag the exact object which\n * will get rethrown, and because that rethrowing happens outside of the event processing pipeline, the objectification\n * must be done before the exception captured.\n *\n * @param A thrown exception to check or flag as having been seen\n * @returns `true` if the exception has already been captured, `false` if not (with the side effect of marking it seen)\n */\nfunction checkOrSetAlreadyCaught(exception) {\n // eslint-disable-next-line @typescript-eslint/no-unsafe-member-access\n if (exception && (exception ).__sentry_captured__) {\n return true;\n }\n\n try {\n // set it this way rather than by assignment so that it's not ennumerable and therefore isn't recorded by the\n // `ExtraErrorData` integration\n addNonEnumerableProperty(exception , '__sentry_captured__', true);\n } catch (err) {\n // `exception` is a primitive, so we can't mark it seen\n }\n\n return false;\n}\n\n/**\n * Checks whether the given input is already an array, and if it isn't, wraps it in one.\n *\n * @param maybeArray Input to turn into an array, if necessary\n * @returns The input, if already an array, or an array with the input as the only element, if not\n */\nfunction arrayify(maybeArray) {\n return Array.isArray(maybeArray) ? maybeArray : [maybeArray];\n}\n\nexport { addContextToFrame, addExceptionMechanism, addExceptionTypeValue, arrayify, checkOrSetAlreadyCaught, getEventDescription, parseSemver, uuid4 };\n","import { uuid4 } from './misc.js';\n\n/**\n * Returns a new minimal propagation context\n */\nfunction generatePropagationContext() {\n return {\n traceId: uuid4(),\n spanId: uuid4().substring(16),\n };\n}\n\nexport { generatePropagationContext };\n","import { GLOBAL_OBJ } from './worldwide.js';\n\nconst ONE_SECOND_IN_MS = 1000;\n\n/**\n * A partial definition of the [Performance Web API]{@link https://developer.mozilla.org/en-US/docs/Web/API/Performance}\n * for accessing a high-resolution monotonic clock.\n */\n\n/**\n * Returns a timestamp in seconds since the UNIX epoch using the Date API.\n *\n * TODO(v8): Return type should be rounded.\n */\nfunction dateTimestampInSeconds() {\n return Date.now() / ONE_SECOND_IN_MS;\n}\n\n/**\n * Returns a wrapper around the native Performance API browser implementation, or undefined for browsers that do not\n * support the API.\n *\n * Wrapping the native API works around differences in behavior from different browsers.\n */\nfunction createUnixTimestampInSecondsFunc() {\n const { performance } = GLOBAL_OBJ ;\n if (!performance || !performance.now) {\n return dateTimestampInSeconds;\n }\n\n // Some browser and environments don't have a timeOrigin, so we fallback to\n // using Date.now() to compute the starting time.\n const approxStartingTimeOrigin = Date.now() - performance.now();\n const timeOrigin = performance.timeOrigin == undefined ? approxStartingTimeOrigin : performance.timeOrigin;\n\n // performance.now() is a monotonic clock, which means it starts at 0 when the process begins. To get the current\n // wall clock time (actual UNIX timestamp), we need to add the starting time origin and the current time elapsed.\n //\n // TODO: This does not account for the case where the monotonic clock that powers performance.now() drifts from the\n // wall clock time, which causes the returned timestamp to be inaccurate. We should investigate how to detect and\n // correct for this.\n // See: https://github.com/getsentry/sentry-javascript/issues/2590\n // See: https://github.com/mdn/content/issues/4713\n // See: https://dev.to/noamr/when-a-millisecond-is-not-a-millisecond-3h6\n return () => {\n return (timeOrigin + performance.now()) / ONE_SECOND_IN_MS;\n };\n}\n\n/**\n * Returns a timestamp in seconds since the UNIX epoch using either the Performance or Date APIs, depending on the\n * availability of the Performance API.\n *\n * BUG: Note that because of how browsers implement the Performance API, the clock might stop when the computer is\n * asleep. This creates a skew between `dateTimestampInSeconds` and `timestampInSeconds`. The\n * skew can grow to arbitrary amounts like days, weeks or months.\n * See https://github.com/getsentry/sentry-javascript/issues/2590.\n */\nconst timestampInSeconds = createUnixTimestampInSecondsFunc();\n\n/**\n * Internal helper to store what is the source of browserPerformanceTimeOrigin below. For debugging only.\n */\nlet _browserPerformanceTimeOriginMode;\n\n/**\n * The number of milliseconds since the UNIX epoch. This value is only usable in a browser, and only when the\n * performance API is available.\n */\nconst browserPerformanceTimeOrigin = (() => {\n // Unfortunately browsers may report an inaccurate time origin data, through either performance.timeOrigin or\n // performance.timing.navigationStart, which results in poor results in performance data. We only treat time origin\n // data as reliable if they are within a reasonable threshold of the current time.\n\n const { performance } = GLOBAL_OBJ ;\n if (!performance || !performance.now) {\n _browserPerformanceTimeOriginMode = 'none';\n return undefined;\n }\n\n const threshold = 3600 * 1000;\n const performanceNow = performance.now();\n const dateNow = Date.now();\n\n // if timeOrigin isn't available set delta to threshold so it isn't used\n const timeOriginDelta = performance.timeOrigin\n ? Math.abs(performance.timeOrigin + performanceNow - dateNow)\n : threshold;\n const timeOriginIsReliable = timeOriginDelta < threshold;\n\n // While performance.timing.navigationStart is deprecated in favor of performance.timeOrigin, performance.timeOrigin\n // is not as widely supported. Namely, performance.timeOrigin is undefined in Safari as of writing.\n // Also as of writing, performance.timing is not available in Web Workers in mainstream browsers, so it is not always\n // a valid fallback. In the absence of an initial time provided by the browser, fallback to the current time from the\n // Date API.\n // eslint-disable-next-line deprecation/deprecation\n const navigationStart = performance.timing && performance.timing.navigationStart;\n const hasNavigationStart = typeof navigationStart === 'number';\n // if navigationStart isn't available set delta to threshold so it isn't used\n const navigationStartDelta = hasNavigationStart ? Math.abs(navigationStart + performanceNow - dateNow) : threshold;\n const navigationStartIsReliable = navigationStartDelta < threshold;\n\n if (timeOriginIsReliable || navigationStartIsReliable) {\n // Use the more reliable time origin\n if (timeOriginDelta <= navigationStartDelta) {\n _browserPerformanceTimeOriginMode = 'timeOrigin';\n return performance.timeOrigin;\n } else {\n _browserPerformanceTimeOriginMode = 'navigationStart';\n return navigationStart;\n }\n }\n\n // Either both timeOrigin and navigationStart are skewed or neither is available, fallback to Date.\n _browserPerformanceTimeOriginMode = 'dateNow';\n return dateNow;\n})();\n\nexport { _browserPerformanceTimeOriginMode, browserPerformanceTimeOrigin, dateTimestampInSeconds, timestampInSeconds };\n","import { timestampInSeconds, uuid4, dropUndefinedKeys } from '@sentry/utils';\n\n/**\n * Creates a new `Session` object by setting certain default parameters. If optional @param context\n * is passed, the passed properties are applied to the session object.\n *\n * @param context (optional) additional properties to be applied to the returned session object\n *\n * @returns a new `Session` object\n */\nfunction makeSession(context) {\n // Both timestamp and started are in seconds since the UNIX epoch.\n const startingTime = timestampInSeconds();\n\n const session = {\n sid: uuid4(),\n init: true,\n timestamp: startingTime,\n started: startingTime,\n duration: 0,\n status: 'ok',\n errors: 0,\n ignoreDuration: false,\n toJSON: () => sessionToJSON(session),\n };\n\n if (context) {\n updateSession(session, context);\n }\n\n return session;\n}\n\n/**\n * Updates a session object with the properties passed in the context.\n *\n * Note that this function mutates the passed object and returns void.\n * (Had to do this instead of returning a new and updated session because closing and sending a session\n * makes an update to the session after it was passed to the sending logic.\n * @see BaseClient.captureSession )\n *\n * @param session the `Session` to update\n * @param context the `SessionContext` holding the properties that should be updated in @param session\n */\n// eslint-disable-next-line complexity\nfunction updateSession(session, context = {}) {\n if (context.user) {\n if (!session.ipAddress && context.user.ip_address) {\n session.ipAddress = context.user.ip_address;\n }\n\n if (!session.did && !context.did) {\n session.did = context.user.id || context.user.email || context.user.username;\n }\n }\n\n session.timestamp = context.timestamp || timestampInSeconds();\n\n if (context.abnormal_mechanism) {\n session.abnormal_mechanism = context.abnormal_mechanism;\n }\n\n if (context.ignoreDuration) {\n session.ignoreDuration = context.ignoreDuration;\n }\n if (context.sid) {\n // Good enough uuid validation. — Kamil\n session.sid = context.sid.length === 32 ? context.sid : uuid4();\n }\n if (context.init !== undefined) {\n session.init = context.init;\n }\n if (!session.did && context.did) {\n session.did = `${context.did}`;\n }\n if (typeof context.started === 'number') {\n session.started = context.started;\n }\n if (session.ignoreDuration) {\n session.duration = undefined;\n } else if (typeof context.duration === 'number') {\n session.duration = context.duration;\n } else {\n const duration = session.timestamp - session.started;\n session.duration = duration >= 0 ? duration : 0;\n }\n if (context.release) {\n session.release = context.release;\n }\n if (context.environment) {\n session.environment = context.environment;\n }\n if (!session.ipAddress && context.ipAddress) {\n session.ipAddress = context.ipAddress;\n }\n if (!session.userAgent && context.userAgent) {\n session.userAgent = context.userAgent;\n }\n if (typeof context.errors === 'number') {\n session.errors = context.errors;\n }\n if (context.status) {\n session.status = context.status;\n }\n}\n\n/**\n * Closes a session by setting its status and updating the session object with it.\n * Internally calls `updateSession` to update the passed session object.\n *\n * Note that this function mutates the passed session (@see updateSession for explanation).\n *\n * @param session the `Session` object to be closed\n * @param status the `SessionStatus` with which the session was closed. If you don't pass a status,\n * this function will keep the previously set status, unless it was `'ok'` in which case\n * it is changed to `'exited'`.\n */\nfunction closeSession(session, status) {\n let context = {};\n if (status) {\n context = { status };\n } else if (session.status === 'ok') {\n context = { status: 'exited' };\n }\n\n updateSession(session, context);\n}\n\n/**\n * Serializes a passed session object to a JSON object with a slightly different structure.\n * This is necessary because the Sentry backend requires a slightly different schema of a session\n * than the one the JS SDKs use internally.\n *\n * @param session the session to be converted\n *\n * @returns a JSON object of the passed session\n */\nfunction sessionToJSON(session) {\n return dropUndefinedKeys({\n sid: `${session.sid}`,\n init: session.init,\n // Make sure that sec is converted to ms for date constructor\n started: new Date(session.started * 1000).toISOString(),\n timestamp: new Date(session.timestamp * 1000).toISOString(),\n status: session.status,\n errors: session.errors,\n did: typeof session.did === 'number' || typeof session.did === 'string' ? `${session.did}` : undefined,\n duration: session.duration,\n abnormal_mechanism: session.abnormal_mechanism,\n attrs: {\n release: session.release,\n environment: session.environment,\n ip_address: session.ipAddress,\n user_agent: session.userAgent,\n },\n });\n}\n\nexport { closeSession, makeSession, updateSession };\n","import { addNonEnumerableProperty } from '@sentry/utils';\n\nconst SCOPE_SPAN_FIELD = '_sentrySpan';\n\n/**\n * Set the active span for a given scope.\n * NOTE: This should NOT be used directly, but is only used internally by the trace methods.\n */\nfunction _setSpanForScope(scope, span) {\n if (span) {\n addNonEnumerableProperty(scope , SCOPE_SPAN_FIELD, span);\n } else {\n // eslint-disable-next-line @typescript-eslint/no-dynamic-delete\n delete (scope )[SCOPE_SPAN_FIELD];\n }\n}\n\n/**\n * Get the active span for a given scope.\n * NOTE: This should NOT be used directly, but is only used internally by the trace methods.\n */\nfunction _getSpanForScope(scope) {\n return scope[SCOPE_SPAN_FIELD];\n}\n\nexport { _getSpanForScope, _setSpanForScope };\n","import { generatePropagationContext, isPlainObject, dateTimestampInSeconds, uuid4, logger } from '@sentry/utils';\nimport { updateSession } from './session.js';\nimport { _setSpanForScope, _getSpanForScope } from './utils/spanOnScope.js';\n\n/**\n * Default value for maximum number of breadcrumbs added to an event.\n */\nconst DEFAULT_MAX_BREADCRUMBS = 100;\n\n/**\n * Holds additional event information.\n */\nclass ScopeClass {\n /** Flag if notifying is happening. */\n\n /** Callback for client to receive scope changes. */\n\n /** Callback list that will be called during event processing. */\n\n /** Array of breadcrumbs. */\n\n /** User */\n\n /** Tags */\n\n /** Extra */\n\n /** Contexts */\n\n /** Attachments */\n\n /** Propagation Context for distributed tracing */\n\n /**\n * A place to stash data which is needed at some point in the SDK's event processing pipeline but which shouldn't get\n * sent to Sentry\n */\n\n /** Fingerprint */\n\n /** Severity */\n\n /**\n * Transaction Name\n *\n * IMPORTANT: The transaction name on the scope has nothing to do with root spans/transaction objects.\n * It's purpose is to assign a transaction to the scope that's added to non-transaction events.\n */\n\n /** Session */\n\n /** Request Mode Session Status */\n\n /** The client on this scope */\n\n /** Contains the last event id of a captured event. */\n\n // NOTE: Any field which gets added here should get added not only to the constructor but also to the `clone` method.\n\n constructor() {\n this._notifyingListeners = false;\n this._scopeListeners = [];\n this._eventProcessors = [];\n this._breadcrumbs = [];\n this._attachments = [];\n this._user = {};\n this._tags = {};\n this._extra = {};\n this._contexts = {};\n this._sdkProcessingMetadata = {};\n this._propagationContext = generatePropagationContext();\n }\n\n /**\n * @inheritDoc\n */\n clone() {\n const newScope = new ScopeClass();\n newScope._breadcrumbs = [...this._breadcrumbs];\n newScope._tags = { ...this._tags };\n newScope._extra = { ...this._extra };\n newScope._contexts = { ...this._contexts };\n newScope._user = this._user;\n newScope._level = this._level;\n newScope._session = this._session;\n newScope._transactionName = this._transactionName;\n newScope._fingerprint = this._fingerprint;\n newScope._eventProcessors = [...this._eventProcessors];\n newScope._requestSession = this._requestSession;\n newScope._attachments = [...this._attachments];\n newScope._sdkProcessingMetadata = { ...this._sdkProcessingMetadata };\n newScope._propagationContext = { ...this._propagationContext };\n newScope._client = this._client;\n newScope._lastEventId = this._lastEventId;\n\n _setSpanForScope(newScope, _getSpanForScope(this));\n\n return newScope;\n }\n\n /**\n * @inheritDoc\n */\n setClient(client) {\n this._client = client;\n }\n\n /**\n * @inheritDoc\n */\n setLastEventId(lastEventId) {\n this._lastEventId = lastEventId;\n }\n\n /**\n * @inheritDoc\n */\n getClient() {\n return this._client ;\n }\n\n /**\n * @inheritDoc\n */\n lastEventId() {\n return this._lastEventId;\n }\n\n /**\n * @inheritDoc\n */\n addScopeListener(callback) {\n this._scopeListeners.push(callback);\n }\n\n /**\n * @inheritDoc\n */\n addEventProcessor(callback) {\n this._eventProcessors.push(callback);\n return this;\n }\n\n /**\n * @inheritDoc\n */\n setUser(user) {\n // If null is passed we want to unset everything, but still define keys,\n // so that later down in the pipeline any existing values are cleared.\n this._user = user || {\n email: undefined,\n id: undefined,\n ip_address: undefined,\n username: undefined,\n };\n\n if (this._session) {\n updateSession(this._session, { user });\n }\n\n this._notifyScopeListeners();\n return this;\n }\n\n /**\n * @inheritDoc\n */\n getUser() {\n return this._user;\n }\n\n /**\n * @inheritDoc\n */\n getRequestSession() {\n return this._requestSession;\n }\n\n /**\n * @inheritDoc\n */\n setRequestSession(requestSession) {\n this._requestSession = requestSession;\n return this;\n }\n\n /**\n * @inheritDoc\n */\n setTags(tags) {\n this._tags = {\n ...this._tags,\n ...tags,\n };\n this._notifyScopeListeners();\n return this;\n }\n\n /**\n * @inheritDoc\n */\n setTag(key, value) {\n this._tags = { ...this._tags, [key]: value };\n this._notifyScopeListeners();\n return this;\n }\n\n /**\n * @inheritDoc\n */\n setExtras(extras) {\n this._extra = {\n ...this._extra,\n ...extras,\n };\n this._notifyScopeListeners();\n return this;\n }\n\n /**\n * @inheritDoc\n */\n setExtra(key, extra) {\n this._extra = { ...this._extra, [key]: extra };\n this._notifyScopeListeners();\n return this;\n }\n\n /**\n * @inheritDoc\n */\n setFingerprint(fingerprint) {\n this._fingerprint = fingerprint;\n this._notifyScopeListeners();\n return this;\n }\n\n /**\n * @inheritDoc\n */\n setLevel(level) {\n this._level = level;\n this._notifyScopeListeners();\n return this;\n }\n\n /**\n * @inheritDoc\n */\n setTransactionName(name) {\n this._transactionName = name;\n this._notifyScopeListeners();\n return this;\n }\n\n /**\n * @inheritDoc\n */\n setContext(key, context) {\n if (context === null) {\n // eslint-disable-next-line @typescript-eslint/no-dynamic-delete\n delete this._contexts[key];\n } else {\n this._contexts[key] = context;\n }\n\n this._notifyScopeListeners();\n return this;\n }\n\n /**\n * @inheritDoc\n */\n setSession(session) {\n if (!session) {\n delete this._session;\n } else {\n this._session = session;\n }\n this._notifyScopeListeners();\n return this;\n }\n\n /**\n * @inheritDoc\n */\n getSession() {\n return this._session;\n }\n\n /**\n * @inheritDoc\n */\n update(captureContext) {\n if (!captureContext) {\n return this;\n }\n\n const scopeToMerge = typeof captureContext === 'function' ? captureContext(this) : captureContext;\n\n const [scopeInstance, requestSession] =\n scopeToMerge instanceof Scope\n ? [scopeToMerge.getScopeData(), scopeToMerge.getRequestSession()]\n : isPlainObject(scopeToMerge)\n ? [captureContext , (captureContext ).requestSession]\n : [];\n\n const { tags, extra, user, contexts, level, fingerprint = [], propagationContext } = scopeInstance || {};\n\n this._tags = { ...this._tags, ...tags };\n this._extra = { ...this._extra, ...extra };\n this._contexts = { ...this._contexts, ...contexts };\n\n if (user && Object.keys(user).length) {\n this._user = user;\n }\n\n if (level) {\n this._level = level;\n }\n\n if (fingerprint.length) {\n this._fingerprint = fingerprint;\n }\n\n if (propagationContext) {\n this._propagationContext = propagationContext;\n }\n\n if (requestSession) {\n this._requestSession = requestSession;\n }\n\n return this;\n }\n\n /**\n * @inheritDoc\n */\n clear() {\n // client is not cleared here on purpose!\n this._breadcrumbs = [];\n this._tags = {};\n this._extra = {};\n this._user = {};\n this._contexts = {};\n this._level = undefined;\n this._transactionName = undefined;\n this._fingerprint = undefined;\n this._requestSession = undefined;\n this._session = undefined;\n _setSpanForScope(this, undefined);\n this._attachments = [];\n this._propagationContext = generatePropagationContext();\n\n this._notifyScopeListeners();\n return this;\n }\n\n /**\n * @inheritDoc\n */\n addBreadcrumb(breadcrumb, maxBreadcrumbs) {\n const maxCrumbs = typeof maxBreadcrumbs === 'number' ? maxBreadcrumbs : DEFAULT_MAX_BREADCRUMBS;\n\n // No data has been changed, so don't notify scope listeners\n if (maxCrumbs <= 0) {\n return this;\n }\n\n const mergedBreadcrumb = {\n timestamp: dateTimestampInSeconds(),\n ...breadcrumb,\n };\n\n const breadcrumbs = this._breadcrumbs;\n breadcrumbs.push(mergedBreadcrumb);\n this._breadcrumbs = breadcrumbs.length > maxCrumbs ? breadcrumbs.slice(-maxCrumbs) : breadcrumbs;\n\n this._notifyScopeListeners();\n\n return this;\n }\n\n /**\n * @inheritDoc\n */\n getLastBreadcrumb() {\n return this._breadcrumbs[this._breadcrumbs.length - 1];\n }\n\n /**\n * @inheritDoc\n */\n clearBreadcrumbs() {\n this._breadcrumbs = [];\n this._notifyScopeListeners();\n return this;\n }\n\n /**\n * @inheritDoc\n */\n addAttachment(attachment) {\n this._attachments.push(attachment);\n return this;\n }\n\n /**\n * @inheritDoc\n */\n clearAttachments() {\n this._attachments = [];\n return this;\n }\n\n /** @inheritDoc */\n getScopeData() {\n return {\n breadcrumbs: this._breadcrumbs,\n attachments: this._attachments,\n contexts: this._contexts,\n tags: this._tags,\n extra: this._extra,\n user: this._user,\n level: this._level,\n fingerprint: this._fingerprint || [],\n eventProcessors: this._eventProcessors,\n propagationContext: this._propagationContext,\n sdkProcessingMetadata: this._sdkProcessingMetadata,\n transactionName: this._transactionName,\n span: _getSpanForScope(this),\n };\n }\n\n /**\n * @inheritDoc\n */\n setSDKProcessingMetadata(newData) {\n this._sdkProcessingMetadata = { ...this._sdkProcessingMetadata, ...newData };\n\n return this;\n }\n\n /**\n * @inheritDoc\n */\n setPropagationContext(context) {\n this._propagationContext = context;\n return this;\n }\n\n /**\n * @inheritDoc\n */\n getPropagationContext() {\n return this._propagationContext;\n }\n\n /**\n * @inheritDoc\n */\n captureException(exception, hint) {\n const eventId = hint && hint.event_id ? hint.event_id : uuid4();\n\n if (!this._client) {\n logger.warn('No client configured on scope - will not capture exception!');\n return eventId;\n }\n\n const syntheticException = new Error('Sentry syntheticException');\n\n this._client.captureException(\n exception,\n {\n originalException: exception,\n syntheticException,\n ...hint,\n event_id: eventId,\n },\n this,\n );\n\n return eventId;\n }\n\n /**\n * @inheritDoc\n */\n captureMessage(message, level, hint) {\n const eventId = hint && hint.event_id ? hint.event_id : uuid4();\n\n if (!this._client) {\n logger.warn('No client configured on scope - will not capture message!');\n return eventId;\n }\n\n const syntheticException = new Error(message);\n\n this._client.captureMessage(\n message,\n level,\n {\n originalException: message,\n syntheticException,\n ...hint,\n event_id: eventId,\n },\n this,\n );\n\n return eventId;\n }\n\n /**\n * @inheritDoc\n */\n captureEvent(event, hint) {\n const eventId = hint && hint.event_id ? hint.event_id : uuid4();\n\n if (!this._client) {\n logger.warn('No client configured on scope - will not capture event!');\n return eventId;\n }\n\n this._client.captureEvent(event, { ...hint, event_id: eventId }, this);\n\n return eventId;\n }\n\n /**\n * This will be called on every set call.\n */\n _notifyScopeListeners() {\n // We need this check for this._notifyingListeners to be able to work on scope during updates\n // If this check is not here we'll produce endless recursion when something is done with the scope\n // during the callback.\n if (!this._notifyingListeners) {\n this._notifyingListeners = true;\n this._scopeListeners.forEach(callback => {\n callback(this);\n });\n this._notifyingListeners = false;\n }\n }\n}\n\n// NOTE: By exporting this here as const & type, instead of doing `export class`,\n// We can get the correct class when importing from `@sentry/core`, but the original type (from `@sentry/types`)\n// This is helpful for interop, e.g. when doing `import type { Scope } from '@sentry/node';` (which re-exports this)\n\n/**\n * Holds additional event information.\n */\nconst Scope = ScopeClass;\n\n/**\n * Holds additional event information.\n */\n\nexport { Scope };\n","import { isThenable } from '@sentry/utils';\nimport { getDefaultCurrentScope, getDefaultIsolationScope } from '../defaultScopes.js';\nimport { Scope } from '../scope.js';\nimport { getMainCarrier, getSentryCarrier } from '../carrier.js';\n\n/**\n * This is an object that holds a stack of scopes.\n */\nclass AsyncContextStack {\n\n constructor(scope, isolationScope) {\n let assignedScope;\n if (!scope) {\n assignedScope = new Scope();\n } else {\n assignedScope = scope;\n }\n\n let assignedIsolationScope;\n if (!isolationScope) {\n assignedIsolationScope = new Scope();\n } else {\n assignedIsolationScope = isolationScope;\n }\n\n // scope stack for domains or the process\n this._stack = [{ scope: assignedScope }];\n this._isolationScope = assignedIsolationScope;\n }\n\n /**\n * Fork a scope for the stack.\n */\n withScope(callback) {\n const scope = this._pushScope();\n\n let maybePromiseResult;\n try {\n maybePromiseResult = callback(scope);\n } catch (e) {\n this._popScope();\n throw e;\n }\n\n if (isThenable(maybePromiseResult)) {\n // @ts-expect-error - isThenable returns the wrong type\n return maybePromiseResult.then(\n res => {\n this._popScope();\n return res;\n },\n e => {\n this._popScope();\n throw e;\n },\n );\n }\n\n this._popScope();\n return maybePromiseResult;\n }\n\n /**\n * Get the client of the stack.\n */\n getClient() {\n return this.getStackTop().client ;\n }\n\n /**\n * Returns the scope of the top stack.\n */\n getScope() {\n return this.getStackTop().scope;\n }\n\n /**\n * Get the isolation scope for the stack.\n */\n getIsolationScope() {\n return this._isolationScope;\n }\n\n /**\n * Returns the topmost scope layer in the order domain > local > process.\n */\n getStackTop() {\n return this._stack[this._stack.length - 1] ;\n }\n\n /**\n * Push a scope to the stack.\n */\n _pushScope() {\n // We want to clone the content of prev scope\n const scope = this.getScope().clone();\n this._stack.push({\n client: this.getClient(),\n scope,\n });\n return scope;\n }\n\n /**\n * Pop a scope from the stack.\n */\n _popScope() {\n if (this._stack.length <= 1) return false;\n return !!this._stack.pop();\n }\n}\n\n/**\n * Get the global async context stack.\n * This will be removed during the v8 cycle and is only here to make migration easier.\n */\nfunction getAsyncContextStack() {\n const registry = getMainCarrier();\n const sentry = getSentryCarrier(registry);\n\n return (sentry.stack = sentry.stack || new AsyncContextStack(getDefaultCurrentScope(), getDefaultIsolationScope()));\n}\n\nfunction withScope(callback) {\n return getAsyncContextStack().withScope(callback);\n}\n\nfunction withSetScope(scope, callback) {\n const stack = getAsyncContextStack() ;\n return stack.withScope(() => {\n stack.getStackTop().scope = scope;\n return callback(scope);\n });\n}\n\nfunction withIsolationScope(callback) {\n return getAsyncContextStack().withScope(() => {\n return callback(getAsyncContextStack().getIsolationScope());\n });\n}\n\n/**\n * Get the stack-based async context strategy.\n */\nfunction getStackAsyncContextStrategy() {\n return {\n withIsolationScope,\n withScope,\n withSetScope,\n withSetIsolationScope: (_isolationScope, callback) => {\n return withIsolationScope(callback);\n },\n getCurrentScope: () => getAsyncContextStack().getScope(),\n getIsolationScope: () => getAsyncContextStack().getIsolationScope(),\n };\n}\n\nexport { AsyncContextStack, getStackAsyncContextStrategy };\n","import { getGlobalSingleton } from '@sentry/utils';\nimport { Scope } from './scope.js';\n\n/** Get the default current scope. */\nfunction getDefaultCurrentScope() {\n return getGlobalSingleton('defaultCurrentScope', () => new Scope());\n}\n\n/** Get the default isolation scope. */\nfunction getDefaultIsolationScope() {\n return getGlobalSingleton('defaultIsolationScope', () => new Scope());\n}\n\nexport { getDefaultCurrentScope, getDefaultIsolationScope };\n","import { getMainCarrier, getSentryCarrier } from '../carrier.js';\nimport { getStackAsyncContextStrategy } from './stackStrategy.js';\n\n/**\n * @private Private API with no semver guarantees!\n *\n * Sets the global async context strategy\n */\nfunction setAsyncContextStrategy(strategy) {\n // Get main carrier (global for every environment)\n const registry = getMainCarrier();\n const sentry = getSentryCarrier(registry);\n sentry.acs = strategy;\n}\n\n/**\n * Get the current async context strategy.\n * If none has been setup, the default will be used.\n */\nfunction getAsyncContextStrategy(carrier) {\n const sentry = getSentryCarrier(carrier);\n\n if (sentry.acs) {\n return sentry.acs;\n }\n\n // Otherwise, use the default one (stack)\n return getStackAsyncContextStrategy();\n}\n\nexport { getAsyncContextStrategy, setAsyncContextStrategy };\n","import { getGlobalSingleton } from '@sentry/utils';\nimport { getAsyncContextStrategy } from './asyncContext/index.js';\nimport { getMainCarrier } from './carrier.js';\nimport { Scope } from './scope.js';\n\n/**\n * Get the currently active scope.\n */\nfunction getCurrentScope() {\n const carrier = getMainCarrier();\n const acs = getAsyncContextStrategy(carrier);\n return acs.getCurrentScope();\n}\n\n/**\n * Get the currently active isolation scope.\n * The isolation scope is active for the current exection context.\n */\nfunction getIsolationScope() {\n const carrier = getMainCarrier();\n const acs = getAsyncContextStrategy(carrier);\n return acs.getIsolationScope();\n}\n\n/**\n * Get the global scope.\n * This scope is applied to _all_ events.\n */\nfunction getGlobalScope() {\n return getGlobalSingleton('globalScope', () => new Scope());\n}\n\n/**\n * Creates a new scope with and executes the given operation within.\n * The scope is automatically removed once the operation\n * finishes or throws.\n */\n\n/**\n * Either creates a new active scope, or sets the given scope as active scope in the given callback.\n */\nfunction withScope(\n ...rest\n) {\n const carrier = getMainCarrier();\n const acs = getAsyncContextStrategy(carrier);\n\n // If a scope is defined, we want to make this the active scope instead of the default one\n if (rest.length === 2) {\n const [scope, callback] = rest;\n\n if (!scope) {\n return acs.withScope(callback);\n }\n\n return acs.withSetScope(scope, callback);\n }\n\n return acs.withScope(rest[0]);\n}\n\n/**\n * Attempts to fork the current isolation scope and the current scope based on the current async context strategy. If no\n * async context strategy is set, the isolation scope and the current scope will not be forked (this is currently the\n * case, for example, in the browser).\n *\n * Usage of this function in environments without async context strategy is discouraged and may lead to unexpected behaviour.\n *\n * This function is intended for Sentry SDK and SDK integration development. It is not recommended to be used in \"normal\"\n * applications directly because it comes with pitfalls. Use at your own risk!\n */\n\n/**\n * Either creates a new active isolation scope, or sets the given isolation scope as active scope in the given callback.\n */\nfunction withIsolationScope(\n ...rest\n\n) {\n const carrier = getMainCarrier();\n const acs = getAsyncContextStrategy(carrier);\n\n // If a scope is defined, we want to make this the active scope instead of the default one\n if (rest.length === 2) {\n const [isolationScope, callback] = rest;\n\n if (!isolationScope) {\n return acs.withIsolationScope(callback);\n }\n\n return acs.withSetIsolationScope(isolationScope, callback);\n }\n\n return acs.withIsolationScope(rest[0]);\n}\n\n/**\n * Get the currently active client.\n */\nfunction getClient() {\n return getCurrentScope().getClient();\n}\n\nexport { getClient, getCurrentScope, getGlobalScope, getIsolationScope, withIsolationScope, withScope };\n","const STACKTRACE_FRAME_LIMIT = 50;\nconst UNKNOWN_FUNCTION = '?';\n// Used to sanitize webpack (error: *) wrapped stack errors\nconst WEBPACK_ERROR_REGEXP = /\\(error: (.*)\\)/;\nconst STRIP_FRAME_REGEXP = /captureMessage|captureException/;\n\n/**\n * Creates a stack parser with the supplied line parsers\n *\n * StackFrames are returned in the correct order for Sentry Exception\n * frames and with Sentry SDK internal frames removed from the top and bottom\n *\n */\nfunction createStackParser(...parsers) {\n const sortedParsers = parsers.sort((a, b) => a[0] - b[0]).map(p => p[1]);\n\n return (stack, skipFirstLines = 0, framesToPop = 0) => {\n const frames = [];\n const lines = stack.split('\\n');\n\n for (let i = skipFirstLines; i < lines.length; i++) {\n const line = lines[i] ;\n // Ignore lines over 1kb as they are unlikely to be stack frames.\n // Many of the regular expressions use backtracking which results in run time that increases exponentially with\n // input size. Huge strings can result in hangs/Denial of Service:\n // https://github.com/getsentry/sentry-javascript/issues/2286\n if (line.length > 1024) {\n continue;\n }\n\n // https://github.com/getsentry/sentry-javascript/issues/5459\n // Remove webpack (error: *) wrappers\n const cleanedLine = WEBPACK_ERROR_REGEXP.test(line) ? line.replace(WEBPACK_ERROR_REGEXP, '$1') : line;\n\n // https://github.com/getsentry/sentry-javascript/issues/7813\n // Skip Error: lines\n if (cleanedLine.match(/\\S*Error: /)) {\n continue;\n }\n\n for (const parser of sortedParsers) {\n const frame = parser(cleanedLine);\n\n if (frame) {\n frames.push(frame);\n break;\n }\n }\n\n if (frames.length >= STACKTRACE_FRAME_LIMIT + framesToPop) {\n break;\n }\n }\n\n return stripSentryFramesAndReverse(frames.slice(framesToPop));\n };\n}\n\n/**\n * Gets a stack parser implementation from Options.stackParser\n * @see Options\n *\n * If options contains an array of line parsers, it is converted into a parser\n */\nfunction stackParserFromStackParserOptions(stackParser) {\n if (Array.isArray(stackParser)) {\n return createStackParser(...stackParser);\n }\n return stackParser;\n}\n\n/**\n * Removes Sentry frames from the top and bottom of the stack if present and enforces a limit of max number of frames.\n * Assumes stack input is ordered from top to bottom and returns the reverse representation so call site of the\n * function that caused the crash is the last frame in the array.\n * @hidden\n */\nfunction stripSentryFramesAndReverse(stack) {\n if (!stack.length) {\n return [];\n }\n\n const localStack = Array.from(stack);\n\n // If stack starts with one of our API calls, remove it (starts, meaning it's the top of the stack - aka last call)\n if (/sentryWrapped/.test(getLastStackFrame(localStack).function || '')) {\n localStack.pop();\n }\n\n // Reversing in the middle of the procedure allows us to just pop the values off the stack\n localStack.reverse();\n\n // If stack ends with one of our internal API calls, remove it (ends, meaning it's the bottom of the stack - aka top-most call)\n if (STRIP_FRAME_REGEXP.test(getLastStackFrame(localStack).function || '')) {\n localStack.pop();\n\n // When using synthetic events, we will have a 2 levels deep stack, as `new Error('Sentry syntheticException')`\n // is produced within the hub itself, making it:\n //\n // Sentry.captureException()\n // getCurrentHub().captureException()\n //\n // instead of just the top `Sentry` call itself.\n // This forces us to possibly strip an additional frame in the exact same was as above.\n if (STRIP_FRAME_REGEXP.test(getLastStackFrame(localStack).function || '')) {\n localStack.pop();\n }\n }\n\n return localStack.slice(0, STACKTRACE_FRAME_LIMIT).map(frame => ({\n ...frame,\n filename: frame.filename || getLastStackFrame(localStack).filename,\n function: frame.function || UNKNOWN_FUNCTION,\n }));\n}\n\nfunction getLastStackFrame(arr) {\n return arr[arr.length - 1] || {};\n}\n\nconst defaultFunctionName = '';\n\n/**\n * Safely extract function name from itself\n */\nfunction getFunctionName(fn) {\n try {\n if (!fn || typeof fn !== 'function') {\n return defaultFunctionName;\n }\n return fn.name || defaultFunctionName;\n } catch (e) {\n // Just accessing custom props in some Selenium environments\n // can cause a \"Permission denied\" exception (see raven-js#495).\n return defaultFunctionName;\n }\n}\n\n/**\n * Get's stack frames from an event without needing to check for undefined properties.\n */\nfunction getFramesFromEvent(event) {\n const exception = event.exception;\n\n if (exception) {\n const frames = [];\n try {\n // @ts-expect-error Object could be undefined\n exception.values.forEach(value => {\n // @ts-expect-error Value could be undefined\n if (value.stacktrace.frames) {\n // @ts-expect-error Value could be undefined\n frames.push(...value.stacktrace.frames);\n }\n });\n return frames;\n } catch (_oO) {\n return undefined;\n }\n }\n return undefined;\n}\n\nexport { UNKNOWN_FUNCTION, createStackParser, getFramesFromEvent, getFunctionName, stackParserFromStackParserOptions, stripSentryFramesAndReverse };\n","import { isVueViewModel, isSyntheticEvent } from './is.js';\nimport { memoBuilder } from './memo.js';\nimport { convertToPlainObject } from './object.js';\nimport { getFunctionName } from './stacktrace.js';\n\n/**\n * Recursively normalizes the given object.\n *\n * - Creates a copy to prevent original input mutation\n * - Skips non-enumerable properties\n * - When stringifying, calls `toJSON` if implemented\n * - Removes circular references\n * - Translates non-serializable values (`undefined`/`NaN`/functions) to serializable format\n * - Translates known global objects/classes to a string representations\n * - Takes care of `Error` object serialization\n * - Optionally limits depth of final output\n * - Optionally limits number of properties/elements included in any single object/array\n *\n * @param input The object to be normalized.\n * @param depth The max depth to which to normalize the object. (Anything deeper stringified whole.)\n * @param maxProperties The max number of elements or properties to be included in any single array or\n * object in the normallized output.\n * @returns A normalized version of the object, or `\"**non-serializable**\"` if any errors are thrown during normalization.\n */\n// eslint-disable-next-line @typescript-eslint/no-explicit-any\nfunction normalize(input, depth = 100, maxProperties = +Infinity) {\n try {\n // since we're at the outermost level, we don't provide a key\n return visit('', input, depth, maxProperties);\n } catch (err) {\n return { ERROR: `**non-serializable** (${err})` };\n }\n}\n\n/** JSDoc */\nfunction normalizeToSize(\n // eslint-disable-next-line @typescript-eslint/no-explicit-any\n object,\n // Default Node.js REPL depth\n depth = 3,\n // 100kB, as 200kB is max payload size, so half sounds reasonable\n maxSize = 100 * 1024,\n) {\n const normalized = normalize(object, depth);\n\n if (jsonSize(normalized) > maxSize) {\n return normalizeToSize(object, depth - 1, maxSize);\n }\n\n return normalized ;\n}\n\n/**\n * Visits a node to perform normalization on it\n *\n * @param key The key corresponding to the given node\n * @param value The node to be visited\n * @param depth Optional number indicating the maximum recursion depth\n * @param maxProperties Optional maximum number of properties/elements included in any single object/array\n * @param memo Optional Memo class handling decycling\n */\nfunction visit(\n key,\n value,\n depth = +Infinity,\n maxProperties = +Infinity,\n memo = memoBuilder(),\n) {\n const [memoize, unmemoize] = memo;\n\n // Get the simple cases out of the way first\n if (\n value == null || // this matches null and undefined -> eqeq not eqeqeq\n (['number', 'boolean', 'string'].includes(typeof value) && !Number.isNaN(value))\n ) {\n return value ;\n }\n\n const stringified = stringifyValue(key, value);\n\n // Anything we could potentially dig into more (objects or arrays) will have come back as `\"[object XXXX]\"`.\n // Everything else will have already been serialized, so if we don't see that pattern, we're done.\n if (!stringified.startsWith('[object ')) {\n return stringified;\n }\n\n // From here on, we can assert that `value` is either an object or an array.\n\n // Do not normalize objects that we know have already been normalized. As a general rule, the\n // \"__sentry_skip_normalization__\" property should only be used sparingly and only should only be set on objects that\n // have already been normalized.\n if ((value )['__sentry_skip_normalization__']) {\n return value ;\n }\n\n // We can set `__sentry_override_normalization_depth__` on an object to ensure that from there\n // We keep a certain amount of depth.\n // This should be used sparingly, e.g. we use it for the redux integration to ensure we get a certain amount of state.\n const remainingDepth =\n typeof (value )['__sentry_override_normalization_depth__'] === 'number'\n ? ((value )['__sentry_override_normalization_depth__'] )\n : depth;\n\n // We're also done if we've reached the max depth\n if (remainingDepth === 0) {\n // At this point we know `serialized` is a string of the form `\"[object XXXX]\"`. Clean it up so it's just `\"[XXXX]\"`.\n return stringified.replace('object ', '');\n }\n\n // If we've already visited this branch, bail out, as it's circular reference. If not, note that we're seeing it now.\n if (memoize(value)) {\n return '[Circular ~]';\n }\n\n // If the value has a `toJSON` method, we call it to extract more information\n const valueWithToJSON = value ;\n if (valueWithToJSON && typeof valueWithToJSON.toJSON === 'function') {\n try {\n const jsonValue = valueWithToJSON.toJSON();\n // We need to normalize the return value of `.toJSON()` in case it has circular references\n return visit('', jsonValue, remainingDepth - 1, maxProperties, memo);\n } catch (err) {\n // pass (The built-in `toJSON` failed, but we can still try to do it ourselves)\n }\n }\n\n // At this point we know we either have an object or an array, we haven't seen it before, and we're going to recurse\n // because we haven't yet reached the max depth. Create an accumulator to hold the results of visiting each\n // property/entry, and keep track of the number of items we add to it.\n const normalized = (Array.isArray(value) ? [] : {}) ;\n let numAdded = 0;\n\n // Before we begin, convert`Error` and`Event` instances into plain objects, since some of each of their relevant\n // properties are non-enumerable and otherwise would get missed.\n const visitable = convertToPlainObject(value );\n\n for (const visitKey in visitable) {\n // Avoid iterating over fields in the prototype if they've somehow been exposed to enumeration.\n if (!Object.prototype.hasOwnProperty.call(visitable, visitKey)) {\n continue;\n }\n\n if (numAdded >= maxProperties) {\n normalized[visitKey] = '[MaxProperties ~]';\n break;\n }\n\n // Recursively visit all the child nodes\n const visitValue = visitable[visitKey];\n normalized[visitKey] = visit(visitKey, visitValue, remainingDepth - 1, maxProperties, memo);\n\n numAdded++;\n }\n\n // Once we've visited all the branches, remove the parent from memo storage\n unmemoize(value);\n\n // Return accumulated values\n return normalized;\n}\n\n/* eslint-disable complexity */\n/**\n * Stringify the given value. Handles various known special values and types.\n *\n * Not meant to be used on simple primitives which already have a string representation, as it will, for example, turn\n * the number 1231 into \"[Object Number]\", nor on `null`, as it will throw.\n *\n * @param value The value to stringify\n * @returns A stringified representation of the given value\n */\nfunction stringifyValue(\n key,\n // this type is a tiny bit of a cheat, since this function does handle NaN (which is technically a number), but for\n // our internal use, it'll do\n value,\n) {\n try {\n if (key === 'domain' && value && typeof value === 'object' && (value )._events) {\n return '[Domain]';\n }\n\n if (key === 'domainEmitter') {\n return '[DomainEmitter]';\n }\n\n // It's safe to use `global`, `window`, and `document` here in this manner, as we are asserting using `typeof` first\n // which won't throw if they are not present.\n\n if (typeof global !== 'undefined' && value === global) {\n return '[Global]';\n }\n\n // eslint-disable-next-line no-restricted-globals\n if (typeof window !== 'undefined' && value === window) {\n return '[Window]';\n }\n\n // eslint-disable-next-line no-restricted-globals\n if (typeof document !== 'undefined' && value === document) {\n return '[Document]';\n }\n\n if (isVueViewModel(value)) {\n return '[VueViewModel]';\n }\n\n // React's SyntheticEvent thingy\n if (isSyntheticEvent(value)) {\n return '[SyntheticEvent]';\n }\n\n if (typeof value === 'number' && value !== value) {\n return '[NaN]';\n }\n\n if (typeof value === 'function') {\n return `[Function: ${getFunctionName(value)}]`;\n }\n\n if (typeof value === 'symbol') {\n return `[${String(value)}]`;\n }\n\n // stringified BigInts are indistinguishable from regular numbers, so we need to label them to avoid confusion\n if (typeof value === 'bigint') {\n return `[BigInt: ${String(value)}]`;\n }\n\n // Now that we've knocked out all the special cases and the primitives, all we have left are objects. Simply casting\n // them to strings means that instances of classes which haven't defined their `toStringTag` will just come out as\n // `\"[object Object]\"`. If we instead look at the constructor's name (which is the same as the name of the class),\n // we can make sure that only plain objects come out that way.\n const objName = getConstructorName(value);\n\n // Handle HTML Elements\n if (/^HTML(\\w*)Element$/.test(objName)) {\n return `[HTMLElement: ${objName}]`;\n }\n\n return `[object ${objName}]`;\n } catch (err) {\n return `**non-serializable** (${err})`;\n }\n}\n/* eslint-enable complexity */\n\nfunction getConstructorName(value) {\n const prototype = Object.getPrototypeOf(value);\n\n return prototype ? prototype.constructor.name : 'null prototype';\n}\n\n/** Calculates bytes size of input string */\nfunction utf8Length(value) {\n // eslint-disable-next-line no-bitwise\n return ~-encodeURI(value).split(/%..|./).length;\n}\n\n/** Calculates bytes size of input object */\n// eslint-disable-next-line @typescript-eslint/no-explicit-any\nfunction jsonSize(value) {\n return utf8Length(JSON.stringify(value));\n}\n\n/**\n * Normalizes URLs in exceptions and stacktraces to a base path so Sentry can fingerprint\n * across platforms and working directory.\n *\n * @param url The URL to be normalized.\n * @param basePath The application base path.\n * @returns The normalized URL.\n */\nfunction normalizeUrlToBase(url, basePath) {\n const escapedBase = basePath\n // Backslash to forward\n .replace(/\\\\/g, '/')\n // Escape RegExp special characters\n .replace(/[|\\\\{}()[\\]^$+*?.]/g, '\\\\$&');\n\n let newUrl = url;\n try {\n newUrl = decodeURI(url);\n } catch (_Oo) {\n // Sometime this breaks\n }\n return (\n newUrl\n .replace(/\\\\/g, '/')\n .replace(/webpack:\\/?/g, '') // Remove intermediate base path\n // eslint-disable-next-line @sentry-internal/sdk/no-regexp-constructor\n .replace(new RegExp(`(file://)?/*${escapedBase}/*`, 'ig'), 'app:///')\n );\n}\n\nexport { normalize, normalizeToSize, normalizeUrlToBase };\n","/* eslint-disable @typescript-eslint/no-unsafe-member-access */\n/* eslint-disable @typescript-eslint/no-explicit-any */\n\n/**\n * Helper to decycle json objects\n */\nfunction memoBuilder() {\n const hasWeakSet = typeof WeakSet === 'function';\n const inner = hasWeakSet ? new WeakSet() : [];\n function memoize(obj) {\n if (hasWeakSet) {\n if (inner.has(obj)) {\n return true;\n }\n inner.add(obj);\n return false;\n }\n // eslint-disable-next-line @typescript-eslint/prefer-for-of\n for (let i = 0; i < inner.length; i++) {\n const value = inner[i];\n if (value === obj) {\n return true;\n }\n }\n inner.push(obj);\n return false;\n }\n\n function unmemoize(obj) {\n if (hasWeakSet) {\n inner.delete(obj);\n } else {\n for (let i = 0; i < inner.length; i++) {\n if (inner[i] === obj) {\n inner.splice(i, 1);\n break;\n }\n }\n }\n }\n return [memoize, unmemoize];\n}\n\nexport { memoBuilder };\n","import { isThenable } from './is.js';\n\n/* eslint-disable @typescript-eslint/explicit-function-return-type */\n/* eslint-disable @typescript-eslint/no-explicit-any */\n\n/** SyncPromise internal states */\nvar States; (function (States) {\n /** Pending */\n const PENDING = 0; States[States[\"PENDING\"] = PENDING] = \"PENDING\";\n /** Resolved / OK */\n const RESOLVED = 1; States[States[\"RESOLVED\"] = RESOLVED] = \"RESOLVED\";\n /** Rejected / Error */\n const REJECTED = 2; States[States[\"REJECTED\"] = REJECTED] = \"REJECTED\";\n})(States || (States = {}));\n\n// Overloads so we can call resolvedSyncPromise without arguments and generic argument\n\n/**\n * Creates a resolved sync promise.\n *\n * @param value the value to resolve the promise with\n * @returns the resolved sync promise\n */\nfunction resolvedSyncPromise(value) {\n return new SyncPromise(resolve => {\n resolve(value);\n });\n}\n\n/**\n * Creates a rejected sync promise.\n *\n * @param value the value to reject the promise with\n * @returns the rejected sync promise\n */\nfunction rejectedSyncPromise(reason) {\n return new SyncPromise((_, reject) => {\n reject(reason);\n });\n}\n\n/**\n * Thenable class that behaves like a Promise and follows it's interface\n * but is not async internally\n */\nclass SyncPromise {\n\n constructor(\n executor,\n ) {SyncPromise.prototype.__init.call(this);SyncPromise.prototype.__init2.call(this);SyncPromise.prototype.__init3.call(this);SyncPromise.prototype.__init4.call(this);\n this._state = States.PENDING;\n this._handlers = [];\n\n try {\n executor(this._resolve, this._reject);\n } catch (e) {\n this._reject(e);\n }\n }\n\n /** JSDoc */\n then(\n onfulfilled,\n onrejected,\n ) {\n return new SyncPromise((resolve, reject) => {\n this._handlers.push([\n false,\n result => {\n if (!onfulfilled) {\n // TODO: ¯\\_(ツ)_/¯\n // TODO: FIXME\n resolve(result );\n } else {\n try {\n resolve(onfulfilled(result));\n } catch (e) {\n reject(e);\n }\n }\n },\n reason => {\n if (!onrejected) {\n reject(reason);\n } else {\n try {\n resolve(onrejected(reason));\n } catch (e) {\n reject(e);\n }\n }\n },\n ]);\n this._executeHandlers();\n });\n }\n\n /** JSDoc */\n catch(\n onrejected,\n ) {\n return this.then(val => val, onrejected);\n }\n\n /** JSDoc */\n finally(onfinally) {\n return new SyncPromise((resolve, reject) => {\n let val;\n let isRejected;\n\n return this.then(\n value => {\n isRejected = false;\n val = value;\n if (onfinally) {\n onfinally();\n }\n },\n reason => {\n isRejected = true;\n val = reason;\n if (onfinally) {\n onfinally();\n }\n },\n ).then(() => {\n if (isRejected) {\n reject(val);\n return;\n }\n\n resolve(val );\n });\n });\n }\n\n /** JSDoc */\n __init() {this._resolve = (value) => {\n this._setResult(States.RESOLVED, value);\n };}\n\n /** JSDoc */\n __init2() {this._reject = (reason) => {\n this._setResult(States.REJECTED, reason);\n };}\n\n /** JSDoc */\n __init3() {this._setResult = (state, value) => {\n if (this._state !== States.PENDING) {\n return;\n }\n\n if (isThenable(value)) {\n void (value ).then(this._resolve, this._reject);\n return;\n }\n\n this._state = state;\n this._value = value;\n\n this._executeHandlers();\n };}\n\n /** JSDoc */\n __init4() {this._executeHandlers = () => {\n if (this._state === States.PENDING) {\n return;\n }\n\n const cachedHandlers = this._handlers.slice();\n this._handlers = [];\n\n cachedHandlers.forEach(handler => {\n if (handler[0]) {\n return;\n }\n\n if (this._state === States.RESOLVED) {\n handler[1](this._value );\n }\n\n if (this._state === States.REJECTED) {\n handler[2](this._value);\n }\n\n handler[0] = true;\n });\n };}\n}\n\nexport { SyncPromise, rejectedSyncPromise, resolvedSyncPromise };\n","/**\n * This serves as a build time flag that will be true by default, but false in non-debug builds or if users replace `__SENTRY_DEBUG__` in their generated code.\n *\n * ATTENTION: This constant must never cross package boundaries (i.e. be exported) to guarantee that it can be used for tree shaking.\n */\nconst DEBUG_BUILD = (typeof __SENTRY_DEBUG__ === 'undefined' || __SENTRY_DEBUG__);\n\nexport { DEBUG_BUILD };\n","import { SyncPromise, logger, isThenable } from '@sentry/utils';\nimport { DEBUG_BUILD } from './debug-build.js';\n\n/**\n * Process an array of event processors, returning the processed event (or `null` if the event was dropped).\n */\nfunction notifyEventProcessors(\n processors,\n event,\n hint,\n index = 0,\n) {\n return new SyncPromise((resolve, reject) => {\n const processor = processors[index];\n if (event === null || typeof processor !== 'function') {\n resolve(event);\n } else {\n const result = processor({ ...event }, hint) ;\n\n DEBUG_BUILD && processor.id && result === null && logger.log(`Event processor \"${processor.id}\" dropped event`);\n\n if (isThenable(result)) {\n void result\n .then(final => notifyEventProcessors(processors, final, hint, index + 1).then(resolve))\n .then(null, reject);\n } else {\n void notifyEventProcessors(processors, result, hint, index + 1)\n .then(resolve)\n .then(null, reject);\n }\n }\n });\n}\n\nexport { notifyEventProcessors };\n","import { DEBUG_BUILD } from './debug-build.js';\nimport { isString } from './is.js';\nimport { logger } from './logger.js';\n\nconst BAGGAGE_HEADER_NAME = 'baggage';\n\nconst SENTRY_BAGGAGE_KEY_PREFIX = 'sentry-';\n\nconst SENTRY_BAGGAGE_KEY_PREFIX_REGEX = /^sentry-/;\n\n/**\n * Max length of a serialized baggage string\n *\n * https://www.w3.org/TR/baggage/#limits\n */\nconst MAX_BAGGAGE_STRING_LENGTH = 8192;\n\n/**\n * Takes a baggage header and turns it into Dynamic Sampling Context, by extracting all the \"sentry-\" prefixed values\n * from it.\n *\n * @param baggageHeader A very bread definition of a baggage header as it might appear in various frameworks.\n * @returns The Dynamic Sampling Context that was found on `baggageHeader`, if there was any, `undefined` otherwise.\n */\nfunction baggageHeaderToDynamicSamplingContext(\n // Very liberal definition of what any incoming header might look like\n baggageHeader,\n) {\n const baggageObject = parseBaggageHeader(baggageHeader);\n\n if (!baggageObject) {\n return undefined;\n }\n\n // Read all \"sentry-\" prefixed values out of the baggage object and put it onto a dynamic sampling context object.\n const dynamicSamplingContext = Object.entries(baggageObject).reduce((acc, [key, value]) => {\n if (key.match(SENTRY_BAGGAGE_KEY_PREFIX_REGEX)) {\n const nonPrefixedKey = key.slice(SENTRY_BAGGAGE_KEY_PREFIX.length);\n acc[nonPrefixedKey] = value;\n }\n return acc;\n }, {});\n\n // Only return a dynamic sampling context object if there are keys in it.\n // A keyless object means there were no sentry values on the header, which means that there is no DSC.\n if (Object.keys(dynamicSamplingContext).length > 0) {\n return dynamicSamplingContext ;\n } else {\n return undefined;\n }\n}\n\n/**\n * Turns a Dynamic Sampling Object into a baggage header by prefixing all the keys on the object with \"sentry-\".\n *\n * @param dynamicSamplingContext The Dynamic Sampling Context to turn into a header. For convenience and compatibility\n * with the `getDynamicSamplingContext` method on the Transaction class ,this argument can also be `undefined`. If it is\n * `undefined` the function will return `undefined`.\n * @returns a baggage header, created from `dynamicSamplingContext`, or `undefined` either if `dynamicSamplingContext`\n * was `undefined`, or if `dynamicSamplingContext` didn't contain any values.\n */\nfunction dynamicSamplingContextToSentryBaggageHeader(\n // this also takes undefined for convenience and bundle size in other places\n dynamicSamplingContext,\n) {\n if (!dynamicSamplingContext) {\n return undefined;\n }\n\n // Prefix all DSC keys with \"sentry-\" and put them into a new object\n const sentryPrefixedDSC = Object.entries(dynamicSamplingContext).reduce(\n (acc, [dscKey, dscValue]) => {\n if (dscValue) {\n acc[`${SENTRY_BAGGAGE_KEY_PREFIX}${dscKey}`] = dscValue;\n }\n return acc;\n },\n {},\n );\n\n return objectToBaggageHeader(sentryPrefixedDSC);\n}\n\n/**\n * Take a baggage header and parse it into an object.\n */\nfunction parseBaggageHeader(\n baggageHeader,\n) {\n if (!baggageHeader || (!isString(baggageHeader) && !Array.isArray(baggageHeader))) {\n return undefined;\n }\n\n if (Array.isArray(baggageHeader)) {\n // Combine all baggage headers into one object containing the baggage values so we can later read the Sentry-DSC-values from it\n return baggageHeader.reduce((acc, curr) => {\n const currBaggageObject = baggageHeaderToObject(curr);\n Object.entries(currBaggageObject).forEach(([key, value]) => {\n acc[key] = value;\n });\n return acc;\n }, {});\n }\n\n return baggageHeaderToObject(baggageHeader);\n}\n\n/**\n * Will parse a baggage header, which is a simple key-value map, into a flat object.\n *\n * @param baggageHeader The baggage header to parse.\n * @returns a flat object containing all the key-value pairs from `baggageHeader`.\n */\nfunction baggageHeaderToObject(baggageHeader) {\n return baggageHeader\n .split(',')\n .map(baggageEntry => baggageEntry.split('=').map(keyOrValue => decodeURIComponent(keyOrValue.trim())))\n .reduce((acc, [key, value]) => {\n if (key && value) {\n acc[key] = value;\n }\n return acc;\n }, {});\n}\n\n/**\n * Turns a flat object (key-value pairs) into a baggage header, which is also just key-value pairs.\n *\n * @param object The object to turn into a baggage header.\n * @returns a baggage header string, or `undefined` if the object didn't have any values, since an empty baggage header\n * is not spec compliant.\n */\nfunction objectToBaggageHeader(object) {\n if (Object.keys(object).length === 0) {\n // An empty baggage header is not spec compliant: We return undefined.\n return undefined;\n }\n\n return Object.entries(object).reduce((baggageHeader, [objectKey, objectValue], currentIndex) => {\n const baggageEntry = `${encodeURIComponent(objectKey)}=${encodeURIComponent(objectValue)}`;\n const newBaggageHeader = currentIndex === 0 ? baggageEntry : `${baggageHeader},${baggageEntry}`;\n if (newBaggageHeader.length > MAX_BAGGAGE_STRING_LENGTH) {\n DEBUG_BUILD &&\n logger.warn(\n `Not adding key: ${objectKey} with val: ${objectValue} to baggage header due to exceeding baggage size limits.`,\n );\n return baggageHeader;\n } else {\n return newBaggageHeader;\n }\n }, '');\n}\n\nexport { BAGGAGE_HEADER_NAME, MAX_BAGGAGE_STRING_LENGTH, SENTRY_BAGGAGE_KEY_PREFIX, SENTRY_BAGGAGE_KEY_PREFIX_REGEX, baggageHeaderToDynamicSamplingContext, dynamicSamplingContextToSentryBaggageHeader, parseBaggageHeader };\n","/**\n * Use this attribute to represent the source of a span.\n * Should be one of: custom, url, route, view, component, task, unknown\n *\n */\nconst SEMANTIC_ATTRIBUTE_SENTRY_SOURCE = 'sentry.source';\n\n/**\n * Use this attribute to represent the sample rate used for a span.\n */\nconst SEMANTIC_ATTRIBUTE_SENTRY_SAMPLE_RATE = 'sentry.sample_rate';\n\n/**\n * Use this attribute to represent the operation of a span.\n */\nconst SEMANTIC_ATTRIBUTE_SENTRY_OP = 'sentry.op';\n\n/**\n * Use this attribute to represent the origin of a span.\n */\nconst SEMANTIC_ATTRIBUTE_SENTRY_ORIGIN = 'sentry.origin';\n\n/** The reason why an idle span finished. */\nconst SEMANTIC_ATTRIBUTE_SENTRY_IDLE_SPAN_FINISH_REASON = 'sentry.idle_span_finish_reason';\n\n/** The unit of a measurement, which may be stored as a TimedEvent. */\nconst SEMANTIC_ATTRIBUTE_SENTRY_MEASUREMENT_UNIT = 'sentry.measurement_unit';\n\n/** The value of a measurement, which may be stored as a TimedEvent. */\nconst SEMANTIC_ATTRIBUTE_SENTRY_MEASUREMENT_VALUE = 'sentry.measurement_value';\n\n/**\n * The id of the profile that this span occured in.\n */\nconst SEMANTIC_ATTRIBUTE_PROFILE_ID = 'sentry.profile_id';\n\nconst SEMANTIC_ATTRIBUTE_EXCLUSIVE_TIME = 'sentry.exclusive_time';\n\nconst SEMANTIC_ATTRIBUTE_CACHE_HIT = 'cache.hit';\n\nconst SEMANTIC_ATTRIBUTE_CACHE_KEY = 'cache.key';\n\nconst SEMANTIC_ATTRIBUTE_CACHE_ITEM_SIZE = 'cache.item_size';\n\nexport { SEMANTIC_ATTRIBUTE_CACHE_HIT, SEMANTIC_ATTRIBUTE_CACHE_ITEM_SIZE, SEMANTIC_ATTRIBUTE_CACHE_KEY, SEMANTIC_ATTRIBUTE_EXCLUSIVE_TIME, SEMANTIC_ATTRIBUTE_PROFILE_ID, SEMANTIC_ATTRIBUTE_SENTRY_IDLE_SPAN_FINISH_REASON, SEMANTIC_ATTRIBUTE_SENTRY_MEASUREMENT_UNIT, SEMANTIC_ATTRIBUTE_SENTRY_MEASUREMENT_VALUE, SEMANTIC_ATTRIBUTE_SENTRY_OP, SEMANTIC_ATTRIBUTE_SENTRY_ORIGIN, SEMANTIC_ATTRIBUTE_SENTRY_SAMPLE_RATE, SEMANTIC_ATTRIBUTE_SENTRY_SOURCE };\n","import { baggageHeaderToDynamicSamplingContext } from './baggage.js';\nimport { uuid4 } from './misc.js';\n\n// eslint-disable-next-line @sentry-internal/sdk/no-regexp-constructor -- RegExp is used for readability here\nconst TRACEPARENT_REGEXP = new RegExp(\n '^[ \\\\t]*' + // whitespace\n '([0-9a-f]{32})?' + // trace_id\n '-?([0-9a-f]{16})?' + // span_id\n '-?([01])?' + // sampled\n '[ \\\\t]*$', // whitespace\n);\n\n/**\n * Extract transaction context data from a `sentry-trace` header.\n *\n * @param traceparent Traceparent string\n *\n * @returns Object containing data from the header, or undefined if traceparent string is malformed\n */\nfunction extractTraceparentData(traceparent) {\n if (!traceparent) {\n return undefined;\n }\n\n const matches = traceparent.match(TRACEPARENT_REGEXP);\n if (!matches) {\n return undefined;\n }\n\n let parentSampled;\n if (matches[3] === '1') {\n parentSampled = true;\n } else if (matches[3] === '0') {\n parentSampled = false;\n }\n\n return {\n traceId: matches[1],\n parentSampled,\n parentSpanId: matches[2],\n };\n}\n\n/**\n * Create a propagation context from incoming headers or\n * creates a minimal new one if the headers are undefined.\n */\nfunction propagationContextFromHeaders(\n sentryTrace,\n baggage,\n) {\n const traceparentData = extractTraceparentData(sentryTrace);\n const dynamicSamplingContext = baggageHeaderToDynamicSamplingContext(baggage);\n\n const { traceId, parentSpanId, parentSampled } = traceparentData || {};\n\n if (!traceparentData) {\n return {\n traceId: traceId || uuid4(),\n spanId: uuid4().substring(16),\n };\n } else {\n return {\n traceId: traceId || uuid4(),\n parentSpanId: parentSpanId || uuid4().substring(16),\n spanId: uuid4().substring(16),\n sampled: parentSampled,\n dsc: dynamicSamplingContext || {}, // If we have traceparent data but no DSC it means we are not head of trace and we must freeze it\n };\n }\n}\n\n/**\n * Create sentry-trace header from span context values.\n */\nfunction generateSentryTraceHeader(\n traceId = uuid4(),\n spanId = uuid4().substring(16),\n sampled,\n) {\n let sampledString = '';\n if (sampled !== undefined) {\n sampledString = sampled ? '-1' : '-0';\n }\n return `${traceId}-${spanId}${sampledString}`;\n}\n\nexport { TRACEPARENT_REGEXP, extractTraceparentData, generateSentryTraceHeader, propagationContextFromHeaders };\n","import { dropUndefinedKeys } from '@sentry/utils';\n\n/**\n * key: bucketKey\n * value: [exportKey, MetricSummary]\n */\n\nconst METRICS_SPAN_FIELD = '_sentryMetrics';\n\n/**\n * Fetches the metric summary if it exists for the passed span\n */\nfunction getMetricSummaryJsonForSpan(span) {\n const storage = (span )[METRICS_SPAN_FIELD];\n\n if (!storage) {\n return undefined;\n }\n const output = {};\n\n for (const [, [exportKey, summary]] of storage) {\n const arr = output[exportKey] || (output[exportKey] = []);\n arr.push(dropUndefinedKeys(summary));\n }\n\n return output;\n}\n\n/**\n * Updates the metric summary on a span.\n */\nfunction updateMetricSummaryOnSpan(\n span,\n metricType,\n sanitizedName,\n value,\n unit,\n tags,\n bucketKey,\n) {\n const existingStorage = (span )[METRICS_SPAN_FIELD];\n const storage =\n existingStorage ||\n ((span )[METRICS_SPAN_FIELD] = new Map());\n\n const exportKey = `${metricType}:${sanitizedName}@${unit}`;\n const bucketItem = storage.get(bucketKey);\n\n if (bucketItem) {\n const [, summary] = bucketItem;\n storage.set(bucketKey, [\n exportKey,\n {\n min: Math.min(summary.min, value),\n max: Math.max(summary.max, value),\n count: (summary.count += 1),\n sum: (summary.sum += value),\n tags: summary.tags,\n },\n ]);\n } else {\n storage.set(bucketKey, [\n exportKey,\n {\n min: value,\n max: value,\n count: 1,\n sum: value,\n tags,\n },\n ]);\n }\n}\n\nexport { getMetricSummaryJsonForSpan, updateMetricSummaryOnSpan };\n","const SPAN_STATUS_UNSET = 0;\nconst SPAN_STATUS_OK = 1;\nconst SPAN_STATUS_ERROR = 2;\n\n/**\n * Converts a HTTP status code into a sentry status with a message.\n *\n * @param httpStatus The HTTP response status code.\n * @returns The span status or unknown_error.\n */\n// https://develop.sentry.dev/sdk/event-payloads/span/\nfunction getSpanStatusFromHttpCode(httpStatus) {\n if (httpStatus < 400 && httpStatus >= 100) {\n return { code: SPAN_STATUS_OK };\n }\n\n if (httpStatus >= 400 && httpStatus < 500) {\n switch (httpStatus) {\n case 401:\n return { code: SPAN_STATUS_ERROR, message: 'unauthenticated' };\n case 403:\n return { code: SPAN_STATUS_ERROR, message: 'permission_denied' };\n case 404:\n return { code: SPAN_STATUS_ERROR, message: 'not_found' };\n case 409:\n return { code: SPAN_STATUS_ERROR, message: 'already_exists' };\n case 413:\n return { code: SPAN_STATUS_ERROR, message: 'failed_precondition' };\n case 429:\n return { code: SPAN_STATUS_ERROR, message: 'resource_exhausted' };\n case 499:\n return { code: SPAN_STATUS_ERROR, message: 'cancelled' };\n default:\n return { code: SPAN_STATUS_ERROR, message: 'invalid_argument' };\n }\n }\n\n if (httpStatus >= 500 && httpStatus < 600) {\n switch (httpStatus) {\n case 501:\n return { code: SPAN_STATUS_ERROR, message: 'unimplemented' };\n case 503:\n return { code: SPAN_STATUS_ERROR, message: 'unavailable' };\n case 504:\n return { code: SPAN_STATUS_ERROR, message: 'deadline_exceeded' };\n default:\n return { code: SPAN_STATUS_ERROR, message: 'internal_error' };\n }\n }\n\n return { code: SPAN_STATUS_ERROR, message: 'unknown_error' };\n}\n\n/**\n * Sets the Http status attributes on the current span based on the http code.\n * Additionally, the span's status is updated, depending on the http code.\n */\nfunction setHttpStatus(span, httpStatus) {\n span.setAttribute('http.response.status_code', httpStatus);\n\n const spanStatus = getSpanStatusFromHttpCode(httpStatus);\n if (spanStatus.message !== 'unknown_error') {\n span.setStatus(spanStatus);\n }\n}\n\nexport { SPAN_STATUS_ERROR, SPAN_STATUS_OK, SPAN_STATUS_UNSET, getSpanStatusFromHttpCode, setHttpStatus };\n","import { dropUndefinedKeys, generateSentryTraceHeader, timestampInSeconds, addNonEnumerableProperty } from '@sentry/utils';\nimport { getAsyncContextStrategy } from '../asyncContext/index.js';\nimport { getMainCarrier } from '../carrier.js';\nimport { getCurrentScope } from '../currentScopes.js';\nimport { getMetricSummaryJsonForSpan, updateMetricSummaryOnSpan } from '../metrics/metric-summary.js';\nimport { SEMANTIC_ATTRIBUTE_SENTRY_OP, SEMANTIC_ATTRIBUTE_SENTRY_ORIGIN } from '../semanticAttributes.js';\nimport { SPAN_STATUS_UNSET, SPAN_STATUS_OK } from '../tracing/spanstatus.js';\nimport { _getSpanForScope } from './spanOnScope.js';\n\n// These are aligned with OpenTelemetry trace flags\nconst TRACE_FLAG_NONE = 0x0;\nconst TRACE_FLAG_SAMPLED = 0x1;\n\n/**\n * Convert a span to a trace context, which can be sent as the `trace` context in an event.\n * By default, this will only include trace_id, span_id & parent_span_id.\n * If `includeAllData` is true, it will also include data, op, status & origin.\n */\nfunction spanToTransactionTraceContext(span) {\n const { spanId: span_id, traceId: trace_id } = span.spanContext();\n const { data, op, parent_span_id, status, origin } = spanToJSON(span);\n\n return dropUndefinedKeys({\n parent_span_id,\n span_id,\n trace_id,\n data,\n op,\n status,\n origin,\n });\n}\n\n/**\n * Convert a span to a trace context, which can be sent as the `trace` context in a non-transaction event.\n */\nfunction spanToTraceContext(span) {\n const { spanId: span_id, traceId: trace_id } = span.spanContext();\n const { parent_span_id } = spanToJSON(span);\n\n return dropUndefinedKeys({ parent_span_id, span_id, trace_id });\n}\n\n/**\n * Convert a Span to a Sentry trace header.\n */\nfunction spanToTraceHeader(span) {\n const { traceId, spanId } = span.spanContext();\n const sampled = spanIsSampled(span);\n return generateSentryTraceHeader(traceId, spanId, sampled);\n}\n\n/**\n * Convert a span time input into a timestamp in seconds.\n */\nfunction spanTimeInputToSeconds(input) {\n if (typeof input === 'number') {\n return ensureTimestampInSeconds(input);\n }\n\n if (Array.isArray(input)) {\n // See {@link HrTime} for the array-based time format\n return input[0] + input[1] / 1e9;\n }\n\n if (input instanceof Date) {\n return ensureTimestampInSeconds(input.getTime());\n }\n\n return timestampInSeconds();\n}\n\n/**\n * Converts a timestamp to second, if it was in milliseconds, or keeps it as second.\n */\nfunction ensureTimestampInSeconds(timestamp) {\n const isMs = timestamp > 9999999999;\n return isMs ? timestamp / 1000 : timestamp;\n}\n\n/**\n * Convert a span to a JSON representation.\n */\n// Note: Because of this, we currently have a circular type dependency (which we opted out of in package.json).\n// This is not avoidable as we need `spanToJSON` in `spanUtils.ts`, which in turn is needed by `span.ts` for backwards compatibility.\n// And `spanToJSON` needs the Span class from `span.ts` to check here.\nfunction spanToJSON(span) {\n if (spanIsSentrySpan(span)) {\n return span.getSpanJSON();\n }\n\n try {\n const { spanId: span_id, traceId: trace_id } = span.spanContext();\n\n // Handle a span from @opentelemetry/sdk-base-trace's `Span` class\n if (spanIsOpenTelemetrySdkTraceBaseSpan(span)) {\n const { attributes, startTime, name, endTime, parentSpanId, status } = span;\n\n return dropUndefinedKeys({\n span_id,\n trace_id,\n data: attributes,\n description: name,\n parent_span_id: parentSpanId,\n start_timestamp: spanTimeInputToSeconds(startTime),\n // This is [0,0] by default in OTEL, in which case we want to interpret this as no end time\n timestamp: spanTimeInputToSeconds(endTime) || undefined,\n status: getStatusMessage(status),\n op: attributes[SEMANTIC_ATTRIBUTE_SENTRY_OP],\n origin: attributes[SEMANTIC_ATTRIBUTE_SENTRY_ORIGIN] ,\n _metrics_summary: getMetricSummaryJsonForSpan(span),\n });\n }\n\n // Finally, at least we have `spanContext()`....\n return {\n span_id,\n trace_id,\n };\n } catch (e) {\n return {};\n }\n}\n\nfunction spanIsOpenTelemetrySdkTraceBaseSpan(span) {\n const castSpan = span ;\n return !!castSpan.attributes && !!castSpan.startTime && !!castSpan.name && !!castSpan.endTime && !!castSpan.status;\n}\n\n/** Exported only for tests. */\n\n/**\n * Sadly, due to circular dependency checks we cannot actually import the Span class here and check for instanceof.\n * :( So instead we approximate this by checking if it has the `getSpanJSON` method.\n */\nfunction spanIsSentrySpan(span) {\n return typeof (span ).getSpanJSON === 'function';\n}\n\n/**\n * Returns true if a span is sampled.\n * In most cases, you should just use `span.isRecording()` instead.\n * However, this has a slightly different semantic, as it also returns false if the span is finished.\n * So in the case where this distinction is important, use this method.\n */\nfunction spanIsSampled(span) {\n // We align our trace flags with the ones OpenTelemetry use\n // So we also check for sampled the same way they do.\n const { traceFlags } = span.spanContext();\n return traceFlags === TRACE_FLAG_SAMPLED;\n}\n\n/** Get the status message to use for a JSON representation of a span. */\nfunction getStatusMessage(status) {\n if (!status || status.code === SPAN_STATUS_UNSET) {\n return undefined;\n }\n\n if (status.code === SPAN_STATUS_OK) {\n return 'ok';\n }\n\n return status.message || 'unknown_error';\n}\n\nconst CHILD_SPANS_FIELD = '_sentryChildSpans';\nconst ROOT_SPAN_FIELD = '_sentryRootSpan';\n\n/**\n * Adds an opaque child span reference to a span.\n */\nfunction addChildSpanToSpan(span, childSpan) {\n // We store the root span reference on the child span\n // We need this for `getRootSpan()` to work\n const rootSpan = span[ROOT_SPAN_FIELD] || span;\n addNonEnumerableProperty(childSpan , ROOT_SPAN_FIELD, rootSpan);\n\n // We store a list of child spans on the parent span\n // We need this for `getSpanDescendants()` to work\n if (span[CHILD_SPANS_FIELD]) {\n span[CHILD_SPANS_FIELD].add(childSpan);\n } else {\n addNonEnumerableProperty(span, CHILD_SPANS_FIELD, new Set([childSpan]));\n }\n}\n\n/** This is only used internally by Idle Spans. */\nfunction removeChildSpanFromSpan(span, childSpan) {\n if (span[CHILD_SPANS_FIELD]) {\n span[CHILD_SPANS_FIELD].delete(childSpan);\n }\n}\n\n/**\n * Returns an array of the given span and all of its descendants.\n */\nfunction getSpanDescendants(span) {\n const resultSet = new Set();\n\n function addSpanChildren(span) {\n // This exit condition is required to not infinitely loop in case of a circular dependency.\n if (resultSet.has(span)) {\n return;\n // We want to ignore unsampled spans (e.g. non recording spans)\n } else if (spanIsSampled(span)) {\n resultSet.add(span);\n const childSpans = span[CHILD_SPANS_FIELD] ? Array.from(span[CHILD_SPANS_FIELD]) : [];\n for (const childSpan of childSpans) {\n addSpanChildren(childSpan);\n }\n }\n }\n\n addSpanChildren(span);\n\n return Array.from(resultSet);\n}\n\n/**\n * Returns the root span of a given span.\n */\nfunction getRootSpan(span) {\n return span[ROOT_SPAN_FIELD] || span;\n}\n\n/**\n * Returns the currently active span.\n */\nfunction getActiveSpan() {\n const carrier = getMainCarrier();\n const acs = getAsyncContextStrategy(carrier);\n if (acs.getActiveSpan) {\n return acs.getActiveSpan();\n }\n\n return _getSpanForScope(getCurrentScope());\n}\n\n/**\n * Updates the metric summary on the currently active span\n */\nfunction updateMetricSummaryOnActiveSpan(\n metricType,\n sanitizedName,\n value,\n unit,\n tags,\n bucketKey,\n) {\n const span = getActiveSpan();\n if (span) {\n updateMetricSummaryOnSpan(span, metricType, sanitizedName, value, unit, tags, bucketKey);\n }\n}\n\nexport { TRACE_FLAG_NONE, TRACE_FLAG_SAMPLED, addChildSpanToSpan, getActiveSpan, getRootSpan, getSpanDescendants, getStatusMessage, removeChildSpanFromSpan, spanIsSampled, spanTimeInputToSeconds, spanToJSON, spanToTraceContext, spanToTraceHeader, spanToTransactionTraceContext, updateMetricSummaryOnActiveSpan };\n","import { dropUndefinedKeys, baggageHeaderToDynamicSamplingContext, dynamicSamplingContextToSentryBaggageHeader, addNonEnumerableProperty } from '@sentry/utils';\nimport { DEFAULT_ENVIRONMENT } from '../constants.js';\nimport { getClient } from '../currentScopes.js';\nimport { SEMANTIC_ATTRIBUTE_SENTRY_SAMPLE_RATE, SEMANTIC_ATTRIBUTE_SENTRY_SOURCE } from '../semanticAttributes.js';\nimport { spanToJSON, getRootSpan, spanIsSampled } from '../utils/spanUtils.js';\n\n/**\n * If you change this value, also update the terser plugin config to\n * avoid minification of the object property!\n */\nconst FROZEN_DSC_FIELD = '_frozenDsc';\n\n/**\n * Freeze the given DSC on the given span.\n */\nfunction freezeDscOnSpan(span, dsc) {\n const spanWithMaybeDsc = span ;\n addNonEnumerableProperty(spanWithMaybeDsc, FROZEN_DSC_FIELD, dsc);\n}\n\n/**\n * Creates a dynamic sampling context from a client.\n *\n * Dispatches the `createDsc` lifecycle hook as a side effect.\n */\nfunction getDynamicSamplingContextFromClient(trace_id, client) {\n const options = client.getOptions();\n\n const { publicKey: public_key } = client.getDsn() || {};\n\n const dsc = dropUndefinedKeys({\n environment: options.environment || DEFAULT_ENVIRONMENT,\n release: options.release,\n public_key,\n trace_id,\n }) ;\n\n client.emit('createDsc', dsc);\n\n return dsc;\n}\n\n/**\n * Creates a dynamic sampling context from a span (and client and scope)\n *\n * @param span the span from which a few values like the root span name and sample rate are extracted.\n *\n * @returns a dynamic sampling context\n */\nfunction getDynamicSamplingContextFromSpan(span) {\n const client = getClient();\n if (!client) {\n return {};\n }\n\n const dsc = getDynamicSamplingContextFromClient(spanToJSON(span).trace_id || '', client);\n\n const rootSpan = getRootSpan(span);\n\n // For core implementation, we freeze the DSC onto the span as a non-enumerable property\n const frozenDsc = (rootSpan )[FROZEN_DSC_FIELD];\n if (frozenDsc) {\n return frozenDsc;\n }\n\n // For OpenTelemetry, we freeze the DSC on the trace state\n const traceState = rootSpan.spanContext().traceState;\n const traceStateDsc = traceState && traceState.get('sentry.dsc');\n\n // If the span has a DSC, we want it to take precedence\n const dscOnTraceState = traceStateDsc && baggageHeaderToDynamicSamplingContext(traceStateDsc);\n\n if (dscOnTraceState) {\n return dscOnTraceState;\n }\n\n // Else, we generate it from the span\n const jsonSpan = spanToJSON(rootSpan);\n const attributes = jsonSpan.data || {};\n const maybeSampleRate = attributes[SEMANTIC_ATTRIBUTE_SENTRY_SAMPLE_RATE];\n\n if (maybeSampleRate != null) {\n dsc.sample_rate = `${maybeSampleRate}`;\n }\n\n // We don't want to have a transaction name in the DSC if the source is \"url\" because URLs might contain PII\n const source = attributes[SEMANTIC_ATTRIBUTE_SENTRY_SOURCE];\n\n // after JSON conversion, txn.name becomes jsonSpan.description\n const name = jsonSpan.description;\n if (source !== 'url' && name) {\n dsc.transaction = name;\n }\n\n dsc.sampled = String(spanIsSampled(rootSpan));\n\n client.emit('createDsc', dsc, rootSpan);\n\n return dsc;\n}\n\n/**\n * Convert a Span to a baggage header.\n */\nfunction spanToBaggageHeader(span) {\n const dsc = getDynamicSamplingContextFromSpan(span);\n return dynamicSamplingContextToSentryBaggageHeader(dsc);\n}\n\nexport { freezeDscOnSpan, getDynamicSamplingContextFromClient, getDynamicSamplingContextFromSpan, spanToBaggageHeader };\n","import { dropUndefinedKeys, arrayify } from '@sentry/utils';\nimport { getDynamicSamplingContextFromSpan } from '../tracing/dynamicSamplingContext.js';\nimport { spanToTraceContext, getRootSpan, spanToJSON } from './spanUtils.js';\n\n/**\n * Applies data from the scope to the event and runs all event processors on it.\n */\nfunction applyScopeDataToEvent(event, data) {\n const { fingerprint, span, breadcrumbs, sdkProcessingMetadata } = data;\n\n // Apply general data\n applyDataToEvent(event, data);\n\n // We want to set the trace context for normal events only if there isn't already\n // a trace context on the event. There is a product feature in place where we link\n // errors with transaction and it relies on that.\n if (span) {\n applySpanToEvent(event, span);\n }\n\n applyFingerprintToEvent(event, fingerprint);\n applyBreadcrumbsToEvent(event, breadcrumbs);\n applySdkMetadataToEvent(event, sdkProcessingMetadata);\n}\n\n/** Merge data of two scopes together. */\nfunction mergeScopeData(data, mergeData) {\n const {\n extra,\n tags,\n user,\n contexts,\n level,\n sdkProcessingMetadata,\n breadcrumbs,\n fingerprint,\n eventProcessors,\n attachments,\n propagationContext,\n transactionName,\n span,\n } = mergeData;\n\n mergeAndOverwriteScopeData(data, 'extra', extra);\n mergeAndOverwriteScopeData(data, 'tags', tags);\n mergeAndOverwriteScopeData(data, 'user', user);\n mergeAndOverwriteScopeData(data, 'contexts', contexts);\n mergeAndOverwriteScopeData(data, 'sdkProcessingMetadata', sdkProcessingMetadata);\n\n if (level) {\n data.level = level;\n }\n\n if (transactionName) {\n data.transactionName = transactionName;\n }\n\n if (span) {\n data.span = span;\n }\n\n if (breadcrumbs.length) {\n data.breadcrumbs = [...data.breadcrumbs, ...breadcrumbs];\n }\n\n if (fingerprint.length) {\n data.fingerprint = [...data.fingerprint, ...fingerprint];\n }\n\n if (eventProcessors.length) {\n data.eventProcessors = [...data.eventProcessors, ...eventProcessors];\n }\n\n if (attachments.length) {\n data.attachments = [...data.attachments, ...attachments];\n }\n\n data.propagationContext = { ...data.propagationContext, ...propagationContext };\n}\n\n/**\n * Merges certain scope data. Undefined values will overwrite any existing values.\n * Exported only for tests.\n */\nfunction mergeAndOverwriteScopeData\n\n(data, prop, mergeVal) {\n if (mergeVal && Object.keys(mergeVal).length) {\n // Clone object\n data[prop] = { ...data[prop] };\n for (const key in mergeVal) {\n if (Object.prototype.hasOwnProperty.call(mergeVal, key)) {\n data[prop][key] = mergeVal[key];\n }\n }\n }\n}\n\nfunction applyDataToEvent(event, data) {\n const { extra, tags, user, contexts, level, transactionName } = data;\n\n const cleanedExtra = dropUndefinedKeys(extra);\n if (cleanedExtra && Object.keys(cleanedExtra).length) {\n event.extra = { ...cleanedExtra, ...event.extra };\n }\n\n const cleanedTags = dropUndefinedKeys(tags);\n if (cleanedTags && Object.keys(cleanedTags).length) {\n event.tags = { ...cleanedTags, ...event.tags };\n }\n\n const cleanedUser = dropUndefinedKeys(user);\n if (cleanedUser && Object.keys(cleanedUser).length) {\n event.user = { ...cleanedUser, ...event.user };\n }\n\n const cleanedContexts = dropUndefinedKeys(contexts);\n if (cleanedContexts && Object.keys(cleanedContexts).length) {\n event.contexts = { ...cleanedContexts, ...event.contexts };\n }\n\n if (level) {\n event.level = level;\n }\n\n // transaction events get their `transaction` from the root span name\n if (transactionName && event.type !== 'transaction') {\n event.transaction = transactionName;\n }\n}\n\nfunction applyBreadcrumbsToEvent(event, breadcrumbs) {\n const mergedBreadcrumbs = [...(event.breadcrumbs || []), ...breadcrumbs];\n event.breadcrumbs = mergedBreadcrumbs.length ? mergedBreadcrumbs : undefined;\n}\n\nfunction applySdkMetadataToEvent(event, sdkProcessingMetadata) {\n event.sdkProcessingMetadata = {\n ...event.sdkProcessingMetadata,\n ...sdkProcessingMetadata,\n };\n}\n\nfunction applySpanToEvent(event, span) {\n event.contexts = {\n trace: spanToTraceContext(span),\n ...event.contexts,\n };\n\n event.sdkProcessingMetadata = {\n dynamicSamplingContext: getDynamicSamplingContextFromSpan(span),\n ...event.sdkProcessingMetadata,\n };\n\n const rootSpan = getRootSpan(span);\n const transactionName = spanToJSON(rootSpan).description;\n if (transactionName && !event.transaction && event.type === 'transaction') {\n event.transaction = transactionName;\n }\n}\n\n/**\n * Applies fingerprint from the scope to the event if there's one,\n * uses message if there's one instead or get rid of empty fingerprint\n */\nfunction applyFingerprintToEvent(event, fingerprint) {\n // Make sure it's an array first and we actually have something in place\n event.fingerprint = event.fingerprint ? arrayify(event.fingerprint) : [];\n\n // If we have something on the scope, then merge it with event\n if (fingerprint) {\n event.fingerprint = event.fingerprint.concat(fingerprint);\n }\n\n // If we have no data at all, remove empty array default\n if (event.fingerprint && !event.fingerprint.length) {\n delete event.fingerprint;\n }\n}\n\nexport { applyScopeDataToEvent, mergeAndOverwriteScopeData, mergeScopeData };\n","import { uuid4, dateTimestampInSeconds, addExceptionMechanism, truncate, GLOBAL_OBJ, normalize } from '@sentry/utils';\nimport { DEFAULT_ENVIRONMENT } from '../constants.js';\nimport { getGlobalScope } from '../currentScopes.js';\nimport { notifyEventProcessors } from '../eventProcessors.js';\nimport { Scope } from '../scope.js';\nimport { mergeScopeData, applyScopeDataToEvent } from './applyScopeDataToEvent.js';\n\n/**\n * This type makes sure that we get either a CaptureContext, OR an EventHint.\n * It does not allow mixing them, which could lead to unexpected outcomes, e.g. this is disallowed:\n * { user: { id: '123' }, mechanism: { handled: false } }\n */\n\n/**\n * Adds common information to events.\n *\n * The information includes release and environment from `options`,\n * breadcrumbs and context (extra, tags and user) from the scope.\n *\n * Information that is already present in the event is never overwritten. For\n * nested objects, such as the context, keys are merged.\n *\n * @param event The original event.\n * @param hint May contain additional information about the original exception.\n * @param scope A scope containing event metadata.\n * @returns A new event with more information.\n * @hidden\n */\nfunction prepareEvent(\n options,\n event,\n hint,\n scope,\n client,\n isolationScope,\n) {\n const { normalizeDepth = 3, normalizeMaxBreadth = 1000 } = options;\n const prepared = {\n ...event,\n event_id: event.event_id || hint.event_id || uuid4(),\n timestamp: event.timestamp || dateTimestampInSeconds(),\n };\n const integrations = hint.integrations || options.integrations.map(i => i.name);\n\n applyClientOptions(prepared, options);\n applyIntegrationsMetadata(prepared, integrations);\n\n if (client) {\n client.emit('applyFrameMetadata', event);\n }\n\n // Only put debug IDs onto frames for error events.\n if (event.type === undefined) {\n applyDebugIds(prepared, options.stackParser);\n }\n\n // If we have scope given to us, use it as the base for further modifications.\n // This allows us to prevent unnecessary copying of data if `captureContext` is not provided.\n const finalScope = getFinalScope(scope, hint.captureContext);\n\n if (hint.mechanism) {\n addExceptionMechanism(prepared, hint.mechanism);\n }\n\n const clientEventProcessors = client ? client.getEventProcessors() : [];\n\n // This should be the last thing called, since we want that\n // {@link Scope.addEventProcessor} gets the finished prepared event.\n // Merge scope data together\n const data = getGlobalScope().getScopeData();\n\n if (isolationScope) {\n const isolationData = isolationScope.getScopeData();\n mergeScopeData(data, isolationData);\n }\n\n if (finalScope) {\n const finalScopeData = finalScope.getScopeData();\n mergeScopeData(data, finalScopeData);\n }\n\n const attachments = [...(hint.attachments || []), ...data.attachments];\n if (attachments.length) {\n hint.attachments = attachments;\n }\n\n applyScopeDataToEvent(prepared, data);\n\n const eventProcessors = [\n ...clientEventProcessors,\n // Run scope event processors _after_ all other processors\n ...data.eventProcessors,\n ];\n\n const result = notifyEventProcessors(eventProcessors, prepared, hint);\n\n return result.then(evt => {\n if (evt) {\n // We apply the debug_meta field only after all event processors have ran, so that if any event processors modified\n // file names (e.g.the RewriteFrames integration) the filename -> debug ID relationship isn't destroyed.\n // This should not cause any PII issues, since we're only moving data that is already on the event and not adding\n // any new data\n applyDebugMeta(evt);\n }\n\n if (typeof normalizeDepth === 'number' && normalizeDepth > 0) {\n return normalizeEvent(evt, normalizeDepth, normalizeMaxBreadth);\n }\n return evt;\n });\n}\n\n/**\n * Enhances event using the client configuration.\n * It takes care of all \"static\" values like environment, release and `dist`,\n * as well as truncating overly long values.\n * @param event event instance to be enhanced\n */\nfunction applyClientOptions(event, options) {\n const { environment, release, dist, maxValueLength = 250 } = options;\n\n if (!('environment' in event)) {\n event.environment = 'environment' in options ? environment : DEFAULT_ENVIRONMENT;\n }\n\n if (event.release === undefined && release !== undefined) {\n event.release = release;\n }\n\n if (event.dist === undefined && dist !== undefined) {\n event.dist = dist;\n }\n\n if (event.message) {\n event.message = truncate(event.message, maxValueLength);\n }\n\n const exception = event.exception && event.exception.values && event.exception.values[0];\n if (exception && exception.value) {\n exception.value = truncate(exception.value, maxValueLength);\n }\n\n const request = event.request;\n if (request && request.url) {\n request.url = truncate(request.url, maxValueLength);\n }\n}\n\nconst debugIdStackParserCache = new WeakMap();\n\n/**\n * Puts debug IDs into the stack frames of an error event.\n */\nfunction applyDebugIds(event, stackParser) {\n const debugIdMap = GLOBAL_OBJ._sentryDebugIds;\n\n if (!debugIdMap) {\n return;\n }\n\n let debugIdStackFramesCache;\n const cachedDebugIdStackFrameCache = debugIdStackParserCache.get(stackParser);\n if (cachedDebugIdStackFrameCache) {\n debugIdStackFramesCache = cachedDebugIdStackFrameCache;\n } else {\n debugIdStackFramesCache = new Map();\n debugIdStackParserCache.set(stackParser, debugIdStackFramesCache);\n }\n\n // Build a map of filename -> debug_id\n const filenameDebugIdMap = Object.entries(debugIdMap).reduce(\n (acc, [debugIdStackTrace, debugIdValue]) => {\n let parsedStack;\n const cachedParsedStack = debugIdStackFramesCache.get(debugIdStackTrace);\n if (cachedParsedStack) {\n parsedStack = cachedParsedStack;\n } else {\n parsedStack = stackParser(debugIdStackTrace);\n debugIdStackFramesCache.set(debugIdStackTrace, parsedStack);\n }\n\n for (let i = parsedStack.length - 1; i >= 0; i--) {\n // eslint-disable-next-line @typescript-eslint/no-non-null-assertion\n const stackFrame = parsedStack[i];\n if (stackFrame.filename) {\n acc[stackFrame.filename] = debugIdValue;\n break;\n }\n }\n return acc;\n },\n {},\n );\n\n try {\n // eslint-disable-next-line @typescript-eslint/no-non-null-assertion\n event.exception.values.forEach(exception => {\n // eslint-disable-next-line @typescript-eslint/no-non-null-assertion\n exception.stacktrace.frames.forEach(frame => {\n if (frame.filename) {\n frame.debug_id = filenameDebugIdMap[frame.filename];\n }\n });\n });\n } catch (e) {\n // To save bundle size we're just try catching here instead of checking for the existence of all the different objects.\n }\n}\n\n/**\n * Moves debug IDs from the stack frames of an error event into the debug_meta field.\n */\nfunction applyDebugMeta(event) {\n // Extract debug IDs and filenames from the stack frames on the event.\n const filenameDebugIdMap = {};\n try {\n // eslint-disable-next-line @typescript-eslint/no-non-null-assertion\n event.exception.values.forEach(exception => {\n // eslint-disable-next-line @typescript-eslint/no-non-null-assertion\n exception.stacktrace.frames.forEach(frame => {\n if (frame.debug_id) {\n if (frame.abs_path) {\n filenameDebugIdMap[frame.abs_path] = frame.debug_id;\n } else if (frame.filename) {\n filenameDebugIdMap[frame.filename] = frame.debug_id;\n }\n delete frame.debug_id;\n }\n });\n });\n } catch (e) {\n // To save bundle size we're just try catching here instead of checking for the existence of all the different objects.\n }\n\n if (Object.keys(filenameDebugIdMap).length === 0) {\n return;\n }\n\n // Fill debug_meta information\n event.debug_meta = event.debug_meta || {};\n event.debug_meta.images = event.debug_meta.images || [];\n const images = event.debug_meta.images;\n Object.entries(filenameDebugIdMap).forEach(([filename, debug_id]) => {\n images.push({\n type: 'sourcemap',\n code_file: filename,\n debug_id,\n });\n });\n}\n\n/**\n * This function adds all used integrations to the SDK info in the event.\n * @param event The event that will be filled with all integrations.\n */\nfunction applyIntegrationsMetadata(event, integrationNames) {\n if (integrationNames.length > 0) {\n event.sdk = event.sdk || {};\n event.sdk.integrations = [...(event.sdk.integrations || []), ...integrationNames];\n }\n}\n\n/**\n * Applies `normalize` function on necessary `Event` attributes to make them safe for serialization.\n * Normalized keys:\n * - `breadcrumbs.data`\n * - `user`\n * - `contexts`\n * - `extra`\n * @param event Event\n * @returns Normalized event\n */\nfunction normalizeEvent(event, depth, maxBreadth) {\n if (!event) {\n return null;\n }\n\n const normalized = {\n ...event,\n ...(event.breadcrumbs && {\n breadcrumbs: event.breadcrumbs.map(b => ({\n ...b,\n ...(b.data && {\n data: normalize(b.data, depth, maxBreadth),\n }),\n })),\n }),\n ...(event.user && {\n user: normalize(event.user, depth, maxBreadth),\n }),\n ...(event.contexts && {\n contexts: normalize(event.contexts, depth, maxBreadth),\n }),\n ...(event.extra && {\n extra: normalize(event.extra, depth, maxBreadth),\n }),\n };\n\n // event.contexts.trace stores information about a Transaction. Similarly,\n // event.spans[] stores information about child Spans. Given that a\n // Transaction is conceptually a Span, normalization should apply to both\n // Transactions and Spans consistently.\n // For now the decision is to skip normalization of Transactions and Spans,\n // so this block overwrites the normalized event to add back the original\n // Transaction information prior to normalization.\n if (event.contexts && event.contexts.trace && normalized.contexts) {\n normalized.contexts.trace = event.contexts.trace;\n\n // event.contexts.trace.data may contain circular/dangerous data so we need to normalize it\n if (event.contexts.trace.data) {\n normalized.contexts.trace.data = normalize(event.contexts.trace.data, depth, maxBreadth);\n }\n }\n\n // event.spans[].data may contain circular/dangerous data so we need to normalize it\n if (event.spans) {\n normalized.spans = event.spans.map(span => {\n return {\n ...span,\n ...(span.data && {\n data: normalize(span.data, depth, maxBreadth),\n }),\n };\n });\n }\n\n return normalized;\n}\n\nfunction getFinalScope(\n scope,\n captureContext,\n) {\n if (!captureContext) {\n return scope;\n }\n\n const finalScope = scope ? scope.clone() : new Scope();\n finalScope.update(captureContext);\n return finalScope;\n}\n\n/**\n * Parse either an `EventHint` directly, or convert a `CaptureContext` to an `EventHint`.\n * This is used to allow to update method signatures that used to accept a `CaptureContext` but should now accept an `EventHint`.\n */\nfunction parseEventHintOrCaptureContext(\n hint,\n) {\n if (!hint) {\n return undefined;\n }\n\n // If you pass a Scope or `() => Scope` as CaptureContext, we just return this as captureContext\n if (hintIsScopeOrFunction(hint)) {\n return { captureContext: hint };\n }\n\n if (hintIsScopeContext(hint)) {\n return {\n captureContext: hint,\n };\n }\n\n return hint;\n}\n\nfunction hintIsScopeOrFunction(\n hint,\n) {\n return hint instanceof Scope || typeof hint === 'function';\n}\n\nconst captureContextKeys = [\n 'user',\n 'level',\n 'extra',\n 'contexts',\n 'tags',\n 'fingerprint',\n 'requestSession',\n 'propagationContext',\n] ;\n\nfunction hintIsScopeContext(hint) {\n return Object.keys(hint).some(key => captureContextKeys.includes(key ));\n}\n\nexport { applyDebugIds, applyDebugMeta, parseEventHintOrCaptureContext, prepareEvent };\n","import { logger, uuid4, timestampInSeconds, isThenable, GLOBAL_OBJ } from '@sentry/utils';\nimport { DEFAULT_ENVIRONMENT } from './constants.js';\nimport { getCurrentScope, getIsolationScope, getClient, withIsolationScope } from './currentScopes.js';\nimport { DEBUG_BUILD } from './debug-build.js';\nimport { makeSession, updateSession, closeSession } from './session.js';\nimport { parseEventHintOrCaptureContext } from './utils/prepareEvent.js';\n\n/**\n * Captures an exception event and sends it to Sentry.\n *\n * @param exception The exception to capture.\n * @param hint Optional additional data to attach to the Sentry event.\n * @returns the id of the captured Sentry event.\n */\nfunction captureException(\n // eslint-disable-next-line @typescript-eslint/no-explicit-any\n exception,\n hint,\n) {\n return getCurrentScope().captureException(exception, parseEventHintOrCaptureContext(hint));\n}\n\n/**\n * Captures a message event and sends it to Sentry.\n *\n * @param message The message to send to Sentry.\n * @param captureContext Define the level of the message or pass in additional data to attach to the message.\n * @returns the id of the captured message.\n */\nfunction captureMessage(message, captureContext) {\n // This is necessary to provide explicit scopes upgrade, without changing the original\n // arity of the `captureMessage(message, level)` method.\n const level = typeof captureContext === 'string' ? captureContext : undefined;\n const context = typeof captureContext !== 'string' ? { captureContext } : undefined;\n return getCurrentScope().captureMessage(message, level, context);\n}\n\n/**\n * Captures a manually created event and sends it to Sentry.\n *\n * @param event The event to send to Sentry.\n * @param hint Optional additional data to attach to the Sentry event.\n * @returns the id of the captured event.\n */\nfunction captureEvent(event, hint) {\n return getCurrentScope().captureEvent(event, hint);\n}\n\n/**\n * Sets context data with the given name.\n * @param name of the context\n * @param context Any kind of data. This data will be normalized.\n */\n// eslint-disable-next-line @typescript-eslint/no-explicit-any\nfunction setContext(name, context) {\n getIsolationScope().setContext(name, context);\n}\n\n/**\n * Set an object that will be merged sent as extra data with the event.\n * @param extras Extras object to merge into current context.\n */\nfunction setExtras(extras) {\n getIsolationScope().setExtras(extras);\n}\n\n/**\n * Set key:value that will be sent as extra data with the event.\n * @param key String of extra\n * @param extra Any kind of data. This data will be normalized.\n */\nfunction setExtra(key, extra) {\n getIsolationScope().setExtra(key, extra);\n}\n\n/**\n * Set an object that will be merged sent as tags data with the event.\n * @param tags Tags context object to merge into current context.\n */\nfunction setTags(tags) {\n getIsolationScope().setTags(tags);\n}\n\n/**\n * Set key:value that will be sent as tags data with the event.\n *\n * Can also be used to unset a tag, by passing `undefined`.\n *\n * @param key String key of tag\n * @param value Value of tag\n */\nfunction setTag(key, value) {\n getIsolationScope().setTag(key, value);\n}\n\n/**\n * Updates user context information for future events.\n *\n * @param user User context object to be set in the current context. Pass `null` to unset the user.\n */\nfunction setUser(user) {\n getIsolationScope().setUser(user);\n}\n\n/**\n * The last error event id of the isolation scope.\n *\n * Warning: This function really returns the last recorded error event id on the current\n * isolation scope. If you call this function after handling a certain error and another error\n * is captured in between, the last one is returned instead of the one you might expect.\n * Also, ids of events that were never sent to Sentry (for example because\n * they were dropped in `beforeSend`) could be returned.\n *\n * @returns The last event id of the isolation scope.\n */\nfunction lastEventId() {\n return getIsolationScope().lastEventId();\n}\n\n/**\n * Create a cron monitor check in and send it to Sentry.\n *\n * @param checkIn An object that describes a check in.\n * @param upsertMonitorConfig An optional object that describes a monitor config. Use this if you want\n * to create a monitor automatically when sending a check in.\n */\nfunction captureCheckIn(checkIn, upsertMonitorConfig) {\n const scope = getCurrentScope();\n const client = getClient();\n if (!client) {\n DEBUG_BUILD && logger.warn('Cannot capture check-in. No client defined.');\n } else if (!client.captureCheckIn) {\n DEBUG_BUILD && logger.warn('Cannot capture check-in. Client does not support sending check-ins.');\n } else {\n return client.captureCheckIn(checkIn, upsertMonitorConfig, scope);\n }\n\n return uuid4();\n}\n\n/**\n * Wraps a callback with a cron monitor check in. The check in will be sent to Sentry when the callback finishes.\n *\n * @param monitorSlug The distinct slug of the monitor.\n * @param upsertMonitorConfig An optional object that describes a monitor config. Use this if you want\n * to create a monitor automatically when sending a check in.\n */\nfunction withMonitor(\n monitorSlug,\n callback,\n upsertMonitorConfig,\n) {\n const checkInId = captureCheckIn({ monitorSlug, status: 'in_progress' }, upsertMonitorConfig);\n const now = timestampInSeconds();\n\n function finishCheckIn(status) {\n captureCheckIn({ monitorSlug, status, checkInId, duration: timestampInSeconds() - now });\n }\n\n return withIsolationScope(() => {\n let maybePromiseResult;\n try {\n maybePromiseResult = callback();\n } catch (e) {\n finishCheckIn('error');\n throw e;\n }\n\n if (isThenable(maybePromiseResult)) {\n Promise.resolve(maybePromiseResult).then(\n () => {\n finishCheckIn('ok');\n },\n () => {\n finishCheckIn('error');\n },\n );\n } else {\n finishCheckIn('ok');\n }\n\n return maybePromiseResult;\n });\n}\n\n/**\n * Call `flush()` on the current client, if there is one. See {@link Client.flush}.\n *\n * @param timeout Maximum time in ms the client should wait to flush its event queue. Omitting this parameter will cause\n * the client to wait until all events are sent before resolving the promise.\n * @returns A promise which resolves to `true` if the queue successfully drains before the timeout, or `false` if it\n * doesn't (or if there's no client defined).\n */\nasync function flush(timeout) {\n const client = getClient();\n if (client) {\n return client.flush(timeout);\n }\n DEBUG_BUILD && logger.warn('Cannot flush events. No client defined.');\n return Promise.resolve(false);\n}\n\n/**\n * Call `close()` on the current client, if there is one. See {@link Client.close}.\n *\n * @param timeout Maximum time in ms the client should wait to flush its event queue before shutting down. Omitting this\n * parameter will cause the client to wait until all events are sent before disabling itself.\n * @returns A promise which resolves to `true` if the queue successfully drains before the timeout, or `false` if it\n * doesn't (or if there's no client defined).\n */\nasync function close(timeout) {\n const client = getClient();\n if (client) {\n return client.close(timeout);\n }\n DEBUG_BUILD && logger.warn('Cannot flush events and disable SDK. No client defined.');\n return Promise.resolve(false);\n}\n\n/**\n * Returns true if Sentry has been properly initialized.\n */\nfunction isInitialized() {\n return !!getClient();\n}\n\n/** If the SDK is initialized & enabled. */\nfunction isEnabled() {\n const client = getClient();\n return !!client && client.getOptions().enabled !== false && !!client.getTransport();\n}\n\n/**\n * Add an event processor.\n * This will be added to the current isolation scope, ensuring any event that is processed in the current execution\n * context will have the processor applied.\n */\nfunction addEventProcessor(callback) {\n getIsolationScope().addEventProcessor(callback);\n}\n\n/**\n * Start a session on the current isolation scope.\n *\n * @param context (optional) additional properties to be applied to the returned session object\n *\n * @returns the new active session\n */\nfunction startSession(context) {\n const client = getClient();\n const isolationScope = getIsolationScope();\n const currentScope = getCurrentScope();\n\n const { release, environment = DEFAULT_ENVIRONMENT } = (client && client.getOptions()) || {};\n\n // Will fetch userAgent if called from browser sdk\n const { userAgent } = GLOBAL_OBJ.navigator || {};\n\n const session = makeSession({\n release,\n environment,\n user: currentScope.getUser() || isolationScope.getUser(),\n ...(userAgent && { userAgent }),\n ...context,\n });\n\n // End existing session if there's one\n const currentSession = isolationScope.getSession();\n if (currentSession && currentSession.status === 'ok') {\n updateSession(currentSession, { status: 'exited' });\n }\n\n endSession();\n\n // Afterwards we set the new session on the scope\n isolationScope.setSession(session);\n\n // TODO (v8): Remove this and only use the isolation scope(?).\n // For v7 though, we can't \"soft-break\" people using getCurrentHub().getScope().setSession()\n currentScope.setSession(session);\n\n return session;\n}\n\n/**\n * End the session on the current isolation scope.\n */\nfunction endSession() {\n const isolationScope = getIsolationScope();\n const currentScope = getCurrentScope();\n\n const session = currentScope.getSession() || isolationScope.getSession();\n if (session) {\n closeSession(session);\n }\n _sendSessionUpdate();\n\n // the session is over; take it off of the scope\n isolationScope.setSession();\n\n // TODO (v8): Remove this and only use the isolation scope(?).\n // For v7 though, we can't \"soft-break\" people using getCurrentHub().getScope().setSession()\n currentScope.setSession();\n}\n\n/**\n * Sends the current Session on the scope\n */\nfunction _sendSessionUpdate() {\n const isolationScope = getIsolationScope();\n const currentScope = getCurrentScope();\n const client = getClient();\n // TODO (v8): Remove currentScope and only use the isolation scope(?).\n // For v7 though, we can't \"soft-break\" people using getCurrentHub().getScope().setSession()\n const session = currentScope.getSession() || isolationScope.getSession();\n if (session && client) {\n client.captureSession(session);\n }\n}\n\n/**\n * Sends the current session on the scope to Sentry\n *\n * @param end If set the session will be marked as exited and removed from the scope.\n * Defaults to `false`.\n */\nfunction captureSession(end = false) {\n // both send the update and pull the session from the scope\n if (end) {\n endSession();\n return;\n }\n\n // only send the update\n _sendSessionUpdate();\n}\n\nexport { addEventProcessor, captureCheckIn, captureEvent, captureException, captureMessage, captureSession, close, endSession, flush, isEnabled, isInitialized, lastEventId, setContext, setExtra, setExtras, setTag, setTags, setUser, startSession, withMonitor };\n","import { arrayify, logger } from '@sentry/utils';\nimport { getClient } from './currentScopes.js';\nimport { DEBUG_BUILD } from './debug-build.js';\n\nconst installedIntegrations = [];\n\n/** Map of integrations assigned to a client */\n\n/**\n * Remove duplicates from the given array, preferring the last instance of any duplicate. Not guaranteed to\n * preserve the order of integrations in the array.\n *\n * @private\n */\nfunction filterDuplicates(integrations) {\n const integrationsByName = {};\n\n integrations.forEach(currentInstance => {\n const { name } = currentInstance;\n\n const existingInstance = integrationsByName[name];\n\n // We want integrations later in the array to overwrite earlier ones of the same type, except that we never want a\n // default instance to overwrite an existing user instance\n if (existingInstance && !existingInstance.isDefaultInstance && currentInstance.isDefaultInstance) {\n return;\n }\n\n integrationsByName[name] = currentInstance;\n });\n\n return Object.values(integrationsByName);\n}\n\n/** Gets integrations to install */\nfunction getIntegrationsToSetup(options) {\n const defaultIntegrations = options.defaultIntegrations || [];\n const userIntegrations = options.integrations;\n\n // We flag default instances, so that later we can tell them apart from any user-created instances of the same class\n defaultIntegrations.forEach(integration => {\n integration.isDefaultInstance = true;\n });\n\n let integrations;\n\n if (Array.isArray(userIntegrations)) {\n integrations = [...defaultIntegrations, ...userIntegrations];\n } else if (typeof userIntegrations === 'function') {\n integrations = arrayify(userIntegrations(defaultIntegrations));\n } else {\n integrations = defaultIntegrations;\n }\n\n const finalIntegrations = filterDuplicates(integrations);\n\n // The `Debug` integration prints copies of the `event` and `hint` which will be passed to `beforeSend` or\n // `beforeSendTransaction`. It therefore has to run after all other integrations, so that the changes of all event\n // processors will be reflected in the printed values. For lack of a more elegant way to guarantee that, we therefore\n // locate it and, assuming it exists, pop it out of its current spot and shove it onto the end of the array.\n const debugIndex = finalIntegrations.findIndex(integration => integration.name === 'Debug');\n if (debugIndex > -1) {\n const [debugInstance] = finalIntegrations.splice(debugIndex, 1) ;\n finalIntegrations.push(debugInstance);\n }\n\n return finalIntegrations;\n}\n\n/**\n * Given a list of integration instances this installs them all. When `withDefaults` is set to `true` then all default\n * integrations are added unless they were already provided before.\n * @param integrations array of integration instances\n * @param withDefault should enable default integrations\n */\nfunction setupIntegrations(client, integrations) {\n const integrationIndex = {};\n\n integrations.forEach(integration => {\n // guard against empty provided integrations\n if (integration) {\n setupIntegration(client, integration, integrationIndex);\n }\n });\n\n return integrationIndex;\n}\n\n/**\n * Execute the `afterAllSetup` hooks of the given integrations.\n */\nfunction afterSetupIntegrations(client, integrations) {\n for (const integration of integrations) {\n // guard against empty provided integrations\n if (integration && integration.afterAllSetup) {\n integration.afterAllSetup(client);\n }\n }\n}\n\n/** Setup a single integration. */\nfunction setupIntegration(client, integration, integrationIndex) {\n if (integrationIndex[integration.name]) {\n DEBUG_BUILD && logger.log(`Integration skipped because it was already installed: ${integration.name}`);\n return;\n }\n integrationIndex[integration.name] = integration;\n\n // `setupOnce` is only called the first time\n if (installedIntegrations.indexOf(integration.name) === -1 && typeof integration.setupOnce === 'function') {\n integration.setupOnce();\n installedIntegrations.push(integration.name);\n }\n\n // `setup` is run for each client\n if (integration.setup && typeof integration.setup === 'function') {\n integration.setup(client);\n }\n\n if (typeof integration.preprocessEvent === 'function') {\n const callback = integration.preprocessEvent.bind(integration) ;\n client.on('preprocessEvent', (event, hint) => callback(event, hint, client));\n }\n\n if (typeof integration.processEvent === 'function') {\n const callback = integration.processEvent.bind(integration) ;\n\n const processor = Object.assign((event, hint) => callback(event, hint, client), {\n id: integration.name,\n });\n\n client.addEventProcessor(processor);\n }\n\n DEBUG_BUILD && logger.log(`Integration installed: ${integration.name}`);\n}\n\n/** Add an integration to the current scope's client. */\nfunction addIntegration(integration) {\n const client = getClient();\n\n if (!client) {\n DEBUG_BUILD && logger.warn(`Cannot add integration \"${integration.name}\" because no SDK Client is available.`);\n return;\n }\n\n client.addIntegration(integration);\n}\n\n/**\n * Define an integration function that can be used to create an integration instance.\n * Note that this by design hides the implementation details of the integration, as they are considered internal.\n */\nfunction defineIntegration(fn) {\n return fn;\n}\n\nexport { addIntegration, afterSetupIntegrations, defineIntegration, getIntegrationsToSetup, installedIntegrations, setupIntegration, setupIntegrations };\n","import { logger, getEventDescription, stringMatchesSomePattern } from '@sentry/utils';\nimport { DEBUG_BUILD } from '../debug-build.js';\nimport { defineIntegration } from '../integration.js';\n\n// \"Script error.\" is hard coded into browsers for errors that it can't read.\n// this is the result of a script being pulled in from an external domain and CORS.\nconst DEFAULT_IGNORE_ERRORS = [\n /^Script error\\.?$/,\n /^Javascript error: Script error\\.? on line 0$/,\n /^ResizeObserver loop completed with undelivered notifications.$/, // The browser logs this when a ResizeObserver handler takes a bit longer. Usually this is not an actual issue though. It indicates slowness.\n /^Cannot redefine property: googletag$/, // This is thrown when google tag manager is used in combination with an ad blocker\n \"undefined is not an object (evaluating 'a.L')\", // Random error that happens but not actionable or noticeable to end-users.\n 'can\\'t redefine non-configurable property \"solana\"', // Probably a browser extension or custom browser (Brave) throwing this error\n \"vv().getRestrictions is not a function. (In 'vv().getRestrictions(1,a)', 'vv().getRestrictions' is undefined)\", // Error thrown by GTM, seemingly not affecting end-users\n \"Can't find variable: _AutofillCallbackHandler\", // Unactionable error in instagram webview https://developers.facebook.com/community/threads/320013549791141/\n];\n\n/** Options for the InboundFilters integration */\n\nconst INTEGRATION_NAME = 'InboundFilters';\nconst _inboundFiltersIntegration = ((options = {}) => {\n return {\n name: INTEGRATION_NAME,\n processEvent(event, _hint, client) {\n const clientOptions = client.getOptions();\n const mergedOptions = _mergeOptions(options, clientOptions);\n return _shouldDropEvent(event, mergedOptions) ? null : event;\n },\n };\n}) ;\n\nconst inboundFiltersIntegration = defineIntegration(_inboundFiltersIntegration);\n\nfunction _mergeOptions(\n internalOptions = {},\n clientOptions = {},\n) {\n return {\n allowUrls: [...(internalOptions.allowUrls || []), ...(clientOptions.allowUrls || [])],\n denyUrls: [...(internalOptions.denyUrls || []), ...(clientOptions.denyUrls || [])],\n ignoreErrors: [\n ...(internalOptions.ignoreErrors || []),\n ...(clientOptions.ignoreErrors || []),\n ...(internalOptions.disableErrorDefaults ? [] : DEFAULT_IGNORE_ERRORS),\n ],\n ignoreTransactions: [...(internalOptions.ignoreTransactions || []), ...(clientOptions.ignoreTransactions || [])],\n ignoreInternal: internalOptions.ignoreInternal !== undefined ? internalOptions.ignoreInternal : true,\n };\n}\n\nfunction _shouldDropEvent(event, options) {\n if (options.ignoreInternal && _isSentryError(event)) {\n DEBUG_BUILD &&\n logger.warn(`Event dropped due to being internal Sentry Error.\\nEvent: ${getEventDescription(event)}`);\n return true;\n }\n if (_isIgnoredError(event, options.ignoreErrors)) {\n DEBUG_BUILD &&\n logger.warn(\n `Event dropped due to being matched by \\`ignoreErrors\\` option.\\nEvent: ${getEventDescription(event)}`,\n );\n return true;\n }\n if (_isUselessError(event)) {\n DEBUG_BUILD &&\n logger.warn(\n `Event dropped due to not having an error message, error type or stacktrace.\\nEvent: ${getEventDescription(\n event,\n )}`,\n );\n return true;\n }\n if (_isIgnoredTransaction(event, options.ignoreTransactions)) {\n DEBUG_BUILD &&\n logger.warn(\n `Event dropped due to being matched by \\`ignoreTransactions\\` option.\\nEvent: ${getEventDescription(event)}`,\n );\n return true;\n }\n if (_isDeniedUrl(event, options.denyUrls)) {\n DEBUG_BUILD &&\n logger.warn(\n `Event dropped due to being matched by \\`denyUrls\\` option.\\nEvent: ${getEventDescription(\n event,\n )}.\\nUrl: ${_getEventFilterUrl(event)}`,\n );\n return true;\n }\n if (!_isAllowedUrl(event, options.allowUrls)) {\n DEBUG_BUILD &&\n logger.warn(\n `Event dropped due to not being matched by \\`allowUrls\\` option.\\nEvent: ${getEventDescription(\n event,\n )}.\\nUrl: ${_getEventFilterUrl(event)}`,\n );\n return true;\n }\n return false;\n}\n\nfunction _isIgnoredError(event, ignoreErrors) {\n // If event.type, this is not an error\n if (event.type || !ignoreErrors || !ignoreErrors.length) {\n return false;\n }\n\n return _getPossibleEventMessages(event).some(message => stringMatchesSomePattern(message, ignoreErrors));\n}\n\nfunction _isIgnoredTransaction(event, ignoreTransactions) {\n if (event.type !== 'transaction' || !ignoreTransactions || !ignoreTransactions.length) {\n return false;\n }\n\n const name = event.transaction;\n return name ? stringMatchesSomePattern(name, ignoreTransactions) : false;\n}\n\nfunction _isDeniedUrl(event, denyUrls) {\n // TODO: Use Glob instead?\n if (!denyUrls || !denyUrls.length) {\n return false;\n }\n const url = _getEventFilterUrl(event);\n return !url ? false : stringMatchesSomePattern(url, denyUrls);\n}\n\nfunction _isAllowedUrl(event, allowUrls) {\n // TODO: Use Glob instead?\n if (!allowUrls || !allowUrls.length) {\n return true;\n }\n const url = _getEventFilterUrl(event);\n return !url ? true : stringMatchesSomePattern(url, allowUrls);\n}\n\nfunction _getPossibleEventMessages(event) {\n const possibleMessages = [];\n\n if (event.message) {\n possibleMessages.push(event.message);\n }\n\n let lastException;\n try {\n // @ts-expect-error Try catching to save bundle size\n lastException = event.exception.values[event.exception.values.length - 1];\n } catch (e) {\n // try catching to save bundle size checking existence of variables\n }\n\n if (lastException) {\n if (lastException.value) {\n possibleMessages.push(lastException.value);\n if (lastException.type) {\n possibleMessages.push(`${lastException.type}: ${lastException.value}`);\n }\n }\n }\n\n return possibleMessages;\n}\n\nfunction _isSentryError(event) {\n try {\n // @ts-expect-error can't be a sentry error if undefined\n return event.exception.values[0].type === 'SentryError';\n } catch (e) {\n // ignore\n }\n return false;\n}\n\nfunction _getLastValidUrl(frames = []) {\n for (let i = frames.length - 1; i >= 0; i--) {\n const frame = frames[i];\n\n if (frame && frame.filename !== '' && frame.filename !== '[native code]') {\n return frame.filename || null;\n }\n }\n\n return null;\n}\n\nfunction _getEventFilterUrl(event) {\n try {\n let frames;\n try {\n // @ts-expect-error we only care about frames if the whole thing here is defined\n frames = event.exception.values[0].stacktrace.frames;\n } catch (e) {\n // ignore\n }\n return frames ? _getLastValidUrl(frames) : null;\n } catch (oO) {\n DEBUG_BUILD && logger.error(`Cannot extract url for event ${getEventDescription(event)}`);\n return null;\n }\n}\n\nfunction _isUselessError(event) {\n if (event.type) {\n // event is not an error\n return false;\n }\n\n // We only want to consider events for dropping that actually have recorded exception values.\n if (!event.exception || !event.exception.values || event.exception.values.length === 0) {\n return false;\n }\n\n return (\n // No top-level message\n !event.message &&\n // There are no exception values that have a stacktrace, a non-generic-Error type or value\n !event.exception.values.some(value => value.stacktrace || (value.type && value.type !== 'Error') || value.value)\n );\n}\n\nexport { inboundFiltersIntegration };\n","import { getOriginalFunction } from '@sentry/utils';\nimport { getClient } from '../currentScopes.js';\nimport { defineIntegration } from '../integration.js';\n\nlet originalFunctionToString;\n\nconst INTEGRATION_NAME = 'FunctionToString';\n\nconst SETUP_CLIENTS = new WeakMap();\n\nconst _functionToStringIntegration = (() => {\n return {\n name: INTEGRATION_NAME,\n setupOnce() {\n // eslint-disable-next-line @typescript-eslint/unbound-method\n originalFunctionToString = Function.prototype.toString;\n\n // intrinsics (like Function.prototype) might be immutable in some environments\n // e.g. Node with --frozen-intrinsics, XS (an embedded JavaScript engine) or SES (a JavaScript proposal)\n try {\n // eslint-disable-next-line @typescript-eslint/no-explicit-any\n Function.prototype.toString = function ( ...args) {\n const originalFunction = getOriginalFunction(this);\n const context =\n SETUP_CLIENTS.has(getClient() ) && originalFunction !== undefined ? originalFunction : this;\n return originalFunctionToString.apply(context, args);\n };\n } catch (e) {\n // ignore errors here, just don't patch this\n }\n },\n setup(client) {\n SETUP_CLIENTS.set(client, true);\n },\n };\n}) ;\n\n/**\n * Patch toString calls to return proper name for wrapped functions.\n *\n * ```js\n * Sentry.init({\n * integrations: [\n * functionToStringIntegration(),\n * ],\n * });\n * ```\n */\nconst functionToStringIntegration = defineIntegration(_functionToStringIntegration);\n\nexport { functionToStringIntegration };\n","import { logger, getFramesFromEvent } from '@sentry/utils';\nimport { defineIntegration } from '../integration.js';\nimport { DEBUG_BUILD } from '../debug-build.js';\n\nconst INTEGRATION_NAME = 'Dedupe';\n\nconst _dedupeIntegration = (() => {\n let previousEvent;\n\n return {\n name: INTEGRATION_NAME,\n processEvent(currentEvent) {\n // We want to ignore any non-error type events, e.g. transactions or replays\n // These should never be deduped, and also not be compared against as _previousEvent.\n if (currentEvent.type) {\n return currentEvent;\n }\n\n // Juuust in case something goes wrong\n try {\n if (_shouldDropEvent(currentEvent, previousEvent)) {\n DEBUG_BUILD && logger.warn('Event dropped due to being a duplicate of previously captured event.');\n return null;\n }\n } catch (_oO) {} // eslint-disable-line no-empty\n\n return (previousEvent = currentEvent);\n },\n };\n}) ;\n\n/**\n * Deduplication filter.\n */\nconst dedupeIntegration = defineIntegration(_dedupeIntegration);\n\n/** only exported for tests. */\nfunction _shouldDropEvent(currentEvent, previousEvent) {\n if (!previousEvent) {\n return false;\n }\n\n if (_isSameMessageEvent(currentEvent, previousEvent)) {\n return true;\n }\n\n if (_isSameExceptionEvent(currentEvent, previousEvent)) {\n return true;\n }\n\n return false;\n}\n\nfunction _isSameMessageEvent(currentEvent, previousEvent) {\n const currentMessage = currentEvent.message;\n const previousMessage = previousEvent.message;\n\n // If neither event has a message property, they were both exceptions, so bail out\n if (!currentMessage && !previousMessage) {\n return false;\n }\n\n // If only one event has a stacktrace, but not the other one, they are not the same\n if ((currentMessage && !previousMessage) || (!currentMessage && previousMessage)) {\n return false;\n }\n\n if (currentMessage !== previousMessage) {\n return false;\n }\n\n if (!_isSameFingerprint(currentEvent, previousEvent)) {\n return false;\n }\n\n if (!_isSameStacktrace(currentEvent, previousEvent)) {\n return false;\n }\n\n return true;\n}\n\nfunction _isSameExceptionEvent(currentEvent, previousEvent) {\n const previousException = _getExceptionFromEvent(previousEvent);\n const currentException = _getExceptionFromEvent(currentEvent);\n\n if (!previousException || !currentException) {\n return false;\n }\n\n if (previousException.type !== currentException.type || previousException.value !== currentException.value) {\n return false;\n }\n\n if (!_isSameFingerprint(currentEvent, previousEvent)) {\n return false;\n }\n\n if (!_isSameStacktrace(currentEvent, previousEvent)) {\n return false;\n }\n\n return true;\n}\n\nfunction _isSameStacktrace(currentEvent, previousEvent) {\n let currentFrames = getFramesFromEvent(currentEvent);\n let previousFrames = getFramesFromEvent(previousEvent);\n\n // If neither event has a stacktrace, they are assumed to be the same\n if (!currentFrames && !previousFrames) {\n return true;\n }\n\n // If only one event has a stacktrace, but not the other one, they are not the same\n if ((currentFrames && !previousFrames) || (!currentFrames && previousFrames)) {\n return false;\n }\n\n currentFrames = currentFrames ;\n previousFrames = previousFrames ;\n\n // If number of frames differ, they are not the same\n if (previousFrames.length !== currentFrames.length) {\n return false;\n }\n\n // Otherwise, compare the two\n for (let i = 0; i < previousFrames.length; i++) {\n // eslint-disable-next-line @typescript-eslint/no-non-null-assertion\n const frameA = previousFrames[i];\n // eslint-disable-next-line @typescript-eslint/no-non-null-assertion\n const frameB = currentFrames[i];\n\n if (\n frameA.filename !== frameB.filename ||\n frameA.lineno !== frameB.lineno ||\n frameA.colno !== frameB.colno ||\n frameA.function !== frameB.function\n ) {\n return false;\n }\n }\n\n return true;\n}\n\nfunction _isSameFingerprint(currentEvent, previousEvent) {\n let currentFingerprint = currentEvent.fingerprint;\n let previousFingerprint = previousEvent.fingerprint;\n\n // If neither event has a fingerprint, they are assumed to be the same\n if (!currentFingerprint && !previousFingerprint) {\n return true;\n }\n\n // If only one event has a fingerprint, but not the other one, they are not the same\n if ((currentFingerprint && !previousFingerprint) || (!currentFingerprint && previousFingerprint)) {\n return false;\n }\n\n currentFingerprint = currentFingerprint ;\n previousFingerprint = previousFingerprint ;\n\n // Otherwise, compare the two\n try {\n return !!(currentFingerprint.join('') === previousFingerprint.join(''));\n } catch (_oO) {\n return false;\n }\n}\n\nfunction _getExceptionFromEvent(event) {\n return event.exception && event.exception.values && event.exception.values[0];\n}\n\nexport { _shouldDropEvent, dedupeIntegration };\n","import { DEBUG_BUILD } from './debug-build.js';\nimport { consoleSandbox, logger } from './logger.js';\n\n/** Regular expression used to parse a Dsn. */\nconst DSN_REGEX = /^(?:(\\w+):)\\/\\/(?:(\\w+)(?::(\\w+)?)?@)([\\w.-]+)(?::(\\d+))?\\/(.+)/;\n\nfunction isValidProtocol(protocol) {\n return protocol === 'http' || protocol === 'https';\n}\n\n/**\n * Renders the string representation of this Dsn.\n *\n * By default, this will render the public representation without the password\n * component. To get the deprecated private representation, set `withPassword`\n * to true.\n *\n * @param withPassword When set to true, the password will be included.\n */\nfunction dsnToString(dsn, withPassword = false) {\n const { host, path, pass, port, projectId, protocol, publicKey } = dsn;\n return (\n `${protocol}://${publicKey}${withPassword && pass ? `:${pass}` : ''}` +\n `@${host}${port ? `:${port}` : ''}/${path ? `${path}/` : path}${projectId}`\n );\n}\n\n/**\n * Parses a Dsn from a given string.\n *\n * @param str A Dsn as string\n * @returns Dsn as DsnComponents or undefined if @param str is not a valid DSN string\n */\nfunction dsnFromString(str) {\n const match = DSN_REGEX.exec(str);\n\n if (!match) {\n // This should be logged to the console\n consoleSandbox(() => {\n // eslint-disable-next-line no-console\n console.error(`Invalid Sentry Dsn: ${str}`);\n });\n return undefined;\n }\n\n const [protocol, publicKey, pass = '', host = '', port = '', lastPath = ''] = match.slice(1);\n let path = '';\n let projectId = lastPath;\n\n const split = projectId.split('/');\n if (split.length > 1) {\n path = split.slice(0, -1).join('/');\n projectId = split.pop() ;\n }\n\n if (projectId) {\n const projectMatch = projectId.match(/^\\d+/);\n if (projectMatch) {\n projectId = projectMatch[0];\n }\n }\n\n return dsnFromComponents({ host, pass, path, projectId, port, protocol: protocol , publicKey });\n}\n\nfunction dsnFromComponents(components) {\n return {\n protocol: components.protocol,\n publicKey: components.publicKey || '',\n pass: components.pass || '',\n host: components.host,\n port: components.port || '',\n path: components.path || '',\n projectId: components.projectId,\n };\n}\n\nfunction validateDsn(dsn) {\n if (!DEBUG_BUILD) {\n return true;\n }\n\n const { port, projectId, protocol } = dsn;\n\n const requiredComponents = ['protocol', 'publicKey', 'host', 'projectId'];\n const hasMissingRequiredComponent = requiredComponents.find(component => {\n if (!dsn[component]) {\n logger.error(`Invalid Sentry Dsn: ${component} missing`);\n return true;\n }\n return false;\n });\n\n if (hasMissingRequiredComponent) {\n return false;\n }\n\n if (!projectId.match(/^\\d+$/)) {\n logger.error(`Invalid Sentry Dsn: Invalid projectId ${projectId}`);\n return false;\n }\n\n if (!isValidProtocol(protocol)) {\n logger.error(`Invalid Sentry Dsn: Invalid protocol ${protocol}`);\n return false;\n }\n\n if (port && isNaN(parseInt(port, 10))) {\n logger.error(`Invalid Sentry Dsn: Invalid port ${port}`);\n return false;\n }\n\n return true;\n}\n\n/**\n * Creates a valid Sentry Dsn object, identifying a Sentry instance and project.\n * @returns a valid DsnComponents object or `undefined` if @param from is an invalid DSN source\n */\nfunction makeDsn(from) {\n const components = typeof from === 'string' ? dsnFromString(from) : dsnFromComponents(from);\n if (!components || !validateDsn(components)) {\n return undefined;\n }\n return components;\n}\n\nexport { dsnFromString, dsnToString, makeDsn };\n","import { makeDsn, dsnToString, urlEncode } from '@sentry/utils';\n\nconst SENTRY_API_VERSION = '7';\n\n/** Returns the prefix to construct Sentry ingestion API endpoints. */\nfunction getBaseApiEndpoint(dsn) {\n const protocol = dsn.protocol ? `${dsn.protocol}:` : '';\n const port = dsn.port ? `:${dsn.port}` : '';\n return `${protocol}//${dsn.host}${port}${dsn.path ? `/${dsn.path}` : ''}/api/`;\n}\n\n/** Returns the ingest API endpoint for target. */\nfunction _getIngestEndpoint(dsn) {\n return `${getBaseApiEndpoint(dsn)}${dsn.projectId}/envelope/`;\n}\n\n/** Returns a URL-encoded string with auth config suitable for a query string. */\nfunction _encodedAuth(dsn, sdkInfo) {\n return urlEncode({\n // We send only the minimum set of required information. See\n // https://github.com/getsentry/sentry-javascript/issues/2572.\n sentry_key: dsn.publicKey,\n sentry_version: SENTRY_API_VERSION,\n ...(sdkInfo && { sentry_client: `${sdkInfo.name}/${sdkInfo.version}` }),\n });\n}\n\n/**\n * Returns the envelope endpoint URL with auth in the query string.\n *\n * Sending auth as part of the query string and not as custom HTTP headers avoids CORS preflight requests.\n */\nfunction getEnvelopeEndpointWithUrlEncodedAuth(dsn, tunnel, sdkInfo) {\n return tunnel ? tunnel : `${_getIngestEndpoint(dsn)}?${_encodedAuth(dsn, sdkInfo)}`;\n}\n\n/** Returns the url to the report dialog endpoint. */\nfunction getReportDialogEndpoint(\n dsnLike,\n dialogOptions\n\n,\n) {\n const dsn = makeDsn(dsnLike);\n if (!dsn) {\n return '';\n }\n\n const endpoint = `${getBaseApiEndpoint(dsn)}embed/error-page/`;\n\n let encodedOptions = `dsn=${dsnToString(dsn)}`;\n for (const key in dialogOptions) {\n if (key === 'dsn') {\n continue;\n }\n\n if (key === 'onClose') {\n continue;\n }\n\n if (key === 'user') {\n const user = dialogOptions.user;\n if (!user) {\n continue;\n }\n if (user.name) {\n encodedOptions += `&name=${encodeURIComponent(user.name)}`;\n }\n if (user.email) {\n encodedOptions += `&email=${encodeURIComponent(user.email)}`;\n }\n } else {\n encodedOptions += `&${encodeURIComponent(key)}=${encodeURIComponent(dialogOptions[key] )}`;\n }\n }\n\n return `${endpoint}?${encodedOptions}`;\n}\n\nexport { getEnvelopeEndpointWithUrlEncodedAuth, getReportDialogEndpoint };\n","import { DEBUG_BUILD } from './debug-build.js';\nimport { logger } from './logger.js';\nimport { GLOBAL_OBJ } from './worldwide.js';\n\nconst WINDOW = GLOBAL_OBJ ;\n\n/**\n * Tells whether current environment supports ErrorEvent objects\n * {@link supportsErrorEvent}.\n *\n * @returns Answer to the given question.\n */\nfunction supportsErrorEvent() {\n try {\n new ErrorEvent('');\n return true;\n } catch (e) {\n return false;\n }\n}\n\n/**\n * Tells whether current environment supports DOMError objects\n * {@link supportsDOMError}.\n *\n * @returns Answer to the given question.\n */\nfunction supportsDOMError() {\n try {\n // Chrome: VM89:1 Uncaught TypeError: Failed to construct 'DOMError':\n // 1 argument required, but only 0 present.\n // @ts-expect-error It really needs 1 argument, not 0.\n new DOMError('');\n return true;\n } catch (e) {\n return false;\n }\n}\n\n/**\n * Tells whether current environment supports DOMException objects\n * {@link supportsDOMException}.\n *\n * @returns Answer to the given question.\n */\nfunction supportsDOMException() {\n try {\n new DOMException('');\n return true;\n } catch (e) {\n return false;\n }\n}\n\n/**\n * Tells whether current environment supports Fetch API\n * {@link supportsFetch}.\n *\n * @returns Answer to the given question.\n */\nfunction supportsFetch() {\n if (!('fetch' in WINDOW)) {\n return false;\n }\n\n try {\n new Headers();\n new Request('http://www.example.com');\n new Response();\n return true;\n } catch (e) {\n return false;\n }\n}\n\n/**\n * isNative checks if the given function is a native implementation\n */\n// eslint-disable-next-line @typescript-eslint/ban-types\nfunction isNativeFunction(func) {\n return func && /^function\\s+\\w+\\(\\)\\s+\\{\\s+\\[native code\\]\\s+\\}$/.test(func.toString());\n}\n\n/**\n * Tells whether current environment supports Fetch API natively\n * {@link supportsNativeFetch}.\n *\n * @returns true if `window.fetch` is natively implemented, false otherwise\n */\nfunction supportsNativeFetch() {\n if (typeof EdgeRuntime === 'string') {\n return true;\n }\n\n if (!supportsFetch()) {\n return false;\n }\n\n // Fast path to avoid DOM I/O\n // eslint-disable-next-line @typescript-eslint/unbound-method\n if (isNativeFunction(WINDOW.fetch)) {\n return true;\n }\n\n // window.fetch is implemented, but is polyfilled or already wrapped (e.g: by a chrome extension)\n // so create a \"pure\" iframe to see if that has native fetch\n let result = false;\n const doc = WINDOW.document;\n // eslint-disable-next-line deprecation/deprecation\n if (doc && typeof (doc.createElement ) === 'function') {\n try {\n const sandbox = doc.createElement('iframe');\n sandbox.hidden = true;\n doc.head.appendChild(sandbox);\n if (sandbox.contentWindow && sandbox.contentWindow.fetch) {\n // eslint-disable-next-line @typescript-eslint/unbound-method\n result = isNativeFunction(sandbox.contentWindow.fetch);\n }\n doc.head.removeChild(sandbox);\n } catch (err) {\n DEBUG_BUILD &&\n logger.warn('Could not create sandbox iframe for pure fetch check, bailing to window.fetch: ', err);\n }\n }\n\n return result;\n}\n\n/**\n * Tells whether current environment supports ReportingObserver API\n * {@link supportsReportingObserver}.\n *\n * @returns Answer to the given question.\n */\nfunction supportsReportingObserver() {\n return 'ReportingObserver' in WINDOW;\n}\n\n/**\n * Tells whether current environment supports Referrer Policy API\n * {@link supportsReferrerPolicy}.\n *\n * @returns Answer to the given question.\n */\nfunction supportsReferrerPolicy() {\n // Despite all stars in the sky saying that Edge supports old draft syntax, aka 'never', 'always', 'origin' and 'default'\n // (see https://caniuse.com/#feat=referrer-policy),\n // it doesn't. And it throws an exception instead of ignoring this parameter...\n // REF: https://github.com/getsentry/raven-js/issues/1233\n\n if (!supportsFetch()) {\n return false;\n }\n\n try {\n new Request('_', {\n referrerPolicy: 'origin' ,\n });\n return true;\n } catch (e) {\n return false;\n }\n}\n\nexport { isNativeFunction, supportsDOMError, supportsDOMException, supportsErrorEvent, supportsFetch, supportsNativeFetch, supportsReferrerPolicy, supportsReportingObserver };\n","import { DEBUG_BUILD } from '../debug-build.js';\nimport { logger } from '../logger.js';\nimport { getFunctionName } from '../stacktrace.js';\n\n// We keep the handlers globally\nconst handlers = {};\nconst instrumented = {};\n\n/** Add a handler function. */\nfunction addHandler(type, handler) {\n handlers[type] = handlers[type] || [];\n (handlers[type] ).push(handler);\n}\n\n/**\n * Reset all instrumentation handlers.\n * This can be used by tests to ensure we have a clean slate of instrumentation handlers.\n */\nfunction resetInstrumentationHandlers() {\n Object.keys(handlers).forEach(key => {\n handlers[key ] = undefined;\n });\n}\n\n/** Maybe run an instrumentation function, unless it was already called. */\nfunction maybeInstrument(type, instrumentFn) {\n if (!instrumented[type]) {\n instrumentFn();\n instrumented[type] = true;\n }\n}\n\n/** Trigger handlers for a given instrumentation type. */\nfunction triggerHandlers(type, data) {\n const typeHandlers = type && handlers[type];\n if (!typeHandlers) {\n return;\n }\n\n for (const handler of typeHandlers) {\n try {\n handler(data);\n } catch (e) {\n DEBUG_BUILD &&\n logger.error(\n `Error while triggering instrumentation handler.\\nType: ${type}\\nName: ${getFunctionName(handler)}\\nError:`,\n e,\n );\n }\n }\n}\n\nexport { addHandler, maybeInstrument, resetInstrumentationHandlers, triggerHandlers };\n","import { GLOBAL_OBJ } from '../worldwide.js';\n\n// Based on https://github.com/angular/angular.js/pull/13945/files\n// The MIT License\n\n\nconst WINDOW = GLOBAL_OBJ ;\n\n/**\n * Tells whether current environment supports History API\n * {@link supportsHistory}.\n *\n * @returns Answer to the given question.\n */\nfunction supportsHistory() {\n // NOTE: in Chrome App environment, touching history.pushState, *even inside\n // a try/catch block*, will cause Chrome to output an error to console.error\n // borrowed from: https://github.com/angular/angular.js/pull/13945/files\n /* eslint-disable @typescript-eslint/no-unsafe-member-access */\n // eslint-disable-next-line @typescript-eslint/no-explicit-any\n const chromeVar = (WINDOW ).chrome;\n const isChromePackagedApp = chromeVar && chromeVar.app && chromeVar.app.runtime;\n /* eslint-enable @typescript-eslint/no-unsafe-member-access */\n const hasHistoryApi = 'history' in WINDOW && !!WINDOW.history.pushState && !!WINDOW.history.replaceState;\n\n return !isChromePackagedApp && hasHistoryApi;\n}\n\nexport { supportsHistory };\n","import { GLOBAL_OBJ } from '@sentry/utils';\n\nconst WINDOW = GLOBAL_OBJ\n\n;\n\nexport { WINDOW };\n","import { addHandler, maybeInstrument, supportsHistory, triggerHandlers, fill } from '@sentry/utils';\nimport { WINDOW } from '../types.js';\n\nlet lastHref;\n\n/**\n * Add an instrumentation handler for when a fetch request happens.\n * The handler function is called once when the request starts and once when it ends,\n * which can be identified by checking if it has an `endTimestamp`.\n *\n * Use at your own risk, this might break without changelog notice, only used internally.\n * @hidden\n */\nfunction addHistoryInstrumentationHandler(handler) {\n const type = 'history';\n addHandler(type, handler);\n maybeInstrument(type, instrumentHistory);\n}\n\nfunction instrumentHistory() {\n if (!supportsHistory()) {\n return;\n }\n\n const oldOnPopState = WINDOW.onpopstate;\n WINDOW.onpopstate = function ( ...args) {\n const to = WINDOW.location.href;\n // keep track of the current URL state, as we always receive only the updated state\n const from = lastHref;\n lastHref = to;\n const handlerData = { from, to };\n triggerHandlers('history', handlerData);\n if (oldOnPopState) {\n // Apparently this can throw in Firefox when incorrectly implemented plugin is installed.\n // https://github.com/getsentry/sentry-javascript/issues/3344\n // https://github.com/bugsnag/bugsnag-js/issues/469\n try {\n return oldOnPopState.apply(this, args);\n } catch (_oO) {\n // no-empty\n }\n }\n };\n\n function historyReplacementFunction(originalHistoryFunction) {\n return function ( ...args) {\n const url = args.length > 2 ? args[2] : undefined;\n if (url) {\n // coerce to string (this is what pushState does)\n const from = lastHref;\n const to = String(url);\n // keep track of the current URL state, as we always receive only the updated state\n lastHref = to;\n const handlerData = { from, to };\n triggerHandlers('history', handlerData);\n }\n return originalHistoryFunction.apply(this, args);\n };\n }\n\n fill(WINDOW.history, 'pushState', historyReplacementFunction);\n fill(WINDOW.history, 'replaceState', historyReplacementFunction);\n}\n\nexport { addHistoryInstrumentationHandler };\n","import { dsnToString } from './dsn.js';\nimport { normalize } from './normalize.js';\nimport { dropUndefinedKeys } from './object.js';\nimport { GLOBAL_OBJ } from './worldwide.js';\n\n/**\n * Creates an envelope.\n * Make sure to always explicitly provide the generic to this function\n * so that the envelope types resolve correctly.\n */\nfunction createEnvelope(headers, items = []) {\n return [headers, items] ;\n}\n\n/**\n * Add an item to an envelope.\n * Make sure to always explicitly provide the generic to this function\n * so that the envelope types resolve correctly.\n */\nfunction addItemToEnvelope(envelope, newItem) {\n const [headers, items] = envelope;\n return [headers, [...items, newItem]] ;\n}\n\n/**\n * Convenience function to loop through the items and item types of an envelope.\n * (This function was mostly created because working with envelope types is painful at the moment)\n *\n * If the callback returns true, the rest of the items will be skipped.\n */\nfunction forEachEnvelopeItem(\n envelope,\n callback,\n) {\n const envelopeItems = envelope[1];\n\n for (const envelopeItem of envelopeItems) {\n const envelopeItemType = envelopeItem[0].type;\n const result = callback(envelopeItem, envelopeItemType);\n\n if (result) {\n return true;\n }\n }\n\n return false;\n}\n\n/**\n * Returns true if the envelope contains any of the given envelope item types\n */\nfunction envelopeContainsItemType(envelope, types) {\n return forEachEnvelopeItem(envelope, (_, type) => types.includes(type));\n}\n\n/**\n * Encode a string to UTF8 array.\n */\nfunction encodeUTF8(input) {\n return GLOBAL_OBJ.__SENTRY__ && GLOBAL_OBJ.__SENTRY__.encodePolyfill\n ? GLOBAL_OBJ.__SENTRY__.encodePolyfill(input)\n : new TextEncoder().encode(input);\n}\n\n/**\n * Decode a UTF8 array to string.\n */\nfunction decodeUTF8(input) {\n return GLOBAL_OBJ.__SENTRY__ && GLOBAL_OBJ.__SENTRY__.decodePolyfill\n ? GLOBAL_OBJ.__SENTRY__.decodePolyfill(input)\n : new TextDecoder().decode(input);\n}\n\n/**\n * Serializes an envelope.\n */\nfunction serializeEnvelope(envelope) {\n const [envHeaders, items] = envelope;\n\n // Initially we construct our envelope as a string and only convert to binary chunks if we encounter binary data\n let parts = JSON.stringify(envHeaders);\n\n function append(next) {\n if (typeof parts === 'string') {\n parts = typeof next === 'string' ? parts + next : [encodeUTF8(parts), next];\n } else {\n parts.push(typeof next === 'string' ? encodeUTF8(next) : next);\n }\n }\n\n for (const item of items) {\n const [itemHeaders, payload] = item;\n\n append(`\\n${JSON.stringify(itemHeaders)}\\n`);\n\n if (typeof payload === 'string' || payload instanceof Uint8Array) {\n append(payload);\n } else {\n let stringifiedPayload;\n try {\n stringifiedPayload = JSON.stringify(payload);\n } catch (e) {\n // In case, despite all our efforts to keep `payload` circular-dependency-free, `JSON.strinify()` still\n // fails, we try again after normalizing it again with infinite normalization depth. This of course has a\n // performance impact but in this case a performance hit is better than throwing.\n stringifiedPayload = JSON.stringify(normalize(payload));\n }\n append(stringifiedPayload);\n }\n }\n\n return typeof parts === 'string' ? parts : concatBuffers(parts);\n}\n\nfunction concatBuffers(buffers) {\n const totalLength = buffers.reduce((acc, buf) => acc + buf.length, 0);\n\n const merged = new Uint8Array(totalLength);\n let offset = 0;\n for (const buffer of buffers) {\n merged.set(buffer, offset);\n offset += buffer.length;\n }\n\n return merged;\n}\n\n/**\n * Parses an envelope\n */\nfunction parseEnvelope(env) {\n let buffer = typeof env === 'string' ? encodeUTF8(env) : env;\n\n function readBinary(length) {\n const bin = buffer.subarray(0, length);\n // Replace the buffer with the remaining data excluding trailing newline\n buffer = buffer.subarray(length + 1);\n return bin;\n }\n\n function readJson() {\n let i = buffer.indexOf(0xa);\n // If we couldn't find a newline, we must have found the end of the buffer\n if (i < 0) {\n i = buffer.length;\n }\n\n return JSON.parse(decodeUTF8(readBinary(i))) ;\n }\n\n const envelopeHeader = readJson();\n // eslint-disable-next-line @typescript-eslint/no-explicit-any\n const items = [];\n\n while (buffer.length) {\n const itemHeader = readJson();\n const binaryLength = typeof itemHeader.length === 'number' ? itemHeader.length : undefined;\n\n items.push([itemHeader, binaryLength ? readBinary(binaryLength) : readJson()]);\n }\n\n return [envelopeHeader, items];\n}\n\n/**\n * Creates envelope item for a single span\n */\nfunction createSpanEnvelopeItem(spanJson) {\n const spanHeaders = {\n type: 'span',\n };\n\n return [spanHeaders, spanJson];\n}\n\n/**\n * Creates attachment envelope items\n */\nfunction createAttachmentEnvelopeItem(attachment) {\n const buffer = typeof attachment.data === 'string' ? encodeUTF8(attachment.data) : attachment.data;\n\n return [\n dropUndefinedKeys({\n type: 'attachment',\n length: buffer.length,\n filename: attachment.filename,\n content_type: attachment.contentType,\n attachment_type: attachment.attachmentType,\n }),\n buffer,\n ];\n}\n\nconst ITEM_TYPE_TO_DATA_CATEGORY_MAP = {\n session: 'session',\n sessions: 'session',\n attachment: 'attachment',\n transaction: 'transaction',\n event: 'error',\n client_report: 'internal',\n user_report: 'default',\n profile: 'profile',\n profile_chunk: 'profile',\n replay_event: 'replay',\n replay_recording: 'replay',\n check_in: 'monitor',\n feedback: 'feedback',\n span: 'span',\n statsd: 'metric_bucket',\n};\n\n/**\n * Maps the type of an envelope item to a data category.\n */\nfunction envelopeItemTypeToDataCategory(type) {\n return ITEM_TYPE_TO_DATA_CATEGORY_MAP[type];\n}\n\n/** Extracts the minimal SDK info from the metadata or an events */\nfunction getSdkMetadataForEnvelopeHeader(metadataOrEvent) {\n if (!metadataOrEvent || !metadataOrEvent.sdk) {\n return;\n }\n const { name, version } = metadataOrEvent.sdk;\n return { name, version };\n}\n\n/**\n * Creates event envelope headers, based on event, sdk info and tunnel\n * Note: This function was extracted from the core package to make it available in Replay\n */\nfunction createEventEnvelopeHeaders(\n event,\n sdkInfo,\n tunnel,\n dsn,\n) {\n const dynamicSamplingContext = event.sdkProcessingMetadata && event.sdkProcessingMetadata.dynamicSamplingContext;\n return {\n event_id: event.event_id ,\n sent_at: new Date().toISOString(),\n ...(sdkInfo && { sdk: sdkInfo }),\n ...(!!tunnel && dsn && { dsn: dsnToString(dsn) }),\n ...(dynamicSamplingContext && {\n trace: dropUndefinedKeys({ ...dynamicSamplingContext }),\n }),\n };\n}\n\nexport { addItemToEnvelope, createAttachmentEnvelopeItem, createEnvelope, createEventEnvelopeHeaders, createSpanEnvelopeItem, envelopeContainsItemType, envelopeItemTypeToDataCategory, forEachEnvelopeItem, getSdkMetadataForEnvelopeHeader, parseEnvelope, serializeEnvelope };\n","/** An error emitted by Sentry SDKs and related utilities. */\nclass SentryError extends Error {\n /** Display name of this error instance. */\n\n constructor( message, logLevel = 'warn') {\n super(message);this.message = message;\n this.name = new.target.prototype.constructor.name;\n // This sets the prototype to be `Error`, not `SentryError`. It's unclear why we do this, but commenting this line\n // out causes various (seemingly totally unrelated) playwright tests consistently time out. FYI, this makes\n // instances of `SentryError` fail `obj instanceof SentryError` checks.\n Object.setPrototypeOf(this, new.target.prototype);\n this.logLevel = logLevel;\n }\n}\n\nexport { SentryError };\n","import { logger } from '@sentry/utils';\nimport { DEBUG_BUILD } from '../debug-build.js';\n\n/**\n * Parse a sample rate from a given value.\n * This will either return a boolean or number sample rate, if the sample rate is valid (between 0 and 1).\n * If a string is passed, we try to convert it to a number.\n *\n * Any invalid sample rate will return `undefined`.\n */\nfunction parseSampleRate(sampleRate) {\n if (typeof sampleRate === 'boolean') {\n return Number(sampleRate);\n }\n\n const rate = typeof sampleRate === 'string' ? parseFloat(sampleRate) : sampleRate;\n if (typeof rate !== 'number' || isNaN(rate) || rate < 0 || rate > 1) {\n DEBUG_BUILD &&\n logger.warn(\n `[Tracing] Given sample rate is invalid. Sample rate must be a boolean or a number between 0 and 1. Got ${JSON.stringify(\n sampleRate,\n )} of type ${JSON.stringify(typeof sampleRate)}.`,\n );\n return undefined;\n }\n\n return rate;\n}\n\nexport { parseSampleRate };\n","import { makeDsn, logger, uuid4, checkOrSetAlreadyCaught, isParameterizedString, isPrimitive, resolvedSyncPromise, addItemToEnvelope, createAttachmentEnvelopeItem, SyncPromise, dropUndefinedKeys, rejectedSyncPromise, SentryError, createClientReportEnvelope, dsnToString, isThenable, isPlainObject } from '@sentry/utils';\nimport { getEnvelopeEndpointWithUrlEncodedAuth } from './api.js';\nimport { getIsolationScope } from './currentScopes.js';\nimport { DEBUG_BUILD } from './debug-build.js';\nimport { createEventEnvelope, createSessionEnvelope } from './envelope.js';\nimport { setupIntegration, afterSetupIntegrations, setupIntegrations } from './integration.js';\nimport { updateSession } from './session.js';\nimport { getDynamicSamplingContextFromClient } from './tracing/dynamicSamplingContext.js';\nimport { parseSampleRate } from './utils/parseSampleRate.js';\nimport { prepareEvent } from './utils/prepareEvent.js';\n\nconst ALREADY_SEEN_ERROR = \"Not capturing exception because it's already been captured.\";\n\n/**\n * Base implementation for all JavaScript SDK clients.\n *\n * Call the constructor with the corresponding options\n * specific to the client subclass. To access these options later, use\n * {@link Client.getOptions}.\n *\n * If a Dsn is specified in the options, it will be parsed and stored. Use\n * {@link Client.getDsn} to retrieve the Dsn at any moment. In case the Dsn is\n * invalid, the constructor will throw a {@link SentryException}. Note that\n * without a valid Dsn, the SDK will not send any events to Sentry.\n *\n * Before sending an event, it is passed through\n * {@link BaseClient._prepareEvent} to add SDK information and scope data\n * (breadcrumbs and context). To add more custom information, override this\n * method and extend the resulting prepared event.\n *\n * To issue automatically created events (e.g. via instrumentation), use\n * {@link Client.captureEvent}. It will prepare the event and pass it through\n * the callback lifecycle. To issue auto-breadcrumbs, use\n * {@link Client.addBreadcrumb}.\n *\n * @example\n * class NodeClient extends BaseClient {\n * public constructor(options: NodeOptions) {\n * super(options);\n * }\n *\n * // ...\n * }\n */\nclass BaseClient {\n /** Options passed to the SDK. */\n\n /** The client Dsn, if specified in options. Without this Dsn, the SDK will be disabled. */\n\n /** Array of set up integrations. */\n\n /** Number of calls being processed */\n\n /** Holds flushable */\n\n // eslint-disable-next-line @typescript-eslint/ban-types\n\n /**\n * Initializes this client instance.\n *\n * @param options Options for the client.\n */\n constructor(options) {\n this._options = options;\n this._integrations = {};\n this._numProcessing = 0;\n this._outcomes = {};\n this._hooks = {};\n this._eventProcessors = [];\n\n if (options.dsn) {\n this._dsn = makeDsn(options.dsn);\n } else {\n DEBUG_BUILD && logger.warn('No DSN provided, client will not send events.');\n }\n\n if (this._dsn) {\n const url = getEnvelopeEndpointWithUrlEncodedAuth(\n this._dsn,\n options.tunnel,\n options._metadata ? options._metadata.sdk : undefined,\n );\n this._transport = options.transport({\n tunnel: this._options.tunnel,\n recordDroppedEvent: this.recordDroppedEvent.bind(this),\n ...options.transportOptions,\n url,\n });\n }\n }\n\n /**\n * @inheritDoc\n */\n // eslint-disable-next-line @typescript-eslint/no-explicit-any\n captureException(exception, hint, scope) {\n const eventId = uuid4();\n\n // ensure we haven't captured this very object before\n if (checkOrSetAlreadyCaught(exception)) {\n DEBUG_BUILD && logger.log(ALREADY_SEEN_ERROR);\n return eventId;\n }\n\n const hintWithEventId = {\n event_id: eventId,\n ...hint,\n };\n\n this._process(\n this.eventFromException(exception, hintWithEventId).then(event =>\n this._captureEvent(event, hintWithEventId, scope),\n ),\n );\n\n return hintWithEventId.event_id;\n }\n\n /**\n * @inheritDoc\n */\n captureMessage(\n message,\n level,\n hint,\n currentScope,\n ) {\n const hintWithEventId = {\n event_id: uuid4(),\n ...hint,\n };\n\n const eventMessage = isParameterizedString(message) ? message : String(message);\n\n const promisedEvent = isPrimitive(message)\n ? this.eventFromMessage(eventMessage, level, hintWithEventId)\n : this.eventFromException(message, hintWithEventId);\n\n this._process(promisedEvent.then(event => this._captureEvent(event, hintWithEventId, currentScope)));\n\n return hintWithEventId.event_id;\n }\n\n /**\n * @inheritDoc\n */\n captureEvent(event, hint, currentScope) {\n const eventId = uuid4();\n\n // ensure we haven't captured this very object before\n if (hint && hint.originalException && checkOrSetAlreadyCaught(hint.originalException)) {\n DEBUG_BUILD && logger.log(ALREADY_SEEN_ERROR);\n return eventId;\n }\n\n const hintWithEventId = {\n event_id: eventId,\n ...hint,\n };\n\n const sdkProcessingMetadata = event.sdkProcessingMetadata || {};\n const capturedSpanScope = sdkProcessingMetadata.capturedSpanScope;\n\n this._process(this._captureEvent(event, hintWithEventId, capturedSpanScope || currentScope));\n\n return hintWithEventId.event_id;\n }\n\n /**\n * @inheritDoc\n */\n captureSession(session) {\n if (!(typeof session.release === 'string')) {\n DEBUG_BUILD && logger.warn('Discarded session because of missing or non-string release');\n } else {\n this.sendSession(session);\n // After sending, we set init false to indicate it's not the first occurrence\n updateSession(session, { init: false });\n }\n }\n\n /**\n * @inheritDoc\n */\n getDsn() {\n return this._dsn;\n }\n\n /**\n * @inheritDoc\n */\n getOptions() {\n return this._options;\n }\n\n /**\n * @see SdkMetadata in @sentry/types\n *\n * @return The metadata of the SDK\n */\n getSdkMetadata() {\n return this._options._metadata;\n }\n\n /**\n * @inheritDoc\n */\n getTransport() {\n return this._transport;\n }\n\n /**\n * @inheritDoc\n */\n flush(timeout) {\n const transport = this._transport;\n if (transport) {\n this.emit('flush');\n return this._isClientDoneProcessing(timeout).then(clientFinished => {\n return transport.flush(timeout).then(transportFlushed => clientFinished && transportFlushed);\n });\n } else {\n return resolvedSyncPromise(true);\n }\n }\n\n /**\n * @inheritDoc\n */\n close(timeout) {\n return this.flush(timeout).then(result => {\n this.getOptions().enabled = false;\n this.emit('close');\n return result;\n });\n }\n\n /** Get all installed event processors. */\n getEventProcessors() {\n return this._eventProcessors;\n }\n\n /** @inheritDoc */\n addEventProcessor(eventProcessor) {\n this._eventProcessors.push(eventProcessor);\n }\n\n /** @inheritdoc */\n init() {\n if (\n this._isEnabled() ||\n // Force integrations to be setup even if no DSN was set when we have\n // Spotlight enabled. This is particularly important for browser as we\n // don't support the `spotlight` option there and rely on the users\n // adding the `spotlightBrowserIntegration()` to their integrations which\n // wouldn't get initialized with the check below when there's no DSN set.\n this._options.integrations.some(({ name }) => name.startsWith('Spotlight'))\n ) {\n this._setupIntegrations();\n }\n }\n\n /**\n * Gets an installed integration by its name.\n *\n * @returns The installed integration or `undefined` if no integration with that `name` was installed.\n */\n getIntegrationByName(integrationName) {\n return this._integrations[integrationName] ;\n }\n\n /**\n * @inheritDoc\n */\n addIntegration(integration) {\n const isAlreadyInstalled = this._integrations[integration.name];\n\n // This hook takes care of only installing if not already installed\n setupIntegration(this, integration, this._integrations);\n // Here we need to check manually to make sure to not run this multiple times\n if (!isAlreadyInstalled) {\n afterSetupIntegrations(this, [integration]);\n }\n }\n\n /**\n * @inheritDoc\n */\n sendEvent(event, hint = {}) {\n this.emit('beforeSendEvent', event, hint);\n\n let env = createEventEnvelope(event, this._dsn, this._options._metadata, this._options.tunnel);\n\n for (const attachment of hint.attachments || []) {\n env = addItemToEnvelope(env, createAttachmentEnvelopeItem(attachment));\n }\n\n const promise = this.sendEnvelope(env);\n if (promise) {\n promise.then(sendResponse => this.emit('afterSendEvent', event, sendResponse), null);\n }\n }\n\n /**\n * @inheritDoc\n */\n sendSession(session) {\n const env = createSessionEnvelope(session, this._dsn, this._options._metadata, this._options.tunnel);\n\n // sendEnvelope should not throw\n // eslint-disable-next-line @typescript-eslint/no-floating-promises\n this.sendEnvelope(env);\n }\n\n /**\n * @inheritDoc\n */\n recordDroppedEvent(reason, category, eventOrCount) {\n if (this._options.sendClientReports) {\n // TODO v9: We do not need the `event` passed as third argument anymore, and can possibly remove this overload\n // If event is passed as third argument, we assume this is a count of 1\n const count = typeof eventOrCount === 'number' ? eventOrCount : 1;\n\n // We want to track each category (error, transaction, session, replay_event) separately\n // but still keep the distinction between different type of outcomes.\n // We could use nested maps, but it's much easier to read and type this way.\n // A correct type for map-based implementation if we want to go that route\n // would be `Partial>>>`\n // With typescript 4.1 we could even use template literal types\n const key = `${reason}:${category}`;\n DEBUG_BUILD && logger.log(`Recording outcome: \"${key}\"${count > 1 ? ` (${count} times)` : ''}`);\n this._outcomes[key] = (this._outcomes[key] || 0) + count;\n }\n }\n\n // Keep on() & emit() signatures in sync with types' client.ts interface\n /* eslint-disable @typescript-eslint/unified-signatures */\n\n /** @inheritdoc */\n\n /** @inheritdoc */\n on(hook, callback) {\n const hooks = (this._hooks[hook] = this._hooks[hook] || []);\n\n // @ts-expect-error We assue the types are correct\n hooks.push(callback);\n\n // This function returns a callback execution handler that, when invoked,\n // deregisters a callback. This is crucial for managing instances where callbacks\n // need to be unregistered to prevent self-referencing in callback closures,\n // ensuring proper garbage collection.\n return () => {\n // @ts-expect-error We assue the types are correct\n const cbIndex = hooks.indexOf(callback);\n if (cbIndex > -1) {\n hooks.splice(cbIndex, 1);\n }\n };\n }\n\n /** @inheritdoc */\n\n /** @inheritdoc */\n emit(hook, ...rest) {\n const callbacks = this._hooks[hook];\n if (callbacks) {\n callbacks.forEach(callback => callback(...rest));\n }\n }\n\n /**\n * @inheritdoc\n */\n sendEnvelope(envelope) {\n this.emit('beforeEnvelope', envelope);\n\n if (this._isEnabled() && this._transport) {\n return this._transport.send(envelope).then(null, reason => {\n DEBUG_BUILD && logger.error('Error while sending event:', reason);\n return reason;\n });\n }\n\n DEBUG_BUILD && logger.error('Transport disabled');\n\n return resolvedSyncPromise({});\n }\n\n /* eslint-enable @typescript-eslint/unified-signatures */\n\n /** Setup integrations for this client. */\n _setupIntegrations() {\n const { integrations } = this._options;\n this._integrations = setupIntegrations(this, integrations);\n afterSetupIntegrations(this, integrations);\n }\n\n /** Updates existing session based on the provided event */\n _updateSessionFromEvent(session, event) {\n let crashed = false;\n let errored = false;\n const exceptions = event.exception && event.exception.values;\n\n if (exceptions) {\n errored = true;\n\n for (const ex of exceptions) {\n const mechanism = ex.mechanism;\n if (mechanism && mechanism.handled === false) {\n crashed = true;\n break;\n }\n }\n }\n\n // A session is updated and that session update is sent in only one of the two following scenarios:\n // 1. Session with non terminal status and 0 errors + an error occurred -> Will set error count to 1 and send update\n // 2. Session with non terminal status and 1 error + a crash occurred -> Will set status crashed and send update\n const sessionNonTerminal = session.status === 'ok';\n const shouldUpdateAndSend = (sessionNonTerminal && session.errors === 0) || (sessionNonTerminal && crashed);\n\n if (shouldUpdateAndSend) {\n updateSession(session, {\n ...(crashed && { status: 'crashed' }),\n errors: session.errors || Number(errored || crashed),\n });\n this.captureSession(session);\n }\n }\n\n /**\n * Determine if the client is finished processing. Returns a promise because it will wait `timeout` ms before saying\n * \"no\" (resolving to `false`) in order to give the client a chance to potentially finish first.\n *\n * @param timeout The time, in ms, after which to resolve to `false` if the client is still busy. Passing `0` (or not\n * passing anything) will make the promise wait as long as it takes for processing to finish before resolving to\n * `true`.\n * @returns A promise which will resolve to `true` if processing is already done or finishes before the timeout, and\n * `false` otherwise\n */\n _isClientDoneProcessing(timeout) {\n return new SyncPromise(resolve => {\n let ticked = 0;\n const tick = 1;\n\n const interval = setInterval(() => {\n if (this._numProcessing == 0) {\n clearInterval(interval);\n resolve(true);\n } else {\n ticked += tick;\n if (timeout && ticked >= timeout) {\n clearInterval(interval);\n resolve(false);\n }\n }\n }, tick);\n });\n }\n\n /** Determines whether this SDK is enabled and a transport is present. */\n _isEnabled() {\n return this.getOptions().enabled !== false && this._transport !== undefined;\n }\n\n /**\n * Adds common information to events.\n *\n * The information includes release and environment from `options`,\n * breadcrumbs and context (extra, tags and user) from the scope.\n *\n * Information that is already present in the event is never overwritten. For\n * nested objects, such as the context, keys are merged.\n *\n * @param event The original event.\n * @param hint May contain additional information about the original exception.\n * @param currentScope A scope containing event metadata.\n * @returns A new event with more information.\n */\n _prepareEvent(\n event,\n hint,\n currentScope,\n isolationScope = getIsolationScope(),\n ) {\n const options = this.getOptions();\n const integrations = Object.keys(this._integrations);\n if (!hint.integrations && integrations.length > 0) {\n hint.integrations = integrations;\n }\n\n this.emit('preprocessEvent', event, hint);\n\n if (!event.type) {\n isolationScope.setLastEventId(event.event_id || hint.event_id);\n }\n\n return prepareEvent(options, event, hint, currentScope, this, isolationScope).then(evt => {\n if (evt === null) {\n return evt;\n }\n\n const propagationContext = {\n ...isolationScope.getPropagationContext(),\n ...(currentScope ? currentScope.getPropagationContext() : undefined),\n };\n\n const trace = evt.contexts && evt.contexts.trace;\n if (!trace && propagationContext) {\n const { traceId: trace_id, spanId, parentSpanId, dsc } = propagationContext;\n evt.contexts = {\n trace: dropUndefinedKeys({\n trace_id,\n span_id: spanId,\n parent_span_id: parentSpanId,\n }),\n ...evt.contexts,\n };\n\n const dynamicSamplingContext = dsc ? dsc : getDynamicSamplingContextFromClient(trace_id, this);\n\n evt.sdkProcessingMetadata = {\n dynamicSamplingContext,\n ...evt.sdkProcessingMetadata,\n };\n }\n return evt;\n });\n }\n\n /**\n * Processes the event and logs an error in case of rejection\n * @param event\n * @param hint\n * @param scope\n */\n _captureEvent(event, hint = {}, scope) {\n return this._processEvent(event, hint, scope).then(\n finalEvent => {\n return finalEvent.event_id;\n },\n reason => {\n if (DEBUG_BUILD) {\n // If something's gone wrong, log the error as a warning. If it's just us having used a `SentryError` for\n // control flow, log just the message (no stack) as a log-level log.\n const sentryError = reason ;\n if (sentryError.logLevel === 'log') {\n logger.log(sentryError.message);\n } else {\n logger.warn(sentryError);\n }\n }\n return undefined;\n },\n );\n }\n\n /**\n * Processes an event (either error or message) and sends it to Sentry.\n *\n * This also adds breadcrumbs and context information to the event. However,\n * platform specific meta data (such as the User's IP address) must be added\n * by the SDK implementor.\n *\n *\n * @param event The event to send to Sentry.\n * @param hint May contain additional information about the original exception.\n * @param currentScope A scope containing event metadata.\n * @returns A SyncPromise that resolves with the event or rejects in case event was/will not be send.\n */\n _processEvent(event, hint, currentScope) {\n const options = this.getOptions();\n const { sampleRate } = options;\n\n const isTransaction = isTransactionEvent(event);\n const isError = isErrorEvent(event);\n const eventType = event.type || 'error';\n const beforeSendLabel = `before send for type \\`${eventType}\\``;\n\n // 1.0 === 100% events are sent\n // 0.0 === 0% events are sent\n // Sampling for transaction happens somewhere else\n const parsedSampleRate = typeof sampleRate === 'undefined' ? undefined : parseSampleRate(sampleRate);\n if (isError && typeof parsedSampleRate === 'number' && Math.random() > parsedSampleRate) {\n this.recordDroppedEvent('sample_rate', 'error', event);\n return rejectedSyncPromise(\n new SentryError(\n `Discarding event because it's not included in the random sample (sampling rate = ${sampleRate})`,\n 'log',\n ),\n );\n }\n\n const dataCategory = eventType === 'replay_event' ? 'replay' : eventType;\n\n const sdkProcessingMetadata = event.sdkProcessingMetadata || {};\n const capturedSpanIsolationScope = sdkProcessingMetadata.capturedSpanIsolationScope;\n\n return this._prepareEvent(event, hint, currentScope, capturedSpanIsolationScope)\n .then(prepared => {\n if (prepared === null) {\n this.recordDroppedEvent('event_processor', dataCategory, event);\n throw new SentryError('An event processor returned `null`, will not send event.', 'log');\n }\n\n const isInternalException = hint.data && (hint.data ).__sentry__ === true;\n if (isInternalException) {\n return prepared;\n }\n\n const result = processBeforeSend(this, options, prepared, hint);\n return _validateBeforeSendResult(result, beforeSendLabel);\n })\n .then(processedEvent => {\n if (processedEvent === null) {\n this.recordDroppedEvent('before_send', dataCategory, event);\n if (isTransaction) {\n const spans = event.spans || [];\n // the transaction itself counts as one span, plus all the child spans that are added\n const spanCount = 1 + spans.length;\n this.recordDroppedEvent('before_send', 'span', spanCount);\n }\n throw new SentryError(`${beforeSendLabel} returned \\`null\\`, will not send event.`, 'log');\n }\n\n const session = currentScope && currentScope.getSession();\n if (!isTransaction && session) {\n this._updateSessionFromEvent(session, processedEvent);\n }\n\n if (isTransaction) {\n const spanCountBefore =\n (processedEvent.sdkProcessingMetadata && processedEvent.sdkProcessingMetadata.spanCountBeforeProcessing) ||\n 0;\n const spanCountAfter = processedEvent.spans ? processedEvent.spans.length : 0;\n\n const droppedSpanCount = spanCountBefore - spanCountAfter;\n if (droppedSpanCount > 0) {\n this.recordDroppedEvent('before_send', 'span', droppedSpanCount);\n }\n }\n\n // None of the Sentry built event processor will update transaction name,\n // so if the transaction name has been changed by an event processor, we know\n // it has to come from custom event processor added by a user\n const transactionInfo = processedEvent.transaction_info;\n if (isTransaction && transactionInfo && processedEvent.transaction !== event.transaction) {\n const source = 'custom';\n processedEvent.transaction_info = {\n ...transactionInfo,\n source,\n };\n }\n\n this.sendEvent(processedEvent, hint);\n return processedEvent;\n })\n .then(null, reason => {\n if (reason instanceof SentryError) {\n throw reason;\n }\n\n this.captureException(reason, {\n data: {\n __sentry__: true,\n },\n originalException: reason,\n });\n throw new SentryError(\n `Event processing pipeline threw an error, original event will not be sent. Details have been sent as a new event.\\nReason: ${reason}`,\n );\n });\n }\n\n /**\n * Occupies the client with processing and event\n */\n _process(promise) {\n this._numProcessing++;\n void promise.then(\n value => {\n this._numProcessing--;\n return value;\n },\n reason => {\n this._numProcessing--;\n return reason;\n },\n );\n }\n\n /**\n * Clears outcomes on this client and returns them.\n */\n _clearOutcomes() {\n const outcomes = this._outcomes;\n this._outcomes = {};\n return Object.entries(outcomes).map(([key, quantity]) => {\n const [reason, category] = key.split(':') ;\n return {\n reason,\n category,\n quantity,\n };\n });\n }\n\n /**\n * Sends client reports as an envelope.\n */\n _flushOutcomes() {\n DEBUG_BUILD && logger.log('Flushing outcomes...');\n\n const outcomes = this._clearOutcomes();\n\n if (outcomes.length === 0) {\n DEBUG_BUILD && logger.log('No outcomes to send');\n return;\n }\n\n // This is really the only place where we want to check for a DSN and only send outcomes then\n if (!this._dsn) {\n DEBUG_BUILD && logger.log('No dsn provided, will not send outcomes');\n return;\n }\n\n DEBUG_BUILD && logger.log('Sending outcomes:', outcomes);\n\n const envelope = createClientReportEnvelope(outcomes, this._options.tunnel && dsnToString(this._dsn));\n\n // sendEnvelope should not throw\n // eslint-disable-next-line @typescript-eslint/no-floating-promises\n this.sendEnvelope(envelope);\n }\n\n /**\n * @inheritDoc\n */\n // eslint-disable-next-line @typescript-eslint/no-explicit-any\n\n}\n\n/**\n * Verifies that return value of configured `beforeSend` or `beforeSendTransaction` is of expected type, and returns the value if so.\n */\nfunction _validateBeforeSendResult(\n beforeSendResult,\n beforeSendLabel,\n) {\n const invalidValueError = `${beforeSendLabel} must return \\`null\\` or a valid event.`;\n if (isThenable(beforeSendResult)) {\n return beforeSendResult.then(\n event => {\n if (!isPlainObject(event) && event !== null) {\n throw new SentryError(invalidValueError);\n }\n return event;\n },\n e => {\n throw new SentryError(`${beforeSendLabel} rejected with ${e}`);\n },\n );\n } else if (!isPlainObject(beforeSendResult) && beforeSendResult !== null) {\n throw new SentryError(invalidValueError);\n }\n return beforeSendResult;\n}\n\n/**\n * Process the matching `beforeSendXXX` callback.\n */\nfunction processBeforeSend(\n client,\n options,\n event,\n hint,\n) {\n const { beforeSend, beforeSendTransaction, beforeSendSpan } = options;\n\n if (isErrorEvent(event) && beforeSend) {\n return beforeSend(event, hint);\n }\n\n if (isTransactionEvent(event)) {\n if (event.spans && beforeSendSpan) {\n const processedSpans = [];\n for (const span of event.spans) {\n const processedSpan = beforeSendSpan(span);\n if (processedSpan) {\n processedSpans.push(processedSpan);\n } else {\n client.recordDroppedEvent('before_send', 'span');\n }\n }\n event.spans = processedSpans;\n }\n\n if (beforeSendTransaction) {\n if (event.spans) {\n // We store the # of spans before processing in SDK metadata,\n // so we can compare it afterwards to determine how many spans were dropped\n const spanCountBefore = event.spans.length;\n event.sdkProcessingMetadata = {\n ...event.sdkProcessingMetadata,\n spanCountBeforeProcessing: spanCountBefore,\n };\n }\n return beforeSendTransaction(event, hint);\n }\n }\n\n return event;\n}\n\nfunction isErrorEvent(event) {\n return event.type === undefined;\n}\n\nfunction isTransactionEvent(event) {\n return event.type === 'transaction';\n}\n\nexport { BaseClient };\n","import { getSdkMetadataForEnvelopeHeader, dsnToString, createEnvelope, createEventEnvelopeHeaders, createSpanEnvelopeItem } from '@sentry/utils';\nimport { getDynamicSamplingContextFromSpan } from './tracing/dynamicSamplingContext.js';\nimport { spanToJSON } from './utils/spanUtils.js';\n\n/**\n * Apply SdkInfo (name, version, packages, integrations) to the corresponding event key.\n * Merge with existing data if any.\n **/\nfunction enhanceEventWithSdkInfo(event, sdkInfo) {\n if (!sdkInfo) {\n return event;\n }\n event.sdk = event.sdk || {};\n event.sdk.name = event.sdk.name || sdkInfo.name;\n event.sdk.version = event.sdk.version || sdkInfo.version;\n event.sdk.integrations = [...(event.sdk.integrations || []), ...(sdkInfo.integrations || [])];\n event.sdk.packages = [...(event.sdk.packages || []), ...(sdkInfo.packages || [])];\n return event;\n}\n\n/** Creates an envelope from a Session */\nfunction createSessionEnvelope(\n session,\n dsn,\n metadata,\n tunnel,\n) {\n const sdkInfo = getSdkMetadataForEnvelopeHeader(metadata);\n const envelopeHeaders = {\n sent_at: new Date().toISOString(),\n ...(sdkInfo && { sdk: sdkInfo }),\n ...(!!tunnel && dsn && { dsn: dsnToString(dsn) }),\n };\n\n const envelopeItem =\n 'aggregates' in session ? [{ type: 'sessions' }, session] : [{ type: 'session' }, session.toJSON()];\n\n return createEnvelope(envelopeHeaders, [envelopeItem]);\n}\n\n/**\n * Create an Envelope from an event.\n */\nfunction createEventEnvelope(\n event,\n dsn,\n metadata,\n tunnel,\n) {\n const sdkInfo = getSdkMetadataForEnvelopeHeader(metadata);\n\n /*\n Note: Due to TS, event.type may be `replay_event`, theoretically.\n In practice, we never call `createEventEnvelope` with `replay_event` type,\n and we'd have to adjut a looot of types to make this work properly.\n We want to avoid casting this around, as that could lead to bugs (e.g. when we add another type)\n So the safe choice is to really guard against the replay_event type here.\n */\n const eventType = event.type && event.type !== 'replay_event' ? event.type : 'event';\n\n enhanceEventWithSdkInfo(event, metadata && metadata.sdk);\n\n const envelopeHeaders = createEventEnvelopeHeaders(event, sdkInfo, tunnel, dsn);\n\n // Prevent this data (which, if it exists, was used in earlier steps in the processing pipeline) from being sent to\n // sentry. (Note: Our use of this property comes and goes with whatever we might be debugging, whatever hacks we may\n // have temporarily added, etc. Even if we don't happen to be using it at some point in the future, let's not get rid\n // of this `delete`, lest we miss putting it back in the next time the property is in use.)\n delete event.sdkProcessingMetadata;\n\n const eventItem = [{ type: eventType }, event];\n return createEnvelope(envelopeHeaders, [eventItem]);\n}\n\n/**\n * Create envelope from Span item.\n *\n * Takes an optional client and runs spans through `beforeSendSpan` if available.\n */\nfunction createSpanEnvelope(spans, client) {\n function dscHasRequiredProps(dsc) {\n return !!dsc.trace_id && !!dsc.public_key;\n }\n\n // For the moment we'll obtain the DSC from the first span in the array\n // This might need to be changed if we permit sending multiple spans from\n // different segments in one envelope\n const dsc = getDynamicSamplingContextFromSpan(spans[0]);\n\n const dsn = client && client.getDsn();\n const tunnel = client && client.getOptions().tunnel;\n\n const headers = {\n sent_at: new Date().toISOString(),\n ...(dscHasRequiredProps(dsc) && { trace: dsc }),\n ...(!!tunnel && dsn && { dsn: dsnToString(dsn) }),\n };\n\n const beforeSendSpan = client && client.getOptions().beforeSendSpan;\n const convertToSpanJSON = beforeSendSpan\n ? (span) => beforeSendSpan(spanToJSON(span) )\n : (span) => spanToJSON(span);\n\n const items = [];\n for (const span of spans) {\n const spanJson = convertToSpanJSON(span);\n if (spanJson) {\n items.push(createSpanEnvelopeItem(spanJson));\n }\n }\n\n return createEnvelope(headers, items);\n}\n\nexport { createEventEnvelope, createSessionEnvelope, createSpanEnvelope };\n","import { createEnvelope } from './envelope.js';\nimport { dateTimestampInSeconds } from './time.js';\n\n/**\n * Creates client report envelope\n * @param discarded_events An array of discard events\n * @param dsn A DSN that can be set on the header. Optional.\n */\nfunction createClientReportEnvelope(\n discarded_events,\n dsn,\n timestamp,\n) {\n const clientReportItem = [\n { type: 'client_report' },\n {\n timestamp: timestamp || dateTimestampInSeconds(),\n discarded_events,\n },\n ];\n return createEnvelope(dsn ? { dsn } : {}, [clientReportItem]);\n}\n\nexport { createClientReportEnvelope };\n","import { SDK_VERSION } from '@sentry/utils';\n\n/**\n * A builder for the SDK metadata in the options for the SDK initialization.\n *\n * Note: This function is identical to `buildMetadata` in Remix and NextJS and SvelteKit.\n * We don't extract it for bundle size reasons.\n * @see https://github.com/getsentry/sentry-javascript/pull/7404\n * @see https://github.com/getsentry/sentry-javascript/pull/4196\n *\n * If you make changes to this function consider updating the others as well.\n *\n * @param options SDK options object that gets mutated\n * @param names list of package names\n */\nfunction applySdkMetadata(options, name, names = [name], source = 'npm') {\n const metadata = options._metadata || {};\n\n if (!metadata.sdk) {\n metadata.sdk = {\n name: `sentry.javascript.${name}`,\n packages: names.map(name => ({\n name: `${source}:@sentry/${name}`,\n version: SDK_VERSION,\n })),\n version: SDK_VERSION,\n };\n }\n\n options._metadata = metadata;\n}\n\nexport { applySdkMetadata };\n","/**\n * This serves as a build time flag that will be true by default, but false in non-debug builds or if users replace `__SENTRY_DEBUG__` in their generated code.\n *\n * ATTENTION: This constant must never cross package boundaries (i.e. be exported) to guarantee that it can be used for tree shaking.\n */\nconst DEBUG_BUILD = (typeof __SENTRY_DEBUG__ === 'undefined' || __SENTRY_DEBUG__);\n\nexport { DEBUG_BUILD };\n","import { getClient } from '@sentry/core';\nimport { addExceptionMechanism, resolvedSyncPromise, isErrorEvent, isDOMError, isDOMException, addExceptionTypeValue, isError, isPlainObject, isEvent, isParameterizedString, normalizeToSize, extractExceptionKeysForMessage } from '@sentry/utils';\n\n/**\n * This function creates an exception from a JavaScript Error\n */\nfunction exceptionFromError(stackParser, ex) {\n // Get the frames first since Opera can lose the stack if we touch anything else first\n const frames = parseStackFrames(stackParser, ex);\n\n const exception = {\n type: ex && ex.name,\n value: extractMessage(ex),\n };\n\n if (frames.length) {\n exception.stacktrace = { frames };\n }\n\n if (exception.type === undefined && exception.value === '') {\n exception.value = 'Unrecoverable error caught';\n }\n\n return exception;\n}\n\nfunction eventFromPlainObject(\n stackParser,\n exception,\n syntheticException,\n isUnhandledRejection,\n) {\n const client = getClient();\n const normalizeDepth = client && client.getOptions().normalizeDepth;\n\n // If we can, we extract an exception from the object properties\n const errorFromProp = getErrorPropertyFromObject(exception);\n\n const extra = {\n __serialized__: normalizeToSize(exception, normalizeDepth),\n };\n\n if (errorFromProp) {\n return {\n exception: {\n values: [exceptionFromError(stackParser, errorFromProp)],\n },\n extra,\n };\n }\n\n const event = {\n exception: {\n values: [\n {\n type: isEvent(exception) ? exception.constructor.name : isUnhandledRejection ? 'UnhandledRejection' : 'Error',\n value: getNonErrorObjectExceptionValue(exception, { isUnhandledRejection }),\n } ,\n ],\n },\n extra,\n } ;\n\n if (syntheticException) {\n const frames = parseStackFrames(stackParser, syntheticException);\n if (frames.length) {\n // event.exception.values[0] has been set above\n // eslint-disable-next-line @typescript-eslint/no-non-null-assertion\n event.exception.values[0].stacktrace = { frames };\n }\n }\n\n return event;\n}\n\nfunction eventFromError(stackParser, ex) {\n return {\n exception: {\n values: [exceptionFromError(stackParser, ex)],\n },\n };\n}\n\n/** Parses stack frames from an error */\nfunction parseStackFrames(\n stackParser,\n ex,\n) {\n // Access and store the stacktrace property before doing ANYTHING\n // else to it because Opera is not very good at providing it\n // reliably in other circumstances.\n const stacktrace = ex.stacktrace || ex.stack || '';\n\n const skipLines = getSkipFirstStackStringLines(ex);\n const framesToPop = getPopFirstTopFrames(ex);\n\n try {\n return stackParser(stacktrace, skipLines, framesToPop);\n } catch (e) {\n // no-empty\n }\n\n return [];\n}\n\n// Based on our own mapping pattern - https://github.com/getsentry/sentry/blob/9f08305e09866c8bd6d0c24f5b0aabdd7dd6c59c/src/sentry/lang/javascript/errormapping.py#L83-L108\nconst reactMinifiedRegexp = /Minified React error #\\d+;/i;\n\n/**\n * Certain known React errors contain links that would be falsely\n * parsed as frames. This function check for these errors and\n * returns number of the stack string lines to skip.\n */\nfunction getSkipFirstStackStringLines(ex) {\n if (ex && reactMinifiedRegexp.test(ex.message)) {\n return 1;\n }\n\n return 0;\n}\n\n/**\n * If error has `framesToPop` property, it means that the\n * creator tells us the first x frames will be useless\n * and should be discarded. Typically error from wrapper function\n * which don't point to the actual location in the developer's code.\n *\n * Example: https://github.com/zertosh/invariant/blob/master/invariant.js#L46\n */\nfunction getPopFirstTopFrames(ex) {\n if (typeof ex.framesToPop === 'number') {\n return ex.framesToPop;\n }\n\n return 0;\n}\n\n/**\n * There are cases where stacktrace.message is an Event object\n * https://github.com/getsentry/sentry-javascript/issues/1949\n * In this specific case we try to extract stacktrace.message.error.message\n */\nfunction extractMessage(ex) {\n const message = ex && ex.message;\n if (!message) {\n return 'No error message';\n }\n if (message.error && typeof message.error.message === 'string') {\n return message.error.message;\n }\n return message;\n}\n\n/**\n * Creates an {@link Event} from all inputs to `captureException` and non-primitive inputs to `captureMessage`.\n * @hidden\n */\nfunction eventFromException(\n stackParser,\n exception,\n hint,\n attachStacktrace,\n) {\n const syntheticException = (hint && hint.syntheticException) || undefined;\n const event = eventFromUnknownInput(stackParser, exception, syntheticException, attachStacktrace);\n addExceptionMechanism(event); // defaults to { type: 'generic', handled: true }\n event.level = 'error';\n if (hint && hint.event_id) {\n event.event_id = hint.event_id;\n }\n return resolvedSyncPromise(event);\n}\n\n/**\n * Builds and Event from a Message\n * @hidden\n */\nfunction eventFromMessage(\n stackParser,\n message,\n level = 'info',\n hint,\n attachStacktrace,\n) {\n const syntheticException = (hint && hint.syntheticException) || undefined;\n const event = eventFromString(stackParser, message, syntheticException, attachStacktrace);\n event.level = level;\n if (hint && hint.event_id) {\n event.event_id = hint.event_id;\n }\n return resolvedSyncPromise(event);\n}\n\n/**\n * @hidden\n */\nfunction eventFromUnknownInput(\n stackParser,\n exception,\n syntheticException,\n attachStacktrace,\n isUnhandledRejection,\n) {\n let event;\n\n if (isErrorEvent(exception ) && (exception ).error) {\n // If it is an ErrorEvent with `error` property, extract it to get actual Error\n const errorEvent = exception ;\n return eventFromError(stackParser, errorEvent.error );\n }\n\n // If it is a `DOMError` (which is a legacy API, but still supported in some browsers) then we just extract the name\n // and message, as it doesn't provide anything else. According to the spec, all `DOMExceptions` should also be\n // `Error`s, but that's not the case in IE11, so in that case we treat it the same as we do a `DOMError`.\n //\n // https://developer.mozilla.org/en-US/docs/Web/API/DOMError\n // https://developer.mozilla.org/en-US/docs/Web/API/DOMException\n // https://webidl.spec.whatwg.org/#es-DOMException-specialness\n if (isDOMError(exception) || isDOMException(exception )) {\n const domException = exception ;\n\n if ('stack' in (exception )) {\n event = eventFromError(stackParser, exception );\n } else {\n const name = domException.name || (isDOMError(domException) ? 'DOMError' : 'DOMException');\n const message = domException.message ? `${name}: ${domException.message}` : name;\n event = eventFromString(stackParser, message, syntheticException, attachStacktrace);\n addExceptionTypeValue(event, message);\n }\n if ('code' in domException) {\n // eslint-disable-next-line deprecation/deprecation\n event.tags = { ...event.tags, 'DOMException.code': `${domException.code}` };\n }\n\n return event;\n }\n if (isError(exception)) {\n // we have a real Error object, do nothing\n return eventFromError(stackParser, exception);\n }\n if (isPlainObject(exception) || isEvent(exception)) {\n // If it's a plain object or an instance of `Event` (the built-in JS kind, not this SDK's `Event` type), serialize\n // it manually. This will allow us to group events based on top-level keys which is much better than creating a new\n // group on any key/value change.\n const objectException = exception ;\n event = eventFromPlainObject(stackParser, objectException, syntheticException, isUnhandledRejection);\n addExceptionMechanism(event, {\n synthetic: true,\n });\n return event;\n }\n\n // If none of previous checks were valid, then it means that it's not:\n // - an instance of DOMError\n // - an instance of DOMException\n // - an instance of Event\n // - an instance of Error\n // - a valid ErrorEvent (one with an error property)\n // - a plain Object\n //\n // So bail out and capture it as a simple message:\n event = eventFromString(stackParser, exception , syntheticException, attachStacktrace);\n addExceptionTypeValue(event, `${exception}`, undefined);\n addExceptionMechanism(event, {\n synthetic: true,\n });\n\n return event;\n}\n\nfunction eventFromString(\n stackParser,\n message,\n syntheticException,\n attachStacktrace,\n) {\n const event = {};\n\n if (attachStacktrace && syntheticException) {\n const frames = parseStackFrames(stackParser, syntheticException);\n if (frames.length) {\n event.exception = {\n values: [{ value: message, stacktrace: { frames } }],\n };\n }\n }\n\n if (isParameterizedString(message)) {\n const { __sentry_template_string__, __sentry_template_values__ } = message;\n\n event.logentry = {\n message: __sentry_template_string__,\n params: __sentry_template_values__,\n };\n return event;\n }\n\n event.message = message;\n return event;\n}\n\nfunction getNonErrorObjectExceptionValue(\n exception,\n { isUnhandledRejection },\n) {\n const keys = extractExceptionKeysForMessage(exception);\n const captureType = isUnhandledRejection ? 'promise rejection' : 'exception';\n\n // Some ErrorEvent instances do not have an `error` property, which is why they are not handled before\n // We still want to try to get a decent message for these cases\n if (isErrorEvent(exception)) {\n return `Event \\`ErrorEvent\\` captured as ${captureType} with message \\`${exception.message}\\``;\n }\n\n if (isEvent(exception)) {\n const className = getObjectClassName(exception);\n return `Event \\`${className}\\` (type=${exception.type}) captured as ${captureType}`;\n }\n\n return `Object captured as ${captureType} with keys: ${keys}`;\n}\n\nfunction getObjectClassName(obj) {\n try {\n const prototype = Object.getPrototypeOf(obj);\n return prototype ? prototype.constructor.name : undefined;\n } catch (e) {\n // ignore errors here\n }\n}\n\n/** If a plain object has a property that is an `Error`, return this error. */\nfunction getErrorPropertyFromObject(obj) {\n for (const prop in obj) {\n if (Object.prototype.hasOwnProperty.call(obj, prop)) {\n const value = obj[prop];\n if (value instanceof Error) {\n return value;\n }\n }\n }\n\n return undefined;\n}\n\nexport { eventFromException, eventFromMessage, eventFromUnknownInput, exceptionFromError };\n","import { withScope, captureException } from '@sentry/core';\nimport { GLOBAL_OBJ, getOriginalFunction, markFunctionWrapped, addNonEnumerableProperty, addExceptionTypeValue, addExceptionMechanism } from '@sentry/utils';\n\nconst WINDOW = GLOBAL_OBJ ;\n\nlet ignoreOnError = 0;\n\n/**\n * @hidden\n */\nfunction shouldIgnoreOnError() {\n return ignoreOnError > 0;\n}\n\n/**\n * @hidden\n */\nfunction ignoreNextOnError() {\n // onerror should trigger before setTimeout\n ignoreOnError++;\n setTimeout(() => {\n ignoreOnError--;\n });\n}\n\n/**\n * Instruments the given function and sends an event to Sentry every time the\n * function throws an exception.\n *\n * @param fn A function to wrap. It is generally safe to pass an unbound function, because the returned wrapper always\n * has a correct `this` context.\n * @returns The wrapped function.\n * @hidden\n */\nfunction wrap(\n fn,\n options\n\n = {},\n before,\n // eslint-disable-next-line @typescript-eslint/no-explicit-any\n) {\n // for future readers what this does is wrap a function and then create\n // a bi-directional wrapping between them.\n //\n // example: wrapped = wrap(original);\n // original.__sentry_wrapped__ -> wrapped\n // wrapped.__sentry_original__ -> original\n\n if (typeof fn !== 'function') {\n return fn;\n }\n\n try {\n // if we're dealing with a function that was previously wrapped, return\n // the original wrapper.\n const wrapper = fn.__sentry_wrapped__;\n if (wrapper) {\n return wrapper;\n }\n\n // We don't wanna wrap it twice\n if (getOriginalFunction(fn)) {\n return fn;\n }\n } catch (e) {\n // Just accessing custom props in some Selenium environments\n // can cause a \"Permission denied\" exception (see raven-js#495).\n // Bail on wrapping and return the function as-is (defers to window.onerror).\n return fn;\n }\n\n /* eslint-disable prefer-rest-params */\n // It is important that `sentryWrapped` is not an arrow function to preserve the context of `this`\n const sentryWrapped = function () {\n const args = Array.prototype.slice.call(arguments);\n\n try {\n if (before && typeof before === 'function') {\n before.apply(this, arguments);\n }\n\n // eslint-disable-next-line @typescript-eslint/no-explicit-any, @typescript-eslint/no-unsafe-member-access\n const wrappedArguments = args.map((arg) => wrap(arg, options));\n\n // Attempt to invoke user-land function\n // NOTE: If you are a Sentry user, and you are seeing this stack frame, it\n // means the sentry.javascript SDK caught an error invoking your application code. This\n // is expected behavior and NOT indicative of a bug with sentry.javascript.\n return fn.apply(this, wrappedArguments);\n } catch (ex) {\n ignoreNextOnError();\n\n withScope(scope => {\n scope.addEventProcessor(event => {\n if (options.mechanism) {\n addExceptionTypeValue(event, undefined, undefined);\n addExceptionMechanism(event, options.mechanism);\n }\n\n event.extra = {\n ...event.extra,\n arguments: args,\n };\n\n return event;\n });\n\n captureException(ex);\n });\n\n throw ex;\n }\n };\n /* eslint-enable prefer-rest-params */\n\n // Accessing some objects may throw\n // ref: https://github.com/getsentry/sentry-javascript/issues/1168\n try {\n for (const property in fn) {\n if (Object.prototype.hasOwnProperty.call(fn, property)) {\n sentryWrapped[property] = fn[property];\n }\n }\n } catch (_oO) {} // eslint-disable-line no-empty\n\n // Signal that this function has been wrapped/filled already\n // for both debugging and to prevent it to being wrapped/filled twice\n markFunctionWrapped(sentryWrapped, fn);\n\n addNonEnumerableProperty(fn, '__sentry_wrapped__', sentryWrapped);\n\n // Restore original function name (not all browsers allow that)\n try {\n const descriptor = Object.getOwnPropertyDescriptor(sentryWrapped, 'name') ;\n if (descriptor.configurable) {\n Object.defineProperty(sentryWrapped, 'name', {\n get() {\n return fn.name;\n },\n });\n }\n // eslint-disable-next-line no-empty\n } catch (_oO) {}\n\n return sentryWrapped;\n}\n\nexport { WINDOW, ignoreNextOnError, shouldIgnoreOnError, wrap };\n","import { BaseClient, applySdkMetadata } from '@sentry/core';\nimport { getSDKSource, logger } from '@sentry/utils';\nimport { DEBUG_BUILD } from './debug-build.js';\nimport { eventFromException, eventFromMessage } from './eventbuilder.js';\nimport { WINDOW } from './helpers.js';\nimport { createUserFeedbackEnvelope } from './userfeedback.js';\n\n/**\n * Configuration options for the Sentry Browser SDK.\n * @see @sentry/types Options for more information.\n */\n\n/**\n * The Sentry Browser SDK Client.\n *\n * @see BrowserOptions for documentation on configuration options.\n * @see SentryClient for usage documentation.\n */\nclass BrowserClient extends BaseClient {\n /**\n * Creates a new Browser SDK instance.\n *\n * @param options Configuration options for this SDK.\n */\n constructor(options) {\n const opts = {\n // We default this to true, as it is the safer scenario\n parentSpanIsAlwaysRootSpan: true,\n ...options,\n };\n const sdkSource = WINDOW.SENTRY_SDK_SOURCE || getSDKSource();\n applySdkMetadata(opts, 'browser', ['browser'], sdkSource);\n\n super(opts);\n\n if (opts.sendClientReports && WINDOW.document) {\n WINDOW.document.addEventListener('visibilitychange', () => {\n if (WINDOW.document.visibilityState === 'hidden') {\n this._flushOutcomes();\n }\n });\n }\n }\n\n /**\n * @inheritDoc\n */\n eventFromException(exception, hint) {\n return eventFromException(this._options.stackParser, exception, hint, this._options.attachStacktrace);\n }\n\n /**\n * @inheritDoc\n */\n eventFromMessage(\n message,\n level = 'info',\n hint,\n ) {\n return eventFromMessage(this._options.stackParser, message, level, hint, this._options.attachStacktrace);\n }\n\n /**\n * Sends user feedback to Sentry.\n *\n * @deprecated Use `captureFeedback` instead.\n */\n captureUserFeedback(feedback) {\n if (!this._isEnabled()) {\n DEBUG_BUILD && logger.warn('SDK not enabled, will not capture user feedback.');\n return;\n }\n\n const envelope = createUserFeedbackEnvelope(feedback, {\n metadata: this.getSdkMetadata(),\n dsn: this.getDsn(),\n tunnel: this.getOptions().tunnel,\n });\n\n // sendEnvelope should not throw\n // eslint-disable-next-line @typescript-eslint/no-floating-promises\n this.sendEnvelope(envelope);\n }\n\n /**\n * @inheritDoc\n */\n _prepareEvent(event, hint, scope) {\n event.platform = event.platform || 'javascript';\n return super._prepareEvent(event, hint, scope);\n }\n}\n\nexport { BrowserClient };\n","/*\n * This module exists for optimizations in the build process through rollup and terser. We define some global\n * constants, which can be overridden during build. By guarding certain pieces of code with functions that return these\n * constants, we can control whether or not they appear in the final bundle. (Any code guarded by a false condition will\n * never run, and will hence be dropped during treeshaking.) The two primary uses for this are stripping out calls to\n * `logger` and preventing node-related code from appearing in browser bundles.\n *\n * Attention:\n * This file should not be used to define constants/flags that are intended to be used for tree-shaking conducted by\n * users. These flags should live in their respective packages, as we identified user tooling (specifically webpack)\n * having issues tree-shaking these constants across package boundaries.\n * An example for this is the __SENTRY_DEBUG__ constant. It is declared in each package individually because we want\n * users to be able to shake away expressions that it guards.\n */\n\n/**\n * Figures out if we're building a browser bundle.\n *\n * @returns true if this is a browser bundle build.\n */\nfunction isBrowserBundle() {\n return typeof __SENTRY_BROWSER_BUNDLE__ !== 'undefined' && !!__SENTRY_BROWSER_BUNDLE__;\n}\n\n/**\n * Get source of SDK.\n */\nfunction getSDKSource() {\n // @ts-expect-error \"npm\" is injected by rollup during build process\n return \"npm\";\n}\n\nexport { getSDKSource, isBrowserBundle };\n","import { dsnToString, createEnvelope } from '@sentry/utils';\n\n/**\n * Creates an envelope from a user feedback.\n */\nfunction createUserFeedbackEnvelope(\n feedback,\n {\n metadata,\n tunnel,\n dsn,\n }\n\n,\n) {\n const headers = {\n event_id: feedback.event_id,\n sent_at: new Date().toISOString(),\n ...(metadata &&\n metadata.sdk && {\n sdk: {\n name: metadata.sdk.name,\n version: metadata.sdk.version,\n },\n }),\n ...(!!tunnel && !!dsn && { dsn: dsnToString(dsn) }),\n };\n const item = createUserFeedbackEnvelopeItem(feedback);\n\n return createEnvelope(headers, [item]);\n}\n\nfunction createUserFeedbackEnvelopeItem(feedback) {\n const feedbackHeaders = {\n type: 'user_report',\n };\n return [feedbackHeaders, feedback];\n}\n\nexport { createUserFeedbackEnvelope };\n","import { addHandler, maybeInstrument, triggerHandlers, fill, addNonEnumerableProperty, uuid4 } from '@sentry/utils';\nimport { WINDOW } from '../types.js';\n\nconst DEBOUNCE_DURATION = 1000;\n\nlet debounceTimerID;\nlet lastCapturedEventType;\nlet lastCapturedEventTargetId;\n\n/**\n * Add an instrumentation handler for when a click or a keypress happens.\n *\n * Use at your own risk, this might break without changelog notice, only used internally.\n * @hidden\n */\nfunction addClickKeypressInstrumentationHandler(handler) {\n const type = 'dom';\n addHandler(type, handler);\n maybeInstrument(type, instrumentDOM);\n}\n\n/** Exported for tests only. */\nfunction instrumentDOM() {\n if (!WINDOW.document) {\n return;\n }\n\n // Make it so that any click or keypress that is unhandled / bubbled up all the way to the document triggers our dom\n // handlers. (Normally we have only one, which captures a breadcrumb for each click or keypress.) Do this before\n // we instrument `addEventListener` so that we don't end up attaching this handler twice.\n const triggerDOMHandler = triggerHandlers.bind(null, 'dom');\n const globalDOMEventHandler = makeDOMEventHandler(triggerDOMHandler, true);\n WINDOW.document.addEventListener('click', globalDOMEventHandler, false);\n WINDOW.document.addEventListener('keypress', globalDOMEventHandler, false);\n\n // After hooking into click and keypress events bubbled up to `document`, we also hook into user-handled\n // clicks & keypresses, by adding an event listener of our own to any element to which they add a listener. That\n // way, whenever one of their handlers is triggered, ours will be, too. (This is needed because their handler\n // could potentially prevent the event from bubbling up to our global listeners. This way, our handler are still\n // guaranteed to fire at least once.)\n ['EventTarget', 'Node'].forEach((target) => {\n // eslint-disable-next-line @typescript-eslint/no-unsafe-member-access, @typescript-eslint/no-explicit-any\n const proto = (WINDOW )[target] && (WINDOW )[target].prototype;\n // eslint-disable-next-line @typescript-eslint/no-unsafe-member-access, no-prototype-builtins\n if (!proto || !proto.hasOwnProperty || !proto.hasOwnProperty('addEventListener')) {\n return;\n }\n\n fill(proto, 'addEventListener', function (originalAddEventListener) {\n return function (\n\n type,\n listener,\n options,\n ) {\n if (type === 'click' || type == 'keypress') {\n try {\n const el = this ;\n const handlers = (el.__sentry_instrumentation_handlers__ = el.__sentry_instrumentation_handlers__ || {});\n const handlerForType = (handlers[type] = handlers[type] || { refCount: 0 });\n\n if (!handlerForType.handler) {\n const handler = makeDOMEventHandler(triggerDOMHandler);\n handlerForType.handler = handler;\n originalAddEventListener.call(this, type, handler, options);\n }\n\n handlerForType.refCount++;\n } catch (e) {\n // Accessing dom properties is always fragile.\n // Also allows us to skip `addEventListenrs` calls with no proper `this` context.\n }\n }\n\n return originalAddEventListener.call(this, type, listener, options);\n };\n });\n\n fill(\n proto,\n 'removeEventListener',\n function (originalRemoveEventListener) {\n return function (\n\n type,\n listener,\n options,\n ) {\n if (type === 'click' || type == 'keypress') {\n try {\n const el = this ;\n const handlers = el.__sentry_instrumentation_handlers__ || {};\n const handlerForType = handlers[type];\n\n if (handlerForType) {\n handlerForType.refCount--;\n // If there are no longer any custom handlers of the current type on this element, we can remove ours, too.\n if (handlerForType.refCount <= 0) {\n originalRemoveEventListener.call(this, type, handlerForType.handler, options);\n handlerForType.handler = undefined;\n delete handlers[type]; // eslint-disable-line @typescript-eslint/no-dynamic-delete\n }\n\n // If there are no longer any custom handlers of any type on this element, cleanup everything.\n if (Object.keys(handlers).length === 0) {\n delete el.__sentry_instrumentation_handlers__;\n }\n }\n } catch (e) {\n // Accessing dom properties is always fragile.\n // Also allows us to skip `addEventListenrs` calls with no proper `this` context.\n }\n }\n\n return originalRemoveEventListener.call(this, type, listener, options);\n };\n },\n );\n });\n}\n\n/**\n * Check whether the event is similar to the last captured one. For example, two click events on the same button.\n */\nfunction isSimilarToLastCapturedEvent(event) {\n // If both events have different type, then user definitely performed two separate actions. e.g. click + keypress.\n if (event.type !== lastCapturedEventType) {\n return false;\n }\n\n try {\n // If both events have the same type, it's still possible that actions were performed on different targets.\n // e.g. 2 clicks on different buttons.\n if (!event.target || (event.target )._sentryId !== lastCapturedEventTargetId) {\n return false;\n }\n } catch (e) {\n // just accessing `target` property can throw an exception in some rare circumstances\n // see: https://github.com/getsentry/sentry-javascript/issues/838\n }\n\n // If both events have the same type _and_ same `target` (an element which triggered an event, _not necessarily_\n // to which an event listener was attached), we treat them as the same action, as we want to capture\n // only one breadcrumb. e.g. multiple clicks on the same button, or typing inside a user input box.\n return true;\n}\n\n/**\n * Decide whether an event should be captured.\n * @param event event to be captured\n */\nfunction shouldSkipDOMEvent(eventType, target) {\n // We are only interested in filtering `keypress` events for now.\n if (eventType !== 'keypress') {\n return false;\n }\n\n if (!target || !target.tagName) {\n return true;\n }\n\n // Only consider keypress events on actual input elements. This will disregard keypresses targeting body\n // e.g.tabbing through elements, hotkeys, etc.\n if (target.tagName === 'INPUT' || target.tagName === 'TEXTAREA' || target.isContentEditable) {\n return false;\n }\n\n return true;\n}\n\n/**\n * Wraps addEventListener to capture UI breadcrumbs\n */\nfunction makeDOMEventHandler(\n handler,\n globalListener = false,\n) {\n return (event) => {\n // It's possible this handler might trigger multiple times for the same\n // event (e.g. event propagation through node ancestors).\n // Ignore if we've already captured that event.\n if (!event || event['_sentryCaptured']) {\n return;\n }\n\n const target = getEventTarget(event);\n\n // We always want to skip _some_ events.\n if (shouldSkipDOMEvent(event.type, target)) {\n return;\n }\n\n // Mark event as \"seen\"\n addNonEnumerableProperty(event, '_sentryCaptured', true);\n\n if (target && !target._sentryId) {\n // Add UUID to event target so we can identify if\n addNonEnumerableProperty(target, '_sentryId', uuid4());\n }\n\n const name = event.type === 'keypress' ? 'input' : event.type;\n\n // If there is no last captured event, it means that we can safely capture the new event and store it for future comparisons.\n // If there is a last captured event, see if the new event is different enough to treat it as a unique one.\n // If that's the case, emit the previous event and store locally the newly-captured DOM event.\n if (!isSimilarToLastCapturedEvent(event)) {\n const handlerData = { event, name, global: globalListener };\n handler(handlerData);\n lastCapturedEventType = event.type;\n lastCapturedEventTargetId = target ? target._sentryId : undefined;\n }\n\n // Start a new debounce timer that will prevent us from capturing multiple events that should be grouped together.\n clearTimeout(debounceTimerID);\n debounceTimerID = WINDOW.setTimeout(() => {\n lastCapturedEventTargetId = undefined;\n lastCapturedEventType = undefined;\n }, DEBOUNCE_DURATION);\n };\n}\n\nfunction getEventTarget(event) {\n try {\n return event.target ;\n } catch (e) {\n // just accessing `target` property can throw an exception in some rare circumstances\n // see: https://github.com/getsentry/sentry-javascript/issues/838\n return null;\n }\n}\n\nexport { addClickKeypressInstrumentationHandler, instrumentDOM };\n","import { addHandler, maybeInstrument, fill, timestampInSeconds, isString, triggerHandlers } from '@sentry/utils';\nimport { WINDOW } from '../types.js';\n\nconst SENTRY_XHR_DATA_KEY = '__sentry_xhr_v3__';\n\n/**\n * Add an instrumentation handler for when an XHR request happens.\n * The handler function is called once when the request starts and once when it ends,\n * which can be identified by checking if it has an `endTimestamp`.\n *\n * Use at your own risk, this might break without changelog notice, only used internally.\n * @hidden\n */\nfunction addXhrInstrumentationHandler(handler) {\n const type = 'xhr';\n addHandler(type, handler);\n maybeInstrument(type, instrumentXHR);\n}\n\n/** Exported only for tests. */\nfunction instrumentXHR() {\n if (!(WINDOW ).XMLHttpRequest) {\n return;\n }\n\n const xhrproto = XMLHttpRequest.prototype;\n\n fill(xhrproto, 'open', function (originalOpen) {\n return function ( ...args) {\n const startTimestamp = timestampInSeconds() * 1000;\n\n // open() should always be called with two or more arguments\n // But to be on the safe side, we actually validate this and bail out if we don't have a method & url\n const method = isString(args[0]) ? args[0].toUpperCase() : undefined;\n const url = parseUrl(args[1]);\n\n if (!method || !url) {\n return originalOpen.apply(this, args);\n }\n\n this[SENTRY_XHR_DATA_KEY] = {\n method,\n url,\n request_headers: {},\n };\n\n // if Sentry key appears in URL, don't capture it as a request\n if (method === 'POST' && url.match(/sentry_key/)) {\n this.__sentry_own_request__ = true;\n }\n\n const onreadystatechangeHandler = () => {\n // For whatever reason, this is not the same instance here as from the outer method\n const xhrInfo = this[SENTRY_XHR_DATA_KEY];\n\n if (!xhrInfo) {\n return;\n }\n\n if (this.readyState === 4) {\n try {\n // touching statusCode in some platforms throws\n // an exception\n xhrInfo.status_code = this.status;\n } catch (e) {\n /* do nothing */\n }\n\n const handlerData = {\n endTimestamp: timestampInSeconds() * 1000,\n startTimestamp,\n xhr: this,\n };\n triggerHandlers('xhr', handlerData);\n }\n };\n\n if ('onreadystatechange' in this && typeof this.onreadystatechange === 'function') {\n fill(this, 'onreadystatechange', function (original) {\n return function ( ...readyStateArgs) {\n onreadystatechangeHandler();\n return original.apply(this, readyStateArgs);\n };\n });\n } else {\n this.addEventListener('readystatechange', onreadystatechangeHandler);\n }\n\n // Intercepting `setRequestHeader` to access the request headers of XHR instance.\n // This will only work for user/library defined headers, not for the default/browser-assigned headers.\n // Request cookies are also unavailable for XHR, as `Cookie` header can't be defined by `setRequestHeader`.\n fill(this, 'setRequestHeader', function (original) {\n return function ( ...setRequestHeaderArgs) {\n const [header, value] = setRequestHeaderArgs;\n\n const xhrInfo = this[SENTRY_XHR_DATA_KEY];\n\n if (xhrInfo && isString(header) && isString(value)) {\n xhrInfo.request_headers[header.toLowerCase()] = value;\n }\n\n return original.apply(this, setRequestHeaderArgs);\n };\n });\n\n return originalOpen.apply(this, args);\n };\n });\n\n fill(xhrproto, 'send', function (originalSend) {\n return function ( ...args) {\n const sentryXhrData = this[SENTRY_XHR_DATA_KEY];\n\n if (!sentryXhrData) {\n return originalSend.apply(this, args);\n }\n\n if (args[0] !== undefined) {\n sentryXhrData.body = args[0];\n }\n\n const handlerData = {\n startTimestamp: timestampInSeconds() * 1000,\n xhr: this,\n };\n triggerHandlers('xhr', handlerData);\n\n return originalSend.apply(this, args);\n };\n });\n}\n\nfunction parseUrl(url) {\n if (isString(url)) {\n return url;\n }\n\n try {\n // url can be a string or URL\n // but since URL is not available in IE11, we do not check for it,\n // but simply assume it is an URL and return `toString()` from it (which returns the full URL)\n // If that fails, we just return undefined\n return (url ).toString();\n } catch (e2) {} // eslint-disable-line no-empty\n\n return undefined;\n}\n\nexport { SENTRY_XHR_DATA_KEY, addXhrInstrumentationHandler, instrumentXHR };\n","import { dateTimestampInSeconds, consoleSandbox } from '@sentry/utils';\nimport { getClient, getIsolationScope } from './currentScopes.js';\n\n/**\n * Default maximum number of breadcrumbs added to an event. Can be overwritten\n * with {@link Options.maxBreadcrumbs}.\n */\nconst DEFAULT_BREADCRUMBS = 100;\n\n/**\n * Records a new breadcrumb which will be attached to future events.\n *\n * Breadcrumbs will be added to subsequent events to provide more context on\n * user's actions prior to an error or crash.\n */\nfunction addBreadcrumb(breadcrumb, hint) {\n const client = getClient();\n const isolationScope = getIsolationScope();\n\n if (!client) return;\n\n const { beforeBreadcrumb = null, maxBreadcrumbs = DEFAULT_BREADCRUMBS } = client.getOptions();\n\n if (maxBreadcrumbs <= 0) return;\n\n const timestamp = dateTimestampInSeconds();\n const mergedBreadcrumb = { timestamp, ...breadcrumb };\n const finalBreadcrumb = beforeBreadcrumb\n ? (consoleSandbox(() => beforeBreadcrumb(mergedBreadcrumb, hint)) )\n : mergedBreadcrumb;\n\n if (finalBreadcrumb === null) return;\n\n if (client.emit) {\n client.emit('beforeAddBreadcrumb', finalBreadcrumb, hint);\n }\n\n isolationScope.addBreadcrumb(finalBreadcrumb, maxBreadcrumbs);\n}\n\nexport { addBreadcrumb };\n","import { CONSOLE_LEVELS, originalConsoleMethods } from '../logger.js';\nimport { fill } from '../object.js';\nimport { GLOBAL_OBJ } from '../worldwide.js';\nimport { addHandler, maybeInstrument, triggerHandlers } from './handlers.js';\n\n/**\n * Add an instrumentation handler for when a console.xxx method is called.\n *\n * Use at your own risk, this might break without changelog notice, only used internally.\n * @hidden\n */\nfunction addConsoleInstrumentationHandler(handler) {\n const type = 'console';\n addHandler(type, handler);\n maybeInstrument(type, instrumentConsole);\n}\n\nfunction instrumentConsole() {\n if (!('console' in GLOBAL_OBJ)) {\n return;\n }\n\n CONSOLE_LEVELS.forEach(function (level) {\n if (!(level in GLOBAL_OBJ.console)) {\n return;\n }\n\n fill(GLOBAL_OBJ.console, level, function (originalConsoleMethod) {\n originalConsoleMethods[level] = originalConsoleMethod;\n\n return function (...args) {\n const handlerData = { args, level };\n triggerHandlers('console', handlerData);\n\n const log = originalConsoleMethods[level];\n log && log.apply(GLOBAL_OBJ.console, args);\n };\n });\n });\n}\n\nexport { addConsoleInstrumentationHandler };\n","import { isError } from '../is.js';\nimport { fill, addNonEnumerableProperty } from '../object.js';\nimport { supportsNativeFetch } from '../supports.js';\nimport { timestampInSeconds } from '../time.js';\nimport { GLOBAL_OBJ } from '../worldwide.js';\nimport { addHandler, maybeInstrument, triggerHandlers } from './handlers.js';\n\n/**\n * Add an instrumentation handler for when a fetch request happens.\n * The handler function is called once when the request starts and once when it ends,\n * which can be identified by checking if it has an `endTimestamp`.\n *\n * Use at your own risk, this might break without changelog notice, only used internally.\n * @hidden\n */\nfunction addFetchInstrumentationHandler(\n handler,\n skipNativeFetchCheck,\n) {\n const type = 'fetch';\n addHandler(type, handler);\n maybeInstrument(type, () => instrumentFetch(undefined, skipNativeFetchCheck));\n}\n\n/**\n * Add an instrumentation handler for long-lived fetch requests, like consuming server-sent events (SSE) via fetch.\n * The handler will resolve the request body and emit the actual `endTimestamp`, so that the\n * span can be updated accordingly.\n *\n * Only used internally\n * @hidden\n */\nfunction addFetchEndInstrumentationHandler(handler) {\n const type = 'fetch-body-resolved';\n addHandler(type, handler);\n maybeInstrument(type, () => instrumentFetch(streamHandler));\n}\n\nfunction instrumentFetch(onFetchResolved, skipNativeFetchCheck = false) {\n if (skipNativeFetchCheck && !supportsNativeFetch()) {\n return;\n }\n\n fill(GLOBAL_OBJ, 'fetch', function (originalFetch) {\n return function (...args) {\n const { method, url } = parseFetchArgs(args);\n const handlerData = {\n args,\n fetchData: {\n method,\n url,\n },\n startTimestamp: timestampInSeconds() * 1000,\n };\n\n // if there is no callback, fetch is instrumented directly\n if (!onFetchResolved) {\n triggerHandlers('fetch', {\n ...handlerData,\n });\n }\n\n // We capture the stack right here and not in the Promise error callback because Safari (and probably other\n // browsers too) will wipe the stack trace up to this point, only leaving us with this file which is useless.\n\n // NOTE: If you are a Sentry user, and you are seeing this stack frame,\n // it means the error, that was caused by your fetch call did not\n // have a stack trace, so the SDK backfilled the stack trace so\n // you can see which fetch call failed.\n const virtualStackTrace = new Error().stack;\n\n // eslint-disable-next-line @typescript-eslint/no-unsafe-member-access\n return originalFetch.apply(GLOBAL_OBJ, args).then(\n async (response) => {\n if (onFetchResolved) {\n onFetchResolved(response);\n } else {\n triggerHandlers('fetch', {\n ...handlerData,\n endTimestamp: timestampInSeconds() * 1000,\n response,\n });\n }\n\n return response;\n },\n (error) => {\n triggerHandlers('fetch', {\n ...handlerData,\n endTimestamp: timestampInSeconds() * 1000,\n error,\n });\n\n if (isError(error) && error.stack === undefined) {\n // NOTE: If you are a Sentry user, and you are seeing this stack frame,\n // it means the error, that was caused by your fetch call did not\n // have a stack trace, so the SDK backfilled the stack trace so\n // you can see which fetch call failed.\n error.stack = virtualStackTrace;\n addNonEnumerableProperty(error, 'framesToPop', 1);\n }\n\n // NOTE: If you are a Sentry user, and you are seeing this stack frame,\n // it means the sentry.javascript SDK caught an error invoking your application code.\n // This is expected behavior and NOT indicative of a bug with sentry.javascript.\n throw error;\n },\n );\n };\n });\n}\n\nasync function resolveResponse(res, onFinishedResolving) {\n if (res && res.body && res.body.getReader) {\n const responseReader = res.body.getReader();\n\n // eslint-disable-next-line no-inner-declarations\n async function consumeChunks({ done }) {\n if (!done) {\n try {\n // abort reading if read op takes more than 5s\n const result = await Promise.race([\n responseReader.read(),\n new Promise(res => {\n setTimeout(() => {\n res({ done: true });\n }, 5000);\n }),\n ]);\n await consumeChunks(result);\n } catch (error) {\n // handle error if needed\n }\n } else {\n return Promise.resolve();\n }\n }\n\n return responseReader\n .read()\n .then(consumeChunks)\n .then(onFinishedResolving)\n .catch(() => undefined);\n }\n}\n\nasync function streamHandler(response) {\n // clone response for awaiting stream\n let clonedResponseForResolving;\n try {\n clonedResponseForResolving = response.clone();\n } catch (e) {\n return;\n }\n\n await resolveResponse(clonedResponseForResolving, () => {\n triggerHandlers('fetch-body-resolved', {\n endTimestamp: timestampInSeconds() * 1000,\n response,\n });\n });\n}\n\nfunction hasProp(obj, prop) {\n return !!obj && typeof obj === 'object' && !!(obj )[prop];\n}\n\nfunction getUrlFromResource(resource) {\n if (typeof resource === 'string') {\n return resource;\n }\n\n if (!resource) {\n return '';\n }\n\n if (hasProp(resource, 'url')) {\n return resource.url;\n }\n\n if (resource.toString) {\n return resource.toString();\n }\n\n return '';\n}\n\n/**\n * Parses the fetch arguments to find the used Http method and the url of the request.\n * Exported for tests only.\n */\nfunction parseFetchArgs(fetchArgs) {\n if (fetchArgs.length === 0) {\n return { method: 'GET', url: '' };\n }\n\n if (fetchArgs.length === 2) {\n const [url, options] = fetchArgs ;\n\n return {\n url: getUrlFromResource(url),\n method: hasProp(options, 'method') ? String(options.method).toUpperCase() : 'GET',\n };\n }\n\n const arg = fetchArgs[0];\n return {\n url: getUrlFromResource(arg ),\n method: hasProp(arg, 'method') ? String(arg.method).toUpperCase() : 'GET',\n };\n}\n\nexport { addFetchEndInstrumentationHandler, addFetchInstrumentationHandler, parseFetchArgs };\n","// Note: Ideally the `SeverityLevel` type would be derived from `validSeverityLevels`, but that would mean either\n//\n// a) moving `validSeverityLevels` to `@sentry/types`,\n// b) moving the`SeverityLevel` type here, or\n// c) importing `validSeverityLevels` from here into `@sentry/types`.\n//\n// Option A would make `@sentry/types` a runtime dependency of `@sentry/utils` (not good), and options B and C would\n// create a circular dependency between `@sentry/types` and `@sentry/utils` (also not good). So a TODO accompanying the\n// type, reminding anyone who changes it to change this list also, will have to do.\n\nconst validSeverityLevels = ['fatal', 'error', 'warning', 'log', 'info', 'debug'];\n\n/**\n * Converts a string-based level into a `SeverityLevel`, normalizing it along the way.\n *\n * @param level String representation of desired `SeverityLevel`.\n * @returns The `SeverityLevel` corresponding to the given string, or 'log' if the string isn't a valid level.\n */\nfunction severityLevelFromString(level) {\n return (level === 'warn' ? 'warning' : validSeverityLevels.includes(level) ? level : 'log') ;\n}\n\nexport { severityLevelFromString, validSeverityLevels };\n","/**\n * Parses string form of URL into an object\n * // borrowed from https://tools.ietf.org/html/rfc3986#appendix-B\n * // intentionally using regex and not href parsing trick because React Native and other\n * // environments where DOM might not be available\n * @returns parsed URL object\n */\nfunction parseUrl(url) {\n if (!url) {\n return {};\n }\n\n const match = url.match(/^(([^:/?#]+):)?(\\/\\/([^/?#]*))?([^?#]*)(\\?([^#]*))?(#(.*))?$/);\n\n if (!match) {\n return {};\n }\n\n // coerce to undefined values to empty string so we don't get 'undefined'\n const query = match[6] || '';\n const fragment = match[8] || '';\n return {\n host: match[4],\n path: match[5],\n protocol: match[2],\n search: query,\n hash: fragment,\n relative: match[5] + query + fragment, // everything minus origin\n };\n}\n\n/**\n * Strip the query string and fragment off of a given URL or path (if present)\n *\n * @param urlPath Full URL or path, including possible query string and/or fragment\n * @returns URL or path without query string or fragment\n */\nfunction stripUrlQueryAndFragment(urlPath) {\n return (urlPath.split(/[?#]/, 1) )[0];\n}\n\n/**\n * Returns number of URL segments of a passed string URL.\n */\nfunction getNumberOfUrlSegments(url) {\n // split at '/' or at '\\/' to split regex urls correctly\n return url.split(/\\\\?\\//).filter(s => s.length > 0 && s !== ',').length;\n}\n\n/**\n * Takes a URL object and returns a sanitized string which is safe to use as span name\n * see: https://develop.sentry.dev/sdk/data-handling/#structuring-data\n */\nfunction getSanitizedUrlString(url) {\n const { protocol, host, path } = url;\n\n const filteredHost =\n (host &&\n host\n // Always filter out authority\n .replace(/^.*@/, '[filtered]:[filtered]@')\n // Don't show standard :80 (http) and :443 (https) ports to reduce the noise\n // TODO: Use new URL global if it exists\n .replace(/(:80)$/, '')\n .replace(/(:443)$/, '')) ||\n '';\n\n return `${protocol ? `${protocol}://` : ''}${filteredHost}${path}`;\n}\n\nexport { getNumberOfUrlSegments, getSanitizedUrlString, parseUrl, stripUrlQueryAndFragment };\n","import { addClickKeypressInstrumentationHandler, addXhrInstrumentationHandler, addHistoryInstrumentationHandler, SENTRY_XHR_DATA_KEY } from '@sentry-internal/browser-utils';\nimport { defineIntegration, getClient, addBreadcrumb } from '@sentry/core';\nimport { addConsoleInstrumentationHandler, addFetchInstrumentationHandler, getEventDescription, logger, htmlTreeAsString, getComponentName, severityLevelFromString, safeJoin, parseUrl } from '@sentry/utils';\nimport { DEBUG_BUILD } from '../debug-build.js';\nimport { WINDOW } from '../helpers.js';\n\n/** maxStringLength gets capped to prevent 100 breadcrumbs exceeding 1MB event payload size */\nconst MAX_ALLOWED_STRING_LENGTH = 1024;\n\nconst INTEGRATION_NAME = 'Breadcrumbs';\n\nconst _breadcrumbsIntegration = ((options = {}) => {\n const _options = {\n console: true,\n dom: true,\n fetch: true,\n history: true,\n sentry: true,\n xhr: true,\n ...options,\n };\n\n return {\n name: INTEGRATION_NAME,\n setup(client) {\n if (_options.console) {\n addConsoleInstrumentationHandler(_getConsoleBreadcrumbHandler(client));\n }\n if (_options.dom) {\n addClickKeypressInstrumentationHandler(_getDomBreadcrumbHandler(client, _options.dom));\n }\n if (_options.xhr) {\n addXhrInstrumentationHandler(_getXhrBreadcrumbHandler(client));\n }\n if (_options.fetch) {\n addFetchInstrumentationHandler(_getFetchBreadcrumbHandler(client));\n }\n if (_options.history) {\n addHistoryInstrumentationHandler(_getHistoryBreadcrumbHandler(client));\n }\n if (_options.sentry) {\n client.on('beforeSendEvent', _getSentryBreadcrumbHandler(client));\n }\n },\n };\n}) ;\n\nconst breadcrumbsIntegration = defineIntegration(_breadcrumbsIntegration);\n\n/**\n * Adds a breadcrumb for Sentry events or transactions if this option is enabled.\n */\nfunction _getSentryBreadcrumbHandler(client) {\n return function addSentryBreadcrumb(event) {\n if (getClient() !== client) {\n return;\n }\n\n addBreadcrumb(\n {\n category: `sentry.${event.type === 'transaction' ? 'transaction' : 'event'}`,\n event_id: event.event_id,\n level: event.level,\n message: getEventDescription(event),\n },\n {\n event,\n },\n );\n };\n}\n\n/**\n * A HOC that creaes a function that creates breadcrumbs from DOM API calls.\n * This is a HOC so that we get access to dom options in the closure.\n */\nfunction _getDomBreadcrumbHandler(\n client,\n dom,\n) {\n return function _innerDomBreadcrumb(handlerData) {\n if (getClient() !== client) {\n return;\n }\n\n let target;\n let componentName;\n let keyAttrs = typeof dom === 'object' ? dom.serializeAttribute : undefined;\n\n let maxStringLength =\n typeof dom === 'object' && typeof dom.maxStringLength === 'number' ? dom.maxStringLength : undefined;\n if (maxStringLength && maxStringLength > MAX_ALLOWED_STRING_LENGTH) {\n DEBUG_BUILD &&\n logger.warn(\n `\\`dom.maxStringLength\\` cannot exceed ${MAX_ALLOWED_STRING_LENGTH}, but a value of ${maxStringLength} was configured. Sentry will use ${MAX_ALLOWED_STRING_LENGTH} instead.`,\n );\n maxStringLength = MAX_ALLOWED_STRING_LENGTH;\n }\n\n if (typeof keyAttrs === 'string') {\n keyAttrs = [keyAttrs];\n }\n\n // Accessing event.target can throw (see getsentry/raven-js#838, #768)\n try {\n const event = handlerData.event ;\n const element = _isEvent(event) ? event.target : event;\n\n target = htmlTreeAsString(element, { keyAttrs, maxStringLength });\n componentName = getComponentName(element);\n } catch (e) {\n target = '';\n }\n\n if (target.length === 0) {\n return;\n }\n\n const breadcrumb = {\n category: `ui.${handlerData.name}`,\n message: target,\n };\n\n if (componentName) {\n breadcrumb.data = { 'ui.component_name': componentName };\n }\n\n addBreadcrumb(breadcrumb, {\n event: handlerData.event,\n name: handlerData.name,\n global: handlerData.global,\n });\n };\n}\n\n/**\n * Creates breadcrumbs from console API calls\n */\nfunction _getConsoleBreadcrumbHandler(client) {\n return function _consoleBreadcrumb(handlerData) {\n if (getClient() !== client) {\n return;\n }\n\n const breadcrumb = {\n category: 'console',\n data: {\n arguments: handlerData.args,\n logger: 'console',\n },\n level: severityLevelFromString(handlerData.level),\n message: safeJoin(handlerData.args, ' '),\n };\n\n if (handlerData.level === 'assert') {\n if (handlerData.args[0] === false) {\n breadcrumb.message = `Assertion failed: ${safeJoin(handlerData.args.slice(1), ' ') || 'console.assert'}`;\n breadcrumb.data.arguments = handlerData.args.slice(1);\n } else {\n // Don't capture a breadcrumb for passed assertions\n return;\n }\n }\n\n addBreadcrumb(breadcrumb, {\n input: handlerData.args,\n level: handlerData.level,\n });\n };\n}\n\n/**\n * Creates breadcrumbs from XHR API calls\n */\nfunction _getXhrBreadcrumbHandler(client) {\n return function _xhrBreadcrumb(handlerData) {\n if (getClient() !== client) {\n return;\n }\n\n const { startTimestamp, endTimestamp } = handlerData;\n\n const sentryXhrData = handlerData.xhr[SENTRY_XHR_DATA_KEY];\n\n // We only capture complete, non-sentry requests\n if (!startTimestamp || !endTimestamp || !sentryXhrData) {\n return;\n }\n\n const { method, url, status_code, body } = sentryXhrData;\n\n const data = {\n method,\n url,\n status_code,\n };\n\n const hint = {\n xhr: handlerData.xhr,\n input: body,\n startTimestamp,\n endTimestamp,\n };\n\n addBreadcrumb(\n {\n category: 'xhr',\n data,\n type: 'http',\n },\n hint,\n );\n };\n}\n\n/**\n * Creates breadcrumbs from fetch API calls\n */\nfunction _getFetchBreadcrumbHandler(client) {\n return function _fetchBreadcrumb(handlerData) {\n if (getClient() !== client) {\n return;\n }\n\n const { startTimestamp, endTimestamp } = handlerData;\n\n // We only capture complete fetch requests\n if (!endTimestamp) {\n return;\n }\n\n if (handlerData.fetchData.url.match(/sentry_key/) && handlerData.fetchData.method === 'POST') {\n // We will not create breadcrumbs for fetch requests that contain `sentry_key` (internal sentry requests)\n return;\n }\n\n if (handlerData.error) {\n const data = handlerData.fetchData;\n const hint = {\n data: handlerData.error,\n input: handlerData.args,\n startTimestamp,\n endTimestamp,\n };\n\n addBreadcrumb(\n {\n category: 'fetch',\n data,\n level: 'error',\n type: 'http',\n },\n hint,\n );\n } else {\n const response = handlerData.response ;\n const data = {\n ...handlerData.fetchData,\n status_code: response && response.status,\n };\n const hint = {\n input: handlerData.args,\n response,\n startTimestamp,\n endTimestamp,\n };\n addBreadcrumb(\n {\n category: 'fetch',\n data,\n type: 'http',\n },\n hint,\n );\n }\n };\n}\n\n/**\n * Creates breadcrumbs from history API calls\n */\nfunction _getHistoryBreadcrumbHandler(client) {\n return function _historyBreadcrumb(handlerData) {\n if (getClient() !== client) {\n return;\n }\n\n let from = handlerData.from;\n let to = handlerData.to;\n const parsedLoc = parseUrl(WINDOW.location.href);\n let parsedFrom = from ? parseUrl(from) : undefined;\n const parsedTo = parseUrl(to);\n\n // Initial pushState doesn't provide `from` information\n if (!parsedFrom || !parsedFrom.path) {\n parsedFrom = parsedLoc;\n }\n\n // Use only the path component of the URL if the URL matches the current\n // document (almost all the time when using pushState)\n if (parsedLoc.protocol === parsedTo.protocol && parsedLoc.host === parsedTo.host) {\n to = parsedTo.relative;\n }\n if (parsedLoc.protocol === parsedFrom.protocol && parsedLoc.host === parsedFrom.host) {\n from = parsedFrom.relative;\n }\n\n addBreadcrumb({\n category: 'navigation',\n data: {\n from,\n to,\n },\n });\n };\n}\n\nfunction _isEvent(event) {\n return !!event && !!(event ).target;\n}\n\nexport { breadcrumbsIntegration };\n","import { defineIntegration } from '@sentry/core';\nimport { fill, getFunctionName, getOriginalFunction } from '@sentry/utils';\nimport { WINDOW, wrap } from '../helpers.js';\n\nconst DEFAULT_EVENT_TARGET = [\n 'EventTarget',\n 'Window',\n 'Node',\n 'ApplicationCache',\n 'AudioTrackList',\n 'BroadcastChannel',\n 'ChannelMergerNode',\n 'CryptoOperation',\n 'EventSource',\n 'FileReader',\n 'HTMLUnknownElement',\n 'IDBDatabase',\n 'IDBRequest',\n 'IDBTransaction',\n 'KeyOperation',\n 'MediaController',\n 'MessagePort',\n 'ModalWindow',\n 'Notification',\n 'SVGElementInstance',\n 'Screen',\n 'SharedWorker',\n 'TextTrack',\n 'TextTrackCue',\n 'TextTrackList',\n 'WebSocket',\n 'WebSocketWorker',\n 'Worker',\n 'XMLHttpRequest',\n 'XMLHttpRequestEventTarget',\n 'XMLHttpRequestUpload',\n];\n\nconst INTEGRATION_NAME = 'BrowserApiErrors';\n\nconst _browserApiErrorsIntegration = ((options = {}) => {\n const _options = {\n XMLHttpRequest: true,\n eventTarget: true,\n requestAnimationFrame: true,\n setInterval: true,\n setTimeout: true,\n ...options,\n };\n\n return {\n name: INTEGRATION_NAME,\n // TODO: This currently only works for the first client this is setup\n // We may want to adjust this to check for client etc.\n setupOnce() {\n if (_options.setTimeout) {\n fill(WINDOW, 'setTimeout', _wrapTimeFunction);\n }\n\n if (_options.setInterval) {\n fill(WINDOW, 'setInterval', _wrapTimeFunction);\n }\n\n if (_options.requestAnimationFrame) {\n fill(WINDOW, 'requestAnimationFrame', _wrapRAF);\n }\n\n if (_options.XMLHttpRequest && 'XMLHttpRequest' in WINDOW) {\n fill(XMLHttpRequest.prototype, 'send', _wrapXHR);\n }\n\n const eventTargetOption = _options.eventTarget;\n if (eventTargetOption) {\n const eventTarget = Array.isArray(eventTargetOption) ? eventTargetOption : DEFAULT_EVENT_TARGET;\n eventTarget.forEach(_wrapEventTarget);\n }\n },\n };\n}) ;\n\n/**\n * Wrap timer functions and event targets to catch errors and provide better meta data.\n */\nconst browserApiErrorsIntegration = defineIntegration(_browserApiErrorsIntegration);\n\nfunction _wrapTimeFunction(original) {\n // eslint-disable-next-line @typescript-eslint/no-explicit-any\n return function ( ...args) {\n const originalCallback = args[0];\n args[0] = wrap(originalCallback, {\n mechanism: {\n data: { function: getFunctionName(original) },\n handled: false,\n type: 'instrument',\n },\n });\n return original.apply(this, args);\n };\n}\n\n// eslint-disable-next-line @typescript-eslint/no-explicit-any\nfunction _wrapRAF(original) {\n // eslint-disable-next-line @typescript-eslint/no-explicit-any\n return function ( callback) {\n // eslint-disable-next-line @typescript-eslint/no-unsafe-member-access\n return original.apply(this, [\n wrap(callback, {\n mechanism: {\n data: {\n function: 'requestAnimationFrame',\n handler: getFunctionName(original),\n },\n handled: false,\n type: 'instrument',\n },\n }),\n ]);\n };\n}\n\nfunction _wrapXHR(originalSend) {\n // eslint-disable-next-line @typescript-eslint/no-explicit-any\n return function ( ...args) {\n // eslint-disable-next-line @typescript-eslint/no-this-alias\n const xhr = this;\n const xmlHttpRequestProps = ['onload', 'onerror', 'onprogress', 'onreadystatechange'];\n\n xmlHttpRequestProps.forEach(prop => {\n if (prop in xhr && typeof xhr[prop] === 'function') {\n // eslint-disable-next-line @typescript-eslint/no-explicit-any\n fill(xhr, prop, function (original) {\n const wrapOptions = {\n mechanism: {\n data: {\n function: prop,\n handler: getFunctionName(original),\n },\n handled: false,\n type: 'instrument',\n },\n };\n\n // If Instrument integration has been called before BrowserApiErrors, get the name of original function\n const originalFunction = getOriginalFunction(original);\n if (originalFunction) {\n wrapOptions.mechanism.data.handler = getFunctionName(originalFunction);\n }\n\n // Otherwise wrap directly\n return wrap(original, wrapOptions);\n });\n }\n });\n\n return originalSend.apply(this, args);\n };\n}\n\nfunction _wrapEventTarget(target) {\n // eslint-disable-next-line @typescript-eslint/no-explicit-any\n const globalObject = WINDOW ;\n // eslint-disable-next-line @typescript-eslint/no-unsafe-member-access\n const proto = globalObject[target] && globalObject[target].prototype;\n\n // eslint-disable-next-line @typescript-eslint/no-unsafe-member-access, no-prototype-builtins\n if (!proto || !proto.hasOwnProperty || !proto.hasOwnProperty('addEventListener')) {\n return;\n }\n\n fill(proto, 'addEventListener', function (original,)\n\n {\n return function (\n // eslint-disable-next-line @typescript-eslint/no-explicit-any\n\n eventName,\n fn,\n options,\n ) {\n try {\n if (typeof fn.handleEvent === 'function') {\n // ESlint disable explanation:\n // First, it is generally safe to call `wrap` with an unbound function. Furthermore, using `.bind()` would\n // introduce a bug here, because bind returns a new function that doesn't have our\n // flags(like __sentry_original__) attached. `wrap` checks for those flags to avoid unnecessary wrapping.\n // Without those flags, every call to addEventListener wraps the function again, causing a memory leak.\n // eslint-disable-next-line @typescript-eslint/unbound-method\n fn.handleEvent = wrap(fn.handleEvent, {\n mechanism: {\n data: {\n function: 'handleEvent',\n handler: getFunctionName(fn),\n target,\n },\n handled: false,\n type: 'instrument',\n },\n });\n }\n } catch (err) {\n // can sometimes get 'Permission denied to access property \"handle Event'\n }\n\n return original.apply(this, [\n eventName,\n // eslint-disable-next-line @typescript-eslint/no-explicit-any\n wrap(fn , {\n mechanism: {\n data: {\n function: 'addEventListener',\n handler: getFunctionName(fn),\n target,\n },\n handled: false,\n type: 'instrument',\n },\n }),\n options,\n ]);\n };\n });\n\n fill(\n proto,\n 'removeEventListener',\n function (\n originalRemoveEventListener,\n // eslint-disable-next-line @typescript-eslint/no-explicit-any\n ) {\n return function (\n // eslint-disable-next-line @typescript-eslint/no-explicit-any\n\n eventName,\n fn,\n options,\n ) {\n /**\n * There are 2 possible scenarios here:\n *\n * 1. Someone passes a callback, which was attached prior to Sentry initialization, or by using unmodified\n * method, eg. `document.addEventListener.call(el, name, handler). In this case, we treat this function\n * as a pass-through, and call original `removeEventListener` with it.\n *\n * 2. Someone passes a callback, which was attached after Sentry was initialized, which means that it was using\n * our wrapped version of `addEventListener`, which internally calls `wrap` helper.\n * This helper \"wraps\" whole callback inside a try/catch statement, and attached appropriate metadata to it,\n * in order for us to make a distinction between wrapped/non-wrapped functions possible.\n * If a function was wrapped, it has additional property of `__sentry_wrapped__`, holding the handler.\n *\n * When someone adds a handler prior to initialization, and then do it again, but after,\n * then we have to detach both of them. Otherwise, if we'd detach only wrapped one, it'd be impossible\n * to get rid of the initial handler and it'd stick there forever.\n */\n const wrappedEventHandler = fn ;\n try {\n const originalEventHandler = wrappedEventHandler && wrappedEventHandler.__sentry_wrapped__;\n if (originalEventHandler) {\n originalRemoveEventListener.call(this, eventName, originalEventHandler, options);\n }\n } catch (e) {\n // ignore, accessing __sentry_wrapped__ will throw in some Selenium environments\n }\n return originalRemoveEventListener.call(this, eventName, wrappedEventHandler, options);\n };\n },\n );\n}\n\nexport { browserApiErrorsIntegration };\n","import { GLOBAL_OBJ } from '../worldwide.js';\nimport { addHandler, maybeInstrument, triggerHandlers } from './handlers.js';\n\nlet _oldOnErrorHandler = null;\n\n/**\n * Add an instrumentation handler for when an error is captured by the global error handler.\n *\n * Use at your own risk, this might break without changelog notice, only used internally.\n * @hidden\n */\nfunction addGlobalErrorInstrumentationHandler(handler) {\n const type = 'error';\n addHandler(type, handler);\n maybeInstrument(type, instrumentError);\n}\n\nfunction instrumentError() {\n _oldOnErrorHandler = GLOBAL_OBJ.onerror;\n\n GLOBAL_OBJ.onerror = function (\n msg,\n url,\n line,\n column,\n error,\n ) {\n const handlerData = {\n column,\n error,\n line,\n msg,\n url,\n };\n triggerHandlers('error', handlerData);\n\n if (_oldOnErrorHandler && !_oldOnErrorHandler.__SENTRY_LOADER__) {\n // eslint-disable-next-line prefer-rest-params\n return _oldOnErrorHandler.apply(this, arguments);\n }\n\n return false;\n };\n\n GLOBAL_OBJ.onerror.__SENTRY_INSTRUMENTED__ = true;\n}\n\nexport { addGlobalErrorInstrumentationHandler };\n","import { GLOBAL_OBJ } from '../worldwide.js';\nimport { addHandler, maybeInstrument, triggerHandlers } from './handlers.js';\n\nlet _oldOnUnhandledRejectionHandler = null;\n\n/**\n * Add an instrumentation handler for when an unhandled promise rejection is captured.\n *\n * Use at your own risk, this might break without changelog notice, only used internally.\n * @hidden\n */\nfunction addGlobalUnhandledRejectionInstrumentationHandler(\n handler,\n) {\n const type = 'unhandledrejection';\n addHandler(type, handler);\n maybeInstrument(type, instrumentUnhandledRejection);\n}\n\nfunction instrumentUnhandledRejection() {\n _oldOnUnhandledRejectionHandler = GLOBAL_OBJ.onunhandledrejection;\n\n GLOBAL_OBJ.onunhandledrejection = function (e) {\n const handlerData = e;\n triggerHandlers('unhandledrejection', handlerData);\n\n if (_oldOnUnhandledRejectionHandler && !_oldOnUnhandledRejectionHandler.__SENTRY_LOADER__) {\n // eslint-disable-next-line prefer-rest-params\n return _oldOnUnhandledRejectionHandler.apply(this, arguments);\n }\n\n return true;\n };\n\n GLOBAL_OBJ.onunhandledrejection.__SENTRY_INSTRUMENTED__ = true;\n}\n\nexport { addGlobalUnhandledRejectionInstrumentationHandler };\n","import { defineIntegration, getClient, captureEvent } from '@sentry/core';\nimport { addGlobalErrorInstrumentationHandler, addGlobalUnhandledRejectionInstrumentationHandler, isPrimitive, isString, getLocationHref, UNKNOWN_FUNCTION, logger } from '@sentry/utils';\nimport { DEBUG_BUILD } from '../debug-build.js';\nimport { eventFromUnknownInput } from '../eventbuilder.js';\nimport { shouldIgnoreOnError } from '../helpers.js';\n\nconst INTEGRATION_NAME = 'GlobalHandlers';\n\nconst _globalHandlersIntegration = ((options = {}) => {\n const _options = {\n onerror: true,\n onunhandledrejection: true,\n ...options,\n };\n\n return {\n name: INTEGRATION_NAME,\n setupOnce() {\n Error.stackTraceLimit = 50;\n },\n setup(client) {\n if (_options.onerror) {\n _installGlobalOnErrorHandler(client);\n globalHandlerLog('onerror');\n }\n if (_options.onunhandledrejection) {\n _installGlobalOnUnhandledRejectionHandler(client);\n globalHandlerLog('onunhandledrejection');\n }\n },\n };\n}) ;\n\nconst globalHandlersIntegration = defineIntegration(_globalHandlersIntegration);\n\nfunction _installGlobalOnErrorHandler(client) {\n addGlobalErrorInstrumentationHandler(data => {\n const { stackParser, attachStacktrace } = getOptions();\n\n if (getClient() !== client || shouldIgnoreOnError()) {\n return;\n }\n\n const { msg, url, line, column, error } = data;\n\n const event = _enhanceEventWithInitialFrame(\n eventFromUnknownInput(stackParser, error || msg, undefined, attachStacktrace, false),\n url,\n line,\n column,\n );\n\n event.level = 'error';\n\n captureEvent(event, {\n originalException: error,\n mechanism: {\n handled: false,\n type: 'onerror',\n },\n });\n });\n}\n\nfunction _installGlobalOnUnhandledRejectionHandler(client) {\n addGlobalUnhandledRejectionInstrumentationHandler(e => {\n const { stackParser, attachStacktrace } = getOptions();\n\n if (getClient() !== client || shouldIgnoreOnError()) {\n return;\n }\n\n const error = _getUnhandledRejectionError(e );\n\n const event = isPrimitive(error)\n ? _eventFromRejectionWithPrimitive(error)\n : eventFromUnknownInput(stackParser, error, undefined, attachStacktrace, true);\n\n event.level = 'error';\n\n captureEvent(event, {\n originalException: error,\n mechanism: {\n handled: false,\n type: 'onunhandledrejection',\n },\n });\n });\n}\n\nfunction _getUnhandledRejectionError(error) {\n if (isPrimitive(error)) {\n return error;\n }\n\n // dig the object of the rejection out of known event types\n try {\n\n // PromiseRejectionEvents store the object of the rejection under 'reason'\n // see https://developer.mozilla.org/en-US/docs/Web/API/PromiseRejectionEvent\n if ('reason' in (error )) {\n return (error ).reason;\n }\n\n // something, somewhere, (likely a browser extension) effectively casts PromiseRejectionEvents\n // to CustomEvents, moving the `promise` and `reason` attributes of the PRE into\n // the CustomEvent's `detail` attribute, since they're not part of CustomEvent's spec\n // see https://developer.mozilla.org/en-US/docs/Web/API/CustomEvent and\n // https://github.com/getsentry/sentry-javascript/issues/2380\n if ('detail' in (error ) && 'reason' in (error ).detail) {\n return (error ).detail.reason;\n }\n } catch (e2) {} // eslint-disable-line no-empty\n\n return error;\n}\n\n/**\n * Create an event from a promise rejection where the `reason` is a primitive.\n *\n * @param reason: The `reason` property of the promise rejection\n * @returns An Event object with an appropriate `exception` value\n */\nfunction _eventFromRejectionWithPrimitive(reason) {\n return {\n exception: {\n values: [\n {\n type: 'UnhandledRejection',\n // String() is needed because the Primitive type includes symbols (which can't be automatically stringified)\n value: `Non-Error promise rejection captured with value: ${String(reason)}`,\n },\n ],\n },\n };\n}\n\n// eslint-disable-next-line @typescript-eslint/no-explicit-any\nfunction _enhanceEventWithInitialFrame(event, url, line, column) {\n // event.exception\n const e = (event.exception = event.exception || {});\n // event.exception.values\n const ev = (e.values = e.values || []);\n // event.exception.values[0]\n const ev0 = (ev[0] = ev[0] || {});\n // event.exception.values[0].stacktrace\n const ev0s = (ev0.stacktrace = ev0.stacktrace || {});\n // event.exception.values[0].stacktrace.frames\n const ev0sf = (ev0s.frames = ev0s.frames || []);\n\n const colno = isNaN(parseInt(column, 10)) ? undefined : column;\n const lineno = isNaN(parseInt(line, 10)) ? undefined : line;\n const filename = isString(url) && url.length > 0 ? url : getLocationHref();\n\n // event.exception.values[0].stacktrace.frames\n if (ev0sf.length === 0) {\n ev0sf.push({\n colno,\n filename,\n function: UNKNOWN_FUNCTION,\n in_app: true,\n lineno,\n });\n }\n\n return event;\n}\n\nfunction globalHandlerLog(type) {\n DEBUG_BUILD && logger.log(`Global Handler attached: ${type}`);\n}\n\nfunction getOptions() {\n const client = getClient();\n const options = (client && client.getOptions()) || {\n stackParser: () => [],\n attachStacktrace: false,\n };\n return options;\n}\n\nexport { globalHandlersIntegration };\n","import { defineIntegration } from '@sentry/core';\nimport { WINDOW } from '../helpers.js';\n\n/**\n * Collects information about HTTP request headers and\n * attaches them to the event.\n */\nconst httpContextIntegration = defineIntegration(() => {\n return {\n name: 'HttpContext',\n preprocessEvent(event) {\n // if none of the information we want exists, don't bother\n if (!WINDOW.navigator && !WINDOW.location && !WINDOW.document) {\n return;\n }\n\n // grab as much info as exists and add it to the event\n const url = (event.request && event.request.url) || (WINDOW.location && WINDOW.location.href);\n const { referrer } = WINDOW.document || {};\n const { userAgent } = WINDOW.navigator || {};\n\n const headers = {\n ...(event.request && event.request.headers),\n ...(referrer && { Referer: referrer }),\n ...(userAgent && { 'User-Agent': userAgent }),\n };\n const request = { ...event.request, ...(url && { url }), headers };\n\n event.request = request;\n },\n };\n});\n\nexport { httpContextIntegration };\n","import { isInstanceOf } from './is.js';\nimport { truncate } from './string.js';\n\n/**\n * Creates exceptions inside `event.exception.values` for errors that are nested on properties based on the `key` parameter.\n */\nfunction applyAggregateErrorsToEvent(\n exceptionFromErrorImplementation,\n parser,\n maxValueLimit = 250,\n key,\n limit,\n event,\n hint,\n) {\n if (!event.exception || !event.exception.values || !hint || !isInstanceOf(hint.originalException, Error)) {\n return;\n }\n\n // Generally speaking the last item in `event.exception.values` is the exception originating from the original Error\n const originalException =\n event.exception.values.length > 0 ? event.exception.values[event.exception.values.length - 1] : undefined;\n\n // We only create exception grouping if there is an exception in the event.\n if (originalException) {\n event.exception.values = truncateAggregateExceptions(\n aggregateExceptionsFromError(\n exceptionFromErrorImplementation,\n parser,\n limit,\n hint.originalException ,\n key,\n event.exception.values,\n originalException,\n 0,\n ),\n maxValueLimit,\n );\n }\n}\n\nfunction aggregateExceptionsFromError(\n exceptionFromErrorImplementation,\n parser,\n limit,\n error,\n key,\n prevExceptions,\n exception,\n exceptionId,\n) {\n if (prevExceptions.length >= limit + 1) {\n return prevExceptions;\n }\n\n let newExceptions = [...prevExceptions];\n\n // Recursively call this function in order to walk down a chain of errors\n if (isInstanceOf(error[key], Error)) {\n applyExceptionGroupFieldsForParentException(exception, exceptionId);\n const newException = exceptionFromErrorImplementation(parser, error[key]);\n const newExceptionId = newExceptions.length;\n applyExceptionGroupFieldsForChildException(newException, key, newExceptionId, exceptionId);\n newExceptions = aggregateExceptionsFromError(\n exceptionFromErrorImplementation,\n parser,\n limit,\n error[key],\n key,\n [newException, ...newExceptions],\n newException,\n newExceptionId,\n );\n }\n\n // This will create exception grouping for AggregateErrors\n // https://developer.mozilla.org/en-US/docs/Web/JavaScript/Reference/Global_Objects/AggregateError\n if (Array.isArray(error.errors)) {\n error.errors.forEach((childError, i) => {\n if (isInstanceOf(childError, Error)) {\n applyExceptionGroupFieldsForParentException(exception, exceptionId);\n const newException = exceptionFromErrorImplementation(parser, childError);\n const newExceptionId = newExceptions.length;\n applyExceptionGroupFieldsForChildException(newException, `errors[${i}]`, newExceptionId, exceptionId);\n newExceptions = aggregateExceptionsFromError(\n exceptionFromErrorImplementation,\n parser,\n limit,\n childError,\n key,\n [newException, ...newExceptions],\n newException,\n newExceptionId,\n );\n }\n });\n }\n\n return newExceptions;\n}\n\nfunction applyExceptionGroupFieldsForParentException(exception, exceptionId) {\n // Don't know if this default makes sense. The protocol requires us to set these values so we pick *some* default.\n exception.mechanism = exception.mechanism || { type: 'generic', handled: true };\n\n exception.mechanism = {\n ...exception.mechanism,\n ...(exception.type === 'AggregateError' && { is_exception_group: true }),\n exception_id: exceptionId,\n };\n}\n\nfunction applyExceptionGroupFieldsForChildException(\n exception,\n source,\n exceptionId,\n parentId,\n) {\n // Don't know if this default makes sense. The protocol requires us to set these values so we pick *some* default.\n exception.mechanism = exception.mechanism || { type: 'generic', handled: true };\n\n exception.mechanism = {\n ...exception.mechanism,\n type: 'chained',\n source,\n exception_id: exceptionId,\n parent_id: parentId,\n };\n}\n\n/**\n * Truncate the message (exception.value) of all exceptions in the event.\n * Because this event processor is ran after `applyClientOptions`,\n * we need to truncate the message of the added exceptions here.\n */\nfunction truncateAggregateExceptions(exceptions, maxValueLength) {\n return exceptions.map(exception => {\n if (exception.value) {\n exception.value = truncate(exception.value, maxValueLength);\n }\n return exception;\n });\n}\n\nexport { applyAggregateErrorsToEvent };\n","import { defineIntegration } from '@sentry/core';\nimport { applyAggregateErrorsToEvent } from '@sentry/utils';\nimport { exceptionFromError } from '../eventbuilder.js';\n\nconst DEFAULT_KEY = 'cause';\nconst DEFAULT_LIMIT = 5;\n\nconst INTEGRATION_NAME = 'LinkedErrors';\n\nconst _linkedErrorsIntegration = ((options = {}) => {\n const limit = options.limit || DEFAULT_LIMIT;\n const key = options.key || DEFAULT_KEY;\n\n return {\n name: INTEGRATION_NAME,\n preprocessEvent(event, hint, client) {\n const options = client.getOptions();\n\n applyAggregateErrorsToEvent(\n // This differs from the LinkedErrors integration in core by using a different exceptionFromError function\n exceptionFromError,\n options.stackParser,\n options.maxValueLength,\n key,\n limit,\n event,\n hint,\n );\n },\n };\n}) ;\n\n/**\n * Aggregrate linked errors in an event.\n */\nconst linkedErrorsIntegration = defineIntegration(_linkedErrorsIntegration);\n\nexport { linkedErrorsIntegration };\n","import { createStackParser, UNKNOWN_FUNCTION } from '@sentry/utils';\n\nconst OPERA10_PRIORITY = 10;\nconst OPERA11_PRIORITY = 20;\nconst CHROME_PRIORITY = 30;\nconst WINJS_PRIORITY = 40;\nconst GECKO_PRIORITY = 50;\n\nfunction createFrame(filename, func, lineno, colno) {\n const frame = {\n filename,\n function: func === '' ? UNKNOWN_FUNCTION : func,\n in_app: true, // All browser frames are considered in_app\n };\n\n if (lineno !== undefined) {\n frame.lineno = lineno;\n }\n\n if (colno !== undefined) {\n frame.colno = colno;\n }\n\n return frame;\n}\n\n// This regex matches frames that have no function name (ie. are at the top level of a module).\n// For example \"at http://localhost:5000//script.js:1:126\"\n// Frames _with_ function names usually look as follows: \"at commitLayoutEffects (react-dom.development.js:23426:1)\"\nconst chromeRegexNoFnName = /^\\s*at (\\S+?)(?::(\\d+))(?::(\\d+))\\s*$/i;\n\n// This regex matches all the frames that have a function name.\nconst chromeRegex =\n /^\\s*at (?:(.+?\\)(?: \\[.+\\])?|.*?) ?\\((?:address at )?)?(?:async )?((?:|[-a-z]+:|.*bundle|\\/)?.*?)(?::(\\d+))?(?::(\\d+))?\\)?\\s*$/i;\n\nconst chromeEvalRegex = /\\((\\S*)(?::(\\d+))(?::(\\d+))\\)/;\n\n// Chromium based browsers: Chrome, Brave, new Opera, new Edge\n// We cannot call this variable `chrome` because it can conflict with global `chrome` variable in certain environments\n// See: https://github.com/getsentry/sentry-javascript/issues/6880\nconst chromeStackParserFn = line => {\n // If the stack line has no function name, we need to parse it differently\n const noFnParts = chromeRegexNoFnName.exec(line) ;\n\n if (noFnParts) {\n const [, filename, line, col] = noFnParts;\n return createFrame(filename, UNKNOWN_FUNCTION, +line, +col);\n }\n\n const parts = chromeRegex.exec(line) ;\n\n if (parts) {\n const isEval = parts[2] && parts[2].indexOf('eval') === 0; // start of line\n\n if (isEval) {\n const subMatch = chromeEvalRegex.exec(parts[2]) ;\n\n if (subMatch) {\n // throw out eval line/column and use top-most line/column number\n parts[2] = subMatch[1]; // url\n parts[3] = subMatch[2]; // line\n parts[4] = subMatch[3]; // column\n }\n }\n\n // Kamil: One more hack won't hurt us right? Understanding and adding more rules on top of these regexps right now\n // would be way too time consuming. (TODO: Rewrite whole RegExp to be more readable)\n const [func, filename] = extractSafariExtensionDetails(parts[1] || UNKNOWN_FUNCTION, parts[2]);\n\n return createFrame(filename, func, parts[3] ? +parts[3] : undefined, parts[4] ? +parts[4] : undefined);\n }\n\n return;\n};\n\nconst chromeStackLineParser = [CHROME_PRIORITY, chromeStackParserFn];\n\n// gecko regex: `(?:bundle|\\d+\\.js)`: `bundle` is for react native, `\\d+\\.js` also but specifically for ram bundles because it\n// generates filenames without a prefix like `file://` the filenames in the stacktrace are just 42.js\n// We need this specific case for now because we want no other regex to match.\nconst geckoREgex =\n /^\\s*(.*?)(?:\\((.*?)\\))?(?:^|@)?((?:[-a-z]+)?:\\/.*?|\\[native code\\]|[^@]*(?:bundle|\\d+\\.js)|\\/[\\w\\-. /=]+)(?::(\\d+))?(?::(\\d+))?\\s*$/i;\nconst geckoEvalRegex = /(\\S+) line (\\d+)(?: > eval line \\d+)* > eval/i;\n\nconst gecko = line => {\n const parts = geckoREgex.exec(line) ;\n\n if (parts) {\n const isEval = parts[3] && parts[3].indexOf(' > eval') > -1;\n if (isEval) {\n const subMatch = geckoEvalRegex.exec(parts[3]) ;\n\n if (subMatch) {\n // throw out eval line/column and use top-most line number\n parts[1] = parts[1] || 'eval';\n parts[3] = subMatch[1];\n parts[4] = subMatch[2];\n parts[5] = ''; // no column when eval\n }\n }\n\n let filename = parts[3];\n let func = parts[1] || UNKNOWN_FUNCTION;\n [func, filename] = extractSafariExtensionDetails(func, filename);\n\n return createFrame(filename, func, parts[4] ? +parts[4] : undefined, parts[5] ? +parts[5] : undefined);\n }\n\n return;\n};\n\nconst geckoStackLineParser = [GECKO_PRIORITY, gecko];\n\nconst winjsRegex = /^\\s*at (?:((?:\\[object object\\])?.+) )?\\(?((?:[-a-z]+):.*?):(\\d+)(?::(\\d+))?\\)?\\s*$/i;\n\nconst winjs = line => {\n const parts = winjsRegex.exec(line) ;\n\n return parts\n ? createFrame(parts[2], parts[1] || UNKNOWN_FUNCTION, +parts[3], parts[4] ? +parts[4] : undefined)\n : undefined;\n};\n\nconst winjsStackLineParser = [WINJS_PRIORITY, winjs];\n\nconst opera10Regex = / line (\\d+).*script (?:in )?(\\S+)(?:: in function (\\S+))?$/i;\n\nconst opera10 = line => {\n const parts = opera10Regex.exec(line) ;\n return parts ? createFrame(parts[2], parts[3] || UNKNOWN_FUNCTION, +parts[1]) : undefined;\n};\n\nconst opera10StackLineParser = [OPERA10_PRIORITY, opera10];\n\nconst opera11Regex =\n / line (\\d+), column (\\d+)\\s*(?:in (?:]+)>|([^)]+))\\(.*\\))? in (.*):\\s*$/i;\n\nconst opera11 = line => {\n const parts = opera11Regex.exec(line) ;\n return parts ? createFrame(parts[5], parts[3] || parts[4] || UNKNOWN_FUNCTION, +parts[1], +parts[2]) : undefined;\n};\n\nconst opera11StackLineParser = [OPERA11_PRIORITY, opera11];\n\nconst defaultStackLineParsers = [chromeStackLineParser, geckoStackLineParser];\n\nconst defaultStackParser = createStackParser(...defaultStackLineParsers);\n\n/**\n * Safari web extensions, starting version unknown, can produce \"frames-only\" stacktraces.\n * What it means, is that instead of format like:\n *\n * Error: wat\n * at function@url:row:col\n * at function@url:row:col\n * at function@url:row:col\n *\n * it produces something like:\n *\n * function@url:row:col\n * function@url:row:col\n * function@url:row:col\n *\n * Because of that, it won't be captured by `chrome` RegExp and will fall into `Gecko` branch.\n * This function is extracted so that we can use it in both places without duplicating the logic.\n * Unfortunately \"just\" changing RegExp is too complicated now and making it pass all tests\n * and fix this case seems like an impossible, or at least way too time-consuming task.\n */\nconst extractSafariExtensionDetails = (func, filename) => {\n const isSafariExtension = func.indexOf('safari-extension') !== -1;\n const isSafariWebExtension = func.indexOf('safari-web-extension') !== -1;\n\n return isSafariExtension || isSafariWebExtension\n ? [\n func.indexOf('@') !== -1 ? (func.split('@')[0] ) : UNKNOWN_FUNCTION,\n isSafariExtension ? `safari-extension:${filename}` : `safari-web-extension:${filename}`,\n ]\n : [func, filename];\n};\n\nexport { chromeStackLineParser, defaultStackLineParsers, defaultStackParser, geckoStackLineParser, opera10StackLineParser, opera11StackLineParser, winjsStackLineParser };\n","/**\n * This serves as a build time flag that will be true by default, but false in non-debug builds or if users replace `__SENTRY_DEBUG__` in their generated code.\n *\n * ATTENTION: This constant must never cross package boundaries (i.e. be exported) to guarantee that it can be used for tree shaking.\n */\nconst DEBUG_BUILD = (typeof __SENTRY_DEBUG__ === 'undefined' || __SENTRY_DEBUG__);\n\nexport { DEBUG_BUILD };\n","import { isNativeFunction, logger } from '@sentry/utils';\nimport { DEBUG_BUILD } from './debug-build.js';\nimport { WINDOW } from './types.js';\n\n/**\n * We generally want to use window.fetch / window.setTimeout.\n * However, in some cases this may be wrapped (e.g. by Zone.js for Angular),\n * so we try to get an unpatched version of this from a sandboxed iframe.\n */\n\nconst cachedImplementations = {};\n\n/**\n * Get the native implementation of a browser function.\n *\n * This can be used to ensure we get an unwrapped version of a function, in cases where a wrapped function can lead to problems.\n *\n * The following methods can be retrieved:\n * - `setTimeout`: This can be wrapped by e.g. Angular, causing change detection to be triggered.\n * - `fetch`: This can be wrapped by e.g. ad-blockers, causing an infinite loop when a request is blocked.\n */\nfunction getNativeImplementation(\n name,\n) {\n const cached = cachedImplementations[name];\n if (cached) {\n return cached;\n }\n\n let impl = WINDOW[name] ;\n\n // Fast path to avoid DOM I/O\n if (isNativeFunction(impl)) {\n return (cachedImplementations[name] = impl.bind(WINDOW) );\n }\n\n const document = WINDOW.document;\n // eslint-disable-next-line deprecation/deprecation\n if (document && typeof document.createElement === 'function') {\n try {\n const sandbox = document.createElement('iframe');\n sandbox.hidden = true;\n document.head.appendChild(sandbox);\n const contentWindow = sandbox.contentWindow;\n if (contentWindow && contentWindow[name]) {\n impl = contentWindow[name] ;\n }\n document.head.removeChild(sandbox);\n } catch (e) {\n // Could not create sandbox iframe, just use window.xxx\n DEBUG_BUILD && logger.warn(`Could not create sandbox iframe for ${name} check, bailing to window.${name}: `, e);\n }\n }\n\n // Sanity check: This _should_ not happen, but if it does, we just skip caching...\n // This can happen e.g. in tests where fetch may not be available in the env, or similar.\n if (!impl) {\n return impl;\n }\n\n return (cachedImplementations[name] = impl.bind(WINDOW) );\n}\n\n/** Clear a cached implementation. */\nfunction clearCachedImplementation(name) {\n cachedImplementations[name] = undefined;\n}\n\n/**\n * A special usecase for incorrectly wrapped Fetch APIs in conjunction with ad-blockers.\n * Whenever someone wraps the Fetch API and returns the wrong promise chain,\n * this chain becomes orphaned and there is no possible way to capture it's rejections\n * other than allowing it bubble up to this very handler. eg.\n *\n * const f = window.fetch;\n * window.fetch = function () {\n * const p = f.apply(this, arguments);\n *\n * p.then(function() {\n * console.log('hi.');\n * });\n *\n * return p;\n * }\n *\n * `p.then(function () { ... })` is producing a completely separate promise chain,\n * however, what's returned is `p` - the result of original `fetch` call.\n *\n * This mean, that whenever we use the Fetch API to send our own requests, _and_\n * some ad-blocker blocks it, this orphaned chain will _always_ reject,\n * effectively causing another event to be captured.\n * This makes a whole process become an infinite loop, which we need to somehow\n * deal with, and break it in one way or another.\n *\n * To deal with this issue, we are making sure that we _always_ use the real\n * browser Fetch API, instead of relying on what `window.fetch` exposes.\n * The only downside to this would be missing our own requests as breadcrumbs,\n * but because we are already not doing this, it should be just fine.\n *\n * Possible failed fetch error messages per-browser:\n *\n * Chrome: Failed to fetch\n * Edge: Failed to Fetch\n * Firefox: NetworkError when attempting to fetch resource\n * Safari: resource blocked by content blocker\n */\nfunction fetch(...rest) {\n return getNativeImplementation('fetch')(...rest);\n}\n\n/**\n * Get an unwrapped `setTimeout` method.\n * This ensures that even if e.g. Angular wraps `setTimeout`, we get the native implementation,\n * avoiding triggering change detection.\n */\nfunction setTimeout(...rest) {\n return getNativeImplementation('setTimeout')(...rest);\n}\n\nexport { clearCachedImplementation, fetch, getNativeImplementation, setTimeout };\n","// Intentionally keeping the key broad, as we don't know for sure what rate limit headers get returned from backend\n\nconst DEFAULT_RETRY_AFTER = 60 * 1000; // 60 seconds\n\n/**\n * Extracts Retry-After value from the request header or returns default value\n * @param header string representation of 'Retry-After' header\n * @param now current unix timestamp\n *\n */\nfunction parseRetryAfterHeader(header, now = Date.now()) {\n const headerDelay = parseInt(`${header}`, 10);\n if (!isNaN(headerDelay)) {\n return headerDelay * 1000;\n }\n\n const headerDate = Date.parse(`${header}`);\n if (!isNaN(headerDate)) {\n return headerDate - now;\n }\n\n return DEFAULT_RETRY_AFTER;\n}\n\n/**\n * Gets the time that the given category is disabled until for rate limiting.\n * In case no category-specific limit is set but a general rate limit across all categories is active,\n * that time is returned.\n *\n * @return the time in ms that the category is disabled until or 0 if there's no active rate limit.\n */\nfunction disabledUntil(limits, dataCategory) {\n return limits[dataCategory] || limits.all || 0;\n}\n\n/**\n * Checks if a category is rate limited\n */\nfunction isRateLimited(limits, dataCategory, now = Date.now()) {\n return disabledUntil(limits, dataCategory) > now;\n}\n\n/**\n * Update ratelimits from incoming headers.\n *\n * @return the updated RateLimits object.\n */\nfunction updateRateLimits(\n limits,\n { statusCode, headers },\n now = Date.now(),\n) {\n const updatedRateLimits = {\n ...limits,\n };\n\n // \"The name is case-insensitive.\"\n // https://developer.mozilla.org/en-US/docs/Web/API/Headers/get\n const rateLimitHeader = headers && headers['x-sentry-rate-limits'];\n const retryAfterHeader = headers && headers['retry-after'];\n\n if (rateLimitHeader) {\n /**\n * rate limit headers are of the form\n *
,
,..\n * where each
is of the form\n * : : : : \n * where\n * is a delay in seconds\n * is the event type(s) (error, transaction, etc) being rate limited and is of the form\n * ;;...\n * is what's being limited (org, project, or key) - ignored by SDK\n * is an arbitrary string like \"org_quota\" - ignored by SDK\n * Semicolon-separated list of metric namespace identifiers. Defines which namespace(s) will be affected.\n * Only present if rate limit applies to the metric_bucket data category.\n */\n for (const limit of rateLimitHeader.trim().split(',')) {\n const [retryAfter, categories, , , namespaces] = limit.split(':', 5) ;\n const headerDelay = parseInt(retryAfter, 10);\n const delay = (!isNaN(headerDelay) ? headerDelay : 60) * 1000; // 60sec default\n if (!categories) {\n updatedRateLimits.all = now + delay;\n } else {\n for (const category of categories.split(';')) {\n if (category === 'metric_bucket') {\n // namespaces will be present when category === 'metric_bucket'\n if (!namespaces || namespaces.split(';').includes('custom')) {\n updatedRateLimits[category] = now + delay;\n }\n } else {\n updatedRateLimits[category] = now + delay;\n }\n }\n }\n }\n } else if (retryAfterHeader) {\n updatedRateLimits.all = now + parseRetryAfterHeader(retryAfterHeader, now);\n } else if (statusCode === 429) {\n updatedRateLimits.all = now + 60 * 1000;\n }\n\n return updatedRateLimits;\n}\n\nexport { DEFAULT_RETRY_AFTER, disabledUntil, isRateLimited, parseRetryAfterHeader, updateRateLimits };\n","import { makePromiseBuffer, forEachEnvelopeItem, envelopeItemTypeToDataCategory, isRateLimited, resolvedSyncPromise, createEnvelope, SentryError, logger, serializeEnvelope, updateRateLimits } from '@sentry/utils';\nimport { DEBUG_BUILD } from '../debug-build.js';\n\nconst DEFAULT_TRANSPORT_BUFFER_SIZE = 64;\n\n/**\n * Creates an instance of a Sentry `Transport`\n *\n * @param options\n * @param makeRequest\n */\nfunction createTransport(\n options,\n makeRequest,\n buffer = makePromiseBuffer(\n options.bufferSize || DEFAULT_TRANSPORT_BUFFER_SIZE,\n ),\n) {\n let rateLimits = {};\n const flush = (timeout) => buffer.drain(timeout);\n\n function send(envelope) {\n const filteredEnvelopeItems = [];\n\n // Drop rate limited items from envelope\n forEachEnvelopeItem(envelope, (item, type) => {\n const dataCategory = envelopeItemTypeToDataCategory(type);\n if (isRateLimited(rateLimits, dataCategory)) {\n const event = getEventForEnvelopeItem(item, type);\n options.recordDroppedEvent('ratelimit_backoff', dataCategory, event);\n } else {\n filteredEnvelopeItems.push(item);\n }\n });\n\n // Skip sending if envelope is empty after filtering out rate limited events\n if (filteredEnvelopeItems.length === 0) {\n return resolvedSyncPromise({});\n }\n\n // eslint-disable-next-line @typescript-eslint/no-explicit-any\n const filteredEnvelope = createEnvelope(envelope[0], filteredEnvelopeItems );\n\n // Creates client report for each item in an envelope\n const recordEnvelopeLoss = (reason) => {\n forEachEnvelopeItem(filteredEnvelope, (item, type) => {\n const event = getEventForEnvelopeItem(item, type);\n options.recordDroppedEvent(reason, envelopeItemTypeToDataCategory(type), event);\n });\n };\n\n const requestTask = () =>\n makeRequest({ body: serializeEnvelope(filteredEnvelope) }).then(\n response => {\n // We don't want to throw on NOK responses, but we want to at least log them\n if (response.statusCode !== undefined && (response.statusCode < 200 || response.statusCode >= 300)) {\n DEBUG_BUILD && logger.warn(`Sentry responded with status code ${response.statusCode} to sent event.`);\n }\n\n rateLimits = updateRateLimits(rateLimits, response);\n return response;\n },\n error => {\n recordEnvelopeLoss('network_error');\n throw error;\n },\n );\n\n return buffer.add(requestTask).then(\n result => result,\n error => {\n if (error instanceof SentryError) {\n DEBUG_BUILD && logger.error('Skipped sending event because buffer is full.');\n recordEnvelopeLoss('queue_overflow');\n return resolvedSyncPromise({});\n } else {\n throw error;\n }\n },\n );\n }\n\n return {\n send,\n flush,\n };\n}\n\nfunction getEventForEnvelopeItem(item, type) {\n if (type !== 'event' && type !== 'transaction') {\n return undefined;\n }\n\n return Array.isArray(item) ? (item )[1] : undefined;\n}\n\nexport { DEFAULT_TRANSPORT_BUFFER_SIZE, createTransport };\n","import { getNativeImplementation, clearCachedImplementation } from '@sentry-internal/browser-utils';\nimport { createTransport } from '@sentry/core';\nimport { rejectedSyncPromise } from '@sentry/utils';\n\n/**\n * Creates a Transport that uses the Fetch API to send events to Sentry.\n */\nfunction makeFetchTransport(\n options,\n nativeFetch = getNativeImplementation('fetch'),\n) {\n let pendingBodySize = 0;\n let pendingCount = 0;\n\n function makeRequest(request) {\n const requestSize = request.body.length;\n pendingBodySize += requestSize;\n pendingCount++;\n\n const requestOptions = {\n body: request.body,\n method: 'POST',\n referrerPolicy: 'origin',\n headers: options.headers,\n // Outgoing requests are usually cancelled when navigating to a different page, causing a \"TypeError: Failed to\n // fetch\" error and sending a \"network_error\" client-outcome - in Chrome, the request status shows \"(cancelled)\".\n // The `keepalive` flag keeps outgoing requests alive, even when switching pages. We want this since we're\n // frequently sending events right before the user is switching pages (eg. whenfinishing navigation transactions).\n // Gotchas:\n // - `keepalive` isn't supported by Firefox\n // - As per spec (https://fetch.spec.whatwg.org/#http-network-or-cache-fetch):\n // If the sum of contentLength and inflightKeepaliveBytes is greater than 64 kibibytes, then return a network error.\n // We will therefore only activate the flag when we're below that limit.\n // There is also a limit of requests that can be open at the same time, so we also limit this to 15\n // See https://github.com/getsentry/sentry-javascript/pull/7553 for details\n keepalive: pendingBodySize <= 60000 && pendingCount < 15,\n ...options.fetchOptions,\n };\n\n if (!nativeFetch) {\n clearCachedImplementation('fetch');\n return rejectedSyncPromise('No fetch implementation available');\n }\n\n try {\n return nativeFetch(options.url, requestOptions).then(response => {\n pendingBodySize -= requestSize;\n pendingCount--;\n return {\n statusCode: response.status,\n headers: {\n 'x-sentry-rate-limits': response.headers.get('X-Sentry-Rate-Limits'),\n 'retry-after': response.headers.get('Retry-After'),\n },\n };\n });\n } catch (e) {\n clearCachedImplementation('fetch');\n pendingBodySize -= requestSize;\n pendingCount--;\n return rejectedSyncPromise(e);\n }\n }\n\n return createTransport(options, makeRequest);\n}\n\nexport { makeFetchTransport };\n","import { SentryError } from './error.js';\nimport { rejectedSyncPromise, SyncPromise, resolvedSyncPromise } from './syncpromise.js';\n\n/**\n * Creates an new PromiseBuffer object with the specified limit\n * @param limit max number of promises that can be stored in the buffer\n */\nfunction makePromiseBuffer(limit) {\n const buffer = [];\n\n function isReady() {\n return limit === undefined || buffer.length < limit;\n }\n\n /**\n * Remove a promise from the queue.\n *\n * @param task Can be any PromiseLike\n * @returns Removed promise.\n */\n function remove(task) {\n return buffer.splice(buffer.indexOf(task), 1)[0] || Promise.resolve(undefined);\n }\n\n /**\n * Add a promise (representing an in-flight action) to the queue, and set it to remove itself on fulfillment.\n *\n * @param taskProducer A function producing any PromiseLike; In previous versions this used to be `task:\n * PromiseLike`, but under that model, Promises were instantly created on the call-site and their executor\n * functions therefore ran immediately. Thus, even if the buffer was full, the action still happened. By\n * requiring the promise to be wrapped in a function, we can defer promise creation until after the buffer\n * limit check.\n * @returns The original promise.\n */\n function add(taskProducer) {\n if (!isReady()) {\n return rejectedSyncPromise(new SentryError('Not adding Promise because buffer limit was reached.'));\n }\n\n // start the task and add its promise to the queue\n const task = taskProducer();\n if (buffer.indexOf(task) === -1) {\n buffer.push(task);\n }\n void task\n .then(() => remove(task))\n // Use `then(null, rejectionHandler)` rather than `catch(rejectionHandler)` so that we can use `PromiseLike`\n // rather than `Promise`. `PromiseLike` doesn't have a `.catch` method, making its polyfill smaller. (ES5 didn't\n // have promises, so TS has to polyfill when down-compiling.)\n .then(null, () =>\n remove(task).then(null, () => {\n // We have to add another catch here because `remove()` starts a new promise chain.\n }),\n );\n return task;\n }\n\n /**\n * Wait for all promises in the queue to resolve or for timeout to expire, whichever comes first.\n *\n * @param timeout The time, in ms, after which to resolve to `false` if the queue is still non-empty. Passing `0` (or\n * not passing anything) will make the promise wait as long as it takes for the queue to drain before resolving to\n * `true`.\n * @returns A promise which will resolve to `true` if the queue is already empty or drains before the timeout, and\n * `false` otherwise\n */\n function drain(timeout) {\n return new SyncPromise((resolve, reject) => {\n let counter = buffer.length;\n\n if (!counter) {\n return resolve(true);\n }\n\n // wait for `timeout` ms and then resolve to `false` (if not cancelled first)\n const capturedSetTimeout = setTimeout(() => {\n if (timeout && timeout > 0) {\n resolve(false);\n }\n }, timeout);\n\n // if all promises resolve in time, cancel the timer and resolve to `true`\n buffer.forEach(item => {\n void resolvedSyncPromise(item).then(() => {\n if (!--counter) {\n clearTimeout(capturedSetTimeout);\n resolve(true);\n }\n }, reject);\n });\n });\n }\n\n return {\n $: buffer,\n add,\n drain,\n };\n}\n\nexport { makePromiseBuffer };\n","import { inboundFiltersIntegration, functionToStringIntegration, dedupeIntegration, getIntegrationsToSetup, initAndBind, getCurrentScope, lastEventId, getReportDialogEndpoint, startSession, captureSession, getClient } from '@sentry/core';\nimport { consoleSandbox, supportsFetch, logger, stackParserFromStackParserOptions } from '@sentry/utils';\nimport { addHistoryInstrumentationHandler } from '@sentry-internal/browser-utils';\nimport { BrowserClient } from './client.js';\nimport { DEBUG_BUILD } from './debug-build.js';\nimport { WINDOW } from './helpers.js';\nimport { breadcrumbsIntegration } from './integrations/breadcrumbs.js';\nimport { browserApiErrorsIntegration } from './integrations/browserapierrors.js';\nimport { globalHandlersIntegration } from './integrations/globalhandlers.js';\nimport { httpContextIntegration } from './integrations/httpcontext.js';\nimport { linkedErrorsIntegration } from './integrations/linkederrors.js';\nimport { defaultStackParser } from './stack-parsers.js';\nimport { makeFetchTransport } from './transports/fetch.js';\n\n/** Get the default integrations for the browser SDK. */\nfunction getDefaultIntegrations(_options) {\n /**\n * Note: Please make sure this stays in sync with Angular SDK, which re-exports\n * `getDefaultIntegrations` but with an adjusted set of integrations.\n */\n return [\n inboundFiltersIntegration(),\n functionToStringIntegration(),\n browserApiErrorsIntegration(),\n breadcrumbsIntegration(),\n globalHandlersIntegration(),\n linkedErrorsIntegration(),\n dedupeIntegration(),\n httpContextIntegration(),\n ];\n}\n\nfunction applyDefaultOptions(optionsArg = {}) {\n const defaultOptions = {\n defaultIntegrations: getDefaultIntegrations(),\n release:\n typeof __SENTRY_RELEASE__ === 'string' // This allows build tooling to find-and-replace __SENTRY_RELEASE__ to inject a release value\n ? __SENTRY_RELEASE__\n : WINDOW.SENTRY_RELEASE && WINDOW.SENTRY_RELEASE.id // This supports the variable that sentry-webpack-plugin injects\n ? WINDOW.SENTRY_RELEASE.id\n : undefined,\n autoSessionTracking: true,\n sendClientReports: true,\n };\n\n // TODO: Instead of dropping just `defaultIntegrations`, we should simply\n // call `dropUndefinedKeys` on the entire `optionsArg`.\n // However, for this to work we need to adjust the `hasTracingEnabled()` logic\n // first as it differentiates between `undefined` and the key not being in the object.\n if (optionsArg.defaultIntegrations == null) {\n delete optionsArg.defaultIntegrations;\n }\n\n return { ...defaultOptions, ...optionsArg };\n}\n\nfunction shouldShowBrowserExtensionError() {\n const windowWithMaybeExtension =\n typeof WINDOW.window !== 'undefined' && (WINDOW );\n if (!windowWithMaybeExtension) {\n // No need to show the error if we're not in a browser window environment (e.g. service workers)\n return false;\n }\n\n const extensionKey = windowWithMaybeExtension.chrome ? 'chrome' : 'browser';\n const extensionObject = windowWithMaybeExtension[extensionKey];\n\n const runtimeId = extensionObject && extensionObject.runtime && extensionObject.runtime.id;\n const href = (WINDOW.location && WINDOW.location.href) || '';\n\n const extensionProtocols = ['chrome-extension:', 'moz-extension:', 'ms-browser-extension:', 'safari-web-extension:'];\n\n // Running the SDK in a dedicated extension page and calling Sentry.init is fine; no risk of data leakage\n const isDedicatedExtensionPage =\n !!runtimeId && WINDOW === WINDOW.top && extensionProtocols.some(protocol => href.startsWith(`${protocol}//`));\n\n // Running the SDK in NW.js, which appears like a browser extension but isn't, is also fine\n // see: https://github.com/getsentry/sentry-javascript/issues/12668\n const isNWjs = typeof windowWithMaybeExtension.nw !== 'undefined';\n\n return !!runtimeId && !isDedicatedExtensionPage && !isNWjs;\n}\n\n/**\n * A magic string that build tooling can leverage in order to inject a release value into the SDK.\n */\n\n/**\n * The Sentry Browser SDK Client.\n *\n * To use this SDK, call the {@link init} function as early as possible when\n * loading the web page. To set context information or send manual events, use\n * the provided methods.\n *\n * @example\n *\n * ```\n *\n * import { init } from '@sentry/browser';\n *\n * init({\n * dsn: '__DSN__',\n * // ...\n * });\n * ```\n *\n * @example\n * ```\n *\n * import { addBreadcrumb } from '@sentry/browser';\n * addBreadcrumb({\n * message: 'My Breadcrumb',\n * // ...\n * });\n * ```\n *\n * @example\n *\n * ```\n *\n * import * as Sentry from '@sentry/browser';\n * Sentry.captureMessage('Hello, world!');\n * Sentry.captureException(new Error('Good bye'));\n * Sentry.captureEvent({\n * message: 'Manual',\n * stacktrace: [\n * // ...\n * ],\n * });\n * ```\n *\n * @see {@link BrowserOptions} for documentation on configuration options.\n */\nfunction init(browserOptions = {}) {\n const options = applyDefaultOptions(browserOptions);\n\n if (shouldShowBrowserExtensionError()) {\n consoleSandbox(() => {\n // eslint-disable-next-line no-console\n console.error(\n '[Sentry] You cannot run Sentry this way in a browser extension, check: https://docs.sentry.io/platforms/javascript/best-practices/browser-extensions/',\n );\n });\n return;\n }\n\n if (DEBUG_BUILD) {\n if (!supportsFetch()) {\n logger.warn(\n 'No Fetch API detected. The Sentry SDK requires a Fetch API compatible environment to send events. Please add a Fetch API polyfill.',\n );\n }\n }\n const clientOptions = {\n ...options,\n stackParser: stackParserFromStackParserOptions(options.stackParser || defaultStackParser),\n integrations: getIntegrationsToSetup(options),\n transport: options.transport || makeFetchTransport,\n };\n\n const client = initAndBind(BrowserClient, clientOptions);\n\n if (options.autoSessionTracking) {\n startSessionTracking();\n }\n\n return client;\n}\n\n/**\n * All properties the report dialog supports\n */\n\n/**\n * Present the user with a report dialog.\n *\n * @param options Everything is optional, we try to fetch all info need from the global scope.\n */\nfunction showReportDialog(options = {}) {\n // doesn't work without a document (React Native)\n if (!WINDOW.document) {\n DEBUG_BUILD && logger.error('Global document not defined in showReportDialog call');\n return;\n }\n\n const scope = getCurrentScope();\n const client = scope.getClient();\n const dsn = client && client.getDsn();\n\n if (!dsn) {\n DEBUG_BUILD && logger.error('DSN not configured for showReportDialog call');\n return;\n }\n\n if (scope) {\n options.user = {\n ...scope.getUser(),\n ...options.user,\n };\n }\n\n if (!options.eventId) {\n const eventId = lastEventId();\n if (eventId) {\n options.eventId = eventId;\n }\n }\n\n const script = WINDOW.document.createElement('script');\n script.async = true;\n script.crossOrigin = 'anonymous';\n script.src = getReportDialogEndpoint(dsn, options);\n\n if (options.onLoad) {\n script.onload = options.onLoad;\n }\n\n const { onClose } = options;\n if (onClose) {\n const reportDialogClosedMessageHandler = (event) => {\n if (event.data === '__sentry_reportdialog_closed__') {\n try {\n onClose();\n } finally {\n WINDOW.removeEventListener('message', reportDialogClosedMessageHandler);\n }\n }\n };\n WINDOW.addEventListener('message', reportDialogClosedMessageHandler);\n }\n\n const injectionPoint = WINDOW.document.head || WINDOW.document.body;\n if (injectionPoint) {\n injectionPoint.appendChild(script);\n } else {\n DEBUG_BUILD && logger.error('Not injecting report dialog. No injection point found in HTML');\n }\n}\n\n/**\n * This function is here to be API compatible with the loader.\n * @hidden\n */\nfunction forceLoad() {\n // Noop\n}\n\n/**\n * This function is here to be API compatible with the loader.\n * @hidden\n */\nfunction onLoad(callback) {\n callback();\n}\n\n/**\n * Enable automatic Session Tracking for the initial page load.\n */\nfunction startSessionTracking() {\n if (typeof WINDOW.document === 'undefined') {\n DEBUG_BUILD && logger.warn('Session tracking in non-browser environment with @sentry/browser is not supported.');\n return;\n }\n\n // The session duration for browser sessions does not track a meaningful\n // concept that can be used as a metric.\n // Automatically captured sessions are akin to page views, and thus we\n // discard their duration.\n startSession({ ignoreDuration: true });\n captureSession();\n\n // We want to create a session for every navigation as well\n addHistoryInstrumentationHandler(({ from, to }) => {\n // Don't create an additional session for the initial route or if the location did not change\n if (from !== undefined && from !== to) {\n startSession({ ignoreDuration: true });\n captureSession();\n }\n });\n}\n\n/**\n * Captures user feedback and sends it to Sentry.\n *\n * @deprecated Use `captureFeedback` instead.\n */\nfunction captureUserFeedback(feedback) {\n const client = getClient();\n if (client) {\n // eslint-disable-next-line deprecation/deprecation\n client.captureUserFeedback(feedback);\n }\n}\n\nexport { captureUserFeedback, forceLoad, getDefaultIntegrations, init, onLoad, showReportDialog };\n","import { logger, consoleSandbox } from '@sentry/utils';\nimport { getCurrentScope } from './currentScopes.js';\nimport { DEBUG_BUILD } from './debug-build.js';\n\n/** A class object that can instantiate Client objects. */\n\n/**\n * Internal function to create a new SDK client instance. The client is\n * installed and then bound to the current scope.\n *\n * @param clientClass The client class to instantiate.\n * @param options Options to pass to the client.\n */\nfunction initAndBind(\n clientClass,\n options,\n) {\n if (options.debug === true) {\n if (DEBUG_BUILD) {\n logger.enable();\n } else {\n // use `console.warn` rather than `logger.warn` since by non-debug bundles have all `logger.x` statements stripped\n consoleSandbox(() => {\n // eslint-disable-next-line no-console\n console.warn('[Sentry] Cannot initialize SDK with `debug` option using a non-debug bundle.');\n });\n }\n }\n const scope = getCurrentScope();\n scope.update(options.initialScope);\n\n const client = new clientClass(options);\n setCurrentClient(client);\n client.init();\n return client;\n}\n\n/**\n * Make the given client the current client.\n */\nfunction setCurrentClient(client) {\n getCurrentScope().setClient(client);\n}\n\nexport { initAndBind, setCurrentClient };\n","import { getClient } from '../currentScopes.js';\n\n// Treeshakable guard to remove all code related to tracing\n\n/**\n * Determines if tracing is currently enabled.\n *\n * Tracing is enabled when at least one of `tracesSampleRate` and `tracesSampler` is defined in the SDK config.\n */\nfunction hasTracingEnabled(\n maybeOptions,\n) {\n if (typeof __SENTRY_TRACING__ === 'boolean' && !__SENTRY_TRACING__) {\n return false;\n }\n\n const client = getClient();\n const options = maybeOptions || (client && client.getOptions());\n // eslint-disable-next-line deprecation/deprecation\n return !!options && (options.enableTracing || 'tracesSampleRate' in options || 'tracesSampler' in options);\n}\n\nexport { hasTracingEnabled };\n","import { uuid4 } from '@sentry/utils';\nimport { TRACE_FLAG_NONE } from '../utils/spanUtils.js';\n\n/**\n * A Sentry Span that is non-recording, meaning it will not be sent to Sentry.\n */\nclass SentryNonRecordingSpan {\n\n constructor(spanContext = {}) {\n this._traceId = spanContext.traceId || uuid4();\n this._spanId = spanContext.spanId || uuid4().substring(16);\n }\n\n /** @inheritdoc */\n spanContext() {\n return {\n spanId: this._spanId,\n traceId: this._traceId,\n traceFlags: TRACE_FLAG_NONE,\n };\n }\n\n /** @inheritdoc */\n // eslint-disable-next-line @typescript-eslint/no-empty-function\n end(_timestamp) {}\n\n /** @inheritdoc */\n setAttribute(_key, _value) {\n return this;\n }\n\n /** @inheritdoc */\n setAttributes(_values) {\n return this;\n }\n\n /** @inheritdoc */\n setStatus(_status) {\n return this;\n }\n\n /** @inheritdoc */\n updateName(_name) {\n return this;\n }\n\n /** @inheritdoc */\n isRecording() {\n return false;\n }\n\n /** @inheritdoc */\n addEvent(\n _name,\n _attributesOrStartTime,\n _startTime,\n ) {\n return this;\n }\n\n /**\n * This should generally not be used,\n * but we need it for being comliant with the OTEL Span interface.\n *\n * @hidden\n * @internal\n */\n addLink(_link) {\n return this;\n }\n\n /**\n * This should generally not be used,\n * but we need it for being comliant with the OTEL Span interface.\n *\n * @hidden\n * @internal\n */\n addLinks(_links) {\n return this;\n }\n\n /**\n * This should generally not be used,\n * but we need it for being comliant with the OTEL Span interface.\n *\n * @hidden\n * @internal\n */\n recordException(_exception, _time) {\n // noop\n }\n}\n\nexport { SentryNonRecordingSpan };\n","import { SEMANTIC_ATTRIBUTE_SENTRY_MEASUREMENT_VALUE, SEMANTIC_ATTRIBUTE_SENTRY_MEASUREMENT_UNIT } from '../semanticAttributes.js';\nimport { getActiveSpan, getRootSpan } from '../utils/spanUtils.js';\n\n/**\n * Adds a measurement to the current active transaction.\n */\nfunction setMeasurement(name, value, unit) {\n const activeSpan = getActiveSpan();\n const rootSpan = activeSpan && getRootSpan(activeSpan);\n\n if (rootSpan) {\n rootSpan.addEvent(name, {\n [SEMANTIC_ATTRIBUTE_SENTRY_MEASUREMENT_VALUE]: value,\n [SEMANTIC_ATTRIBUTE_SENTRY_MEASUREMENT_UNIT]: unit ,\n });\n }\n}\n\n/**\n * Convert timed events to measurements.\n */\nfunction timedEventsToMeasurements(events) {\n if (!events || events.length === 0) {\n return undefined;\n }\n\n const measurements = {};\n events.forEach(event => {\n const attributes = event.attributes || {};\n const unit = attributes[SEMANTIC_ATTRIBUTE_SENTRY_MEASUREMENT_UNIT] ;\n const value = attributes[SEMANTIC_ATTRIBUTE_SENTRY_MEASUREMENT_VALUE] ;\n\n if (typeof unit === 'string' && typeof value === 'number') {\n measurements[event.name] = { value, unit };\n }\n });\n\n return measurements;\n}\n\nexport { setMeasurement, timedEventsToMeasurements };\n","import { addNonEnumerableProperty } from '@sentry/utils';\nexport { stripUrlQueryAndFragment } from '@sentry/utils';\n\nconst SCOPE_ON_START_SPAN_FIELD = '_sentryScope';\nconst ISOLATION_SCOPE_ON_START_SPAN_FIELD = '_sentryIsolationScope';\n\n/** Store the scope & isolation scope for a span, which can the be used when it is finished. */\nfunction setCapturedScopesOnSpan(span, scope, isolationScope) {\n if (span) {\n addNonEnumerableProperty(span, ISOLATION_SCOPE_ON_START_SPAN_FIELD, isolationScope);\n addNonEnumerableProperty(span, SCOPE_ON_START_SPAN_FIELD, scope);\n }\n}\n\n/**\n * Grabs the scope and isolation scope off a span that were active when the span was started.\n */\nfunction getCapturedScopesOnSpan(span) {\n return {\n scope: (span )[SCOPE_ON_START_SPAN_FIELD],\n isolationScope: (span )[ISOLATION_SCOPE_ON_START_SPAN_FIELD],\n };\n}\n\nexport { getCapturedScopesOnSpan, setCapturedScopesOnSpan };\n","import { uuid4, timestampInSeconds, dropUndefinedKeys, logger } from '@sentry/utils';\nimport { getClient, getCurrentScope } from '../currentScopes.js';\nimport { DEBUG_BUILD } from '../debug-build.js';\nimport { createSpanEnvelope } from '../envelope.js';\nimport { getMetricSummaryJsonForSpan } from '../metrics/metric-summary.js';\nimport { SEMANTIC_ATTRIBUTE_SENTRY_ORIGIN, SEMANTIC_ATTRIBUTE_SENTRY_OP, SEMANTIC_ATTRIBUTE_PROFILE_ID, SEMANTIC_ATTRIBUTE_EXCLUSIVE_TIME, SEMANTIC_ATTRIBUTE_SENTRY_SOURCE } from '../semanticAttributes.js';\nimport { TRACE_FLAG_SAMPLED, TRACE_FLAG_NONE, spanTimeInputToSeconds, getStatusMessage, getRootSpan, spanToJSON, getSpanDescendants, spanToTransactionTraceContext } from '../utils/spanUtils.js';\nimport { getDynamicSamplingContextFromSpan } from './dynamicSamplingContext.js';\nimport { logSpanEnd } from './logSpans.js';\nimport { timedEventsToMeasurements } from './measurement.js';\nimport { getCapturedScopesOnSpan } from './utils.js';\n\nconst MAX_SPAN_COUNT = 1000;\n\n/**\n * Span contains all data about a span\n */\nclass SentrySpan {\n\n /** Epoch timestamp in seconds when the span started. */\n\n /** Epoch timestamp in seconds when the span ended. */\n\n /** Internal keeper of the status */\n\n /** The timed events added to this span. */\n\n /** if true, treat span as a standalone span (not part of a transaction) */\n\n /**\n * You should never call the constructor manually, always use `Sentry.startSpan()`\n * or other span methods.\n * @internal\n * @hideconstructor\n * @hidden\n */\n constructor(spanContext = {}) {\n this._traceId = spanContext.traceId || uuid4();\n this._spanId = spanContext.spanId || uuid4().substring(16);\n this._startTime = spanContext.startTimestamp || timestampInSeconds();\n\n this._attributes = {};\n this.setAttributes({\n [SEMANTIC_ATTRIBUTE_SENTRY_ORIGIN]: 'manual',\n [SEMANTIC_ATTRIBUTE_SENTRY_OP]: spanContext.op,\n ...spanContext.attributes,\n });\n\n this._name = spanContext.name;\n\n if (spanContext.parentSpanId) {\n this._parentSpanId = spanContext.parentSpanId;\n }\n // We want to include booleans as well here\n if ('sampled' in spanContext) {\n this._sampled = spanContext.sampled;\n }\n if (spanContext.endTimestamp) {\n this._endTime = spanContext.endTimestamp;\n }\n\n this._events = [];\n\n this._isStandaloneSpan = spanContext.isStandalone;\n\n // If the span is already ended, ensure we finalize the span immediately\n if (this._endTime) {\n this._onSpanEnded();\n }\n }\n\n /**\n * This should generally not be used,\n * but it is needed for being compliant with the OTEL Span interface.\n *\n * @hidden\n * @internal\n */\n addLink(_link) {\n return this;\n }\n\n /**\n * This should generally not be used,\n * but it is needed for being compliant with the OTEL Span interface.\n *\n * @hidden\n * @internal\n */\n addLinks(_links) {\n return this;\n }\n\n /**\n * This should generally not be used,\n * but it is needed for being compliant with the OTEL Span interface.\n *\n * @hidden\n * @internal\n */\n recordException(_exception, _time) {\n // noop\n }\n\n /** @inheritdoc */\n spanContext() {\n const { _spanId: spanId, _traceId: traceId, _sampled: sampled } = this;\n return {\n spanId,\n traceId,\n traceFlags: sampled ? TRACE_FLAG_SAMPLED : TRACE_FLAG_NONE,\n };\n }\n\n /** @inheritdoc */\n setAttribute(key, value) {\n if (value === undefined) {\n // eslint-disable-next-line @typescript-eslint/no-dynamic-delete\n delete this._attributes[key];\n } else {\n this._attributes[key] = value;\n }\n\n return this;\n }\n\n /** @inheritdoc */\n setAttributes(attributes) {\n Object.keys(attributes).forEach(key => this.setAttribute(key, attributes[key]));\n return this;\n }\n\n /**\n * This should generally not be used,\n * but we need it for browser tracing where we want to adjust the start time afterwards.\n * USE THIS WITH CAUTION!\n *\n * @hidden\n * @internal\n */\n updateStartTime(timeInput) {\n this._startTime = spanTimeInputToSeconds(timeInput);\n }\n\n /**\n * @inheritDoc\n */\n setStatus(value) {\n this._status = value;\n return this;\n }\n\n /**\n * @inheritDoc\n */\n updateName(name) {\n this._name = name;\n return this;\n }\n\n /** @inheritdoc */\n end(endTimestamp) {\n // If already ended, skip\n if (this._endTime) {\n return;\n }\n\n this._endTime = spanTimeInputToSeconds(endTimestamp);\n logSpanEnd(this);\n\n this._onSpanEnded();\n }\n\n /**\n * Get JSON representation of this span.\n *\n * @hidden\n * @internal This method is purely for internal purposes and should not be used outside\n * of SDK code. If you need to get a JSON representation of a span,\n * use `spanToJSON(span)` instead.\n */\n getSpanJSON() {\n return dropUndefinedKeys({\n data: this._attributes,\n description: this._name,\n op: this._attributes[SEMANTIC_ATTRIBUTE_SENTRY_OP],\n parent_span_id: this._parentSpanId,\n span_id: this._spanId,\n start_timestamp: this._startTime,\n status: getStatusMessage(this._status),\n timestamp: this._endTime,\n trace_id: this._traceId,\n origin: this._attributes[SEMANTIC_ATTRIBUTE_SENTRY_ORIGIN] ,\n _metrics_summary: getMetricSummaryJsonForSpan(this),\n profile_id: this._attributes[SEMANTIC_ATTRIBUTE_PROFILE_ID] ,\n exclusive_time: this._attributes[SEMANTIC_ATTRIBUTE_EXCLUSIVE_TIME] ,\n measurements: timedEventsToMeasurements(this._events),\n is_segment: (this._isStandaloneSpan && getRootSpan(this) === this) || undefined,\n segment_id: this._isStandaloneSpan ? getRootSpan(this).spanContext().spanId : undefined,\n });\n }\n\n /** @inheritdoc */\n isRecording() {\n return !this._endTime && !!this._sampled;\n }\n\n /**\n * @inheritdoc\n */\n addEvent(\n name,\n attributesOrStartTime,\n startTime,\n ) {\n DEBUG_BUILD && logger.log('[Tracing] Adding an event to span:', name);\n\n const time = isSpanTimeInput(attributesOrStartTime) ? attributesOrStartTime : startTime || timestampInSeconds();\n const attributes = isSpanTimeInput(attributesOrStartTime) ? {} : attributesOrStartTime || {};\n\n const event = {\n name,\n time: spanTimeInputToSeconds(time),\n attributes,\n };\n\n this._events.push(event);\n\n return this;\n }\n\n /**\n * This method should generally not be used,\n * but for now we need a way to publicly check if the `_isStandaloneSpan` flag is set.\n * USE THIS WITH CAUTION!\n * @internal\n * @hidden\n * @experimental\n */\n isStandaloneSpan() {\n return !!this._isStandaloneSpan;\n }\n\n /** Emit `spanEnd` when the span is ended. */\n _onSpanEnded() {\n const client = getClient();\n if (client) {\n client.emit('spanEnd', this);\n }\n\n // A segment span is basically the root span of a local span tree.\n // So for now, this is either what we previously refer to as the root span,\n // or a standalone span.\n const isSegmentSpan = this._isStandaloneSpan || this === getRootSpan(this);\n\n if (!isSegmentSpan) {\n return;\n }\n\n // if this is a standalone span, we send it immediately\n if (this._isStandaloneSpan) {\n if (this._sampled) {\n sendSpanEnvelope(createSpanEnvelope([this], client));\n } else {\n DEBUG_BUILD &&\n logger.log('[Tracing] Discarding standalone span because its trace was not chosen to be sampled.');\n if (client) {\n client.recordDroppedEvent('sample_rate', 'span');\n }\n }\n return;\n }\n\n const transactionEvent = this._convertSpanToTransaction();\n if (transactionEvent) {\n const scope = getCapturedScopesOnSpan(this).scope || getCurrentScope();\n scope.captureEvent(transactionEvent);\n }\n }\n\n /**\n * Finish the transaction & prepare the event to send to Sentry.\n */\n _convertSpanToTransaction() {\n // We can only convert finished spans\n if (!isFullFinishedSpan(spanToJSON(this))) {\n return undefined;\n }\n\n if (!this._name) {\n DEBUG_BUILD && logger.warn('Transaction has no name, falling back to ``.');\n this._name = '';\n }\n\n const { scope: capturedSpanScope, isolationScope: capturedSpanIsolationScope } = getCapturedScopesOnSpan(this);\n const scope = capturedSpanScope || getCurrentScope();\n const client = scope.getClient() || getClient();\n\n if (this._sampled !== true) {\n // At this point if `sampled !== true` we want to discard the transaction.\n DEBUG_BUILD && logger.log('[Tracing] Discarding transaction because its trace was not chosen to be sampled.');\n\n if (client) {\n client.recordDroppedEvent('sample_rate', 'transaction');\n }\n\n return undefined;\n }\n\n // The transaction span itself as well as any potential standalone spans should be filtered out\n const finishedSpans = getSpanDescendants(this).filter(span => span !== this && !isStandaloneSpan(span));\n\n const spans = finishedSpans.map(span => spanToJSON(span)).filter(isFullFinishedSpan);\n\n const source = this._attributes[SEMANTIC_ATTRIBUTE_SENTRY_SOURCE] ;\n\n const transaction = {\n contexts: {\n trace: spanToTransactionTraceContext(this),\n },\n spans:\n // spans.sort() mutates the array, but `spans` is already a copy so we can safely do this here\n // we do not use spans anymore after this point\n spans.length > MAX_SPAN_COUNT\n ? spans.sort((a, b) => a.start_timestamp - b.start_timestamp).slice(0, MAX_SPAN_COUNT)\n : spans,\n start_timestamp: this._startTime,\n timestamp: this._endTime,\n transaction: this._name,\n type: 'transaction',\n sdkProcessingMetadata: {\n capturedSpanScope,\n capturedSpanIsolationScope,\n ...dropUndefinedKeys({\n dynamicSamplingContext: getDynamicSamplingContextFromSpan(this),\n }),\n },\n _metrics_summary: getMetricSummaryJsonForSpan(this),\n ...(source && {\n transaction_info: {\n source,\n },\n }),\n };\n\n const measurements = timedEventsToMeasurements(this._events);\n const hasMeasurements = measurements && Object.keys(measurements).length;\n\n if (hasMeasurements) {\n DEBUG_BUILD &&\n logger.log(\n '[Measurements] Adding measurements to transaction event',\n JSON.stringify(measurements, undefined, 2),\n );\n transaction.measurements = measurements;\n }\n\n return transaction;\n }\n}\n\nfunction isSpanTimeInput(value) {\n return (value && typeof value === 'number') || value instanceof Date || Array.isArray(value);\n}\n\n// We want to filter out any incomplete SpanJSON objects\nfunction isFullFinishedSpan(input) {\n return !!input.start_timestamp && !!input.timestamp && !!input.span_id && !!input.trace_id;\n}\n\n/** `SentrySpan`s can be sent as a standalone span rather than belonging to a transaction */\nfunction isStandaloneSpan(span) {\n return span instanceof SentrySpan && span.isStandaloneSpan();\n}\n\n/**\n * Sends a `SpanEnvelope`.\n *\n * Note: If the envelope's spans are dropped, e.g. via `beforeSendSpan`,\n * the envelope will not be sent either.\n */\nfunction sendSpanEnvelope(envelope) {\n const client = getClient();\n if (!client) {\n return;\n }\n\n const spanItems = envelope[1];\n if (!spanItems || spanItems.length === 0) {\n client.recordDroppedEvent('before_send', 'span');\n return;\n }\n\n const transport = client.getTransport();\n if (transport) {\n transport.send(envelope).then(null, reason => {\n DEBUG_BUILD && logger.error('Error while sending span:', reason);\n });\n }\n}\n\nexport { SentrySpan };\n","import { logger } from '@sentry/utils';\nimport { DEBUG_BUILD } from '../debug-build.js';\nimport { spanToJSON, spanIsSampled, getRootSpan } from '../utils/spanUtils.js';\n\n/**\n * Print a log message for a started span.\n */\nfunction logSpanStart(span) {\n if (!DEBUG_BUILD) return;\n\n const { description = '< unknown name >', op = '< unknown op >', parent_span_id: parentSpanId } = spanToJSON(span);\n const { spanId } = span.spanContext();\n\n const sampled = spanIsSampled(span);\n const rootSpan = getRootSpan(span);\n const isRootSpan = rootSpan === span;\n\n const header = `[Tracing] Starting ${sampled ? 'sampled' : 'unsampled'} ${isRootSpan ? 'root ' : ''}span`;\n\n const infoParts = [`op: ${op}`, `name: ${description}`, `ID: ${spanId}`];\n\n if (parentSpanId) {\n infoParts.push(`parent ID: ${parentSpanId}`);\n }\n\n if (!isRootSpan) {\n const { op, description } = spanToJSON(rootSpan);\n infoParts.push(`root ID: ${rootSpan.spanContext().spanId}`);\n if (op) {\n infoParts.push(`root op: ${op}`);\n }\n if (description) {\n infoParts.push(`root description: ${description}`);\n }\n }\n\n logger.log(`${header}\n ${infoParts.join('\\n ')}`);\n}\n\n/**\n * Print a log message for an ended span.\n */\nfunction logSpanEnd(span) {\n if (!DEBUG_BUILD) return;\n\n const { description = '< unknown name >', op = '< unknown op >' } = spanToJSON(span);\n const { spanId } = span.spanContext();\n const rootSpan = getRootSpan(span);\n const isRootSpan = rootSpan === span;\n\n const msg = `[Tracing] Finishing \"${op}\" ${isRootSpan ? 'root ' : ''}span \"${description}\" with ID ${spanId}`;\n logger.log(msg);\n}\n\nexport { logSpanEnd, logSpanStart };\n","import { propagationContextFromHeaders, generatePropagationContext, logger } from '@sentry/utils';\nimport { getMainCarrier } from '../carrier.js';\nimport { withScope, getCurrentScope, getIsolationScope, getClient } from '../currentScopes.js';\nimport { getAsyncContextStrategy } from '../asyncContext/index.js';\nimport { DEBUG_BUILD } from '../debug-build.js';\nimport { SEMANTIC_ATTRIBUTE_SENTRY_SOURCE, SEMANTIC_ATTRIBUTE_SENTRY_SAMPLE_RATE } from '../semanticAttributes.js';\nimport { handleCallbackErrors } from '../utils/handleCallbackErrors.js';\nimport { hasTracingEnabled } from '../utils/hasTracingEnabled.js';\nimport { _setSpanForScope, _getSpanForScope } from '../utils/spanOnScope.js';\nimport { spanToJSON, addChildSpanToSpan, spanIsSampled, spanTimeInputToSeconds, getRootSpan } from '../utils/spanUtils.js';\nimport { getDynamicSamplingContextFromSpan, freezeDscOnSpan } from './dynamicSamplingContext.js';\nimport { logSpanStart } from './logSpans.js';\nimport { sampleSpan } from './sampling.js';\nimport { SentryNonRecordingSpan } from './sentryNonRecordingSpan.js';\nimport { SentrySpan } from './sentrySpan.js';\nimport { SPAN_STATUS_ERROR } from './spanstatus.js';\nimport { setCapturedScopesOnSpan } from './utils.js';\n\nconst SUPPRESS_TRACING_KEY = '__SENTRY_SUPPRESS_TRACING__';\n\n/**\n * Wraps a function with a transaction/span and finishes the span after the function is done.\n * The created span is the active span and will be used as parent by other spans created inside the function\n * and can be accessed via `Sentry.getActiveSpan()`, as long as the function is executed while the scope is active.\n *\n * If you want to create a span that is not set as active, use {@link startInactiveSpan}.\n *\n * You'll always get a span passed to the callback,\n * it may just be a non-recording span if the span is not sampled or if tracing is disabled.\n */\nfunction startSpan(options, callback) {\n const acs = getAcs();\n if (acs.startSpan) {\n return acs.startSpan(options, callback);\n }\n\n const spanArguments = parseSentrySpanArguments(options);\n const { forceTransaction, parentSpan: customParentSpan } = options;\n\n return withScope(options.scope, () => {\n // If `options.parentSpan` is defined, we want to wrap the callback in `withActiveSpan`\n const wrapper = getActiveSpanWrapper(customParentSpan);\n\n return wrapper(() => {\n const scope = getCurrentScope();\n const parentSpan = getParentSpan(scope);\n\n const shouldSkipSpan = options.onlyIfParent && !parentSpan;\n const activeSpan = shouldSkipSpan\n ? new SentryNonRecordingSpan()\n : createChildOrRootSpan({\n parentSpan,\n spanArguments,\n forceTransaction,\n scope,\n });\n\n _setSpanForScope(scope, activeSpan);\n\n return handleCallbackErrors(\n () => callback(activeSpan),\n () => {\n // Only update the span status if it hasn't been changed yet, and the span is not yet finished\n const { status } = spanToJSON(activeSpan);\n if (activeSpan.isRecording() && (!status || status === 'ok')) {\n activeSpan.setStatus({ code: SPAN_STATUS_ERROR, message: 'internal_error' });\n }\n },\n () => activeSpan.end(),\n );\n });\n });\n}\n\n/**\n * Similar to `Sentry.startSpan`. Wraps a function with a transaction/span, but does not finish the span\n * after the function is done automatically. You'll have to call `span.end()` manually.\n *\n * The created span is the active span and will be used as parent by other spans created inside the function\n * and can be accessed via `Sentry.getActiveSpan()`, as long as the function is executed while the scope is active.\n *\n * You'll always get a span passed to the callback,\n * it may just be a non-recording span if the span is not sampled or if tracing is disabled.\n */\nfunction startSpanManual(options, callback) {\n const acs = getAcs();\n if (acs.startSpanManual) {\n return acs.startSpanManual(options, callback);\n }\n\n const spanArguments = parseSentrySpanArguments(options);\n const { forceTransaction, parentSpan: customParentSpan } = options;\n\n return withScope(options.scope, () => {\n // If `options.parentSpan` is defined, we want to wrap the callback in `withActiveSpan`\n const wrapper = getActiveSpanWrapper(customParentSpan);\n\n return wrapper(() => {\n const scope = getCurrentScope();\n const parentSpan = getParentSpan(scope);\n\n const shouldSkipSpan = options.onlyIfParent && !parentSpan;\n const activeSpan = shouldSkipSpan\n ? new SentryNonRecordingSpan()\n : createChildOrRootSpan({\n parentSpan,\n spanArguments,\n forceTransaction,\n scope,\n });\n\n _setSpanForScope(scope, activeSpan);\n\n function finishAndSetSpan() {\n activeSpan.end();\n }\n\n return handleCallbackErrors(\n () => callback(activeSpan, finishAndSetSpan),\n () => {\n // Only update the span status if it hasn't been changed yet, and the span is not yet finished\n const { status } = spanToJSON(activeSpan);\n if (activeSpan.isRecording() && (!status || status === 'ok')) {\n activeSpan.setStatus({ code: SPAN_STATUS_ERROR, message: 'internal_error' });\n }\n },\n );\n });\n });\n}\n\n/**\n * Creates a span. This span is not set as active, so will not get automatic instrumentation spans\n * as children or be able to be accessed via `Sentry.getActiveSpan()`.\n *\n * If you want to create a span that is set as active, use {@link startSpan}.\n *\n * This function will always return a span,\n * it may just be a non-recording span if the span is not sampled or if tracing is disabled.\n */\nfunction startInactiveSpan(options) {\n const acs = getAcs();\n if (acs.startInactiveSpan) {\n return acs.startInactiveSpan(options);\n }\n\n const spanArguments = parseSentrySpanArguments(options);\n const { forceTransaction, parentSpan: customParentSpan } = options;\n\n // If `options.scope` is defined, we use this as as a wrapper,\n // If `options.parentSpan` is defined, we want to wrap the callback in `withActiveSpan`\n const wrapper = options.scope\n ? (callback) => withScope(options.scope, callback)\n : customParentSpan !== undefined\n ? (callback) => withActiveSpan(customParentSpan, callback)\n : (callback) => callback();\n\n return wrapper(() => {\n const scope = getCurrentScope();\n const parentSpan = getParentSpan(scope);\n\n const shouldSkipSpan = options.onlyIfParent && !parentSpan;\n\n if (shouldSkipSpan) {\n return new SentryNonRecordingSpan();\n }\n\n return createChildOrRootSpan({\n parentSpan,\n spanArguments,\n forceTransaction,\n scope,\n });\n });\n}\n\n/**\n * Continue a trace from `sentry-trace` and `baggage` values.\n * These values can be obtained from incoming request headers, or in the browser from ``\n * and `` HTML tags.\n *\n * Spans started with `startSpan`, `startSpanManual` and `startInactiveSpan`, within the callback will automatically\n * be attached to the incoming trace.\n */\nconst continueTrace = (\n {\n sentryTrace,\n baggage,\n }\n\n,\n callback,\n) => {\n return withScope(scope => {\n const propagationContext = propagationContextFromHeaders(sentryTrace, baggage);\n scope.setPropagationContext(propagationContext);\n return callback();\n });\n};\n\n/**\n * Forks the current scope and sets the provided span as active span in the context of the provided callback. Can be\n * passed `null` to start an entirely new span tree.\n *\n * @param span Spans started in the context of the provided callback will be children of this span. If `null` is passed,\n * spans started within the callback will not be attached to a parent span.\n * @param callback Execution context in which the provided span will be active. Is passed the newly forked scope.\n * @returns the value returned from the provided callback function.\n */\nfunction withActiveSpan(span, callback) {\n const acs = getAcs();\n if (acs.withActiveSpan) {\n return acs.withActiveSpan(span, callback);\n }\n\n return withScope(scope => {\n _setSpanForScope(scope, span || undefined);\n return callback(scope);\n });\n}\n\n/** Suppress tracing in the given callback, ensuring no spans are generated inside of it. */\nfunction suppressTracing(callback) {\n const acs = getAcs();\n\n if (acs.suppressTracing) {\n return acs.suppressTracing(callback);\n }\n\n return withScope(scope => {\n scope.setSDKProcessingMetadata({ [SUPPRESS_TRACING_KEY]: true });\n return callback();\n });\n}\n\n/**\n * Starts a new trace for the duration of the provided callback. Spans started within the\n * callback will be part of the new trace instead of a potentially previously started trace.\n *\n * Important: Only use this function if you want to override the default trace lifetime and\n * propagation mechanism of the SDK for the duration and scope of the provided callback.\n * The newly created trace will also be the root of a new distributed trace, for example if\n * you make http requests within the callback.\n * This function might be useful if the operation you want to instrument should not be part\n * of a potentially ongoing trace.\n *\n * Default behavior:\n * - Server-side: A new trace is started for each incoming request.\n * - Browser: A new trace is started for each page our route. Navigating to a new route\n * or page will automatically create a new trace.\n */\nfunction startNewTrace(callback) {\n return withScope(scope => {\n scope.setPropagationContext(generatePropagationContext());\n DEBUG_BUILD && logger.info(`Starting a new trace with id ${scope.getPropagationContext().traceId}`);\n return withActiveSpan(null, callback);\n });\n}\n\nfunction createChildOrRootSpan({\n parentSpan,\n spanArguments,\n forceTransaction,\n scope,\n}\n\n) {\n if (!hasTracingEnabled()) {\n return new SentryNonRecordingSpan();\n }\n\n const isolationScope = getIsolationScope();\n\n let span;\n if (parentSpan && !forceTransaction) {\n span = _startChildSpan(parentSpan, scope, spanArguments);\n addChildSpanToSpan(parentSpan, span);\n } else if (parentSpan) {\n // If we forced a transaction but have a parent span, make sure to continue from the parent span, not the scope\n const dsc = getDynamicSamplingContextFromSpan(parentSpan);\n const { traceId, spanId: parentSpanId } = parentSpan.spanContext();\n const parentSampled = spanIsSampled(parentSpan);\n\n span = _startRootSpan(\n {\n traceId,\n parentSpanId,\n ...spanArguments,\n },\n scope,\n parentSampled,\n );\n\n freezeDscOnSpan(span, dsc);\n } else {\n const {\n traceId,\n dsc,\n parentSpanId,\n sampled: parentSampled,\n } = {\n ...isolationScope.getPropagationContext(),\n ...scope.getPropagationContext(),\n };\n\n span = _startRootSpan(\n {\n traceId,\n parentSpanId,\n ...spanArguments,\n },\n scope,\n parentSampled,\n );\n\n if (dsc) {\n freezeDscOnSpan(span, dsc);\n }\n }\n\n logSpanStart(span);\n\n setCapturedScopesOnSpan(span, scope, isolationScope);\n\n return span;\n}\n\n/**\n * This converts StartSpanOptions to SentrySpanArguments.\n * For the most part (for now) we accept the same options,\n * but some of them need to be transformed.\n */\nfunction parseSentrySpanArguments(options) {\n const exp = options.experimental || {};\n const initialCtx = {\n isStandalone: exp.standalone,\n ...options,\n };\n\n if (options.startTime) {\n const ctx = { ...initialCtx };\n ctx.startTimestamp = spanTimeInputToSeconds(options.startTime);\n delete ctx.startTime;\n return ctx;\n }\n\n return initialCtx;\n}\n\nfunction getAcs() {\n const carrier = getMainCarrier();\n return getAsyncContextStrategy(carrier);\n}\n\nfunction _startRootSpan(spanArguments, scope, parentSampled) {\n const client = getClient();\n const options = (client && client.getOptions()) || {};\n\n const { name = '', attributes } = spanArguments;\n const [sampled, sampleRate] = scope.getScopeData().sdkProcessingMetadata[SUPPRESS_TRACING_KEY]\n ? [false]\n : sampleSpan(options, {\n name,\n parentSampled,\n attributes,\n transactionContext: {\n name,\n parentSampled,\n },\n });\n\n const rootSpan = new SentrySpan({\n ...spanArguments,\n attributes: {\n [SEMANTIC_ATTRIBUTE_SENTRY_SOURCE]: 'custom',\n ...spanArguments.attributes,\n },\n sampled,\n });\n if (sampleRate !== undefined) {\n rootSpan.setAttribute(SEMANTIC_ATTRIBUTE_SENTRY_SAMPLE_RATE, sampleRate);\n }\n\n if (client) {\n client.emit('spanStart', rootSpan);\n }\n\n return rootSpan;\n}\n\n/**\n * Creates a new `Span` while setting the current `Span.id` as `parentSpanId`.\n * This inherits the sampling decision from the parent span.\n */\nfunction _startChildSpan(parentSpan, scope, spanArguments) {\n const { spanId, traceId } = parentSpan.spanContext();\n const sampled = scope.getScopeData().sdkProcessingMetadata[SUPPRESS_TRACING_KEY] ? false : spanIsSampled(parentSpan);\n\n const childSpan = sampled\n ? new SentrySpan({\n ...spanArguments,\n parentSpanId: spanId,\n traceId,\n sampled,\n })\n : new SentryNonRecordingSpan({ traceId });\n\n addChildSpanToSpan(parentSpan, childSpan);\n\n const client = getClient();\n if (client) {\n client.emit('spanStart', childSpan);\n // If it has an endTimestamp, it's already ended\n if (spanArguments.endTimestamp) {\n client.emit('spanEnd', childSpan);\n }\n }\n\n return childSpan;\n}\n\nfunction getParentSpan(scope) {\n const span = _getSpanForScope(scope) ;\n\n if (!span) {\n return undefined;\n }\n\n const client = getClient();\n const options = client ? client.getOptions() : {};\n if (options.parentSpanIsAlwaysRootSpan) {\n return getRootSpan(span) ;\n }\n\n return span;\n}\n\nfunction getActiveSpanWrapper(parentSpan) {\n return parentSpan !== undefined\n ? (callback) => {\n return withActiveSpan(parentSpan, callback);\n }\n : (callback) => callback();\n}\n\nexport { continueTrace, startInactiveSpan, startNewTrace, startSpan, startSpanManual, suppressTracing, withActiveSpan };\n","import { logger } from '@sentry/utils';\nimport { DEBUG_BUILD } from '../debug-build.js';\nimport { hasTracingEnabled } from '../utils/hasTracingEnabled.js';\nimport { parseSampleRate } from '../utils/parseSampleRate.js';\n\n/**\n * Makes a sampling decision for the given options.\n *\n * Called every time a root span is created. Only root spans which emerge with a `sampled` value of `true` will be\n * sent to Sentry.\n */\nfunction sampleSpan(\n options,\n samplingContext,\n) {\n // nothing to do if tracing is not enabled\n if (!hasTracingEnabled(options)) {\n return [false];\n }\n\n // we would have bailed already if neither `tracesSampler` nor `tracesSampleRate` nor `enableTracing` were defined, so one of these should\n // work; prefer the hook if so\n let sampleRate;\n if (typeof options.tracesSampler === 'function') {\n sampleRate = options.tracesSampler(samplingContext);\n } else if (samplingContext.parentSampled !== undefined) {\n sampleRate = samplingContext.parentSampled;\n } else if (typeof options.tracesSampleRate !== 'undefined') {\n sampleRate = options.tracesSampleRate;\n } else {\n // When `enableTracing === true`, we use a sample rate of 100%\n sampleRate = 1;\n }\n\n // Since this is coming from the user (or from a function provided by the user), who knows what we might get.\n // (The only valid values are booleans or numbers between 0 and 1.)\n const parsedSampleRate = parseSampleRate(sampleRate);\n\n if (parsedSampleRate === undefined) {\n DEBUG_BUILD && logger.warn('[Tracing] Discarding transaction because of invalid sample rate.');\n return [false];\n }\n\n // if the function returned 0 (or false), or if `tracesSampleRate` is 0, it's a sign the transaction should be dropped\n if (!parsedSampleRate) {\n DEBUG_BUILD &&\n logger.log(\n `[Tracing] Discarding transaction because ${\n typeof options.tracesSampler === 'function'\n ? 'tracesSampler returned 0 or false'\n : 'a negative sampling decision was inherited or tracesSampleRate is set to 0'\n }`,\n );\n return [false, parsedSampleRate];\n }\n\n // Now we roll the dice. Math.random is inclusive of 0, but not of 1, so strict < is safe here. In case sampleRate is\n // a boolean, the < comparison will cause it to be automatically cast to 1 if it's true and 0 if it's false.\n const shouldSample = Math.random() < parsedSampleRate;\n\n // if we're not going to keep it, we're done\n if (!shouldSample) {\n DEBUG_BUILD &&\n logger.log(\n `[Tracing] Discarding transaction because it's not included in the random sample (sampling rate = ${Number(\n sampleRate,\n )})`,\n );\n return [false, parsedSampleRate];\n }\n\n return [true, parsedSampleRate];\n}\n\nexport { sampleSpan };\n","/**\n * Polyfill for the optional chain operator, `?.`, given previous conversion of the expression into an array of values,\n * descriptors, and functions.\n *\n * Adapted from Sucrase (https://github.com/alangpierce/sucrase)\n * See https://github.com/alangpierce/sucrase/blob/265887868966917f3b924ce38dfad01fbab1329f/src/transformers/OptionalChainingNullishTransformer.ts#L15\n *\n * @param ops Array result of expression conversion\n * @returns The value of the expression\n */\nfunction _optionalChain(ops) {\n let lastAccessLHS = undefined;\n let value = ops[0];\n let i = 1;\n while (i < ops.length) {\n const op = ops[i] ;\n const fn = ops[i + 1] ;\n i += 2;\n // by checking for loose equality to `null`, we catch both `null` and `undefined`\n if ((op === 'optionalAccess' || op === 'optionalCall') && value == null) {\n // really we're meaning to return `undefined` as an actual value here, but it saves bytes not to write it\n return;\n }\n if (op === 'access' || op === 'optionalAccess') {\n lastAccessLHS = value;\n value = fn(value);\n } else if (op === 'call' || op === 'optionalCall') {\n value = fn((...args) => (value ).call(lastAccessLHS, ...args));\n lastAccessLHS = undefined;\n }\n }\n return value;\n}\n\n// Sucrase version\n// function _optionalChain(ops) {\n// let lastAccessLHS = undefined;\n// let value = ops[0];\n// let i = 1;\n// while (i < ops.length) {\n// const op = ops[i];\n// const fn = ops[i + 1];\n// i += 2;\n// if ((op === 'optionalAccess' || op === 'optionalCall') && value == null) {\n// return undefined;\n// }\n// if (op === 'access' || op === 'optionalAccess') {\n// lastAccessLHS = value;\n// value = fn(value);\n// } else if (op === 'call' || op === 'optionalCall') {\n// value = fn((...args) => value.call(lastAccessLHS, ...args));\n// lastAccessLHS = undefined;\n// }\n// }\n// return value;\n// }\n\nexport { _optionalChain };\n","const getRating = (value, thresholds) => {\n if (value > thresholds[1]) {\n return 'poor';\n }\n if (value > thresholds[0]) {\n return 'needs-improvement';\n }\n return 'good';\n};\n\nconst bindReporter = (\n callback,\n metric,\n thresholds,\n reportAllChanges,\n) => {\n let prevValue;\n let delta;\n return (forceReport) => {\n if (metric.value >= 0) {\n if (forceReport || reportAllChanges) {\n delta = metric.value - (prevValue || 0);\n\n // Report the metric if there's a non-zero delta or if no previous\n // value exists (which can happen in the case of the document becoming\n // hidden when the metric value is 0).\n // See: https://github.com/GoogleChrome/web-vitals/issues/14\n if (delta || prevValue === undefined) {\n prevValue = metric.value;\n metric.delta = delta;\n metric.rating = getRating(metric.value, thresholds);\n callback(metric);\n }\n }\n }\n };\n};\n\nexport { bindReporter };\n","import { WINDOW } from '../../../types.js';\n\n/*\n * Copyright 2022 Google LLC\n *\n * Licensed under the Apache License, Version 2.0 (the \"License\");\n * you may not use this file except in compliance with the License.\n * You may obtain a copy of the License at\n *\n * https://www.apache.org/licenses/LICENSE-2.0\n *\n * Unless required by applicable law or agreed to in writing, software\n * distributed under the License is distributed on an \"AS IS\" BASIS,\n * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.\n * See the License for the specific language governing permissions and\n * limitations under the License.\n */\n\n\nconst getNavigationEntry = () => {\n return WINDOW.performance && performance.getEntriesByType && performance.getEntriesByType('navigation')[0];\n};\n\nexport { getNavigationEntry };\n","import { getNavigationEntry } from './getNavigationEntry.js';\n\n/*\n * Copyright 2022 Google LLC\n *\n * Licensed under the Apache License, Version 2.0 (the \"License\");\n * you may not use this file except in compliance with the License.\n * You may obtain a copy of the License at\n *\n * https://www.apache.org/licenses/LICENSE-2.0\n *\n * Unless required by applicable law or agreed to in writing, software\n * distributed under the License is distributed on an \"AS IS\" BASIS,\n * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.\n * See the License for the specific language governing permissions and\n * limitations under the License.\n */\n\n\nconst getActivationStart = () => {\n const navEntry = getNavigationEntry();\n return (navEntry && navEntry.activationStart) || 0;\n};\n\nexport { getActivationStart };\n","import { WINDOW } from '../../../types.js';\nimport { generateUniqueID } from './generateUniqueID.js';\nimport { getActivationStart } from './getActivationStart.js';\nimport { getNavigationEntry } from './getNavigationEntry.js';\n\n/*\n * Copyright 2020 Google LLC\n *\n * Licensed under the Apache License, Version 2.0 (the \"License\");\n * you may not use this file except in compliance with the License.\n * You may obtain a copy of the License at\n *\n * https://www.apache.org/licenses/LICENSE-2.0\n *\n * Unless required by applicable law or agreed to in writing, software\n * distributed under the License is distributed on an \"AS IS\" BASIS,\n * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.\n * See the License for the specific language governing permissions and\n * limitations under the License.\n */\n\n\nconst initMetric = (name, value) => {\n const navEntry = getNavigationEntry();\n let navigationType = 'navigate';\n\n if (navEntry) {\n if ((WINDOW.document && WINDOW.document.prerendering) || getActivationStart() > 0) {\n navigationType = 'prerender';\n } else if (WINDOW.document && WINDOW.document.wasDiscarded) {\n navigationType = 'restore';\n } else if (navEntry.type) {\n navigationType = navEntry.type.replace(/_/g, '-') ;\n }\n }\n\n // Use `entries` type specific for the metric.\n const entries = [];\n\n return {\n name,\n value: typeof value === 'undefined' ? -1 : value,\n rating: 'good' , // If needed, will be updated when reported. `const` to keep the type from widening to `string`.\n delta: 0,\n entries,\n id: generateUniqueID(),\n navigationType,\n };\n};\n\nexport { initMetric };\n","/*\n * Copyright 2020 Google LLC\n *\n * Licensed under the Apache License, Version 2.0 (the \"License\");\n * you may not use this file except in compliance with the License.\n * You may obtain a copy of the License at\n *\n * https://www.apache.org/licenses/LICENSE-2.0\n *\n * Unless required by applicable law or agreed to in writing, software\n * distributed under the License is distributed on an \"AS IS\" BASIS,\n * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.\n * See the License for the specific language governing permissions and\n * limitations under the License.\n */\n\n/**\n * Performantly generate a unique, 30-char string by combining a version\n * number, the current timestamp with a 13-digit number integer.\n * @return {string}\n */\nconst generateUniqueID = () => {\n return `v3-${Date.now()}-${Math.floor(Math.random() * (9e12 - 1)) + 1e12}`;\n};\n\nexport { generateUniqueID };\n","/**\n * Takes a performance entry type and a callback function, and creates a\n * `PerformanceObserver` instance that will observe the specified entry type\n * with buffering enabled and call the callback _for each entry_.\n *\n * This function also feature-detects entry support and wraps the logic in a\n * try/catch to avoid errors in unsupporting browsers.\n */\nconst observe = (\n type,\n callback,\n opts,\n) => {\n try {\n if (PerformanceObserver.supportedEntryTypes.includes(type)) {\n const po = new PerformanceObserver(list => {\n // Delay by a microtask to workaround a bug in Safari where the\n // callback is invoked immediately, rather than in a separate task.\n // See: https://github.com/GoogleChrome/web-vitals/issues/277\n // eslint-disable-next-line @typescript-eslint/no-floating-promises\n Promise.resolve().then(() => {\n callback(list.getEntries() );\n });\n });\n po.observe(\n Object.assign(\n {\n type,\n buffered: true,\n },\n opts || {},\n ) ,\n );\n return po;\n }\n } catch (e) {\n // Do nothing.\n }\n return;\n};\n\nexport { observe };\n","import { WINDOW } from '../../../types.js';\n\n/*\n * Copyright 2020 Google LLC\n *\n * Licensed under the Apache License, Version 2.0 (the \"License\");\n * you may not use this file except in compliance with the License.\n * You may obtain a copy of the License at\n *\n * https://www.apache.org/licenses/LICENSE-2.0\n *\n * Unless required by applicable law or agreed to in writing, software\n * distributed under the License is distributed on an \"AS IS\" BASIS,\n * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.\n * See the License for the specific language governing permissions and\n * limitations under the License.\n */\n\n\nconst onHidden = (cb) => {\n const onHiddenOrPageHide = (event) => {\n if (event.type === 'pagehide' || (WINDOW.document && WINDOW.document.visibilityState === 'hidden')) {\n cb(event);\n }\n };\n\n if (WINDOW.document) {\n addEventListener('visibilitychange', onHiddenOrPageHide, true);\n // Some browsers have buggy implementations of visibilitychange,\n // so we use pagehide in addition, just to be safe.\n addEventListener('pagehide', onHiddenOrPageHide, true);\n }\n};\n\nexport { onHidden };\n","/*\n * Copyright 2022 Google LLC\n *\n * Licensed under the Apache License, Version 2.0 (the \"License\");\n * you may not use this file except in compliance with the License.\n * You may obtain a copy of the License at\n *\n * https://www.apache.org/licenses/LICENSE-2.0\n *\n * Unless required by applicable law or agreed to in writing, software\n * distributed under the License is distributed on an \"AS IS\" BASIS,\n * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.\n * See the License for the specific language governing permissions and\n * limitations under the License.\n */\n\nconst runOnce = (cb) => {\n let called = false;\n return (arg) => {\n if (!called) {\n cb(arg);\n called = true;\n }\n };\n};\n\nexport { runOnce };\n","import { WINDOW } from '../../../types.js';\n\n/*\n * Copyright 2020 Google LLC\n *\n * Licensed under the Apache License, Version 2.0 (the \"License\");\n * you may not use this file except in compliance with the License.\n * You may obtain a copy of the License at\n *\n * https://www.apache.org/licenses/LICENSE-2.0\n *\n * Unless required by applicable law or agreed to in writing, software\n * distributed under the License is distributed on an \"AS IS\" BASIS,\n * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.\n * See the License for the specific language governing permissions and\n * limitations under the License.\n */\n\n\nlet firstHiddenTime = -1;\n\nconst initHiddenTime = () => {\n // If the document is hidden when this code runs, assume it was always\n // hidden and the page was loaded in the background, with the one exception\n // that visibility state is always 'hidden' during prerendering, so we have\n // to ignore that case until prerendering finishes (see: `prerenderingchange`\n // event logic below).\n firstHiddenTime = WINDOW.document.visibilityState === 'hidden' && !WINDOW.document.prerendering ? 0 : Infinity;\n};\n\nconst onVisibilityUpdate = (event) => {\n // If the document is 'hidden' and no previous hidden timestamp has been\n // set, update it based on the current event data.\n if (WINDOW.document.visibilityState === 'hidden' && firstHiddenTime > -1) {\n // If the event is a 'visibilitychange' event, it means the page was\n // visible prior to this change, so the event timestamp is the first\n // hidden time.\n // However, if the event is not a 'visibilitychange' event, then it must\n // be a 'prerenderingchange' event, and the fact that the document is\n // still 'hidden' from the above check means the tab was activated\n // in a background state and so has always been hidden.\n firstHiddenTime = event.type === 'visibilitychange' ? event.timeStamp : 0;\n\n // Remove all listeners now that a `firstHiddenTime` value has been set.\n removeEventListener('visibilitychange', onVisibilityUpdate, true);\n removeEventListener('prerenderingchange', onVisibilityUpdate, true);\n }\n};\n\nconst addChangeListeners = () => {\n addEventListener('visibilitychange', onVisibilityUpdate, true);\n // IMPORTANT: when a page is prerendering, its `visibilityState` is\n // 'hidden', so in order to account for cases where this module checks for\n // visibility during prerendering, an additional check after prerendering\n // completes is also required.\n addEventListener('prerenderingchange', onVisibilityUpdate, true);\n};\n\nconst getVisibilityWatcher = () => {\n if (WINDOW.document && firstHiddenTime < 0) {\n // If the document is hidden when this code runs, assume it was hidden\n // since navigation start. This isn't a perfect heuristic, but it's the\n // best we can do until an API is available to support querying past\n // visibilityState.\n initHiddenTime();\n addChangeListeners();\n }\n return {\n get firstHiddenTime() {\n return firstHiddenTime;\n },\n };\n};\n\nexport { getVisibilityWatcher };\n","import { WINDOW } from '../../../types.js';\n\n/*\n * Copyright 2022 Google LLC\n *\n * Licensed under the Apache License, Version 2.0 (the \"License\");\n * you may not use this file except in compliance with the License.\n * You may obtain a copy of the License at\n *\n * https://www.apache.org/licenses/LICENSE-2.0\n *\n * Unless required by applicable law or agreed to in writing, software\n * distributed under the License is distributed on an \"AS IS\" BASIS,\n * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.\n * See the License for the specific language governing permissions and\n * limitations under the License.\n */\n\n\nconst whenActivated = (callback) => {\n if (WINDOW.document && WINDOW.document.prerendering) {\n addEventListener('prerenderingchange', () => callback(), true);\n } else {\n callback();\n }\n};\n\nexport { whenActivated };\n","import { bindReporter } from './lib/bindReporter.js';\nimport { getActivationStart } from './lib/getActivationStart.js';\nimport { getVisibilityWatcher } from './lib/getVisibilityWatcher.js';\nimport { initMetric } from './lib/initMetric.js';\nimport { observe } from './lib/observe.js';\nimport { whenActivated } from './lib/whenActivated.js';\n\n/*\n * Copyright 2020 Google LLC\n *\n * Licensed under the Apache License, Version 2.0 (the \"License\");\n * you may not use this file except in compliance with the License.\n * You may obtain a copy of the License at\n *\n * https://www.apache.org/licenses/LICENSE-2.0\n *\n * Unless required by applicable law or agreed to in writing, software\n * distributed under the License is distributed on an \"AS IS\" BASIS,\n * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.\n * See the License for the specific language governing permissions and\n * limitations under the License.\n */\n\n\n/** Thresholds for FCP. See https://web.dev/articles/fcp#what_is_a_good_fcp_score */\nconst FCPThresholds = [1800, 3000];\n\n/**\n * Calculates the [FCP](https://web.dev/articles/fcp) value for the current page and\n * calls the `callback` function once the value is ready, along with the\n * relevant `paint` performance entry used to determine the value. The reported\n * value is a `DOMHighResTimeStamp`.\n */\nconst onFCP = (onReport, opts = {}) => {\n whenActivated(() => {\n const visibilityWatcher = getVisibilityWatcher();\n const metric = initMetric('FCP');\n let report;\n\n const handleEntries = (entries) => {\n (entries ).forEach(entry => {\n if (entry.name === 'first-contentful-paint') {\n po.disconnect();\n\n // Only report if the page wasn't hidden prior to the first paint.\n if (entry.startTime < visibilityWatcher.firstHiddenTime) {\n // The activationStart reference is used because FCP should be\n // relative to page activation rather than navigation start if the\n // page was prerendered. But in cases where `activationStart` occurs\n // after the FCP, this time should be clamped at 0.\n metric.value = Math.max(entry.startTime - getActivationStart(), 0);\n metric.entries.push(entry);\n report(true);\n }\n }\n });\n };\n\n const po = observe('paint', handleEntries);\n\n if (po) {\n report = bindReporter(onReport, metric, FCPThresholds, opts.reportAllChanges);\n }\n });\n};\n\nexport { FCPThresholds, onFCP };\n","import { bindReporter } from './lib/bindReporter.js';\nimport { initMetric } from './lib/initMetric.js';\nimport { observe } from './lib/observe.js';\nimport { onHidden } from './lib/onHidden.js';\nimport { runOnce } from './lib/runOnce.js';\nimport { onFCP } from './onFCP.js';\n\n/*\n * Copyright 2020 Google LLC\n *\n * Licensed under the Apache License, Version 2.0 (the \"License\");\n * you may not use this file except in compliance with the License.\n * You may obtain a copy of the License at\n *\n * https://www.apache.org/licenses/LICENSE-2.0\n *\n * Unless required by applicable law or agreed to in writing, software\n * distributed under the License is distributed on an \"AS IS\" BASIS,\n * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.\n * See the License for the specific language governing permissions and\n * limitations under the License.\n */\n\n\n/** Thresholds for CLS. See https://web.dev/articles/cls#what_is_a_good_cls_score */\nconst CLSThresholds = [0.1, 0.25];\n\n/**\n * Calculates the [CLS](https://web.dev/articles/cls) value for the current page and\n * calls the `callback` function once the value is ready to be reported, along\n * with all `layout-shift` performance entries that were used in the metric\n * value calculation. The reported value is a `double` (corresponding to a\n * [layout shift score](https://web.dev/articles/cls#layout_shift_score)).\n *\n * If the `reportAllChanges` configuration option is set to `true`, the\n * `callback` function will be called as soon as the value is initially\n * determined as well as any time the value changes throughout the page\n * lifespan.\n *\n * _**Important:** CLS should be continually monitored for changes throughout\n * the entire lifespan of a page—including if the user returns to the page after\n * it's been hidden/backgrounded. However, since browsers often [will not fire\n * additional callbacks once the user has backgrounded a\n * page](https://developer.chrome.com/blog/page-lifecycle-api/#advice-hidden),\n * `callback` is always called when the page's visibility state changes to\n * hidden. As a result, the `callback` function might be called multiple times\n * during the same page load._\n */\nconst onCLS = (onReport, opts = {}) => {\n // Start monitoring FCP so we can only report CLS if FCP is also reported.\n // Note: this is done to match the current behavior of CrUX.\n onFCP(\n runOnce(() => {\n const metric = initMetric('CLS', 0);\n let report;\n\n let sessionValue = 0;\n let sessionEntries = [];\n\n const handleEntries = (entries) => {\n entries.forEach(entry => {\n // Only count layout shifts without recent user input.\n if (!entry.hadRecentInput) {\n const firstSessionEntry = sessionEntries[0];\n const lastSessionEntry = sessionEntries[sessionEntries.length - 1];\n\n // If the entry occurred less than 1 second after the previous entry\n // and less than 5 seconds after the first entry in the session,\n // include the entry in the current session. Otherwise, start a new\n // session.\n if (\n sessionValue &&\n firstSessionEntry &&\n lastSessionEntry &&\n entry.startTime - lastSessionEntry.startTime < 1000 &&\n entry.startTime - firstSessionEntry.startTime < 5000\n ) {\n sessionValue += entry.value;\n sessionEntries.push(entry);\n } else {\n sessionValue = entry.value;\n sessionEntries = [entry];\n }\n }\n });\n\n // If the current session value is larger than the current CLS value,\n // update CLS and the entries contributing to it.\n if (sessionValue > metric.value) {\n metric.value = sessionValue;\n metric.entries = sessionEntries;\n report();\n }\n };\n\n const po = observe('layout-shift', handleEntries);\n if (po) {\n report = bindReporter(onReport, metric, CLSThresholds, opts.reportAllChanges);\n\n onHidden(() => {\n handleEntries(po.takeRecords() );\n report(true);\n });\n\n // Queue a task to report (if nothing else triggers a report first).\n // This allows CLS to be reported as soon as FCP fires when\n // `reportAllChanges` is true.\n setTimeout(report, 0);\n }\n }),\n );\n};\n\nexport { CLSThresholds, onCLS };\n","import { bindReporter } from './lib/bindReporter.js';\nimport { getVisibilityWatcher } from './lib/getVisibilityWatcher.js';\nimport { initMetric } from './lib/initMetric.js';\nimport { observe } from './lib/observe.js';\nimport { onHidden } from './lib/onHidden.js';\nimport { runOnce } from './lib/runOnce.js';\nimport { whenActivated } from './lib/whenActivated.js';\n\n/*\n * Copyright 2020 Google LLC\n *\n * Licensed under the Apache License, Version 2.0 (the \"License\");\n * you may not use this file except in compliance with the License.\n * You may obtain a copy of the License at\n *\n * https://www.apache.org/licenses/LICENSE-2.0\n *\n * Unless required by applicable law or agreed to in writing, software\n * distributed under the License is distributed on an \"AS IS\" BASIS,\n * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.\n * See the License for the specific language governing permissions and\n * limitations under the License.\n */\n\n\n/** Thresholds for FID. See https://web.dev/articles/fid#what_is_a_good_fid_score */\nconst FIDThresholds = [100, 300];\n\n/**\n * Calculates the [FID](https://web.dev/articles/fid) value for the current page and\n * calls the `callback` function once the value is ready, along with the\n * relevant `first-input` performance entry used to determine the value. The\n * reported value is a `DOMHighResTimeStamp`.\n *\n * _**Important:** since FID is only reported after the user interacts with the\n * page, it's possible that it will not be reported for some page loads._\n */\nconst onFID = (onReport, opts = {}) => {\n whenActivated(() => {\n const visibilityWatcher = getVisibilityWatcher();\n const metric = initMetric('FID');\n // eslint-disable-next-line prefer-const\n let report;\n\n const handleEntry = (entry) => {\n // Only report if the page wasn't hidden prior to the first input.\n if (entry.startTime < visibilityWatcher.firstHiddenTime) {\n metric.value = entry.processingStart - entry.startTime;\n metric.entries.push(entry);\n report(true);\n }\n };\n\n const handleEntries = (entries) => {\n (entries ).forEach(handleEntry);\n };\n\n const po = observe('first-input', handleEntries);\n report = bindReporter(onReport, metric, FIDThresholds, opts.reportAllChanges);\n\n if (po) {\n onHidden(\n runOnce(() => {\n handleEntries(po.takeRecords() );\n po.disconnect();\n }),\n );\n }\n });\n};\n\nexport { FIDThresholds, onFID };\n","import { observe } from '../observe.js';\n\nlet interactionCountEstimate = 0;\nlet minKnownInteractionId = Infinity;\nlet maxKnownInteractionId = 0;\n\nconst updateEstimate = (entries) => {\n (entries ).forEach(e => {\n if (e.interactionId) {\n minKnownInteractionId = Math.min(minKnownInteractionId, e.interactionId);\n maxKnownInteractionId = Math.max(maxKnownInteractionId, e.interactionId);\n\n interactionCountEstimate = maxKnownInteractionId ? (maxKnownInteractionId - minKnownInteractionId) / 7 + 1 : 0;\n }\n });\n};\n\nlet po;\n\n/**\n * Returns the `interactionCount` value using the native API (if available)\n * or the polyfill estimate in this module.\n */\nconst getInteractionCount = () => {\n return po ? interactionCountEstimate : performance.interactionCount || 0;\n};\n\n/**\n * Feature detects native support or initializes the polyfill if needed.\n */\nconst initInteractionCountPolyfill = () => {\n if ('interactionCount' in performance || po) return;\n\n po = observe('event', updateEstimate, {\n type: 'event',\n buffered: true,\n durationThreshold: 0,\n } );\n};\n\nexport { getInteractionCount, initInteractionCountPolyfill };\n","import { WINDOW } from '../../types.js';\nimport { bindReporter } from './lib/bindReporter.js';\nimport { initMetric } from './lib/initMetric.js';\nimport { observe } from './lib/observe.js';\nimport { onHidden } from './lib/onHidden.js';\nimport { initInteractionCountPolyfill, getInteractionCount } from './lib/polyfills/interactionCountPolyfill.js';\nimport { whenActivated } from './lib/whenActivated.js';\n\n/*\n * Copyright 2022 Google LLC\n *\n * Licensed under the Apache License, Version 2.0 (the \"License\");\n * you may not use this file except in compliance with the License.\n * You may obtain a copy of the License at\n *\n * https://www.apache.org/licenses/LICENSE-2.0\n *\n * Unless required by applicable law or agreed to in writing, software\n * distributed under the License is distributed on an \"AS IS\" BASIS,\n * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.\n * See the License for the specific language governing permissions and\n * limitations under the License.\n */\n\n\n/** Thresholds for INP. See https://web.dev/articles/inp#what_is_a_good_inp_score */\nconst INPThresholds = [200, 500];\n\n// Used to store the interaction count after a bfcache restore, since p98\n// interaction latencies should only consider the current navigation.\nconst prevInteractionCount = 0;\n\n/**\n * Returns the interaction count since the last bfcache restore (or for the\n * full page lifecycle if there were no bfcache restores).\n */\nconst getInteractionCountForNavigation = () => {\n return getInteractionCount() - prevInteractionCount;\n};\n\n// To prevent unnecessary memory usage on pages with lots of interactions,\n// store at most 10 of the longest interactions to consider as INP candidates.\nconst MAX_INTERACTIONS_TO_CONSIDER = 10;\n\n// A list of longest interactions on the page (by latency) sorted so the\n// longest one is first. The list is as most MAX_INTERACTIONS_TO_CONSIDER long.\nconst longestInteractionList = [];\n\n// A mapping of longest interactions by their interaction ID.\n// This is used for faster lookup.\nconst longestInteractionMap = {};\n\n/**\n * Takes a performance entry and adds it to the list of worst interactions\n * if its duration is long enough to make it among the worst. If the\n * entry is part of an existing interaction, it is merged and the latency\n * and entries list is updated as needed.\n */\nconst processEntry = (entry) => {\n // The least-long of the 10 longest interactions.\n const minLongestInteraction = longestInteractionList[longestInteractionList.length - 1];\n\n // eslint-disable-next-line @typescript-eslint/no-non-null-assertion\n const existingInteraction = longestInteractionMap[entry.interactionId];\n\n // Only process the entry if it's possibly one of the ten longest,\n // or if it's part of an existing interaction.\n if (\n existingInteraction ||\n longestInteractionList.length < MAX_INTERACTIONS_TO_CONSIDER ||\n (minLongestInteraction && entry.duration > minLongestInteraction.latency)\n ) {\n // If the interaction already exists, update it. Otherwise create one.\n if (existingInteraction) {\n existingInteraction.entries.push(entry);\n existingInteraction.latency = Math.max(existingInteraction.latency, entry.duration);\n } else {\n const interaction = {\n // eslint-disable-next-line @typescript-eslint/no-non-null-assertion\n id: entry.interactionId,\n latency: entry.duration,\n entries: [entry],\n };\n longestInteractionMap[interaction.id] = interaction;\n longestInteractionList.push(interaction);\n }\n\n // Sort the entries by latency (descending) and keep only the top ten.\n longestInteractionList.sort((a, b) => b.latency - a.latency);\n longestInteractionList.splice(MAX_INTERACTIONS_TO_CONSIDER).forEach(i => {\n // eslint-disable-next-line @typescript-eslint/no-dynamic-delete\n delete longestInteractionMap[i.id];\n });\n }\n};\n\n/**\n * Returns the estimated p98 longest interaction based on the stored\n * interaction candidates and the interaction count for the current page.\n */\nconst estimateP98LongestInteraction = () => {\n const candidateInteractionIndex = Math.min(\n longestInteractionList.length - 1,\n Math.floor(getInteractionCountForNavigation() / 50),\n );\n\n return longestInteractionList[candidateInteractionIndex];\n};\n\n/**\n * Calculates the [INP](https://web.dev/articles/inp) value for the current\n * page and calls the `callback` function once the value is ready, along with\n * the `event` performance entries reported for that interaction. The reported\n * value is a `DOMHighResTimeStamp`.\n *\n * A custom `durationThreshold` configuration option can optionally be passed to\n * control what `event-timing` entries are considered for INP reporting. The\n * default threshold is `40`, which means INP scores of less than 40 are\n * reported as 0. Note that this will not affect your 75th percentile INP value\n * unless that value is also less than 40 (well below the recommended\n * [good](https://web.dev/articles/inp#what_is_a_good_inp_score) threshold).\n *\n * If the `reportAllChanges` configuration option is set to `true`, the\n * `callback` function will be called as soon as the value is initially\n * determined as well as any time the value changes throughout the page\n * lifespan.\n *\n * _**Important:** INP should be continually monitored for changes throughout\n * the entire lifespan of a page—including if the user returns to the page after\n * it's been hidden/backgrounded. However, since browsers often [will not fire\n * additional callbacks once the user has backgrounded a\n * page](https://developer.chrome.com/blog/page-lifecycle-api/#advice-hidden),\n * `callback` is always called when the page's visibility state changes to\n * hidden. As a result, the `callback` function might be called multiple times\n * during the same page load._\n */\nconst onINP = (onReport, opts = {}) => {\n whenActivated(() => {\n // TODO(philipwalton): remove once the polyfill is no longer needed.\n initInteractionCountPolyfill();\n\n const metric = initMetric('INP');\n // eslint-disable-next-line prefer-const\n let report;\n\n const handleEntries = (entries) => {\n entries.forEach(entry => {\n if (entry.interactionId) {\n processEntry(entry);\n }\n\n // Entries of type `first-input` don't currently have an `interactionId`,\n // so to consider them in INP we have to first check that an existing\n // entry doesn't match the `duration` and `startTime`.\n // Note that this logic assumes that `event` entries are dispatched\n // before `first-input` entries. This is true in Chrome (the only browser\n // that currently supports INP).\n // TODO(philipwalton): remove once crbug.com/1325826 is fixed.\n if (entry.entryType === 'first-input') {\n const noMatchingEntry = !longestInteractionList.some(interaction => {\n return interaction.entries.some(prevEntry => {\n return entry.duration === prevEntry.duration && entry.startTime === prevEntry.startTime;\n });\n });\n if (noMatchingEntry) {\n processEntry(entry);\n }\n }\n });\n\n const inp = estimateP98LongestInteraction();\n\n if (inp && inp.latency !== metric.value) {\n metric.value = inp.latency;\n metric.entries = inp.entries;\n report();\n }\n };\n\n const po = observe('event', handleEntries, {\n // Event Timing entries have their durations rounded to the nearest 8ms,\n // so a duration of 40ms would be any event that spans 2.5 or more frames\n // at 60Hz. This threshold is chosen to strike a balance between usefulness\n // and performance. Running this callback for any interaction that spans\n // just one or two frames is likely not worth the insight that could be\n // gained.\n durationThreshold: opts.durationThreshold != null ? opts.durationThreshold : 40,\n } );\n\n report = bindReporter(onReport, metric, INPThresholds, opts.reportAllChanges);\n\n if (po) {\n // If browser supports interactionId (and so supports INP), also\n // observe entries of type `first-input`. This is useful in cases\n // where the first interaction is less than the `durationThreshold`.\n if ('PerformanceEventTiming' in WINDOW && 'interactionId' in PerformanceEventTiming.prototype) {\n po.observe({ type: 'first-input', buffered: true });\n }\n\n onHidden(() => {\n handleEntries(po.takeRecords() );\n\n // If the interaction count shows that there were interactions but\n // none were captured by the PerformanceObserver, report a latency of 0.\n if (metric.value < 0 && getInteractionCountForNavigation() > 0) {\n metric.value = 0;\n metric.entries = [];\n }\n\n report(true);\n });\n }\n });\n};\n\nexport { INPThresholds, onINP };\n","import { WINDOW } from '../../types.js';\nimport { bindReporter } from './lib/bindReporter.js';\nimport { getActivationStart } from './lib/getActivationStart.js';\nimport { getVisibilityWatcher } from './lib/getVisibilityWatcher.js';\nimport { initMetric } from './lib/initMetric.js';\nimport { observe } from './lib/observe.js';\nimport { onHidden } from './lib/onHidden.js';\nimport { runOnce } from './lib/runOnce.js';\nimport { whenActivated } from './lib/whenActivated.js';\n\n/*\n * Copyright 2020 Google LLC\n *\n * Licensed under the Apache License, Version 2.0 (the \"License\");\n * you may not use this file except in compliance with the License.\n * You may obtain a copy of the License at\n *\n * https://www.apache.org/licenses/LICENSE-2.0\n *\n * Unless required by applicable law or agreed to in writing, software\n * distributed under the License is distributed on an \"AS IS\" BASIS,\n * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.\n * See the License for the specific language governing permissions and\n * limitations under the License.\n */\n\n\n/** Thresholds for LCP. See https://web.dev/articles/lcp#what_is_a_good_lcp_score */\nconst LCPThresholds = [2500, 4000];\n\nconst reportedMetricIDs = {};\n\n/**\n * Calculates the [LCP](https://web.dev/articles/lcp) value for the current page and\n * calls the `callback` function once the value is ready (along with the\n * relevant `largest-contentful-paint` performance entry used to determine the\n * value). The reported value is a `DOMHighResTimeStamp`.\n *\n * If the `reportAllChanges` configuration option is set to `true`, the\n * `callback` function will be called any time a new `largest-contentful-paint`\n * performance entry is dispatched, or once the final value of the metric has\n * been determined.\n */\nconst onLCP = (onReport, opts = {}) => {\n whenActivated(() => {\n const visibilityWatcher = getVisibilityWatcher();\n const metric = initMetric('LCP');\n let report;\n\n const handleEntries = (entries) => {\n const lastEntry = entries[entries.length - 1] ;\n if (lastEntry) {\n // Only report if the page wasn't hidden prior to LCP.\n if (lastEntry.startTime < visibilityWatcher.firstHiddenTime) {\n // The startTime attribute returns the value of the renderTime if it is\n // not 0, and the value of the loadTime otherwise. The activationStart\n // reference is used because LCP should be relative to page activation\n // rather than navigation start if the page was prerendered. But in cases\n // where `activationStart` occurs after the LCP, this time should be\n // clamped at 0.\n metric.value = Math.max(lastEntry.startTime - getActivationStart(), 0);\n metric.entries = [lastEntry];\n report();\n }\n }\n };\n\n const po = observe('largest-contentful-paint', handleEntries);\n\n if (po) {\n report = bindReporter(onReport, metric, LCPThresholds, opts.reportAllChanges);\n\n const stopListening = runOnce(() => {\n if (!reportedMetricIDs[metric.id]) {\n handleEntries(po.takeRecords() );\n po.disconnect();\n reportedMetricIDs[metric.id] = true;\n report(true);\n }\n });\n\n // Stop listening after input. Note: while scrolling is an input that\n // stops LCP observation, it's unreliable since it can be programmatically\n // generated. See: https://github.com/GoogleChrome/web-vitals/issues/75\n ['keydown', 'click'].forEach(type => {\n if (WINDOW.document) {\n // Wrap in a setTimeout so the callback is run in a separate task\n // to avoid extending the keyboard/click handler to reduce INP impact\n // https://github.com/GoogleChrome/web-vitals/issues/383\n addEventListener(type, () => setTimeout(stopListening, 0), true);\n }\n });\n\n onHidden(stopListening);\n }\n });\n};\n\nexport { LCPThresholds, onLCP };\n","import { WINDOW } from '../../types.js';\nimport { bindReporter } from './lib/bindReporter.js';\nimport { getActivationStart } from './lib/getActivationStart.js';\nimport { getNavigationEntry } from './lib/getNavigationEntry.js';\nimport { initMetric } from './lib/initMetric.js';\nimport { whenActivated } from './lib/whenActivated.js';\n\n/*\n * Copyright 2020 Google LLC\n *\n * Licensed under the Apache License, Version 2.0 (the \"License\");\n * you may not use this file except in compliance with the License.\n * You may obtain a copy of the License at\n *\n * https://www.apache.org/licenses/LICENSE-2.0\n *\n * Unless required by applicable law or agreed to in writing, software\n * distributed under the License is distributed on an \"AS IS\" BASIS,\n * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.\n * See the License for the specific language governing permissions and\n * limitations under the License.\n */\n\n\n/** Thresholds for TTFB. See https://web.dev/articles/ttfb#what_is_a_good_ttfb_score */\nconst TTFBThresholds = [800, 1800];\n\n/**\n * Runs in the next task after the page is done loading and/or prerendering.\n * @param callback\n */\nconst whenReady = (callback) => {\n if (WINDOW.document && WINDOW.document.prerendering) {\n whenActivated(() => whenReady(callback));\n } else if (WINDOW.document && WINDOW.document.readyState !== 'complete') {\n addEventListener('load', () => whenReady(callback), true);\n } else {\n // Queue a task so the callback runs after `loadEventEnd`.\n setTimeout(callback, 0);\n }\n};\n\n/**\n * Calculates the [TTFB](https://web.dev/articles/ttfb) value for the\n * current page and calls the `callback` function once the page has loaded,\n * along with the relevant `navigation` performance entry used to determine the\n * value. The reported value is a `DOMHighResTimeStamp`.\n *\n * Note, this function waits until after the page is loaded to call `callback`\n * in order to ensure all properties of the `navigation` entry are populated.\n * This is useful if you want to report on other metrics exposed by the\n * [Navigation Timing API](https://w3c.github.io/navigation-timing/). For\n * example, the TTFB metric starts from the page's [time\n * origin](https://www.w3.org/TR/hr-time-2/#sec-time-origin), which means it\n * includes time spent on DNS lookup, connection negotiation, network latency,\n * and server processing time.\n */\nconst onTTFB = (onReport, opts = {}) => {\n const metric = initMetric('TTFB');\n const report = bindReporter(onReport, metric, TTFBThresholds, opts.reportAllChanges);\n\n whenReady(() => {\n const navEntry = getNavigationEntry();\n\n if (navEntry) {\n const responseStart = navEntry.responseStart;\n\n // In some cases no value is reported by the browser (for\n // privacy/security reasons), and in other cases (bugs) the value is\n // negative or is larger than the current page time. Ignore these cases:\n // https://github.com/GoogleChrome/web-vitals/issues/137\n // https://github.com/GoogleChrome/web-vitals/issues/162\n // https://github.com/GoogleChrome/web-vitals/issues/275\n if (responseStart <= 0 || responseStart > performance.now()) return;\n\n // The activationStart reference is used because TTFB should be\n // relative to page activation rather than navigation start if the\n // page was prerendered. But in cases where `activationStart` occurs\n // after the first byte is received, this time should be clamped at 0.\n metric.value = Math.max(responseStart - getActivationStart(), 0);\n\n metric.entries = [navEntry];\n report(true);\n }\n });\n};\n\nexport { TTFBThresholds, onTTFB };\n","import { logger, getFunctionName } from '@sentry/utils';\nimport { DEBUG_BUILD } from '../debug-build.js';\nimport { onCLS } from './web-vitals/getCLS.js';\nimport { onFID } from './web-vitals/getFID.js';\nimport { onINP } from './web-vitals/getINP.js';\nimport { onLCP } from './web-vitals/getLCP.js';\nimport { observe } from './web-vitals/lib/observe.js';\nimport { onTTFB } from './web-vitals/onTTFB.js';\n\nconst handlers = {};\nconst instrumented = {};\n\nlet _previousCls;\nlet _previousFid;\nlet _previousLcp;\nlet _previousTtfb;\nlet _previousInp;\n\n/**\n * Add a callback that will be triggered when a CLS metric is available.\n * Returns a cleanup callback which can be called to remove the instrumentation handler.\n *\n * Pass `stopOnCallback = true` to stop listening for CLS when the cleanup callback is called.\n * This will lead to the CLS being finalized and frozen.\n */\nfunction addClsInstrumentationHandler(\n callback,\n stopOnCallback = false,\n) {\n return addMetricObserver('cls', callback, instrumentCls, _previousCls, stopOnCallback);\n}\n\n/**\n * Add a callback that will be triggered when a LCP metric is available.\n * Returns a cleanup callback which can be called to remove the instrumentation handler.\n *\n * Pass `stopOnCallback = true` to stop listening for LCP when the cleanup callback is called.\n * This will lead to the LCP being finalized and frozen.\n */\nfunction addLcpInstrumentationHandler(\n callback,\n stopOnCallback = false,\n) {\n return addMetricObserver('lcp', callback, instrumentLcp, _previousLcp, stopOnCallback);\n}\n\n/**\n * Add a callback that will be triggered when a FID metric is available.\n * Returns a cleanup callback which can be called to remove the instrumentation handler.\n */\nfunction addFidInstrumentationHandler(callback) {\n return addMetricObserver('fid', callback, instrumentFid, _previousFid);\n}\n\n/**\n * Add a callback that will be triggered when a FID metric is available.\n */\nfunction addTtfbInstrumentationHandler(callback) {\n return addMetricObserver('ttfb', callback, instrumentTtfb, _previousTtfb);\n}\n\n/**\n * Add a callback that will be triggered when a INP metric is available.\n * Returns a cleanup callback which can be called to remove the instrumentation handler.\n */\nfunction addInpInstrumentationHandler(\n callback,\n) {\n return addMetricObserver('inp', callback, instrumentInp, _previousInp);\n}\n\n/**\n * Add a callback that will be triggered when a performance observer is triggered,\n * and receives the entries of the observer.\n * Returns a cleanup callback which can be called to remove the instrumentation handler.\n */\nfunction addPerformanceInstrumentationHandler(\n type,\n callback,\n) {\n addHandler(type, callback);\n\n if (!instrumented[type]) {\n instrumentPerformanceObserver(type);\n instrumented[type] = true;\n }\n\n return getCleanupCallback(type, callback);\n}\n\n/** Trigger all handlers of a given type. */\nfunction triggerHandlers(type, data) {\n const typeHandlers = handlers[type];\n\n if (!typeHandlers || !typeHandlers.length) {\n return;\n }\n\n for (const handler of typeHandlers) {\n try {\n handler(data);\n } catch (e) {\n DEBUG_BUILD &&\n logger.error(\n `Error while triggering instrumentation handler.\\nType: ${type}\\nName: ${getFunctionName(handler)}\\nError:`,\n e,\n );\n }\n }\n}\n\nfunction instrumentCls() {\n return onCLS(\n metric => {\n triggerHandlers('cls', {\n metric,\n });\n _previousCls = metric;\n },\n // We want the callback to be called whenever the CLS value updates.\n // By default, the callback is only called when the tab goes to the background.\n { reportAllChanges: true },\n );\n}\n\nfunction instrumentFid() {\n return onFID(metric => {\n triggerHandlers('fid', {\n metric,\n });\n _previousFid = metric;\n });\n}\n\nfunction instrumentLcp() {\n return onLCP(\n metric => {\n triggerHandlers('lcp', {\n metric,\n });\n _previousLcp = metric;\n },\n // We want the callback to be called whenever the LCP value updates.\n // By default, the callback is only called when the tab goes to the background.\n { reportAllChanges: true },\n );\n}\n\nfunction instrumentTtfb() {\n return onTTFB(metric => {\n triggerHandlers('ttfb', {\n metric,\n });\n _previousTtfb = metric;\n });\n}\n\nfunction instrumentInp() {\n return onINP(metric => {\n triggerHandlers('inp', {\n metric,\n });\n _previousInp = metric;\n });\n}\n\nfunction addMetricObserver(\n type,\n callback,\n instrumentFn,\n previousValue,\n stopOnCallback = false,\n) {\n addHandler(type, callback);\n\n let stopListening;\n\n if (!instrumented[type]) {\n stopListening = instrumentFn();\n instrumented[type] = true;\n }\n\n if (previousValue) {\n callback({ metric: previousValue });\n }\n\n return getCleanupCallback(type, callback, stopOnCallback ? stopListening : undefined);\n}\n\nfunction instrumentPerformanceObserver(type) {\n const options = {};\n\n // Special per-type options we want to use\n if (type === 'event') {\n options.durationThreshold = 0;\n }\n\n observe(\n type,\n entries => {\n triggerHandlers(type, { entries });\n },\n options,\n );\n}\n\nfunction addHandler(type, handler) {\n handlers[type] = handlers[type] || [];\n (handlers[type] ).push(handler);\n}\n\n// Get a callback which can be called to remove the instrumentation handler\nfunction getCleanupCallback(\n type,\n callback,\n stopListening,\n) {\n return () => {\n if (stopListening) {\n stopListening();\n }\n\n const typeHandlers = handlers[type];\n\n if (!typeHandlers) {\n return;\n }\n\n const index = typeHandlers.indexOf(callback);\n if (index !== -1) {\n typeHandlers.splice(index, 1);\n }\n };\n}\n\n/**\n * Check if a PerformanceEntry is a PerformanceEventTiming by checking for the `duration` property.\n */\nfunction isPerformanceEventTiming(entry) {\n return 'duration' in entry;\n}\n\nexport { addClsInstrumentationHandler, addFidInstrumentationHandler, addInpInstrumentationHandler, addLcpInstrumentationHandler, addPerformanceInstrumentationHandler, addTtfbInstrumentationHandler, isPerformanceEventTiming };\n","import { spanToJSON, withActiveSpan, startInactiveSpan, getClient, getCurrentScope } from '@sentry/core';\nimport { WINDOW } from '../types.js';\n\n/**\n * Checks if a given value is a valid measurement value.\n */\nfunction isMeasurementValue(value) {\n return typeof value === 'number' && isFinite(value);\n}\n\n/**\n * Helper function to start child on transactions. This function will make sure that the transaction will\n * use the start timestamp of the created child span if it is earlier than the transactions actual\n * start timestamp.\n */\nfunction startAndEndSpan(\n parentSpan,\n startTimeInSeconds,\n endTime,\n { ...ctx },\n) {\n const parentStartTime = spanToJSON(parentSpan).start_timestamp;\n if (parentStartTime && parentStartTime > startTimeInSeconds) {\n // We can only do this for SentrySpans...\n if (typeof (parentSpan ).updateStartTime === 'function') {\n (parentSpan ).updateStartTime(startTimeInSeconds);\n }\n }\n\n // The return value only exists for tests\n return withActiveSpan(parentSpan, () => {\n const span = startInactiveSpan({\n startTime: startTimeInSeconds,\n ...ctx,\n });\n\n if (span) {\n span.end(endTime);\n }\n\n return span;\n });\n}\n\n/**\n * Starts an inactive, standalone span used to send web vital values to Sentry.\n * DO NOT use this for arbitrary spans, as these spans require special handling\n * during ingestion to extract metrics.\n *\n * This function adds a bunch of attributes and data to the span that's shared\n * by all web vital standalone spans. However, you need to take care of adding\n * the actual web vital value as an event to the span. Also, you need to assign\n * a transaction name and some other values that are specific to the web vital.\n *\n * Ultimately, you also need to take care of ending the span to send it off.\n *\n * @param options\n *\n * @returns an inactive, standalone and NOT YET ended span\n */\nfunction startStandaloneWebVitalSpan(options) {\n const client = getClient();\n if (!client) {\n return;\n }\n\n const { name, transaction, attributes: passedAttributes, startTime } = options;\n\n const { release, environment } = client.getOptions();\n // We need to get the replay, user, and activeTransaction from the current scope\n // so that we can associate replay id, profile id, and a user display to the span\n const replay = client.getIntegrationByName('Replay');\n const replayId = replay && replay.getReplayId();\n\n const scope = getCurrentScope();\n\n const user = scope.getUser();\n const userDisplay = user !== undefined ? user.email || user.id || user.ip_address : undefined;\n\n let profileId = undefined;\n try {\n // @ts-expect-error skip optional chaining to save bundle size with try catch\n profileId = scope.getScopeData().contexts.profile.profile_id;\n } catch (e) {\n // do nothing\n }\n\n const attributes = {\n release,\n environment,\n\n user: userDisplay || undefined,\n profile_id: profileId || undefined,\n replay_id: replayId || undefined,\n\n transaction,\n\n // Web vital score calculation relies on the user agent to account for different\n // browsers setting different thresholds for what is considered a good/meh/bad value.\n // For example: Chrome vs. Chrome Mobile\n 'user_agent.original': WINDOW.navigator && WINDOW.navigator.userAgent,\n\n ...passedAttributes,\n };\n\n return startInactiveSpan({\n name,\n attributes,\n startTime,\n experimental: {\n standalone: true,\n },\n });\n}\n\n/** Get the browser performance API. */\nfunction getBrowserPerformanceAPI() {\n // @ts-expect-error we want to make sure all of these are available, even if TS is sure they are\n return WINDOW && WINDOW.addEventListener && WINDOW.performance;\n}\n\n/**\n * Converts from milliseconds to seconds\n * @param time time in ms\n */\nfunction msToSec(time) {\n return time / 1000;\n}\n\nexport { getBrowserPerformanceAPI, isMeasurementValue, msToSec, startAndEndSpan, startStandaloneWebVitalSpan };\n","import { getActiveSpan, startInactiveSpan, spanToJSON, setMeasurement, SEMANTIC_ATTRIBUTE_SENTRY_ORIGIN } from '@sentry/core';\nimport { browserPerformanceTimeOrigin, logger, parseUrl, htmlTreeAsString, getComponentName } from '@sentry/utils';\nimport { DEBUG_BUILD } from '../debug-build.js';\nimport { WINDOW } from '../types.js';\nimport { trackClsAsStandaloneSpan } from './cls.js';\nimport { addPerformanceInstrumentationHandler, addClsInstrumentationHandler, addLcpInstrumentationHandler, addFidInstrumentationHandler, addTtfbInstrumentationHandler } from './instrument.js';\nimport { getBrowserPerformanceAPI, msToSec, startAndEndSpan, isMeasurementValue } from './utils.js';\nimport { getNavigationEntry } from './web-vitals/lib/getNavigationEntry.js';\nimport { getVisibilityWatcher } from './web-vitals/lib/getVisibilityWatcher.js';\n\n/* eslint-disable max-lines */\n\nconst MAX_INT_AS_BYTES = 2147483647;\n\nlet _performanceCursor = 0;\n\nlet _measurements = {};\nlet _lcpEntry;\nlet _clsEntry;\n\n/**\n * Start tracking web vitals.\n * The callback returned by this function can be used to stop tracking & ensure all measurements are final & captured.\n *\n * @returns A function that forces web vitals collection\n */\nfunction startTrackingWebVitals({ recordClsStandaloneSpans }) {\n const performance = getBrowserPerformanceAPI();\n if (performance && browserPerformanceTimeOrigin) {\n // @ts-expect-error we want to make sure all of these are available, even if TS is sure they are\n if (performance.mark) {\n WINDOW.performance.mark('sentry-tracing-init');\n }\n const fidCleanupCallback = _trackFID();\n const lcpCleanupCallback = _trackLCP();\n const ttfbCleanupCallback = _trackTtfb();\n const clsCleanupCallback = recordClsStandaloneSpans ? trackClsAsStandaloneSpan() : _trackCLS();\n\n return () => {\n fidCleanupCallback();\n lcpCleanupCallback();\n ttfbCleanupCallback();\n clsCleanupCallback && clsCleanupCallback();\n };\n }\n\n return () => undefined;\n}\n\n/**\n * Start tracking long tasks.\n */\nfunction startTrackingLongTasks() {\n addPerformanceInstrumentationHandler('longtask', ({ entries }) => {\n if (!getActiveSpan()) {\n return;\n }\n for (const entry of entries) {\n const startTime = msToSec((browserPerformanceTimeOrigin ) + entry.startTime);\n const duration = msToSec(entry.duration);\n\n const span = startInactiveSpan({\n name: 'Main UI thread blocked',\n op: 'ui.long-task',\n startTime,\n attributes: {\n [SEMANTIC_ATTRIBUTE_SENTRY_ORIGIN]: 'auto.ui.browser.metrics',\n },\n });\n if (span) {\n span.end(startTime + duration);\n }\n }\n });\n}\n\n/**\n * Start tracking long animation frames.\n */\nfunction startTrackingLongAnimationFrames() {\n // NOTE: the current web-vitals version (3.5.2) does not support long-animation-frame, so\n // we directly observe `long-animation-frame` events instead of through the web-vitals\n // `observe` helper function.\n const observer = new PerformanceObserver(list => {\n if (!getActiveSpan()) {\n return;\n }\n for (const entry of list.getEntries() ) {\n if (!entry.scripts[0]) {\n continue;\n }\n\n const startTime = msToSec((browserPerformanceTimeOrigin ) + entry.startTime);\n const duration = msToSec(entry.duration);\n\n const attributes = {\n [SEMANTIC_ATTRIBUTE_SENTRY_ORIGIN]: 'auto.ui.browser.metrics',\n };\n\n const initialScript = entry.scripts[0];\n const { invoker, invokerType, sourceURL, sourceFunctionName, sourceCharPosition } = initialScript;\n attributes['browser.script.invoker'] = invoker;\n attributes['browser.script.invoker_type'] = invokerType;\n if (sourceURL) {\n attributes['code.filepath'] = sourceURL;\n }\n if (sourceFunctionName) {\n attributes['code.function'] = sourceFunctionName;\n }\n if (sourceCharPosition !== -1) {\n attributes['browser.script.source_char_position'] = sourceCharPosition;\n }\n\n const span = startInactiveSpan({\n name: 'Main UI thread blocked',\n op: 'ui.long-animation-frame',\n startTime,\n attributes,\n });\n if (span) {\n span.end(startTime + duration);\n }\n }\n });\n\n observer.observe({ type: 'long-animation-frame', buffered: true });\n}\n\n/**\n * Start tracking interaction events.\n */\nfunction startTrackingInteractions() {\n addPerformanceInstrumentationHandler('event', ({ entries }) => {\n if (!getActiveSpan()) {\n return;\n }\n for (const entry of entries) {\n if (entry.name === 'click') {\n const startTime = msToSec((browserPerformanceTimeOrigin ) + entry.startTime);\n const duration = msToSec(entry.duration);\n\n const spanOptions = {\n name: htmlTreeAsString(entry.target),\n op: `ui.interaction.${entry.name}`,\n startTime: startTime,\n attributes: {\n [SEMANTIC_ATTRIBUTE_SENTRY_ORIGIN]: 'auto.ui.browser.metrics',\n },\n };\n\n const componentName = getComponentName(entry.target);\n if (componentName) {\n spanOptions.attributes['ui.component_name'] = componentName;\n }\n\n const span = startInactiveSpan(spanOptions);\n if (span) {\n span.end(startTime + duration);\n }\n }\n }\n });\n}\n\n/**\n * Starts tracking the Cumulative Layout Shift on the current page and collects the value and last entry\n * to the `_measurements` object which ultimately is applied to the pageload span's measurements.\n */\nfunction _trackCLS() {\n return addClsInstrumentationHandler(({ metric }) => {\n const entry = metric.entries[metric.entries.length - 1] ;\n if (!entry) {\n return;\n }\n DEBUG_BUILD && logger.log(`[Measurements] Adding CLS ${metric.value}`);\n _measurements['cls'] = { value: metric.value, unit: '' };\n _clsEntry = entry;\n }, true);\n}\n\n/** Starts tracking the Largest Contentful Paint on the current page. */\nfunction _trackLCP() {\n return addLcpInstrumentationHandler(({ metric }) => {\n const entry = metric.entries[metric.entries.length - 1];\n if (!entry) {\n return;\n }\n\n DEBUG_BUILD && logger.log('[Measurements] Adding LCP');\n _measurements['lcp'] = { value: metric.value, unit: 'millisecond' };\n _lcpEntry = entry ;\n }, true);\n}\n\n/** Starts tracking the First Input Delay on the current page. */\nfunction _trackFID() {\n return addFidInstrumentationHandler(({ metric }) => {\n const entry = metric.entries[metric.entries.length - 1];\n if (!entry) {\n return;\n }\n\n const timeOrigin = msToSec(browserPerformanceTimeOrigin );\n const startTime = msToSec(entry.startTime);\n DEBUG_BUILD && logger.log('[Measurements] Adding FID');\n _measurements['fid'] = { value: metric.value, unit: 'millisecond' };\n _measurements['mark.fid'] = { value: timeOrigin + startTime, unit: 'second' };\n });\n}\n\nfunction _trackTtfb() {\n return addTtfbInstrumentationHandler(({ metric }) => {\n const entry = metric.entries[metric.entries.length - 1];\n if (!entry) {\n return;\n }\n\n DEBUG_BUILD && logger.log('[Measurements] Adding TTFB');\n _measurements['ttfb'] = { value: metric.value, unit: 'millisecond' };\n });\n}\n\n/** Add performance related spans to a transaction */\nfunction addPerformanceEntries(span, options) {\n const performance = getBrowserPerformanceAPI();\n if (!performance || !WINDOW.performance.getEntries || !browserPerformanceTimeOrigin) {\n // Gatekeeper if performance API not available\n return;\n }\n\n DEBUG_BUILD && logger.log('[Tracing] Adding & adjusting spans using Performance API');\n const timeOrigin = msToSec(browserPerformanceTimeOrigin);\n\n const performanceEntries = performance.getEntries();\n\n const { op, start_timestamp: transactionStartTime } = spanToJSON(span);\n\n // eslint-disable-next-line @typescript-eslint/no-explicit-any\n performanceEntries.slice(_performanceCursor).forEach((entry) => {\n const startTime = msToSec(entry.startTime);\n const duration = msToSec(\n // Inexplicably, Chrome sometimes emits a negative duration. We need to work around this.\n // There is a SO post attempting to explain this, but it leaves one with open questions: https://stackoverflow.com/questions/23191918/peformance-getentries-and-negative-duration-display\n // The way we clamp the value is probably not accurate, since we have observed this happen for things that may take a while to load, like for example the replay worker.\n // TODO: Investigate why this happens and how to properly mitigate. For now, this is a workaround to prevent transactions being dropped due to negative duration spans.\n Math.max(0, entry.duration),\n );\n\n if (op === 'navigation' && transactionStartTime && timeOrigin + startTime < transactionStartTime) {\n return;\n }\n\n switch (entry.entryType) {\n case 'navigation': {\n _addNavigationSpans(span, entry, timeOrigin);\n break;\n }\n case 'mark':\n case 'paint':\n case 'measure': {\n _addMeasureSpans(span, entry, startTime, duration, timeOrigin);\n\n // capture web vitals\n const firstHidden = getVisibilityWatcher();\n // Only report if the page wasn't hidden prior to the web vital.\n const shouldRecord = entry.startTime < firstHidden.firstHiddenTime;\n\n if (entry.name === 'first-paint' && shouldRecord) {\n DEBUG_BUILD && logger.log('[Measurements] Adding FP');\n _measurements['fp'] = { value: entry.startTime, unit: 'millisecond' };\n }\n if (entry.name === 'first-contentful-paint' && shouldRecord) {\n DEBUG_BUILD && logger.log('[Measurements] Adding FCP');\n _measurements['fcp'] = { value: entry.startTime, unit: 'millisecond' };\n }\n break;\n }\n case 'resource': {\n _addResourceSpans(span, entry, entry.name , startTime, duration, timeOrigin);\n break;\n }\n // Ignore other entry types.\n }\n });\n\n _performanceCursor = Math.max(performanceEntries.length - 1, 0);\n\n _trackNavigator(span);\n\n // Measurements are only available for pageload transactions\n if (op === 'pageload') {\n _addTtfbRequestTimeToMeasurements(_measurements);\n\n ['fcp', 'fp', 'lcp'].forEach(name => {\n const measurement = _measurements[name];\n if (!measurement || !transactionStartTime || timeOrigin >= transactionStartTime) {\n return;\n }\n // The web vitals, fcp, fp, lcp, and ttfb, all measure relative to timeOrigin.\n // Unfortunately, timeOrigin is not captured within the span span data, so these web vitals will need\n // to be adjusted to be relative to span.startTimestamp.\n const oldValue = measurement.value;\n const measurementTimestamp = timeOrigin + msToSec(oldValue);\n\n // normalizedValue should be in milliseconds\n const normalizedValue = Math.abs((measurementTimestamp - transactionStartTime) * 1000);\n const delta = normalizedValue - oldValue;\n\n DEBUG_BUILD && logger.log(`[Measurements] Normalized ${name} from ${oldValue} to ${normalizedValue} (${delta})`);\n measurement.value = normalizedValue;\n });\n\n const fidMark = _measurements['mark.fid'];\n if (fidMark && _measurements['fid']) {\n // create span for FID\n startAndEndSpan(span, fidMark.value, fidMark.value + msToSec(_measurements['fid'].value), {\n name: 'first input delay',\n op: 'ui.action',\n attributes: {\n [SEMANTIC_ATTRIBUTE_SENTRY_ORIGIN]: 'auto.ui.browser.metrics',\n },\n });\n\n // Delete mark.fid as we don't want it to be part of final payload\n delete _measurements['mark.fid'];\n }\n\n // If FCP is not recorded we should not record the cls value\n // according to the new definition of CLS.\n // TODO: Check if the first condition is still necessary: `onCLS` already only fires once `onFCP` was called.\n if (!('fcp' in _measurements) || !options.recordClsOnPageloadSpan) {\n delete _measurements.cls;\n }\n\n Object.entries(_measurements).forEach(([measurementName, measurement]) => {\n setMeasurement(measurementName, measurement.value, measurement.unit);\n });\n\n _tagMetricInfo(span);\n }\n\n _lcpEntry = undefined;\n _clsEntry = undefined;\n _measurements = {};\n}\n\n/** Create measure related spans */\nfunction _addMeasureSpans(\n span,\n // eslint-disable-next-line @typescript-eslint/no-explicit-any\n entry,\n startTime,\n duration,\n timeOrigin,\n) {\n const navEntry = getNavigationEntry();\n const requestTime = msToSec(navEntry ? navEntry.requestStart : 0);\n // Because performance.measure accepts arbitrary timestamps it can produce\n // spans that happen before the browser even makes a request for the page.\n //\n // An example of this is the automatically generated Next.js-before-hydration\n // spans created by the Next.js framework.\n //\n // To prevent this we will pin the start timestamp to the request start time\n // This does make duration inaccruate, so if this does happen, we will add\n // an attribute to the span\n const measureStartTimestamp = timeOrigin + Math.max(startTime, requestTime);\n const startTimeStamp = timeOrigin + startTime;\n const measureEndTimestamp = startTimeStamp + duration;\n\n const attributes = {\n [SEMANTIC_ATTRIBUTE_SENTRY_ORIGIN]: 'auto.resource.browser.metrics',\n };\n\n if (measureStartTimestamp !== startTimeStamp) {\n attributes['sentry.browser.measure_happened_before_request'] = true;\n attributes['sentry.browser.measure_start_time'] = measureStartTimestamp;\n }\n\n startAndEndSpan(span, measureStartTimestamp, measureEndTimestamp, {\n name: entry.name ,\n op: entry.entryType ,\n attributes,\n });\n\n return measureStartTimestamp;\n}\n\n/** Instrument navigation entries */\n// eslint-disable-next-line @typescript-eslint/no-explicit-any\nfunction _addNavigationSpans(span, entry, timeOrigin) {\n ['unloadEvent', 'redirect', 'domContentLoadedEvent', 'loadEvent', 'connect'].forEach(event => {\n _addPerformanceNavigationTiming(span, entry, event, timeOrigin);\n });\n _addPerformanceNavigationTiming(span, entry, 'secureConnection', timeOrigin, 'TLS/SSL', 'connectEnd');\n _addPerformanceNavigationTiming(span, entry, 'fetch', timeOrigin, 'cache', 'domainLookupStart');\n _addPerformanceNavigationTiming(span, entry, 'domainLookup', timeOrigin, 'DNS');\n _addRequest(span, entry, timeOrigin);\n}\n\n/** Create performance navigation related spans */\nfunction _addPerformanceNavigationTiming(\n span,\n // eslint-disable-next-line @typescript-eslint/no-explicit-any\n entry,\n event,\n timeOrigin,\n name,\n eventEnd,\n) {\n const end = eventEnd ? (entry[eventEnd] ) : (entry[`${event}End`] );\n const start = entry[`${event}Start`] ;\n if (!start || !end) {\n return;\n }\n startAndEndSpan(span, timeOrigin + msToSec(start), timeOrigin + msToSec(end), {\n op: 'browser',\n name: name || event,\n attributes: {\n [SEMANTIC_ATTRIBUTE_SENTRY_ORIGIN]: 'auto.ui.browser.metrics',\n },\n });\n}\n\n/** Create request and response related spans */\n// eslint-disable-next-line @typescript-eslint/no-explicit-any\nfunction _addRequest(span, entry, timeOrigin) {\n const requestStartTimestamp = timeOrigin + msToSec(entry.requestStart );\n const responseEndTimestamp = timeOrigin + msToSec(entry.responseEnd );\n const responseStartTimestamp = timeOrigin + msToSec(entry.responseStart );\n if (entry.responseEnd) {\n // It is possible that we are collecting these metrics when the page hasn't finished loading yet, for example when the HTML slowly streams in.\n // In this case, ie. when the document request hasn't finished yet, `entry.responseEnd` will be 0.\n // In order not to produce faulty spans, where the end timestamp is before the start timestamp, we will only collect\n // these spans when the responseEnd value is available. The backend (Relay) would drop the entire span if it contained faulty spans.\n startAndEndSpan(span, requestStartTimestamp, responseEndTimestamp, {\n op: 'browser',\n name: 'request',\n attributes: {\n [SEMANTIC_ATTRIBUTE_SENTRY_ORIGIN]: 'auto.ui.browser.metrics',\n },\n });\n\n startAndEndSpan(span, responseStartTimestamp, responseEndTimestamp, {\n op: 'browser',\n name: 'response',\n attributes: {\n [SEMANTIC_ATTRIBUTE_SENTRY_ORIGIN]: 'auto.ui.browser.metrics',\n },\n });\n }\n}\n\n/** Create resource-related spans */\nfunction _addResourceSpans(\n span,\n entry,\n resourceUrl,\n startTime,\n duration,\n timeOrigin,\n) {\n // we already instrument based on fetch and xhr, so we don't need to\n // duplicate spans here.\n if (entry.initiatorType === 'xmlhttprequest' || entry.initiatorType === 'fetch') {\n return;\n }\n\n const parsedUrl = parseUrl(resourceUrl);\n\n const attributes = {\n [SEMANTIC_ATTRIBUTE_SENTRY_ORIGIN]: 'auto.resource.browser.metrics',\n };\n setResourceEntrySizeData(attributes, entry, 'transferSize', 'http.response_transfer_size');\n setResourceEntrySizeData(attributes, entry, 'encodedBodySize', 'http.response_content_length');\n setResourceEntrySizeData(attributes, entry, 'decodedBodySize', 'http.decoded_response_content_length');\n\n if ('renderBlockingStatus' in entry) {\n attributes['resource.render_blocking_status'] = entry.renderBlockingStatus;\n }\n if (parsedUrl.protocol) {\n attributes['url.scheme'] = parsedUrl.protocol.split(':').pop(); // the protocol returned by parseUrl includes a :, but OTEL spec does not, so we remove it.\n }\n\n if (parsedUrl.host) {\n attributes['server.address'] = parsedUrl.host;\n }\n\n attributes['url.same_origin'] = resourceUrl.includes(WINDOW.location.origin);\n\n const startTimestamp = timeOrigin + startTime;\n const endTimestamp = startTimestamp + duration;\n\n startAndEndSpan(span, startTimestamp, endTimestamp, {\n name: resourceUrl.replace(WINDOW.location.origin, ''),\n op: entry.initiatorType ? `resource.${entry.initiatorType}` : 'resource.other',\n attributes,\n });\n}\n\n/**\n * Capture the information of the user agent.\n */\nfunction _trackNavigator(span) {\n const navigator = WINDOW.navigator ;\n if (!navigator) {\n return;\n }\n\n // track network connectivity\n const connection = navigator.connection;\n if (connection) {\n if (connection.effectiveType) {\n span.setAttribute('effectiveConnectionType', connection.effectiveType);\n }\n\n if (connection.type) {\n span.setAttribute('connectionType', connection.type);\n }\n\n if (isMeasurementValue(connection.rtt)) {\n _measurements['connection.rtt'] = { value: connection.rtt, unit: 'millisecond' };\n }\n }\n\n if (isMeasurementValue(navigator.deviceMemory)) {\n span.setAttribute('deviceMemory', `${navigator.deviceMemory} GB`);\n }\n\n if (isMeasurementValue(navigator.hardwareConcurrency)) {\n span.setAttribute('hardwareConcurrency', String(navigator.hardwareConcurrency));\n }\n}\n\n/** Add LCP / CLS data to span to allow debugging */\nfunction _tagMetricInfo(span) {\n if (_lcpEntry) {\n DEBUG_BUILD && logger.log('[Measurements] Adding LCP Data');\n\n // Capture Properties of the LCP element that contributes to the LCP.\n\n if (_lcpEntry.element) {\n span.setAttribute('lcp.element', htmlTreeAsString(_lcpEntry.element));\n }\n\n if (_lcpEntry.id) {\n span.setAttribute('lcp.id', _lcpEntry.id);\n }\n\n if (_lcpEntry.url) {\n // Trim URL to the first 200 characters.\n span.setAttribute('lcp.url', _lcpEntry.url.trim().slice(0, 200));\n }\n\n span.setAttribute('lcp.size', _lcpEntry.size);\n }\n\n // See: https://developer.mozilla.org/en-US/docs/Web/API/LayoutShift\n if (_clsEntry && _clsEntry.sources) {\n DEBUG_BUILD && logger.log('[Measurements] Adding CLS Data');\n _clsEntry.sources.forEach((source, index) =>\n span.setAttribute(`cls.source.${index + 1}`, htmlTreeAsString(source.node)),\n );\n }\n}\n\nfunction setResourceEntrySizeData(\n attributes,\n entry,\n key,\n dataKey,\n) {\n const entryVal = entry[key];\n if (entryVal != null && entryVal < MAX_INT_AS_BYTES) {\n attributes[dataKey] = entryVal;\n }\n}\n\n/**\n * Add ttfb request time information to measurements.\n *\n * ttfb information is added via vendored web vitals library.\n */\nfunction _addTtfbRequestTimeToMeasurements(_measurements) {\n const navEntry = getNavigationEntry();\n if (!navEntry) {\n return;\n }\n\n const { responseStart, requestStart } = navEntry;\n\n if (requestStart <= responseStart) {\n DEBUG_BUILD && logger.log('[Measurements] Adding TTFB Request Time');\n _measurements['ttfb.requestTime'] = {\n value: responseStart - requestStart,\n unit: 'millisecond',\n };\n }\n}\n\nexport { _addMeasureSpans, _addResourceSpans, addPerformanceEntries, startTrackingInteractions, startTrackingLongAnimationFrames, startTrackingLongTasks, startTrackingWebVitals };\n","import { _optionalChain } from '@sentry/utils';\nimport { getClient, getActiveSpan, getRootSpan, spanToJSON, getCurrentScope, SEMANTIC_ATTRIBUTE_SENTRY_ORIGIN, SEMANTIC_ATTRIBUTE_SENTRY_OP, SEMANTIC_ATTRIBUTE_EXCLUSIVE_TIME, SEMANTIC_ATTRIBUTE_SENTRY_MEASUREMENT_UNIT, SEMANTIC_ATTRIBUTE_SENTRY_MEASUREMENT_VALUE } from '@sentry/core';\nimport { logger, browserPerformanceTimeOrigin, htmlTreeAsString, dropUndefinedKeys } from '@sentry/utils';\nimport { DEBUG_BUILD } from '../debug-build.js';\nimport { addClsInstrumentationHandler } from './instrument.js';\nimport { msToSec, startStandaloneWebVitalSpan } from './utils.js';\nimport { onHidden } from './web-vitals/lib/onHidden.js';\n\n/**\n * Starts tracking the Cumulative Layout Shift on the current page and collects the value once\n *\n * - the page visibility is hidden\n * - a navigation span is started (to stop CLS measurement for SPA soft navigations)\n *\n * Once either of these events triggers, the CLS value is sent as a standalone span and we stop\n * measuring CLS.\n */\nfunction trackClsAsStandaloneSpan() {\n let standaloneCLsValue = 0;\n let standaloneClsEntry;\n let pageloadSpanId;\n\n if (!supportsLayoutShift()) {\n return;\n }\n\n let sentSpan = false;\n function _collectClsOnce() {\n if (sentSpan) {\n return;\n }\n sentSpan = true;\n if (pageloadSpanId) {\n sendStandaloneClsSpan(standaloneCLsValue, standaloneClsEntry, pageloadSpanId);\n }\n cleanupClsHandler();\n }\n\n const cleanupClsHandler = addClsInstrumentationHandler(({ metric }) => {\n const entry = metric.entries[metric.entries.length - 1] ;\n if (!entry) {\n return;\n }\n standaloneCLsValue = metric.value;\n standaloneClsEntry = entry;\n }, true);\n\n // use pagehide event from web-vitals\n onHidden(() => {\n _collectClsOnce();\n });\n\n // Since the call chain of this function is synchronous and evaluates before the SDK client is created,\n // we need to wait with subscribing to a client hook until the client is created. Therefore, we defer\n // to the next tick after the SDK setup.\n setTimeout(() => {\n const client = getClient();\n\n const unsubscribeStartNavigation = _optionalChain([client, 'optionalAccess', _ => _.on, 'call', _2 => _2('startNavigationSpan', () => {\n _collectClsOnce();\n unsubscribeStartNavigation && unsubscribeStartNavigation();\n })]);\n\n const activeSpan = getActiveSpan();\n const rootSpan = activeSpan && getRootSpan(activeSpan);\n const spanJSON = rootSpan && spanToJSON(rootSpan);\n if (spanJSON && spanJSON.op === 'pageload') {\n pageloadSpanId = rootSpan.spanContext().spanId;\n }\n }, 0);\n}\n\nfunction sendStandaloneClsSpan(clsValue, entry, pageloadSpanId) {\n DEBUG_BUILD && logger.log(`Sending CLS span (${clsValue})`);\n\n const startTime = msToSec(browserPerformanceTimeOrigin ) + (_optionalChain([entry, 'optionalAccess', _3 => _3.startTime]) || 0);\n const duration = msToSec(_optionalChain([entry, 'optionalAccess', _4 => _4.duration]) || 0);\n const routeName = getCurrentScope().getScopeData().transactionName;\n\n const name = entry ? htmlTreeAsString(_optionalChain([entry, 'access', _5 => _5.sources, 'access', _6 => _6[0], 'optionalAccess', _7 => _7.node])) : 'Layout shift';\n\n const attributes = dropUndefinedKeys({\n [SEMANTIC_ATTRIBUTE_SENTRY_ORIGIN]: 'auto.http.browser.cls',\n [SEMANTIC_ATTRIBUTE_SENTRY_OP]: 'ui.webvital.cls',\n [SEMANTIC_ATTRIBUTE_EXCLUSIVE_TIME]: _optionalChain([entry, 'optionalAccess', _8 => _8.duration]) || 0,\n // attach the pageload span id to the CLS span so that we can link them in the UI\n 'sentry.pageload.span_id': pageloadSpanId,\n });\n\n const span = startStandaloneWebVitalSpan({\n name,\n transaction: routeName,\n attributes,\n startTime,\n });\n\n _optionalChain([span, 'optionalAccess', _9 => _9.addEvent, 'call', _10 => _10('cls', {\n [SEMANTIC_ATTRIBUTE_SENTRY_MEASUREMENT_UNIT]: '',\n [SEMANTIC_ATTRIBUTE_SENTRY_MEASUREMENT_VALUE]: clsValue,\n })]);\n\n _optionalChain([span, 'optionalAccess', _11 => _11.end, 'call', _12 => _12(startTime + duration)]);\n}\n\nfunction supportsLayoutShift() {\n try {\n return _optionalChain([PerformanceObserver, 'access', _13 => _13.supportedEntryTypes, 'optionalAccess', _14 => _14.includes, 'call', _15 => _15('layout-shift')]);\n } catch (e) {\n return false;\n }\n}\n\nexport { trackClsAsStandaloneSpan };\n","import { _optionalChain } from '@sentry/utils';\nimport { getActiveSpan, getRootSpan, spanToJSON, getCurrentScope, SEMANTIC_ATTRIBUTE_SENTRY_ORIGIN, SEMANTIC_ATTRIBUTE_SENTRY_OP, SEMANTIC_ATTRIBUTE_EXCLUSIVE_TIME, SEMANTIC_ATTRIBUTE_SENTRY_MEASUREMENT_UNIT, SEMANTIC_ATTRIBUTE_SENTRY_MEASUREMENT_VALUE } from '@sentry/core';\nimport { browserPerformanceTimeOrigin, htmlTreeAsString, dropUndefinedKeys } from '@sentry/utils';\nimport { addInpInstrumentationHandler, addPerformanceInstrumentationHandler, isPerformanceEventTiming } from './instrument.js';\nimport { getBrowserPerformanceAPI, msToSec, startStandaloneWebVitalSpan } from './utils.js';\n\nconst LAST_INTERACTIONS = [];\nconst INTERACTIONS_SPAN_MAP = new Map();\n\n/**\n * Start tracking INP webvital events.\n */\nfunction startTrackingINP() {\n const performance = getBrowserPerformanceAPI();\n if (performance && browserPerformanceTimeOrigin) {\n const inpCallback = _trackINP();\n\n return () => {\n inpCallback();\n };\n }\n\n return () => undefined;\n}\n\nconst INP_ENTRY_MAP = {\n click: 'click',\n pointerdown: 'click',\n pointerup: 'click',\n mousedown: 'click',\n mouseup: 'click',\n touchstart: 'click',\n touchend: 'click',\n mouseover: 'hover',\n mouseout: 'hover',\n mouseenter: 'hover',\n mouseleave: 'hover',\n pointerover: 'hover',\n pointerout: 'hover',\n pointerenter: 'hover',\n pointerleave: 'hover',\n dragstart: 'drag',\n dragend: 'drag',\n drag: 'drag',\n dragenter: 'drag',\n dragleave: 'drag',\n dragover: 'drag',\n drop: 'drag',\n keydown: 'press',\n keyup: 'press',\n keypress: 'press',\n input: 'press',\n};\n\n/** Starts tracking the Interaction to Next Paint on the current page. */\nfunction _trackINP() {\n return addInpInstrumentationHandler(({ metric }) => {\n if (metric.value == undefined) {\n return;\n }\n\n const entry = metric.entries.find(entry => entry.duration === metric.value && INP_ENTRY_MAP[entry.name]);\n\n if (!entry) {\n return;\n }\n\n const { interactionId } = entry;\n const interactionType = INP_ENTRY_MAP[entry.name];\n\n /** Build the INP span, create an envelope from the span, and then send the envelope */\n const startTime = msToSec((browserPerformanceTimeOrigin ) + entry.startTime);\n const duration = msToSec(metric.value);\n const activeSpan = getActiveSpan();\n const rootSpan = activeSpan ? getRootSpan(activeSpan) : undefined;\n\n // We first try to lookup the span from our INTERACTIONS_SPAN_MAP,\n // where we cache the route per interactionId\n const cachedSpan = interactionId != null ? INTERACTIONS_SPAN_MAP.get(interactionId) : undefined;\n\n const spanToUse = cachedSpan || rootSpan;\n\n // Else, we try to use the active span.\n // Finally, we fall back to look at the transactionName on the scope\n const routeName = spanToUse ? spanToJSON(spanToUse).description : getCurrentScope().getScopeData().transactionName;\n\n const name = htmlTreeAsString(entry.target);\n const attributes = dropUndefinedKeys({\n [SEMANTIC_ATTRIBUTE_SENTRY_ORIGIN]: 'auto.http.browser.inp',\n [SEMANTIC_ATTRIBUTE_SENTRY_OP]: `ui.interaction.${interactionType}`,\n [SEMANTIC_ATTRIBUTE_EXCLUSIVE_TIME]: entry.duration,\n });\n\n const span = startStandaloneWebVitalSpan({\n name,\n transaction: routeName,\n attributes,\n startTime,\n });\n\n _optionalChain([span, 'optionalAccess', _ => _.addEvent, 'call', _2 => _2('inp', {\n [SEMANTIC_ATTRIBUTE_SENTRY_MEASUREMENT_UNIT]: 'millisecond',\n [SEMANTIC_ATTRIBUTE_SENTRY_MEASUREMENT_VALUE]: metric.value,\n })]);\n\n _optionalChain([span, 'optionalAccess', _3 => _3.end, 'call', _4 => _4(startTime + duration)]);\n });\n}\n\n/**\n * Register a listener to cache route information for INP interactions.\n * TODO(v9): `latestRoute` no longer needs to be passed in and will be removed in v9.\n */\nfunction registerInpInteractionListener(_latestRoute) {\n const handleEntries = ({ entries }) => {\n const activeSpan = getActiveSpan();\n const activeRootSpan = activeSpan && getRootSpan(activeSpan);\n\n entries.forEach(entry => {\n if (!isPerformanceEventTiming(entry) || !activeRootSpan) {\n return;\n }\n\n const interactionId = entry.interactionId;\n if (interactionId == null) {\n return;\n }\n\n // If the interaction was already recorded before, nothing more to do\n if (INTERACTIONS_SPAN_MAP.has(interactionId)) {\n return;\n }\n\n // We keep max. 10 interactions in the list, then remove the oldest one & clean up\n if (LAST_INTERACTIONS.length > 10) {\n const last = LAST_INTERACTIONS.shift() ;\n INTERACTIONS_SPAN_MAP.delete(last);\n }\n\n // We add the interaction to the list of recorded interactions\n // and store the span for this interaction\n LAST_INTERACTIONS.push(interactionId);\n INTERACTIONS_SPAN_MAP.set(interactionId, activeRootSpan);\n });\n };\n\n addPerformanceInstrumentationHandler('event', handleEntries);\n addPerformanceInstrumentationHandler('first-input', handleEntries);\n}\n\nexport { registerInpInteractionListener, startTrackingINP };\n","import { timestampInSeconds, logger } from '@sentry/utils';\nimport { getClient, getCurrentScope } from '../currentScopes.js';\nimport { DEBUG_BUILD } from '../debug-build.js';\nimport { SEMANTIC_ATTRIBUTE_SENTRY_IDLE_SPAN_FINISH_REASON } from '../semanticAttributes.js';\nimport { hasTracingEnabled } from '../utils/hasTracingEnabled.js';\nimport { _setSpanForScope } from '../utils/spanOnScope.js';\nimport { getActiveSpan, spanTimeInputToSeconds, getSpanDescendants, spanToJSON, removeChildSpanFromSpan } from '../utils/spanUtils.js';\nimport { SentryNonRecordingSpan } from './sentryNonRecordingSpan.js';\nimport { SPAN_STATUS_ERROR } from './spanstatus.js';\nimport { startInactiveSpan } from './trace.js';\n\nconst TRACING_DEFAULTS = {\n idleTimeout: 1000,\n finalTimeout: 30000,\n childSpanTimeout: 15000,\n};\n\nconst FINISH_REASON_HEARTBEAT_FAILED = 'heartbeatFailed';\nconst FINISH_REASON_IDLE_TIMEOUT = 'idleTimeout';\nconst FINISH_REASON_FINAL_TIMEOUT = 'finalTimeout';\nconst FINISH_REASON_EXTERNAL_FINISH = 'externalFinish';\n\n/**\n * An idle span is a span that automatically finishes. It does this by tracking child spans as activities.\n * An idle span is always the active span.\n */\nfunction startIdleSpan(startSpanOptions, options = {}) {\n // Activities store a list of active spans\n const activities = new Map();\n\n // We should not use heartbeat if we finished a span\n let _finished = false;\n\n // Timer that tracks idleTimeout\n let _idleTimeoutID;\n\n // The reason why the span was finished\n let _finishReason = FINISH_REASON_EXTERNAL_FINISH;\n\n let _autoFinishAllowed = !options.disableAutoFinish;\n\n const _cleanupHooks = [];\n\n const {\n idleTimeout = TRACING_DEFAULTS.idleTimeout,\n finalTimeout = TRACING_DEFAULTS.finalTimeout,\n childSpanTimeout = TRACING_DEFAULTS.childSpanTimeout,\n beforeSpanEnd,\n } = options;\n\n const client = getClient();\n\n if (!client || !hasTracingEnabled()) {\n return new SentryNonRecordingSpan();\n }\n\n const scope = getCurrentScope();\n const previousActiveSpan = getActiveSpan();\n const span = _startIdleSpan(startSpanOptions);\n\n // We patch span.end to ensure we can run some things before the span is ended\n // eslint-disable-next-line @typescript-eslint/unbound-method\n span.end = new Proxy(span.end, {\n apply(target, thisArg, args) {\n if (beforeSpanEnd) {\n beforeSpanEnd(span);\n }\n\n // Just ensuring that this keeps working, even if we ever have more arguments here\n const [definedEndTimestamp, ...rest] = args;\n const timestamp = definedEndTimestamp || timestampInSeconds();\n const spanEndTimestamp = spanTimeInputToSeconds(timestamp);\n\n // Ensure we end with the last span timestamp, if possible\n const spans = getSpanDescendants(span).filter(child => child !== span);\n\n // If we have no spans, we just end, nothing else to do here\n if (!spans.length) {\n onIdleSpanEnded(spanEndTimestamp);\n return Reflect.apply(target, thisArg, [spanEndTimestamp, ...rest]);\n }\n\n const childEndTimestamps = spans\n .map(span => spanToJSON(span).timestamp)\n .filter(timestamp => !!timestamp) ;\n const latestSpanEndTimestamp = childEndTimestamps.length ? Math.max(...childEndTimestamps) : undefined;\n\n // In reality this should always exist here, but type-wise it may be undefined...\n const spanStartTimestamp = spanToJSON(span).start_timestamp;\n\n // The final endTimestamp should:\n // * Never be before the span start timestamp\n // * Be the latestSpanEndTimestamp, if there is one, and it is smaller than the passed span end timestamp\n // * Otherwise be the passed end timestamp\n // Final timestamp can never be after finalTimeout\n const endTimestamp = Math.min(\n spanStartTimestamp ? spanStartTimestamp + finalTimeout / 1000 : Infinity,\n Math.max(spanStartTimestamp || -Infinity, Math.min(spanEndTimestamp, latestSpanEndTimestamp || Infinity)),\n );\n\n onIdleSpanEnded(endTimestamp);\n return Reflect.apply(target, thisArg, [endTimestamp, ...rest]);\n },\n });\n\n /**\n * Cancels the existing idle timeout, if there is one.\n */\n function _cancelIdleTimeout() {\n if (_idleTimeoutID) {\n clearTimeout(_idleTimeoutID);\n _idleTimeoutID = undefined;\n }\n }\n\n /**\n * Restarts idle timeout, if there is no running idle timeout it will start one.\n */\n function _restartIdleTimeout(endTimestamp) {\n _cancelIdleTimeout();\n _idleTimeoutID = setTimeout(() => {\n if (!_finished && activities.size === 0 && _autoFinishAllowed) {\n _finishReason = FINISH_REASON_IDLE_TIMEOUT;\n span.end(endTimestamp);\n }\n }, idleTimeout);\n }\n\n /**\n * Restarts child span timeout, if there is none running it will start one.\n */\n function _restartChildSpanTimeout(endTimestamp) {\n _idleTimeoutID = setTimeout(() => {\n if (!_finished && _autoFinishAllowed) {\n _finishReason = FINISH_REASON_HEARTBEAT_FAILED;\n span.end(endTimestamp);\n }\n }, childSpanTimeout);\n }\n\n /**\n * Start tracking a specific activity.\n * @param spanId The span id that represents the activity\n */\n function _pushActivity(spanId) {\n _cancelIdleTimeout();\n activities.set(spanId, true);\n\n const endTimestamp = timestampInSeconds();\n // We need to add the timeout here to have the real endtimestamp of the idle span\n // Remember timestampInSeconds is in seconds, timeout is in ms\n _restartChildSpanTimeout(endTimestamp + childSpanTimeout / 1000);\n }\n\n /**\n * Remove an activity from usage\n * @param spanId The span id that represents the activity\n */\n function _popActivity(spanId) {\n if (activities.has(spanId)) {\n activities.delete(spanId);\n }\n\n if (activities.size === 0) {\n const endTimestamp = timestampInSeconds();\n // We need to add the timeout here to have the real endtimestamp of the idle span\n // Remember timestampInSeconds is in seconds, timeout is in ms\n _restartIdleTimeout(endTimestamp + idleTimeout / 1000);\n }\n }\n\n function onIdleSpanEnded(endTimestamp) {\n _finished = true;\n activities.clear();\n\n _cleanupHooks.forEach(cleanup => cleanup());\n\n _setSpanForScope(scope, previousActiveSpan);\n\n const spanJSON = spanToJSON(span);\n\n const { start_timestamp: startTimestamp } = spanJSON;\n // This should never happen, but to make TS happy...\n if (!startTimestamp) {\n return;\n }\n\n const attributes = spanJSON.data || {};\n if (!attributes[SEMANTIC_ATTRIBUTE_SENTRY_IDLE_SPAN_FINISH_REASON]) {\n span.setAttribute(SEMANTIC_ATTRIBUTE_SENTRY_IDLE_SPAN_FINISH_REASON, _finishReason);\n }\n\n logger.log(`[Tracing] Idle span \"${spanJSON.op}\" finished`);\n\n const childSpans = getSpanDescendants(span).filter(child => child !== span);\n\n let discardedSpans = 0;\n childSpans.forEach(childSpan => {\n // We cancel all pending spans with status \"cancelled\" to indicate the idle span was finished early\n if (childSpan.isRecording()) {\n childSpan.setStatus({ code: SPAN_STATUS_ERROR, message: 'cancelled' });\n childSpan.end(endTimestamp);\n DEBUG_BUILD &&\n logger.log('[Tracing] Cancelling span since span ended early', JSON.stringify(childSpan, undefined, 2));\n }\n\n const childSpanJSON = spanToJSON(childSpan);\n const { timestamp: childEndTimestamp = 0, start_timestamp: childStartTimestamp = 0 } = childSpanJSON;\n\n const spanStartedBeforeIdleSpanEnd = childStartTimestamp <= endTimestamp;\n\n // Add a delta with idle timeout so that we prevent false positives\n const timeoutWithMarginOfError = (finalTimeout + idleTimeout) / 1000;\n const spanEndedBeforeFinalTimeout = childEndTimestamp - childStartTimestamp <= timeoutWithMarginOfError;\n\n if (DEBUG_BUILD) {\n const stringifiedSpan = JSON.stringify(childSpan, undefined, 2);\n if (!spanStartedBeforeIdleSpanEnd) {\n logger.log('[Tracing] Discarding span since it happened after idle span was finished', stringifiedSpan);\n } else if (!spanEndedBeforeFinalTimeout) {\n logger.log('[Tracing] Discarding span since it finished after idle span final timeout', stringifiedSpan);\n }\n }\n\n if (!spanEndedBeforeFinalTimeout || !spanStartedBeforeIdleSpanEnd) {\n removeChildSpanFromSpan(span, childSpan);\n discardedSpans++;\n }\n });\n\n if (discardedSpans > 0) {\n span.setAttribute('sentry.idle_span_discarded_spans', discardedSpans);\n }\n }\n\n _cleanupHooks.push(\n client.on('spanStart', startedSpan => {\n // If we already finished the idle span,\n // or if this is the idle span itself being started,\n // or if the started span has already been closed,\n // we don't care about it for activity\n if (_finished || startedSpan === span || !!spanToJSON(startedSpan).timestamp) {\n return;\n }\n\n const allSpans = getSpanDescendants(span);\n\n // If the span that was just started is a child of the idle span, we should track it\n if (allSpans.includes(startedSpan)) {\n _pushActivity(startedSpan.spanContext().spanId);\n }\n }),\n );\n\n _cleanupHooks.push(\n client.on('spanEnd', endedSpan => {\n if (_finished) {\n return;\n }\n\n _popActivity(endedSpan.spanContext().spanId);\n }),\n );\n\n _cleanupHooks.push(\n client.on('idleSpanEnableAutoFinish', spanToAllowAutoFinish => {\n if (spanToAllowAutoFinish === span) {\n _autoFinishAllowed = true;\n _restartIdleTimeout();\n\n if (activities.size) {\n _restartChildSpanTimeout();\n }\n }\n }),\n );\n\n // We only start the initial idle timeout if we are not delaying the auto finish\n if (!options.disableAutoFinish) {\n _restartIdleTimeout();\n }\n\n setTimeout(() => {\n if (!_finished) {\n span.setStatus({ code: SPAN_STATUS_ERROR, message: 'deadline_exceeded' });\n _finishReason = FINISH_REASON_FINAL_TIMEOUT;\n span.end();\n }\n }, finalTimeout);\n\n return span;\n}\n\nfunction _startIdleSpan(options) {\n const span = startInactiveSpan(options);\n\n _setSpanForScope(getCurrentScope(), span);\n\n DEBUG_BUILD && logger.log('[Tracing] Started span is an idle span');\n\n return span;\n}\n\nexport { TRACING_DEFAULTS, startIdleSpan };\n","import { addGlobalErrorInstrumentationHandler, addGlobalUnhandledRejectionInstrumentationHandler, logger } from '@sentry/utils';\nimport { DEBUG_BUILD } from '../debug-build.js';\nimport { getActiveSpan, getRootSpan } from '../utils/spanUtils.js';\nimport { SPAN_STATUS_ERROR } from './spanstatus.js';\n\nlet errorsInstrumented = false;\n\n/**\n * Ensure that global errors automatically set the active span status.\n */\nfunction registerSpanErrorInstrumentation() {\n if (errorsInstrumented) {\n return;\n }\n\n errorsInstrumented = true;\n addGlobalErrorInstrumentationHandler(errorCallback);\n addGlobalUnhandledRejectionInstrumentationHandler(errorCallback);\n}\n\n/**\n * If an error or unhandled promise occurs, we mark the active root span as failed\n */\nfunction errorCallback() {\n const activeSpan = getActiveSpan();\n const rootSpan = activeSpan && getRootSpan(activeSpan);\n if (rootSpan) {\n const message = 'internal_error';\n DEBUG_BUILD && logger.log(`[Tracing] Root span: ${message} -> Global error occured`);\n rootSpan.setStatus({ code: SPAN_STATUS_ERROR, message });\n }\n}\n\n// The function name will be lost when bundling but we need to be able to identify this listener later to maintain the\n// node.js default exit behaviour\nerrorCallback.tag = 'sentry_tracingErrorCallback';\n\nexport { registerSpanErrorInstrumentation };\n","import { addXhrInstrumentationHandler, addPerformanceInstrumentationHandler, SENTRY_XHR_DATA_KEY } from '@sentry-internal/browser-utils';\nimport { instrumentFetchRequest, spanToJSON, hasTracingEnabled, setHttpStatus, getActiveSpan, startInactiveSpan, SEMANTIC_ATTRIBUTE_SENTRY_ORIGIN, SEMANTIC_ATTRIBUTE_SENTRY_OP, SentryNonRecordingSpan, getClient, getCurrentScope, getIsolationScope, spanToTraceHeader, getDynamicSamplingContextFromSpan, getDynamicSamplingContextFromClient } from '@sentry/core';\nimport { addFetchEndInstrumentationHandler, addFetchInstrumentationHandler, parseUrl, browserPerformanceTimeOrigin, generateSentryTraceHeader, dynamicSamplingContextToSentryBaggageHeader, BAGGAGE_HEADER_NAME, stringMatchesSomePattern } from '@sentry/utils';\nimport { WINDOW } from '../helpers.js';\n\n/** Options for Request Instrumentation */\n\nconst responseToSpanId = new WeakMap();\nconst spanIdToEndTimestamp = new Map();\n\nconst defaultRequestInstrumentationOptions = {\n traceFetch: true,\n traceXHR: true,\n enableHTTPTimings: true,\n};\n\n/** Registers span creators for xhr and fetch requests */\nfunction instrumentOutgoingRequests(client, _options) {\n const { traceFetch, traceXHR, shouldCreateSpanForRequest, enableHTTPTimings, tracePropagationTargets } = {\n traceFetch: defaultRequestInstrumentationOptions.traceFetch,\n traceXHR: defaultRequestInstrumentationOptions.traceXHR,\n ..._options,\n };\n\n const shouldCreateSpan =\n typeof shouldCreateSpanForRequest === 'function' ? shouldCreateSpanForRequest : (_) => true;\n\n const shouldAttachHeadersWithTargets = (url) => shouldAttachHeaders(url, tracePropagationTargets);\n\n const spans = {};\n\n if (traceFetch) {\n // Keeping track of http requests, whose body payloads resolved later than the intial resolved request\n // e.g. streaming using server sent events (SSE)\n client.addEventProcessor(event => {\n if (event.type === 'transaction' && event.spans) {\n event.spans.forEach(span => {\n if (span.op === 'http.client') {\n const updatedTimestamp = spanIdToEndTimestamp.get(span.span_id);\n if (updatedTimestamp) {\n span.timestamp = updatedTimestamp / 1000;\n spanIdToEndTimestamp.delete(span.span_id);\n }\n }\n });\n }\n return event;\n });\n\n addFetchEndInstrumentationHandler(handlerData => {\n if (handlerData.response) {\n const span = responseToSpanId.get(handlerData.response);\n if (span && handlerData.endTimestamp) {\n spanIdToEndTimestamp.set(span, handlerData.endTimestamp);\n }\n }\n });\n\n addFetchInstrumentationHandler(handlerData => {\n const createdSpan = instrumentFetchRequest(handlerData, shouldCreateSpan, shouldAttachHeadersWithTargets, spans);\n\n if (handlerData.response && handlerData.fetchData.__span) {\n responseToSpanId.set(handlerData.response, handlerData.fetchData.__span);\n }\n\n // We cannot use `window.location` in the generic fetch instrumentation,\n // but we need it for reliable `server.address` attribute.\n // so we extend this in here\n if (createdSpan) {\n const fullUrl = getFullURL(handlerData.fetchData.url);\n const host = fullUrl ? parseUrl(fullUrl).host : undefined;\n createdSpan.setAttributes({\n 'http.url': fullUrl,\n 'server.address': host,\n });\n }\n\n if (enableHTTPTimings && createdSpan) {\n addHTTPTimings(createdSpan);\n }\n });\n }\n\n if (traceXHR) {\n addXhrInstrumentationHandler(handlerData => {\n const createdSpan = xhrCallback(handlerData, shouldCreateSpan, shouldAttachHeadersWithTargets, spans);\n if (enableHTTPTimings && createdSpan) {\n addHTTPTimings(createdSpan);\n }\n });\n }\n}\n\nfunction isPerformanceResourceTiming(entry) {\n return (\n entry.entryType === 'resource' &&\n 'initiatorType' in entry &&\n typeof (entry ).nextHopProtocol === 'string' &&\n (entry.initiatorType === 'fetch' || entry.initiatorType === 'xmlhttprequest')\n );\n}\n\n/**\n * Creates a temporary observer to listen to the next fetch/xhr resourcing timings,\n * so that when timings hit their per-browser limit they don't need to be removed.\n *\n * @param span A span that has yet to be finished, must contain `url` on data.\n */\nfunction addHTTPTimings(span) {\n const { url } = spanToJSON(span).data || {};\n\n if (!url || typeof url !== 'string') {\n return;\n }\n\n const cleanup = addPerformanceInstrumentationHandler('resource', ({ entries }) => {\n entries.forEach(entry => {\n if (isPerformanceResourceTiming(entry) && entry.name.endsWith(url)) {\n const spanData = resourceTimingEntryToSpanData(entry);\n spanData.forEach(data => span.setAttribute(...data));\n // In the next tick, clean this handler up\n // We have to wait here because otherwise this cleans itself up before it is fully done\n setTimeout(cleanup);\n }\n });\n });\n}\n\n/**\n * Converts ALPN protocol ids to name and version.\n *\n * (https://www.iana.org/assignments/tls-extensiontype-values/tls-extensiontype-values.xhtml#alpn-protocol-ids)\n * @param nextHopProtocol PerformanceResourceTiming.nextHopProtocol\n */\nfunction extractNetworkProtocol(nextHopProtocol) {\n let name = 'unknown';\n let version = 'unknown';\n let _name = '';\n for (const char of nextHopProtocol) {\n // http/1.1 etc.\n if (char === '/') {\n [name, version] = nextHopProtocol.split('/') ;\n break;\n }\n // h2, h3 etc.\n if (!isNaN(Number(char))) {\n name = _name === 'h' ? 'http' : _name;\n version = nextHopProtocol.split(_name)[1] ;\n break;\n }\n _name += char;\n }\n if (_name === nextHopProtocol) {\n // webrtc, ftp, etc.\n name = _name;\n }\n return { name, version };\n}\n\nfunction getAbsoluteTime(time = 0) {\n return ((browserPerformanceTimeOrigin || performance.timeOrigin) + time) / 1000;\n}\n\nfunction resourceTimingEntryToSpanData(resourceTiming) {\n const { name, version } = extractNetworkProtocol(resourceTiming.nextHopProtocol);\n\n const timingSpanData = [];\n\n timingSpanData.push(['network.protocol.version', version], ['network.protocol.name', name]);\n\n if (!browserPerformanceTimeOrigin) {\n return timingSpanData;\n }\n return [\n ...timingSpanData,\n ['http.request.redirect_start', getAbsoluteTime(resourceTiming.redirectStart)],\n ['http.request.fetch_start', getAbsoluteTime(resourceTiming.fetchStart)],\n ['http.request.domain_lookup_start', getAbsoluteTime(resourceTiming.domainLookupStart)],\n ['http.request.domain_lookup_end', getAbsoluteTime(resourceTiming.domainLookupEnd)],\n ['http.request.connect_start', getAbsoluteTime(resourceTiming.connectStart)],\n ['http.request.secure_connection_start', getAbsoluteTime(resourceTiming.secureConnectionStart)],\n ['http.request.connection_end', getAbsoluteTime(resourceTiming.connectEnd)],\n ['http.request.request_start', getAbsoluteTime(resourceTiming.requestStart)],\n ['http.request.response_start', getAbsoluteTime(resourceTiming.responseStart)],\n ['http.request.response_end', getAbsoluteTime(resourceTiming.responseEnd)],\n ];\n}\n\n/**\n * A function that determines whether to attach tracing headers to a request.\n * We only export this function for testing purposes.\n */\nfunction shouldAttachHeaders(\n targetUrl,\n tracePropagationTargets,\n) {\n // window.location.href not being defined is an edge case in the browser but we need to handle it.\n // Potentially dangerous situations where it may not be defined: Browser Extensions, Web Workers, patching of the location obj\n const href = WINDOW.location && WINDOW.location.href;\n\n if (!href) {\n // If there is no window.location.origin, we default to only attaching tracing headers to relative requests, i.e. ones that start with `/`\n // BIG DISCLAIMER: Users can call URLs with a double slash (fetch(\"//example.com/api\")), this is a shorthand for \"send to the same protocol\",\n // so we need a to exclude those requests, because they might be cross origin.\n const isRelativeSameOriginRequest = !!targetUrl.match(/^\\/(?!\\/)/);\n if (!tracePropagationTargets) {\n return isRelativeSameOriginRequest;\n } else {\n return stringMatchesSomePattern(targetUrl, tracePropagationTargets);\n }\n } else {\n let resolvedUrl;\n let currentOrigin;\n\n // URL parsing may fail, we default to not attaching trace headers in that case.\n try {\n resolvedUrl = new URL(targetUrl, href);\n currentOrigin = new URL(href).origin;\n } catch (e) {\n return false;\n }\n\n const isSameOriginRequest = resolvedUrl.origin === currentOrigin;\n if (!tracePropagationTargets) {\n return isSameOriginRequest;\n } else {\n return (\n stringMatchesSomePattern(resolvedUrl.toString(), tracePropagationTargets) ||\n (isSameOriginRequest && stringMatchesSomePattern(resolvedUrl.pathname, tracePropagationTargets))\n );\n }\n }\n}\n\n/**\n * Create and track xhr request spans\n *\n * @returns Span if a span was created, otherwise void.\n */\nfunction xhrCallback(\n handlerData,\n shouldCreateSpan,\n shouldAttachHeaders,\n spans,\n) {\n const xhr = handlerData.xhr;\n const sentryXhrData = xhr && xhr[SENTRY_XHR_DATA_KEY];\n\n if (!xhr || xhr.__sentry_own_request__ || !sentryXhrData) {\n return undefined;\n }\n\n const shouldCreateSpanResult = hasTracingEnabled() && shouldCreateSpan(sentryXhrData.url);\n\n // check first if the request has finished and is tracked by an existing span which should now end\n if (handlerData.endTimestamp && shouldCreateSpanResult) {\n const spanId = xhr.__sentry_xhr_span_id__;\n if (!spanId) return;\n\n const span = spans[spanId];\n if (span && sentryXhrData.status_code !== undefined) {\n setHttpStatus(span, sentryXhrData.status_code);\n span.end();\n\n // eslint-disable-next-line @typescript-eslint/no-dynamic-delete\n delete spans[spanId];\n }\n return undefined;\n }\n\n const fullUrl = getFullURL(sentryXhrData.url);\n const host = fullUrl ? parseUrl(fullUrl).host : undefined;\n\n const hasParent = !!getActiveSpan();\n\n const span =\n shouldCreateSpanResult && hasParent\n ? startInactiveSpan({\n name: `${sentryXhrData.method} ${sentryXhrData.url}`,\n attributes: {\n type: 'xhr',\n 'http.method': sentryXhrData.method,\n 'http.url': fullUrl,\n url: sentryXhrData.url,\n 'server.address': host,\n [SEMANTIC_ATTRIBUTE_SENTRY_ORIGIN]: 'auto.http.browser',\n [SEMANTIC_ATTRIBUTE_SENTRY_OP]: 'http.client',\n },\n })\n : new SentryNonRecordingSpan();\n\n xhr.__sentry_xhr_span_id__ = span.spanContext().spanId;\n spans[xhr.__sentry_xhr_span_id__] = span;\n\n const client = getClient();\n\n if (xhr.setRequestHeader && shouldAttachHeaders(sentryXhrData.url) && client) {\n addTracingHeadersToXhrRequest(\n xhr,\n client,\n // If performance is disabled (TWP) or there's no active root span (pageload/navigation/interaction),\n // we do not want to use the span as base for the trace headers,\n // which means that the headers will be generated from the scope and the sampling decision is deferred\n hasTracingEnabled() && hasParent ? span : undefined,\n );\n }\n\n return span;\n}\n\nfunction addTracingHeadersToXhrRequest(xhr, client, span) {\n const scope = getCurrentScope();\n const isolationScope = getIsolationScope();\n const { traceId, spanId, sampled, dsc } = {\n ...isolationScope.getPropagationContext(),\n ...scope.getPropagationContext(),\n };\n\n const sentryTraceHeader =\n span && hasTracingEnabled() ? spanToTraceHeader(span) : generateSentryTraceHeader(traceId, spanId, sampled);\n\n const sentryBaggageHeader = dynamicSamplingContextToSentryBaggageHeader(\n dsc || (span ? getDynamicSamplingContextFromSpan(span) : getDynamicSamplingContextFromClient(traceId, client)),\n );\n\n setHeaderOnXhr(xhr, sentryTraceHeader, sentryBaggageHeader);\n}\n\nfunction setHeaderOnXhr(\n xhr,\n sentryTraceHeader,\n sentryBaggageHeader,\n) {\n try {\n // eslint-disable-next-line @typescript-eslint/no-non-null-assertion\n xhr.setRequestHeader('sentry-trace', sentryTraceHeader);\n if (sentryBaggageHeader) {\n // From MDN: \"If this method is called several times with the same header, the values are merged into one single request header.\"\n // We can therefore simply set a baggage header without checking what was there before\n // https://developer.mozilla.org/en-US/docs/Web/API/XMLHttpRequest/setRequestHeader\n // eslint-disable-next-line @typescript-eslint/no-non-null-assertion\n xhr.setRequestHeader(BAGGAGE_HEADER_NAME, sentryBaggageHeader);\n }\n } catch (_) {\n // Error: InvalidStateError: Failed to execute 'setRequestHeader' on 'XMLHttpRequest': The object's state must be OPENED.\n }\n}\n\nfunction getFullURL(url) {\n try {\n // By adding a base URL to new URL(), this will also work for relative urls\n // If `url` is a full URL, the base URL is ignored anyhow\n const parsed = new URL(url, WINDOW.location.origin);\n return parsed.href;\n } catch (e2) {\n return undefined;\n }\n}\n\nexport { defaultRequestInstrumentationOptions, extractNetworkProtocol, instrumentOutgoingRequests, shouldAttachHeaders, xhrCallback };\n","import { parseUrl, generateSentryTraceHeader, dynamicSamplingContextToSentryBaggageHeader, isInstanceOf, BAGGAGE_HEADER_NAME } from '@sentry/utils';\nimport { getCurrentScope, getClient, getIsolationScope } from './currentScopes.js';\nimport { SEMANTIC_ATTRIBUTE_SENTRY_ORIGIN, SEMANTIC_ATTRIBUTE_SENTRY_OP } from './semanticAttributes.js';\nimport './tracing/errors.js';\nimport './debug-build.js';\nimport { hasTracingEnabled } from './utils/hasTracingEnabled.js';\nimport { getActiveSpan, spanToTraceHeader } from './utils/spanUtils.js';\nimport { SentryNonRecordingSpan } from './tracing/sentryNonRecordingSpan.js';\nimport { setHttpStatus, SPAN_STATUS_ERROR } from './tracing/spanstatus.js';\nimport { startInactiveSpan } from './tracing/trace.js';\nimport { getDynamicSamplingContextFromSpan, getDynamicSamplingContextFromClient } from './tracing/dynamicSamplingContext.js';\n\n/**\n * Create and track fetch request spans for usage in combination with `addFetchInstrumentationHandler`.\n *\n * @returns Span if a span was created, otherwise void.\n */\nfunction instrumentFetchRequest(\n handlerData,\n shouldCreateSpan,\n shouldAttachHeaders,\n spans,\n spanOrigin = 'auto.http.browser',\n) {\n if (!handlerData.fetchData) {\n return undefined;\n }\n\n const shouldCreateSpanResult = hasTracingEnabled() && shouldCreateSpan(handlerData.fetchData.url);\n\n if (handlerData.endTimestamp && shouldCreateSpanResult) {\n const spanId = handlerData.fetchData.__span;\n if (!spanId) return;\n\n const span = spans[spanId];\n if (span) {\n endSpan(span, handlerData);\n\n // eslint-disable-next-line @typescript-eslint/no-dynamic-delete\n delete spans[spanId];\n }\n return undefined;\n }\n\n const scope = getCurrentScope();\n const client = getClient();\n\n const { method, url } = handlerData.fetchData;\n\n const fullUrl = getFullURL(url);\n const host = fullUrl ? parseUrl(fullUrl).host : undefined;\n\n const hasParent = !!getActiveSpan();\n\n const span =\n shouldCreateSpanResult && hasParent\n ? startInactiveSpan({\n name: `${method} ${url}`,\n attributes: {\n url,\n type: 'fetch',\n 'http.method': method,\n 'http.url': fullUrl,\n 'server.address': host,\n [SEMANTIC_ATTRIBUTE_SENTRY_ORIGIN]: spanOrigin,\n [SEMANTIC_ATTRIBUTE_SENTRY_OP]: 'http.client',\n },\n })\n : new SentryNonRecordingSpan();\n\n handlerData.fetchData.__span = span.spanContext().spanId;\n spans[span.spanContext().spanId] = span;\n\n if (shouldAttachHeaders(handlerData.fetchData.url) && client) {\n const request = handlerData.args[0];\n\n // In case the user hasn't set the second argument of a fetch call we default it to `{}`.\n handlerData.args[1] = handlerData.args[1] || {};\n\n // eslint-disable-next-line @typescript-eslint/no-explicit-any\n const options = handlerData.args[1];\n\n options.headers = addTracingHeadersToFetchRequest(\n request,\n client,\n scope,\n options,\n // If performance is disabled (TWP) or there's no active root span (pageload/navigation/interaction),\n // we do not want to use the span as base for the trace headers,\n // which means that the headers will be generated from the scope and the sampling decision is deferred\n hasTracingEnabled() && hasParent ? span : undefined,\n );\n }\n\n return span;\n}\n\n/**\n * Adds sentry-trace and baggage headers to the various forms of fetch headers\n */\nfunction addTracingHeadersToFetchRequest(\n request, // unknown is actually type Request but we can't export DOM types from this package,\n client,\n scope,\n options\n\n,\n span,\n) {\n const isolationScope = getIsolationScope();\n\n const { traceId, spanId, sampled, dsc } = {\n ...isolationScope.getPropagationContext(),\n ...scope.getPropagationContext(),\n };\n\n const sentryTraceHeader = span ? spanToTraceHeader(span) : generateSentryTraceHeader(traceId, spanId, sampled);\n\n const sentryBaggageHeader = dynamicSamplingContextToSentryBaggageHeader(\n dsc || (span ? getDynamicSamplingContextFromSpan(span) : getDynamicSamplingContextFromClient(traceId, client)),\n );\n\n const headers =\n options.headers ||\n (typeof Request !== 'undefined' && isInstanceOf(request, Request) ? (request ).headers : undefined);\n\n if (!headers) {\n return { 'sentry-trace': sentryTraceHeader, baggage: sentryBaggageHeader };\n } else if (typeof Headers !== 'undefined' && isInstanceOf(headers, Headers)) {\n const newHeaders = new Headers(headers );\n\n newHeaders.append('sentry-trace', sentryTraceHeader);\n\n if (sentryBaggageHeader) {\n // If the same header is appended multiple times the browser will merge the values into a single request header.\n // Its therefore safe to simply push a \"baggage\" entry, even though there might already be another baggage header.\n newHeaders.append(BAGGAGE_HEADER_NAME, sentryBaggageHeader);\n }\n\n return newHeaders ;\n } else if (Array.isArray(headers)) {\n const newHeaders = [...headers, ['sentry-trace', sentryTraceHeader]];\n\n if (sentryBaggageHeader) {\n // If there are multiple entries with the same key, the browser will merge the values into a single request header.\n // Its therefore safe to simply push a \"baggage\" entry, even though there might already be another baggage header.\n newHeaders.push([BAGGAGE_HEADER_NAME, sentryBaggageHeader]);\n }\n\n return newHeaders ;\n } else {\n const existingBaggageHeader = 'baggage' in headers ? headers.baggage : undefined;\n const newBaggageHeaders = [];\n\n if (Array.isArray(existingBaggageHeader)) {\n newBaggageHeaders.push(...existingBaggageHeader);\n } else if (existingBaggageHeader) {\n newBaggageHeaders.push(existingBaggageHeader);\n }\n\n if (sentryBaggageHeader) {\n newBaggageHeaders.push(sentryBaggageHeader);\n }\n\n return {\n ...(headers ),\n 'sentry-trace': sentryTraceHeader,\n baggage: newBaggageHeaders.length > 0 ? newBaggageHeaders.join(',') : undefined,\n };\n }\n}\n\nfunction getFullURL(url) {\n try {\n const parsed = new URL(url);\n return parsed.href;\n } catch (e) {\n return undefined;\n }\n}\n\nfunction endSpan(span, handlerData) {\n if (handlerData.response) {\n setHttpStatus(span, handlerData.response.status);\n\n const contentLength =\n handlerData.response && handlerData.response.headers && handlerData.response.headers.get('content-length');\n\n if (contentLength) {\n const contentLengthNum = parseInt(contentLength);\n if (contentLengthNum > 0) {\n span.setAttribute('http.response_content_length', contentLengthNum);\n }\n }\n } else if (handlerData.error) {\n span.setStatus({ code: SPAN_STATUS_ERROR, message: 'internal_error' });\n }\n span.end();\n}\n\nexport { addTracingHeadersToFetchRequest, instrumentFetchRequest };\n","import { startTrackingWebVitals, startTrackingINP, startTrackingLongAnimationFrames, startTrackingLongTasks, startTrackingInteractions, addHistoryInstrumentationHandler, registerInpInteractionListener, addPerformanceEntries } from '@sentry-internal/browser-utils';\nimport { TRACING_DEFAULTS, registerSpanErrorInstrumentation, getClient, spanToJSON, getCurrentScope, getRootSpan, spanIsSampled, getDynamicSamplingContextFromSpan, SEMANTIC_ATTRIBUTE_SENTRY_SOURCE, SEMANTIC_ATTRIBUTE_SENTRY_ORIGIN, getActiveSpan, getIsolationScope, startIdleSpan, SEMANTIC_ATTRIBUTE_SENTRY_IDLE_SPAN_FINISH_REASON } from '@sentry/core';\nimport { GLOBAL_OBJ, logger, propagationContextFromHeaders, browserPerformanceTimeOrigin, generatePropagationContext, getDomElement } from '@sentry/utils';\nimport { DEBUG_BUILD } from '../debug-build.js';\nimport { WINDOW } from '../helpers.js';\nimport { registerBackgroundTabDetection } from './backgroundtab.js';\nimport { defaultRequestInstrumentationOptions, instrumentOutgoingRequests } from './request.js';\n\n/* eslint-disable max-lines */\n\nconst BROWSER_TRACING_INTEGRATION_ID = 'BrowserTracing';\n\nconst DEFAULT_BROWSER_TRACING_OPTIONS = {\n ...TRACING_DEFAULTS,\n instrumentNavigation: true,\n instrumentPageLoad: true,\n markBackgroundSpan: true,\n enableLongTask: true,\n enableLongAnimationFrame: true,\n enableInp: true,\n _experiments: {},\n ...defaultRequestInstrumentationOptions,\n};\n\n/**\n * The Browser Tracing integration automatically instruments browser pageload/navigation\n * actions as transactions, and captures requests, metrics and errors as spans.\n *\n * The integration can be configured with a variety of options, and can be extended to use\n * any routing library.\n *\n * We explicitly export the proper type here, as this has to be extended in some cases.\n */\nconst browserTracingIntegration = ((_options = {}) => {\n registerSpanErrorInstrumentation();\n\n const {\n enableInp,\n enableLongTask,\n enableLongAnimationFrame,\n _experiments: { enableInteractions, enableStandaloneClsSpans },\n beforeStartSpan,\n idleTimeout,\n finalTimeout,\n childSpanTimeout,\n markBackgroundSpan,\n traceFetch,\n traceXHR,\n shouldCreateSpanForRequest,\n enableHTTPTimings,\n instrumentPageLoad,\n instrumentNavigation,\n } = {\n ...DEFAULT_BROWSER_TRACING_OPTIONS,\n ..._options,\n };\n\n const _collectWebVitals = startTrackingWebVitals({ recordClsStandaloneSpans: enableStandaloneClsSpans || false });\n\n if (enableInp) {\n startTrackingINP();\n }\n\n if (\n enableLongAnimationFrame &&\n GLOBAL_OBJ.PerformanceObserver &&\n PerformanceObserver.supportedEntryTypes.includes('long-animation-frame')\n ) {\n startTrackingLongAnimationFrames();\n } else if (enableLongTask) {\n startTrackingLongTasks();\n }\n\n if (enableInteractions) {\n startTrackingInteractions();\n }\n\n const latestRoute = {\n name: undefined,\n source: undefined,\n };\n\n /** Create routing idle transaction. */\n function _createRouteSpan(client, startSpanOptions) {\n const isPageloadTransaction = startSpanOptions.op === 'pageload';\n\n const finalStartSpanOptions = beforeStartSpan\n ? beforeStartSpan(startSpanOptions)\n : startSpanOptions;\n\n const attributes = finalStartSpanOptions.attributes || {};\n\n // If `finalStartSpanOptions.name` is different than `startSpanOptions.name`\n // it is because `beforeStartSpan` set a custom name. Therefore we set the source to 'custom'.\n if (startSpanOptions.name !== finalStartSpanOptions.name) {\n attributes[SEMANTIC_ATTRIBUTE_SENTRY_SOURCE] = 'custom';\n finalStartSpanOptions.attributes = attributes;\n }\n\n latestRoute.name = finalStartSpanOptions.name;\n latestRoute.source = attributes[SEMANTIC_ATTRIBUTE_SENTRY_SOURCE];\n\n const idleSpan = startIdleSpan(finalStartSpanOptions, {\n idleTimeout,\n finalTimeout,\n childSpanTimeout,\n // should wait for finish signal if it's a pageload transaction\n disableAutoFinish: isPageloadTransaction,\n beforeSpanEnd: span => {\n _collectWebVitals();\n addPerformanceEntries(span, { recordClsOnPageloadSpan: !enableStandaloneClsSpans });\n },\n });\n\n function emitFinish() {\n if (['interactive', 'complete'].includes(WINDOW.document.readyState)) {\n client.emit('idleSpanEnableAutoFinish', idleSpan);\n }\n }\n\n if (isPageloadTransaction && WINDOW.document) {\n WINDOW.document.addEventListener('readystatechange', () => {\n emitFinish();\n });\n\n emitFinish();\n }\n\n return idleSpan;\n }\n\n return {\n name: BROWSER_TRACING_INTEGRATION_ID,\n afterAllSetup(client) {\n let activeSpan;\n let startingUrl = WINDOW.location && WINDOW.location.href;\n\n client.on('startNavigationSpan', startSpanOptions => {\n if (getClient() !== client) {\n return;\n }\n\n if (activeSpan && !spanToJSON(activeSpan).timestamp) {\n DEBUG_BUILD && logger.log(`[Tracing] Finishing current root span with op: ${spanToJSON(activeSpan).op}`);\n // If there's an open transaction on the scope, we need to finish it before creating an new one.\n activeSpan.end();\n }\n\n activeSpan = _createRouteSpan(client, {\n op: 'navigation',\n ...startSpanOptions,\n });\n });\n\n client.on('startPageLoadSpan', (startSpanOptions, traceOptions = {}) => {\n if (getClient() !== client) {\n return;\n }\n\n if (activeSpan && !spanToJSON(activeSpan).timestamp) {\n DEBUG_BUILD && logger.log(`[Tracing] Finishing current root span with op: ${spanToJSON(activeSpan).op}`);\n // If there's an open transaction on the scope, we need to finish it before creating an new one.\n activeSpan.end();\n }\n\n const sentryTrace = traceOptions.sentryTrace || getMetaContent('sentry-trace');\n const baggage = traceOptions.baggage || getMetaContent('baggage');\n\n const propagationContext = propagationContextFromHeaders(sentryTrace, baggage);\n getCurrentScope().setPropagationContext(propagationContext);\n\n activeSpan = _createRouteSpan(client, {\n op: 'pageload',\n ...startSpanOptions,\n });\n });\n\n // A trace should to stay the consistent over the entire time span of one route.\n // Therefore, when the initial pageload or navigation root span ends, we update the\n // scope's propagation context to keep span-specific attributes like the `sampled` decision and\n // the dynamic sampling context valid, even after the root span has ended.\n // This ensures that the trace data is consistent for the entire duration of the route.\n client.on('spanEnd', span => {\n const op = spanToJSON(span).op;\n if (span !== getRootSpan(span) || (op !== 'navigation' && op !== 'pageload')) {\n return;\n }\n\n const scope = getCurrentScope();\n const oldPropagationContext = scope.getPropagationContext();\n\n scope.setPropagationContext({\n ...oldPropagationContext,\n sampled: oldPropagationContext.sampled !== undefined ? oldPropagationContext.sampled : spanIsSampled(span),\n dsc: oldPropagationContext.dsc || getDynamicSamplingContextFromSpan(span),\n });\n });\n\n if (WINDOW.location) {\n if (instrumentPageLoad) {\n startBrowserTracingPageLoadSpan(client, {\n name: WINDOW.location.pathname,\n // pageload should always start at timeOrigin (and needs to be in s, not ms)\n startTime: browserPerformanceTimeOrigin ? browserPerformanceTimeOrigin / 1000 : undefined,\n attributes: {\n [SEMANTIC_ATTRIBUTE_SENTRY_SOURCE]: 'url',\n [SEMANTIC_ATTRIBUTE_SENTRY_ORIGIN]: 'auto.pageload.browser',\n },\n });\n }\n\n if (instrumentNavigation) {\n addHistoryInstrumentationHandler(({ to, from }) => {\n /**\n * This early return is there to account for some cases where a navigation transaction starts right after\n * long-running pageload. We make sure that if `from` is undefined and a valid `startingURL` exists, we don't\n * create an uneccessary navigation transaction.\n *\n * This was hard to duplicate, but this behavior stopped as soon as this fix was applied. This issue might also\n * only be caused in certain development environments where the usage of a hot module reloader is causing\n * errors.\n */\n if (from === undefined && startingUrl && startingUrl.indexOf(to) !== -1) {\n startingUrl = undefined;\n return;\n }\n\n if (from !== to) {\n startingUrl = undefined;\n startBrowserTracingNavigationSpan(client, {\n name: WINDOW.location.pathname,\n attributes: {\n [SEMANTIC_ATTRIBUTE_SENTRY_SOURCE]: 'url',\n [SEMANTIC_ATTRIBUTE_SENTRY_ORIGIN]: 'auto.navigation.browser',\n },\n });\n }\n });\n }\n }\n\n if (markBackgroundSpan) {\n registerBackgroundTabDetection();\n }\n\n if (enableInteractions) {\n registerInteractionListener(idleTimeout, finalTimeout, childSpanTimeout, latestRoute);\n }\n\n if (enableInp) {\n registerInpInteractionListener();\n }\n\n instrumentOutgoingRequests(client, {\n traceFetch,\n traceXHR,\n tracePropagationTargets: client.getOptions().tracePropagationTargets,\n shouldCreateSpanForRequest,\n enableHTTPTimings,\n });\n },\n };\n}) ;\n\n/**\n * Manually start a page load span.\n * This will only do something if a browser tracing integration integration has been setup.\n *\n * If you provide a custom `traceOptions` object, it will be used to continue the trace\n * instead of the default behavior, which is to look it up on the tags.\n */\nfunction startBrowserTracingPageLoadSpan(\n client,\n spanOptions,\n traceOptions,\n) {\n client.emit('startPageLoadSpan', spanOptions, traceOptions);\n\n getCurrentScope().setTransactionName(spanOptions.name);\n\n const span = getActiveSpan();\n const op = span && spanToJSON(span).op;\n return op === 'pageload' ? span : undefined;\n}\n\n/**\n * Manually start a navigation span.\n * This will only do something if a browser tracing integration has been setup.\n */\nfunction startBrowserTracingNavigationSpan(client, spanOptions) {\n getIsolationScope().setPropagationContext(generatePropagationContext());\n getCurrentScope().setPropagationContext(generatePropagationContext());\n\n client.emit('startNavigationSpan', spanOptions);\n\n getCurrentScope().setTransactionName(spanOptions.name);\n\n const span = getActiveSpan();\n const op = span && spanToJSON(span).op;\n return op === 'navigation' ? span : undefined;\n}\n\n/** Returns the value of a meta tag */\nfunction getMetaContent(metaName) {\n // Can't specify generic to `getDomElement` because tracing can be used\n // in a variety of environments, have to disable `no-unsafe-member-access`\n // as a result.\n const metaTag = getDomElement(`meta[name=${metaName}]`);\n // eslint-disable-next-line @typescript-eslint/no-unsafe-member-access\n return metaTag ? metaTag.getAttribute('content') : undefined;\n}\n\n/** Start listener for interaction transactions */\nfunction registerInteractionListener(\n idleTimeout,\n finalTimeout,\n childSpanTimeout,\n latestRoute,\n) {\n let inflightInteractionSpan;\n const registerInteractionTransaction = () => {\n const op = 'ui.action.click';\n\n const activeSpan = getActiveSpan();\n const rootSpan = activeSpan && getRootSpan(activeSpan);\n if (rootSpan) {\n const currentRootSpanOp = spanToJSON(rootSpan).op;\n if (['navigation', 'pageload'].includes(currentRootSpanOp )) {\n DEBUG_BUILD &&\n logger.warn(`[Tracing] Did not create ${op} span because a pageload or navigation span is in progress.`);\n return undefined;\n }\n }\n\n if (inflightInteractionSpan) {\n inflightInteractionSpan.setAttribute(SEMANTIC_ATTRIBUTE_SENTRY_IDLE_SPAN_FINISH_REASON, 'interactionInterrupted');\n inflightInteractionSpan.end();\n inflightInteractionSpan = undefined;\n }\n\n if (!latestRoute.name) {\n DEBUG_BUILD && logger.warn(`[Tracing] Did not create ${op} transaction because _latestRouteName is missing.`);\n return undefined;\n }\n\n inflightInteractionSpan = startIdleSpan(\n {\n name: latestRoute.name,\n op,\n attributes: {\n [SEMANTIC_ATTRIBUTE_SENTRY_SOURCE]: latestRoute.source || 'url',\n },\n },\n {\n idleTimeout,\n finalTimeout,\n childSpanTimeout,\n },\n );\n };\n\n if (WINDOW.document) {\n addEventListener('click', registerInteractionTransaction, { once: false, capture: true });\n }\n}\n\nexport { BROWSER_TRACING_INTEGRATION_ID, browserTracingIntegration, getMetaContent, startBrowserTracingNavigationSpan, startBrowserTracingPageLoadSpan };\n","import { getActiveSpan, getRootSpan, spanToJSON, SPAN_STATUS_ERROR } from '@sentry/core';\nimport { logger } from '@sentry/utils';\nimport { DEBUG_BUILD } from '../debug-build.js';\nimport { WINDOW } from '../helpers.js';\n\n/**\n * Add a listener that cancels and finishes a transaction when the global\n * document is hidden.\n */\nfunction registerBackgroundTabDetection() {\n if (WINDOW && WINDOW.document) {\n WINDOW.document.addEventListener('visibilitychange', () => {\n const activeSpan = getActiveSpan();\n if (!activeSpan) {\n return;\n }\n\n const rootSpan = getRootSpan(activeSpan);\n\n if (WINDOW.document.hidden && rootSpan) {\n const cancelledStatus = 'cancelled';\n\n const { op, status } = spanToJSON(rootSpan);\n\n if (DEBUG_BUILD) {\n logger.log(`[Tracing] Transaction: ${cancelledStatus} -> since tab moved to the background, op: ${op}`);\n }\n\n // We should not set status if it is already set, this prevent important statuses like\n // error or data loss from being overwritten on transaction.\n if (!status) {\n rootSpan.setStatus({ code: SPAN_STATUS_ERROR, message: cancelledStatus });\n }\n\n rootSpan.setAttribute('sentry.cancellation_reason', 'document.hidden');\n rootSpan.end();\n }\n });\n } else {\n DEBUG_BUILD && logger.warn('[Tracing] Could not set up background tab detection due to lack of global document');\n }\n}\n\nexport { registerBackgroundTabDetection };\n","import * as Sentry from '@sentry/browser';\nimport { breadcrumbsIntegration, globalHandlersIntegration, linkedErrorsIntegration, httpContextIntegration, init as init$1, setContext, browserTracingIntegration as browserTracingIntegration$1, spanToJSON, SEMANTIC_ATTRIBUTE_SENTRY_SOURCE, SEMANTIC_ATTRIBUTE_SENTRY_ORIGIN, getClient, startBrowserTracingNavigationSpan, startInactiveSpan, getCurrentScope, getActiveSpan, getRootSpan } from '@sentry/browser';\nexport * from '@sentry/browser';\nimport * as i0 from '@angular/core';\nimport { VERSION, Injectable, Inject, Directive, Input, NgModule } from '@angular/core';\nimport { inboundFiltersIntegration, functionToStringIntegration, dedupeIntegration, applySdkMetadata } from '@sentry/core';\nimport { logger, isString, stripUrlQueryAndFragment, timestampInSeconds } from '@sentry/utils';\nimport { HttpErrorResponse } from '@angular/common/http';\nimport * as i1 from '@angular/router';\nimport { NavigationStart, ResolveEnd, NavigationEnd, NavigationCancel, NavigationError } from '@angular/router';\nimport { Subscription } from 'rxjs';\nimport { filter, tap } from 'rxjs/operators';\n\n/*\n * This file defines flags and constants that can be modified during compile time in order to facilitate tree shaking\n * for users.\n *\n * We define \"magic strings\" like `__SENTRY_DEBUG__` that may get replaced with actual values during our, or the user's\n * build process. Take care when introducing new flags - they must not throw if they are not replaced. See the Debug\n * Build Flags section in CONTRIBUTING.md.\n */\n/** Flag that is true for debug builds, false otherwise. */\nconst IS_DEBUG_BUILD = typeof __SENTRY_DEBUG__ === 'undefined' ? true : __SENTRY_DEBUG__;\n\n/**\n * Get the default integrations for the Angular SDK.\n */\nfunction getDefaultIntegrations() {\n // Don't include the BrowserApiErrors integration as it interferes with the Angular SDK's `ErrorHandler`:\n // BrowserApiErrors would catch certain errors before they reach the `ErrorHandler` and\n // thus provide a lower fidelity error than what `SentryErrorHandler`\n // (see errorhandler.ts) would provide.\n //\n // see:\n // - https://github.com/getsentry/sentry-javascript/issues/5417#issuecomment-1453407097\n // - https://github.com/getsentry/sentry-javascript/issues/2744\n return [\n inboundFiltersIntegration(),\n functionToStringIntegration(),\n breadcrumbsIntegration(),\n globalHandlersIntegration(),\n linkedErrorsIntegration(),\n dedupeIntegration(),\n httpContextIntegration(),\n ];\n}\n/**\n * Inits the Angular SDK\n */\nfunction init(options) {\n const opts = {\n defaultIntegrations: getDefaultIntegrations(),\n ...options,\n };\n applySdkMetadata(opts, 'angular');\n checkAndSetAngularVersion();\n return init$1(opts);\n}\nfunction checkAndSetAngularVersion() {\n const ANGULAR_MINIMUM_VERSION = 14;\n const angularVersion = VERSION && VERSION.major ? parseInt(VERSION.major, 10) : undefined;\n if (angularVersion) {\n if (angularVersion < ANGULAR_MINIMUM_VERSION) {\n IS_DEBUG_BUILD &&\n logger.warn(`This Sentry SDK does not officially support Angular ${angularVersion}.`, `This SDK only supports Angular ${ANGULAR_MINIMUM_VERSION} and above.`, \"If you're using lower Angular versions, check the Angular Version Compatibility table in our docs: https://docs.sentry.io/platforms/javascript/guides/angular/#angular-version-compatibility.\", 'Otherwise, please consider upgrading your Angular version.');\n }\n setContext('angular', { version: angularVersion });\n }\n}\n\n// In Angular 17 and future versions, zoneless support is forthcoming.\n// Therefore, it's advisable to safely check whether the `run` function is\n// available in the `` context.\n// eslint-disable-next-line @typescript-eslint/no-unsafe-member-access\nconst isNgZoneEnabled = typeof Zone !== 'undefined' && Zone.root && Zone.root.run;\n/**\n * The function that does the same job as `NgZone.runOutsideAngular`.\n *\n * ⚠️ Note: All of the Sentry functionality called from inside the Angular\n * execution context must be wrapped in this function. Angular's rendering\n * relies on asynchronous tasks being scheduled within its execution context.\n * Since Sentry schedules tasks that do not interact with Angular's rendering,\n * it may prevent Angular from functioning reliably. Consequently, it may disrupt\n * processes such as server-side rendering or client-side hydration.\n */\nfunction runOutsideAngular(callback) {\n // Running the `callback` within the root execution context enables Angular\n // processes (such as SSR and hydration) to continue functioning normally without\n // timeouts and delays that could affect the user experience. This approach is\n // necessary because some of the Sentry functionality continues to run in the background.\n // eslint-disable-next-line @typescript-eslint/no-unsafe-member-access\n return isNgZoneEnabled ? Zone.root.run(callback) : callback();\n}\n\n// https://github.com/angular/angular/blob/master/packages/core/src/util/errors.ts\nfunction tryToUnwrapZonejsError(error) {\n // TODO: once Angular14 is the minimum requirement ERROR_ORIGINAL_ERROR and\n // getOriginalError from error.ts can be used directly.\n return error && error.ngOriginalError\n ? error.ngOriginalError\n : error;\n}\nfunction extractHttpModuleError(error) {\n // The `error` property of http exception can be either an `Error` object, which we can use directly...\n if (isErrorOrErrorLikeObject(error.error)) {\n return error.error;\n }\n // ... or an`ErrorEvent`, which can provide us with the message but no stack...\n // guarding `ErrorEvent` against `undefined` as it's not defined in Node environments\n if (typeof ErrorEvent !== 'undefined' && error.error instanceof ErrorEvent && error.error.message) {\n return error.error.message;\n }\n // ...or the request body itself, which we can use as a message instead.\n if (typeof error.error === 'string') {\n return `Server returned code ${error.status} with body \"${error.error}\"`;\n }\n // If we don't have any detailed information, fallback to the request message itself.\n return error.message;\n}\nfunction isErrorOrErrorLikeObject(value) {\n if (value instanceof Error) {\n return true;\n }\n if (value === null || typeof value !== 'object') {\n return false;\n }\n const candidate = value;\n return (isString(candidate.name) &&\n isString(candidate.message) &&\n (undefined === candidate.stack || isString(candidate.stack)));\n}\n/**\n * Implementation of Angular's ErrorHandler provider that can be used as a drop-in replacement for the stock one.\n */\nclass SentryErrorHandler {\n constructor(options) {\n this._options = {\n logErrors: true,\n ...options,\n };\n }\n /**\n * Method executed when the injector is destroyed.\n */\n ngOnDestroy() {\n if (this._removeAfterSendEventListener) {\n this._removeAfterSendEventListener();\n }\n }\n /**\n * Method called for every value captured through the ErrorHandler\n */\n handleError(error) {\n const extractedError = this._extractError(error) || 'Handled unknown error';\n // Capture handled exception and send it to Sentry.\n const eventId = runOutsideAngular(() => Sentry.captureException(extractedError, {\n mechanism: { type: 'angular', handled: false },\n }));\n // When in development mode, log the error to console for immediate feedback.\n if (this._options.logErrors) {\n // eslint-disable-next-line no-console\n console.error(extractedError);\n }\n // Optionally show user dialog to provide details on what happened.\n if (this._options.showDialog) {\n const client = Sentry.getClient();\n if (client && !this._removeAfterSendEventListener) {\n this._removeAfterSendEventListener = client.on('afterSendEvent', (event) => {\n if (!event.type && event.event_id) {\n runOutsideAngular(() => {\n Sentry.showReportDialog({ ...this._options.dialogOptions, eventId: event.event_id });\n });\n }\n });\n }\n else if (!client) {\n runOutsideAngular(() => {\n Sentry.showReportDialog({ ...this._options.dialogOptions, eventId });\n });\n }\n }\n }\n /**\n * Used to pull a desired value that will be used to capture an event out of the raw value captured by ErrorHandler.\n */\n _extractError(error) {\n // Allow custom overrides of extracting function\n if (this._options.extractor) {\n const defaultExtractor = this._defaultExtractor.bind(this);\n return this._options.extractor(error, defaultExtractor);\n }\n return this._defaultExtractor(error);\n }\n /**\n * Default implementation of error extraction that handles default error wrapping, HTTP responses, ErrorEvent and few other known cases.\n */\n _defaultExtractor(errorCandidate) {\n const error = tryToUnwrapZonejsError(errorCandidate);\n // If it's http module error, extract as much information from it as we can.\n if (error instanceof HttpErrorResponse) {\n return extractHttpModuleError(error);\n }\n // We can handle messages and Error objects directly.\n if (typeof error === 'string' || isErrorOrErrorLikeObject(error)) {\n return error;\n }\n // Nothing was extracted, fallback to default error message.\n return null;\n }\n}\nSentryErrorHandler.ɵfac = i0.ɵɵngDeclareFactory({ minVersion: \"12.0.0\", version: \"14.3.0\", ngImport: i0, type: SentryErrorHandler, deps: [{ token: 'errorHandlerOptions' }], target: i0.ɵɵFactoryTarget.Injectable });\nSentryErrorHandler.ɵprov = i0.ɵɵngDeclareInjectable({ minVersion: \"12.0.0\", version: \"14.3.0\", ngImport: i0, type: SentryErrorHandler, providedIn: 'root' });\ni0.ɵɵngDeclareClassMetadata({ minVersion: \"12.0.0\", version: \"14.3.0\", ngImport: i0, type: SentryErrorHandler, decorators: [{\n type: Injectable,\n args: [{ providedIn: 'root' }]\n }], ctorParameters: function () { return [{ type: undefined, decorators: [{\n type: Inject,\n args: ['errorHandlerOptions']\n }] }]; } });\n/**\n * Factory function that creates an instance of a preconfigured ErrorHandler provider.\n */\nfunction createErrorHandler(config) {\n return new SentryErrorHandler(config);\n}\n\nconst ANGULAR_ROUTING_OP = 'ui.angular.routing';\nconst ANGULAR_INIT_OP = 'ui.angular.init';\nconst ANGULAR_OP = 'ui.angular';\n\nlet instrumentationInitialized;\n/**\n * A custom browser tracing integration for Angular.\n *\n * Use this integration in combination with `TraceService`\n */\nfunction browserTracingIntegration(options = {}) {\n // If the user opts out to set this up, we just don't initialize this.\n // That way, the TraceService will not actually do anything, functionally disabling this.\n if (options.instrumentNavigation !== false) {\n instrumentationInitialized = true;\n }\n return browserTracingIntegration$1({\n ...options,\n instrumentNavigation: false,\n });\n}\n/**\n * This function is extracted to make unit testing easier.\n */\nfunction _updateSpanAttributesForParametrizedUrl(route, span) {\n const attributes = (span && spanToJSON(span).data) || {};\n if (span && attributes[SEMANTIC_ATTRIBUTE_SENTRY_SOURCE] === 'url') {\n span.updateName(route);\n span.setAttribute(SEMANTIC_ATTRIBUTE_SENTRY_SOURCE, 'route');\n span.setAttribute(SEMANTIC_ATTRIBUTE_SENTRY_ORIGIN, `auto.${spanToJSON(span).op}.angular`);\n }\n}\n/**\n * Angular's Service responsible for hooking into Angular Router and tracking current navigation process.\n * Creates a new transaction for every route change and measures a duration of routing process.\n */\nclass TraceService {\n constructor(_router) {\n this._router = _router;\n this.navStart$ = this._router.events.pipe(filter((event) => event instanceof NavigationStart), tap(navigationEvent => {\n if (!instrumentationInitialized) {\n IS_DEBUG_BUILD &&\n logger.error('Angular integration has tracing enabled, but Tracing integration is not configured');\n return;\n }\n if (this._routingSpan) {\n this._routingSpan.end();\n this._routingSpan = null;\n }\n const client = getClient();\n const strippedUrl = stripUrlQueryAndFragment(navigationEvent.url);\n if (client) {\n // see comment in `_isPageloadOngoing` for rationale\n if (!this._isPageloadOngoing()) {\n runOutsideAngular(() => {\n startBrowserTracingNavigationSpan(client, {\n name: strippedUrl,\n attributes: {\n [SEMANTIC_ATTRIBUTE_SENTRY_ORIGIN]: 'auto.navigation.angular',\n [SEMANTIC_ATTRIBUTE_SENTRY_SOURCE]: 'url',\n },\n });\n });\n }\n else {\n // The first time we end up here, we set the pageload flag to false\n // Subsequent navigations are going to get their own navigation root span\n // even if the pageload root span is still ongoing.\n this._pageloadOngoing = false;\n }\n this._routingSpan =\n runOutsideAngular(() => startInactiveSpan({\n name: `${navigationEvent.url}`,\n op: ANGULAR_ROUTING_OP,\n attributes: {\n [SEMANTIC_ATTRIBUTE_SENTRY_ORIGIN]: 'auto.ui.angular',\n [SEMANTIC_ATTRIBUTE_SENTRY_SOURCE]: 'url',\n url: strippedUrl,\n ...(navigationEvent.navigationTrigger && {\n navigationTrigger: navigationEvent.navigationTrigger,\n }),\n },\n })) || null;\n return;\n }\n }));\n // The ResolveEnd event is fired when the Angular router has resolved the URL and\n // the parameter<->value mapping. It holds the new resolved router state with\n // the mapping and the new URL.\n // Only After this event, the route is activated, meaning that the transaction\n // can be updated with the parameterized route name before e.g. the route's root\n // component is initialized. This should be early enough before outgoing requests\n // are made from the new route, with the exceptions of requests being made during\n // a navigation.\n this.resEnd$ = this._router.events.pipe(filter((event) => event instanceof ResolveEnd), tap(event => {\n const route = getParameterizedRouteFromSnapshot(event.state.root);\n if (route) {\n getCurrentScope().setTransactionName(route);\n }\n const activeSpan = getActiveSpan();\n const rootSpan = activeSpan && getRootSpan(activeSpan);\n _updateSpanAttributesForParametrizedUrl(route, rootSpan);\n }));\n this.navEnd$ = this._router.events.pipe(filter(event => event instanceof NavigationEnd || event instanceof NavigationCancel || event instanceof NavigationError), tap(() => {\n if (this._routingSpan) {\n runOutsideAngular(() => {\n // eslint-disable-next-line @typescript-eslint/no-non-null-assertion\n this._routingSpan.end();\n });\n this._routingSpan = null;\n }\n }));\n this._routingSpan = null;\n this._pageloadOngoing = true;\n this._subscription = new Subscription();\n this._subscription.add(this.navStart$.subscribe());\n this._subscription.add(this.resEnd$.subscribe());\n this._subscription.add(this.navEnd$.subscribe());\n }\n /**\n * This is used to prevent memory leaks when the root view is created and destroyed multiple times,\n * since `subscribe` callbacks capture `this` and prevent many resources from being GC'd.\n */\n ngOnDestroy() {\n this._subscription.unsubscribe();\n }\n /**\n * We only _avoid_ creating a navigation root span in one case:\n *\n * There is an ongoing pageload span AND the router didn't yet emit the first navigation start event\n *\n * The first navigation start event will create the child routing span\n * and update the pageload root span name on ResolveEnd.\n *\n * There's an edge case we need to avoid here: If the router fires the first navigation start event\n * _after_ the pageload root span finished. This is why we check for the pageload root span.\n * Possible real-world scenario: Angular application and/or router is bootstrapped after the pageload\n * idle root span finished\n *\n * The overall rationale is:\n * - if we already avoided creating a navigation root span once, we don't avoid it again\n * (i.e. set `_pageloadOngoing` to `false`)\n * - if `_pageloadOngoing` is already `false`, create a navigation root span\n * - if there's no active/pageload root span, create a navigation root span\n * - only if there's an ongoing pageload root span AND `_pageloadOngoing` is still `true,\n * don't create a navigation root span\n */\n _isPageloadOngoing() {\n if (!this._pageloadOngoing) {\n // pageload is already finished, no need to update\n return false;\n }\n const activeSpan = getActiveSpan();\n if (!activeSpan) {\n this._pageloadOngoing = false;\n return false;\n }\n const rootSpan = getRootSpan(activeSpan);\n this._pageloadOngoing = spanToJSON(rootSpan).op === 'pageload';\n return this._pageloadOngoing;\n }\n}\nTraceService.ɵfac = i0.ɵɵngDeclareFactory({ minVersion: \"12.0.0\", version: \"14.3.0\", ngImport: i0, type: TraceService, deps: [{ token: i1.Router }], target: i0.ɵɵFactoryTarget.Injectable });\nTraceService.ɵprov = i0.ɵɵngDeclareInjectable({ minVersion: \"12.0.0\", version: \"14.3.0\", ngImport: i0, type: TraceService, providedIn: 'root' });\ni0.ɵɵngDeclareClassMetadata({ minVersion: \"12.0.0\", version: \"14.3.0\", ngImport: i0, type: TraceService, decorators: [{\n type: Injectable,\n args: [{ providedIn: 'root' }]\n }], ctorParameters: function () { return [{ type: i1.Router }]; } });\nconst UNKNOWN_COMPONENT = 'unknown';\n/**\n * A directive that can be used to capture initialization lifecycle of the whole component.\n */\nclass TraceDirective {\n /**\n * Implementation of OnInit lifecycle method\n * @inheritdoc\n */\n ngOnInit() {\n if (!this.componentName) {\n this.componentName = UNKNOWN_COMPONENT;\n }\n if (getActiveSpan()) {\n this._tracingSpan = runOutsideAngular(() => startInactiveSpan({\n name: `<${this.componentName}>`,\n op: ANGULAR_INIT_OP,\n attributes: { [SEMANTIC_ATTRIBUTE_SENTRY_ORIGIN]: 'auto.ui.angular.trace_directive' },\n }));\n }\n }\n /**\n * Implementation of AfterViewInit lifecycle method\n * @inheritdoc\n */\n ngAfterViewInit() {\n if (this._tracingSpan) {\n runOutsideAngular(() => this._tracingSpan.end());\n }\n }\n}\nTraceDirective.ɵfac = i0.ɵɵngDeclareFactory({ minVersion: \"12.0.0\", version: \"14.3.0\", ngImport: i0, type: TraceDirective, deps: [], target: i0.ɵɵFactoryTarget.Directive });\nTraceDirective.ɵdir = i0.ɵɵngDeclareDirective({ minVersion: \"14.0.0\", version: \"14.3.0\", type: TraceDirective, selector: \"[trace]\", inputs: { componentName: [\"trace\", \"componentName\"] }, ngImport: i0 });\ni0.ɵɵngDeclareClassMetadata({ minVersion: \"12.0.0\", version: \"14.3.0\", ngImport: i0, type: TraceDirective, decorators: [{\n type: Directive,\n args: [{ selector: '[trace]' }]\n }], propDecorators: { componentName: [{\n type: Input,\n args: ['trace']\n }] } });\n/**\n * A module serves as a single compilation unit for the `TraceDirective` and can be re-used by any other module.\n */\nclass TraceModule {\n}\nTraceModule.ɵfac = i0.ɵɵngDeclareFactory({ minVersion: \"12.0.0\", version: \"14.3.0\", ngImport: i0, type: TraceModule, deps: [], target: i0.ɵɵFactoryTarget.NgModule });\nTraceModule.ɵmod = i0.ɵɵngDeclareNgModule({ minVersion: \"14.0.0\", version: \"14.3.0\", ngImport: i0, type: TraceModule, declarations: [TraceDirective], exports: [TraceDirective] });\nTraceModule.ɵinj = i0.ɵɵngDeclareInjector({ minVersion: \"12.0.0\", version: \"14.3.0\", ngImport: i0, type: TraceModule });\ni0.ɵɵngDeclareClassMetadata({ minVersion: \"12.0.0\", version: \"14.3.0\", ngImport: i0, type: TraceModule, decorators: [{\n type: NgModule,\n args: [{\n declarations: [TraceDirective],\n exports: [TraceDirective],\n }]\n }] });\n/**\n * Decorator function that can be used to capture initialization lifecycle of the whole component.\n */\nfunction TraceClass(options) {\n let tracingSpan;\n /* eslint-disable @typescript-eslint/no-unsafe-member-access */\n return target => {\n const originalOnInit = target.prototype.ngOnInit;\n // eslint-disable-next-line @typescript-eslint/no-explicit-any\n target.prototype.ngOnInit = function (...args) {\n tracingSpan = runOutsideAngular(() => startInactiveSpan({\n onlyIfParent: true,\n name: `<${options && options.name ? options.name : 'unnamed'}>`,\n op: ANGULAR_INIT_OP,\n attributes: {\n [SEMANTIC_ATTRIBUTE_SENTRY_ORIGIN]: 'auto.ui.angular.trace_class_decorator',\n },\n }));\n if (originalOnInit) {\n return originalOnInit.apply(this, args);\n }\n };\n const originalAfterViewInit = target.prototype.ngAfterViewInit;\n // eslint-disable-next-line @typescript-eslint/no-explicit-any\n target.prototype.ngAfterViewInit = function (...args) {\n if (tracingSpan) {\n runOutsideAngular(() => tracingSpan.end());\n }\n if (originalAfterViewInit) {\n return originalAfterViewInit.apply(this, args);\n }\n };\n };\n /* eslint-enable @typescript-eslint/no-unsafe-member-access */\n}\n/**\n * Decorator function that can be used to capture a single lifecycle methods of the component.\n */\nfunction TraceMethod(options) {\n // eslint-disable-next-line @typescript-eslint/ban-types\n return (target, propertyKey, descriptor) => {\n const originalMethod = descriptor.value;\n // eslint-disable-next-line @typescript-eslint/no-explicit-any\n descriptor.value = function (...args) {\n const now = timestampInSeconds();\n runOutsideAngular(() => {\n startInactiveSpan({\n onlyIfParent: true,\n name: `<${options && options.name ? options.name : 'unnamed'}>`,\n op: `${ANGULAR_OP}.${String(propertyKey)}`,\n startTime: now,\n attributes: {\n [SEMANTIC_ATTRIBUTE_SENTRY_ORIGIN]: 'auto.ui.angular.trace_method_decorator',\n },\n }).end(now);\n });\n if (originalMethod) {\n // eslint-disable-next-line @typescript-eslint/no-unsafe-member-access\n return originalMethod.apply(this, args);\n }\n };\n return descriptor;\n };\n}\n/**\n * Takes the parameterized route from a given ActivatedRouteSnapshot and concatenates the snapshot's\n * child route with its parent to produce the complete parameterized URL of the activated route.\n * This happens recursively until the last child (i.e. the end of the URL) is reached.\n *\n * @param route the ActivatedRouteSnapshot of which its path and its child's path is concatenated\n *\n * @returns the concatenated parameterized route string\n */\nfunction getParameterizedRouteFromSnapshot(route) {\n const parts = [];\n let currentRoute = route && route.firstChild;\n while (currentRoute) {\n const path = currentRoute && currentRoute.routeConfig && currentRoute.routeConfig.path;\n if (path === null || path === undefined) {\n break;\n }\n parts.push(path);\n currentRoute = currentRoute.firstChild;\n }\n const fullPath = parts.filter(part => part).join('/');\n return fullPath ? `/${fullPath}/` : '/';\n}\n\n/**\n * Generated bundle index. Do not edit.\n */\n\nexport { SentryErrorHandler, TraceClass, TraceDirective, TraceMethod, TraceModule, TraceService, browserTracingIntegration, createErrorHandler, getDefaultIntegrations, init };\n","/**\n * Checks whether given url points to Sentry server\n *\n * @param url url to verify\n */\nfunction isSentryRequestUrl(url, client) {\n const dsn = client && client.getDsn();\n const tunnel = client && client.getOptions().tunnel;\n return checkDsn(url, dsn) || checkTunnel(url, tunnel);\n}\n\nfunction checkTunnel(url, tunnel) {\n if (!tunnel) {\n return false;\n }\n\n return removeTrailingSlash(url) === removeTrailingSlash(tunnel);\n}\n\nfunction checkDsn(url, dsn) {\n return dsn ? url.includes(dsn.host) : false;\n}\n\nfunction removeTrailingSlash(str) {\n return str[str.length - 1] === '/' ? str.slice(0, -1) : str;\n}\n\nexport { isSentryRequestUrl };\n","import { isNodeEnv } from './node.js';\nimport { GLOBAL_OBJ } from './worldwide.js';\n\n/**\n * Returns true if we are in the browser.\n */\nfunction isBrowser() {\n // eslint-disable-next-line no-restricted-globals\n return typeof window !== 'undefined' && (!isNodeEnv() || isElectronNodeRenderer());\n}\n\n// Electron renderers with nodeIntegration enabled are detected as Node.js so we specifically test for them\nfunction isElectronNodeRenderer() {\n return (\n // eslint-disable-next-line @typescript-eslint/no-unsafe-member-access, @typescript-eslint/no-explicit-any\n (GLOBAL_OBJ ).process !== undefined && ((GLOBAL_OBJ ).process ).type === 'renderer'\n );\n}\n\nexport { isBrowser };\n","import { isBrowserBundle } from './env.js';\n\n/**\n * NOTE: In order to avoid circular dependencies, if you add a function to this module and it needs to print something,\n * you must either a) use `console.log` rather than the logger, or b) put your function elsewhere.\n */\n\n\n/**\n * Checks whether we're in the Node.js or Browser environment\n *\n * @returns Answer to given question\n */\nfunction isNodeEnv() {\n // explicitly check for browser bundles as those can be optimized statically\n // by terser/rollup.\n return (\n !isBrowserBundle() &&\n Object.prototype.toString.call(typeof process !== 'undefined' ? process : 0) === '[object process]'\n );\n}\n\n/**\n * Requires a module which is protected against bundler minification.\n *\n * @param request The module path to resolve\n */\n// eslint-disable-next-line @typescript-eslint/no-explicit-any\nfunction dynamicRequire(mod, request) {\n // eslint-disable-next-line @typescript-eslint/no-unsafe-member-access\n return mod.require(request);\n}\n\n/**\n * Helper for dynamically loading module that should work with linked dependencies.\n * The problem is that we _should_ be using `require(require.resolve(moduleName, { paths: [cwd()] }))`\n * However it's _not possible_ to do that with Webpack, as it has to know all the dependencies during\n * build time. `require.resolve` is also not available in any other way, so we cannot create,\n * a fake helper like we do with `dynamicRequire`.\n *\n * We always prefer to use local package, thus the value is not returned early from each `try/catch` block.\n * That is to mimic the behavior of `require.resolve` exactly.\n *\n * @param moduleName module name to require\n * @returns possibly required module\n */\nfunction loadModule(moduleName) {\n let mod;\n\n try {\n mod = dynamicRequire(module, moduleName);\n } catch (e) {\n // no-empty\n }\n\n try {\n const { cwd } = dynamicRequire(module, 'process');\n mod = dynamicRequire(module, `${cwd()}/node_modules/${moduleName}`) ;\n } catch (e) {\n // no-empty\n }\n\n return mod;\n}\n\nexport { dynamicRequire, isNodeEnv, loadModule };\n","import { _nullishCoalesce, _optionalChain } from '@sentry/utils';\nimport { captureException, addBreadcrumb, getClient, isSentryRequestUrl, addEventProcessor, prepareEvent, getIsolationScope, getCurrentScope, setContext, getActiveSpan, getRootSpan, spanToJSON, SEMANTIC_ATTRIBUTE_SENTRY_SOURCE, parseSampleRate } from '@sentry/core';\nimport { GLOBAL_OBJ, logger as logger$1, normalize, fill, htmlTreeAsString, browserPerformanceTimeOrigin, uuid4, getLocationHref, dropUndefinedKeys, stringMatchesSomePattern, createEnvelope, createEventEnvelopeHeaders, getSdkMetadataForEnvelopeHeader, resolvedSyncPromise, updateRateLimits, isRateLimited, isBrowser, consoleSandbox } from '@sentry/utils';\nimport { setTimeout as setTimeout$3, addPerformanceInstrumentationHandler, addLcpInstrumentationHandler, addClsInstrumentationHandler, addFidInstrumentationHandler, addInpInstrumentationHandler, SENTRY_XHR_DATA_KEY, addClickKeypressInstrumentationHandler, addHistoryInstrumentationHandler } from '@sentry-internal/browser-utils';\n\n// exporting a separate copy of `WINDOW` rather than exporting the one from `@sentry/browser`\n// prevents the browser package from being bundled in the CDN bundle, and avoids a\n// circular dependency between the browser and replay packages should `@sentry/browser` import\n// from `@sentry/replay` in the future\nconst WINDOW = GLOBAL_OBJ ;\n\nconst REPLAY_SESSION_KEY = 'sentryReplaySession';\nconst REPLAY_EVENT_NAME = 'replay_event';\nconst UNABLE_TO_SEND_REPLAY = 'Unable to send Replay';\n\n// The idle limit for a session after which recording is paused.\nconst SESSION_IDLE_PAUSE_DURATION = 300000; // 5 minutes in ms\n\n// The idle limit for a session after which the session expires.\nconst SESSION_IDLE_EXPIRE_DURATION = 900000; // 15 minutes in ms\n\n/** Default flush delays */\nconst DEFAULT_FLUSH_MIN_DELAY = 5000;\n// XXX: Temp fix for our debounce logic where `maxWait` would never occur if it\n// was the same as `wait`\nconst DEFAULT_FLUSH_MAX_DELAY = 5500;\n\n/* How long to wait for error checkouts */\nconst BUFFER_CHECKOUT_TIME = 60000;\n\nconst RETRY_BASE_INTERVAL = 5000;\nconst RETRY_MAX_COUNT = 3;\n\n/* The max (uncompressed) size in bytes of a network body. Any body larger than this will be truncated. */\nconst NETWORK_BODY_MAX_SIZE = 150000;\n\n/* The max size of a single console arg that is captured. Any arg larger than this will be truncated. */\nconst CONSOLE_ARG_MAX_SIZE = 5000;\n\n/* Min. time to wait before we consider something a slow click. */\nconst SLOW_CLICK_THRESHOLD = 3000;\n/* For scroll actions after a click, we only look for a very short time period to detect programmatic scrolling. */\nconst SLOW_CLICK_SCROLL_TIMEOUT = 300;\n\n/** When encountering a total segment size exceeding this size, stop the replay (as we cannot properly ingest it). */\nconst REPLAY_MAX_EVENT_BUFFER_SIZE = 20000000; // ~20MB\n\n/** Replays must be min. 5s long before we send them. */\nconst MIN_REPLAY_DURATION = 4999;\n/* The max. allowed value that the minReplayDuration can be set to. */\nconst MIN_REPLAY_DURATION_LIMIT = 15000;\n\n/** The max. length of a replay. */\nconst MAX_REPLAY_DURATION = 3600000; // 60 minutes in ms;\n\nfunction _nullishCoalesce$1(lhs, rhsFn) { if (lhs != null) { return lhs; } else { return rhsFn(); } }function _optionalChain$5(ops) { let lastAccessLHS = undefined; let value = ops[0]; let i = 1; while (i < ops.length) { const op = ops[i]; const fn = ops[i + 1]; i += 2; if ((op === 'optionalAccess' || op === 'optionalCall') && value == null) { return undefined; } if (op === 'access' || op === 'optionalAccess') { lastAccessLHS = value; value = fn(value); } else if (op === 'call' || op === 'optionalCall') { value = fn((...args) => value.call(lastAccessLHS, ...args)); lastAccessLHS = undefined; } } return value; }var NodeType$1;\n(function (NodeType) {\n NodeType[NodeType[\"Document\"] = 0] = \"Document\";\n NodeType[NodeType[\"DocumentType\"] = 1] = \"DocumentType\";\n NodeType[NodeType[\"Element\"] = 2] = \"Element\";\n NodeType[NodeType[\"Text\"] = 3] = \"Text\";\n NodeType[NodeType[\"CDATA\"] = 4] = \"CDATA\";\n NodeType[NodeType[\"Comment\"] = 5] = \"Comment\";\n})(NodeType$1 || (NodeType$1 = {}));\n\nfunction isElement$1(n) {\n return n.nodeType === n.ELEMENT_NODE;\n}\nfunction isShadowRoot(n) {\n const host = _optionalChain$5([n, 'optionalAccess', _ => _.host]);\n return Boolean(_optionalChain$5([host, 'optionalAccess', _2 => _2.shadowRoot]) === n);\n}\nfunction isNativeShadowDom(shadowRoot) {\n return Object.prototype.toString.call(shadowRoot) === '[object ShadowRoot]';\n}\nfunction fixBrowserCompatibilityIssuesInCSS(cssText) {\n if (cssText.includes(' background-clip: text;') &&\n !cssText.includes(' -webkit-background-clip: text;')) {\n cssText = cssText.replace(' background-clip: text;', ' -webkit-background-clip: text; background-clip: text;');\n }\n return cssText;\n}\nfunction escapeImportStatement(rule) {\n const { cssText } = rule;\n if (cssText.split('\"').length < 3)\n return cssText;\n const statement = ['@import', `url(${JSON.stringify(rule.href)})`];\n if (rule.layerName === '') {\n statement.push(`layer`);\n }\n else if (rule.layerName) {\n statement.push(`layer(${rule.layerName})`);\n }\n if (rule.supportsText) {\n statement.push(`supports(${rule.supportsText})`);\n }\n if (rule.media.length) {\n statement.push(rule.media.mediaText);\n }\n return statement.join(' ') + ';';\n}\nfunction stringifyStylesheet(s) {\n try {\n const rules = s.rules || s.cssRules;\n return rules\n ? fixBrowserCompatibilityIssuesInCSS(Array.from(rules, stringifyRule).join(''))\n : null;\n }\n catch (error) {\n return null;\n }\n}\nfunction stringifyRule(rule) {\n let importStringified;\n if (isCSSImportRule(rule)) {\n try {\n importStringified =\n stringifyStylesheet(rule.styleSheet) ||\n escapeImportStatement(rule);\n }\n catch (error) {\n }\n }\n else if (isCSSStyleRule(rule) && rule.selectorText.includes(':')) {\n return fixSafariColons(rule.cssText);\n }\n return importStringified || rule.cssText;\n}\nfunction fixSafariColons(cssStringified) {\n const regex = /(\\[(?:[\\w-]+)[^\\\\])(:(?:[\\w-]+)\\])/gm;\n return cssStringified.replace(regex, '$1\\\\$2');\n}\nfunction isCSSImportRule(rule) {\n return 'styleSheet' in rule;\n}\nfunction isCSSStyleRule(rule) {\n return 'selectorText' in rule;\n}\nclass Mirror {\n constructor() {\n this.idNodeMap = new Map();\n this.nodeMetaMap = new WeakMap();\n }\n getId(n) {\n if (!n)\n return -1;\n const id = _optionalChain$5([this, 'access', _3 => _3.getMeta, 'call', _4 => _4(n), 'optionalAccess', _5 => _5.id]);\n return _nullishCoalesce$1(id, () => ( -1));\n }\n getNode(id) {\n return this.idNodeMap.get(id) || null;\n }\n getIds() {\n return Array.from(this.idNodeMap.keys());\n }\n getMeta(n) {\n return this.nodeMetaMap.get(n) || null;\n }\n removeNodeFromMap(n) {\n const id = this.getId(n);\n this.idNodeMap.delete(id);\n if (n.childNodes) {\n n.childNodes.forEach((childNode) => this.removeNodeFromMap(childNode));\n }\n }\n has(id) {\n return this.idNodeMap.has(id);\n }\n hasNode(node) {\n return this.nodeMetaMap.has(node);\n }\n add(n, meta) {\n const id = meta.id;\n this.idNodeMap.set(id, n);\n this.nodeMetaMap.set(n, meta);\n }\n replace(id, n) {\n const oldNode = this.getNode(id);\n if (oldNode) {\n const meta = this.nodeMetaMap.get(oldNode);\n if (meta)\n this.nodeMetaMap.set(n, meta);\n }\n this.idNodeMap.set(id, n);\n }\n reset() {\n this.idNodeMap = new Map();\n this.nodeMetaMap = new WeakMap();\n }\n}\nfunction createMirror() {\n return new Mirror();\n}\nfunction shouldMaskInput({ maskInputOptions, tagName, type, }) {\n if (tagName === 'OPTION') {\n tagName = 'SELECT';\n }\n return Boolean(maskInputOptions[tagName.toLowerCase()] ||\n (type && maskInputOptions[type]) ||\n type === 'password' ||\n (tagName === 'INPUT' && !type && maskInputOptions['text']));\n}\nfunction maskInputValue({ isMasked, element, value, maskInputFn, }) {\n let text = value || '';\n if (!isMasked) {\n return text;\n }\n if (maskInputFn) {\n text = maskInputFn(text, element);\n }\n return '*'.repeat(text.length);\n}\nfunction toLowerCase(str) {\n return str.toLowerCase();\n}\nfunction toUpperCase(str) {\n return str.toUpperCase();\n}\nconst ORIGINAL_ATTRIBUTE_NAME = '__rrweb_original__';\nfunction is2DCanvasBlank(canvas) {\n const ctx = canvas.getContext('2d');\n if (!ctx)\n return true;\n const chunkSize = 50;\n for (let x = 0; x < canvas.width; x += chunkSize) {\n for (let y = 0; y < canvas.height; y += chunkSize) {\n const getImageData = ctx.getImageData;\n const originalGetImageData = ORIGINAL_ATTRIBUTE_NAME in getImageData\n ? getImageData[ORIGINAL_ATTRIBUTE_NAME]\n : getImageData;\n const pixelBuffer = new Uint32Array(originalGetImageData.call(ctx, x, y, Math.min(chunkSize, canvas.width - x), Math.min(chunkSize, canvas.height - y)).data.buffer);\n if (pixelBuffer.some((pixel) => pixel !== 0))\n return false;\n }\n }\n return true;\n}\nfunction getInputType(element) {\n const type = element.type;\n return element.hasAttribute('data-rr-is-password')\n ? 'password'\n : type\n ?\n toLowerCase(type)\n : null;\n}\nfunction getInputValue(el, tagName, type) {\n if (tagName === 'INPUT' && (type === 'radio' || type === 'checkbox')) {\n return el.getAttribute('value') || '';\n }\n return el.value;\n}\nfunction extractFileExtension(path, baseURL) {\n let url;\n try {\n url = new URL(path, _nullishCoalesce$1(baseURL, () => ( window.location.href)));\n }\n catch (err) {\n return null;\n }\n const regex = /\\.([0-9a-z]+)(?:$)/i;\n const match = url.pathname.match(regex);\n return _nullishCoalesce$1(_optionalChain$5([match, 'optionalAccess', _6 => _6[1]]), () => ( null));\n}\nconst cachedImplementations$1 = {};\nfunction getImplementation$1(name) {\n const cached = cachedImplementations$1[name];\n if (cached) {\n return cached;\n }\n const document = window.document;\n let impl = window[name];\n if (document && typeof document.createElement === 'function') {\n try {\n const sandbox = document.createElement('iframe');\n sandbox.hidden = true;\n document.head.appendChild(sandbox);\n const contentWindow = sandbox.contentWindow;\n if (contentWindow && contentWindow[name]) {\n impl =\n contentWindow[name];\n }\n document.head.removeChild(sandbox);\n }\n catch (e) {\n }\n }\n return (cachedImplementations$1[name] = impl.bind(window));\n}\nfunction setTimeout$2(...rest) {\n return getImplementation$1('setTimeout')(...rest);\n}\nfunction clearTimeout$2(...rest) {\n return getImplementation$1('clearTimeout')(...rest);\n}\n\nlet _id = 1;\nconst tagNameRegex = new RegExp('[^a-z0-9-_:]');\nconst IGNORED_NODE = -2;\nfunction genId() {\n return _id++;\n}\nfunction getValidTagName(element) {\n if (element instanceof HTMLFormElement) {\n return 'form';\n }\n const processedTagName = toLowerCase(element.tagName);\n if (tagNameRegex.test(processedTagName)) {\n return 'div';\n }\n return processedTagName;\n}\nfunction extractOrigin(url) {\n let origin = '';\n if (url.indexOf('//') > -1) {\n origin = url.split('/').slice(0, 3).join('/');\n }\n else {\n origin = url.split('/')[0];\n }\n origin = origin.split('?')[0];\n return origin;\n}\nlet canvasService;\nlet canvasCtx;\nconst URL_IN_CSS_REF = /url\\((?:(')([^']*)'|(\")(.*?)\"|([^)]*))\\)/gm;\nconst URL_PROTOCOL_MATCH = /^(?:[a-z+]+:)?\\/\\//i;\nconst URL_WWW_MATCH = /^www\\..*/i;\nconst DATA_URI = /^(data:)([^,]*),(.*)/i;\nfunction absoluteToStylesheet(cssText, href) {\n return (cssText || '').replace(URL_IN_CSS_REF, (origin, quote1, path1, quote2, path2, path3) => {\n const filePath = path1 || path2 || path3;\n const maybeQuote = quote1 || quote2 || '';\n if (!filePath) {\n return origin;\n }\n if (URL_PROTOCOL_MATCH.test(filePath) || URL_WWW_MATCH.test(filePath)) {\n return `url(${maybeQuote}${filePath}${maybeQuote})`;\n }\n if (DATA_URI.test(filePath)) {\n return `url(${maybeQuote}${filePath}${maybeQuote})`;\n }\n if (filePath[0] === '/') {\n return `url(${maybeQuote}${extractOrigin(href) + filePath}${maybeQuote})`;\n }\n const stack = href.split('/');\n const parts = filePath.split('/');\n stack.pop();\n for (const part of parts) {\n if (part === '.') {\n continue;\n }\n else if (part === '..') {\n stack.pop();\n }\n else {\n stack.push(part);\n }\n }\n return `url(${maybeQuote}${stack.join('/')}${maybeQuote})`;\n });\n}\nconst SRCSET_NOT_SPACES = /^[^ \\t\\n\\r\\u000c]+/;\nconst SRCSET_COMMAS_OR_SPACES = /^[, \\t\\n\\r\\u000c]+/;\nfunction getAbsoluteSrcsetString(doc, attributeValue) {\n if (attributeValue.trim() === '') {\n return attributeValue;\n }\n let pos = 0;\n function collectCharacters(regEx) {\n let chars;\n const match = regEx.exec(attributeValue.substring(pos));\n if (match) {\n chars = match[0];\n pos += chars.length;\n return chars;\n }\n return '';\n }\n const output = [];\n while (true) {\n collectCharacters(SRCSET_COMMAS_OR_SPACES);\n if (pos >= attributeValue.length) {\n break;\n }\n let url = collectCharacters(SRCSET_NOT_SPACES);\n if (url.slice(-1) === ',') {\n url = absoluteToDoc(doc, url.substring(0, url.length - 1));\n output.push(url);\n }\n else {\n let descriptorsStr = '';\n url = absoluteToDoc(doc, url);\n let inParens = false;\n while (true) {\n const c = attributeValue.charAt(pos);\n if (c === '') {\n output.push((url + descriptorsStr).trim());\n break;\n }\n else if (!inParens) {\n if (c === ',') {\n pos += 1;\n output.push((url + descriptorsStr).trim());\n break;\n }\n else if (c === '(') {\n inParens = true;\n }\n }\n else {\n if (c === ')') {\n inParens = false;\n }\n }\n descriptorsStr += c;\n pos += 1;\n }\n }\n }\n return output.join(', ');\n}\nfunction absoluteToDoc(doc, attributeValue) {\n if (!attributeValue || attributeValue.trim() === '') {\n return attributeValue;\n }\n const a = doc.createElement('a');\n a.href = attributeValue;\n return a.href;\n}\nfunction isSVGElement(el) {\n return Boolean(el.tagName === 'svg' || el.ownerSVGElement);\n}\nfunction getHref() {\n const a = document.createElement('a');\n a.href = '';\n return a.href;\n}\nfunction transformAttribute(doc, tagName, name, value, element, maskAttributeFn) {\n if (!value) {\n return value;\n }\n if (name === 'src' ||\n (name === 'href' && !(tagName === 'use' && value[0] === '#'))) {\n return absoluteToDoc(doc, value);\n }\n else if (name === 'xlink:href' && value[0] !== '#') {\n return absoluteToDoc(doc, value);\n }\n else if (name === 'background' &&\n (tagName === 'table' || tagName === 'td' || tagName === 'th')) {\n return absoluteToDoc(doc, value);\n }\n else if (name === 'srcset') {\n return getAbsoluteSrcsetString(doc, value);\n }\n else if (name === 'style') {\n return absoluteToStylesheet(value, getHref());\n }\n else if (tagName === 'object' && name === 'data') {\n return absoluteToDoc(doc, value);\n }\n if (typeof maskAttributeFn === 'function') {\n return maskAttributeFn(name, value, element);\n }\n return value;\n}\nfunction ignoreAttribute(tagName, name, _value) {\n return (tagName === 'video' || tagName === 'audio') && name === 'autoplay';\n}\nfunction _isBlockedElement(element, blockClass, blockSelector, unblockSelector) {\n try {\n if (unblockSelector && element.matches(unblockSelector)) {\n return false;\n }\n if (typeof blockClass === 'string') {\n if (element.classList.contains(blockClass)) {\n return true;\n }\n }\n else {\n for (let eIndex = element.classList.length; eIndex--;) {\n const className = element.classList[eIndex];\n if (blockClass.test(className)) {\n return true;\n }\n }\n }\n if (blockSelector) {\n return element.matches(blockSelector);\n }\n }\n catch (e) {\n }\n return false;\n}\nfunction elementClassMatchesRegex(el, regex) {\n for (let eIndex = el.classList.length; eIndex--;) {\n const className = el.classList[eIndex];\n if (regex.test(className)) {\n return true;\n }\n }\n return false;\n}\nfunction distanceToMatch(node, matchPredicate, limit = Infinity, distance = 0) {\n if (!node)\n return -1;\n if (node.nodeType !== node.ELEMENT_NODE)\n return -1;\n if (distance > limit)\n return -1;\n if (matchPredicate(node))\n return distance;\n return distanceToMatch(node.parentNode, matchPredicate, limit, distance + 1);\n}\nfunction createMatchPredicate(className, selector) {\n return (node) => {\n const el = node;\n if (el === null)\n return false;\n try {\n if (className) {\n if (typeof className === 'string') {\n if (el.matches(`.${className}`))\n return true;\n }\n else if (elementClassMatchesRegex(el, className)) {\n return true;\n }\n }\n if (selector && el.matches(selector))\n return true;\n return false;\n }\n catch (e2) {\n return false;\n }\n };\n}\nfunction needMaskingText(node, maskTextClass, maskTextSelector, unmaskTextClass, unmaskTextSelector, maskAllText) {\n try {\n const el = node.nodeType === node.ELEMENT_NODE\n ? node\n : node.parentElement;\n if (el === null)\n return false;\n if (el.tagName === 'INPUT') {\n const autocomplete = el.getAttribute('autocomplete');\n const disallowedAutocompleteValues = [\n 'current-password',\n 'new-password',\n 'cc-number',\n 'cc-exp',\n 'cc-exp-month',\n 'cc-exp-year',\n 'cc-csc',\n ];\n if (disallowedAutocompleteValues.includes(autocomplete)) {\n return true;\n }\n }\n let maskDistance = -1;\n let unmaskDistance = -1;\n if (maskAllText) {\n unmaskDistance = distanceToMatch(el, createMatchPredicate(unmaskTextClass, unmaskTextSelector));\n if (unmaskDistance < 0) {\n return true;\n }\n maskDistance = distanceToMatch(el, createMatchPredicate(maskTextClass, maskTextSelector), unmaskDistance >= 0 ? unmaskDistance : Infinity);\n }\n else {\n maskDistance = distanceToMatch(el, createMatchPredicate(maskTextClass, maskTextSelector));\n if (maskDistance < 0) {\n return false;\n }\n unmaskDistance = distanceToMatch(el, createMatchPredicate(unmaskTextClass, unmaskTextSelector), maskDistance >= 0 ? maskDistance : Infinity);\n }\n return maskDistance >= 0\n ? unmaskDistance >= 0\n ? maskDistance <= unmaskDistance\n : true\n : unmaskDistance >= 0\n ? false\n : !!maskAllText;\n }\n catch (e) {\n }\n return !!maskAllText;\n}\nfunction onceIframeLoaded(iframeEl, listener, iframeLoadTimeout) {\n const win = iframeEl.contentWindow;\n if (!win) {\n return;\n }\n let fired = false;\n let readyState;\n try {\n readyState = win.document.readyState;\n }\n catch (error) {\n return;\n }\n if (readyState !== 'complete') {\n const timer = setTimeout$2(() => {\n if (!fired) {\n listener();\n fired = true;\n }\n }, iframeLoadTimeout);\n iframeEl.addEventListener('load', () => {\n clearTimeout$2(timer);\n fired = true;\n listener();\n });\n return;\n }\n const blankUrl = 'about:blank';\n if (win.location.href !== blankUrl ||\n iframeEl.src === blankUrl ||\n iframeEl.src === '') {\n setTimeout$2(listener, 0);\n return iframeEl.addEventListener('load', listener);\n }\n iframeEl.addEventListener('load', listener);\n}\nfunction onceStylesheetLoaded(link, listener, styleSheetLoadTimeout) {\n let fired = false;\n let styleSheetLoaded;\n try {\n styleSheetLoaded = link.sheet;\n }\n catch (error) {\n return;\n }\n if (styleSheetLoaded)\n return;\n const timer = setTimeout$2(() => {\n if (!fired) {\n listener();\n fired = true;\n }\n }, styleSheetLoadTimeout);\n link.addEventListener('load', () => {\n clearTimeout$2(timer);\n fired = true;\n listener();\n });\n}\nfunction serializeNode(n, options) {\n const { doc, mirror, blockClass, blockSelector, unblockSelector, maskAllText, maskAttributeFn, maskTextClass, unmaskTextClass, maskTextSelector, unmaskTextSelector, inlineStylesheet, maskInputOptions = {}, maskTextFn, maskInputFn, dataURLOptions = {}, inlineImages, recordCanvas, keepIframeSrcFn, newlyAddedElement = false, } = options;\n const rootId = getRootId(doc, mirror);\n switch (n.nodeType) {\n case n.DOCUMENT_NODE:\n if (n.compatMode !== 'CSS1Compat') {\n return {\n type: NodeType$1.Document,\n childNodes: [],\n compatMode: n.compatMode,\n };\n }\n else {\n return {\n type: NodeType$1.Document,\n childNodes: [],\n };\n }\n case n.DOCUMENT_TYPE_NODE:\n return {\n type: NodeType$1.DocumentType,\n name: n.name,\n publicId: n.publicId,\n systemId: n.systemId,\n rootId,\n };\n case n.ELEMENT_NODE:\n return serializeElementNode(n, {\n doc,\n blockClass,\n blockSelector,\n unblockSelector,\n inlineStylesheet,\n maskAttributeFn,\n maskInputOptions,\n maskInputFn,\n dataURLOptions,\n inlineImages,\n recordCanvas,\n keepIframeSrcFn,\n newlyAddedElement,\n rootId,\n maskAllText,\n maskTextClass,\n unmaskTextClass,\n maskTextSelector,\n unmaskTextSelector,\n });\n case n.TEXT_NODE:\n return serializeTextNode(n, {\n maskAllText,\n maskTextClass,\n unmaskTextClass,\n maskTextSelector,\n unmaskTextSelector,\n maskTextFn,\n maskInputOptions,\n maskInputFn,\n rootId,\n });\n case n.CDATA_SECTION_NODE:\n return {\n type: NodeType$1.CDATA,\n textContent: '',\n rootId,\n };\n case n.COMMENT_NODE:\n return {\n type: NodeType$1.Comment,\n textContent: n.textContent || '',\n rootId,\n };\n default:\n return false;\n }\n}\nfunction getRootId(doc, mirror) {\n if (!mirror.hasNode(doc))\n return undefined;\n const docId = mirror.getId(doc);\n return docId === 1 ? undefined : docId;\n}\nfunction serializeTextNode(n, options) {\n const { maskAllText, maskTextClass, unmaskTextClass, maskTextSelector, unmaskTextSelector, maskTextFn, maskInputOptions, maskInputFn, rootId, } = options;\n const parentTagName = n.parentNode && n.parentNode.tagName;\n let textContent = n.textContent;\n const isStyle = parentTagName === 'STYLE' ? true : undefined;\n const isScript = parentTagName === 'SCRIPT' ? true : undefined;\n const isTextarea = parentTagName === 'TEXTAREA' ? true : undefined;\n if (isStyle && textContent) {\n try {\n if (n.nextSibling || n.previousSibling) {\n }\n else if (_optionalChain$5([n, 'access', _7 => _7.parentNode, 'access', _8 => _8.sheet, 'optionalAccess', _9 => _9.cssRules])) {\n textContent = stringifyStylesheet(n.parentNode.sheet);\n }\n }\n catch (err) {\n console.warn(`Cannot get CSS styles from text's parentNode. Error: ${err}`, n);\n }\n textContent = absoluteToStylesheet(textContent, getHref());\n }\n if (isScript) {\n textContent = 'SCRIPT_PLACEHOLDER';\n }\n const forceMask = needMaskingText(n, maskTextClass, maskTextSelector, unmaskTextClass, unmaskTextSelector, maskAllText);\n if (!isStyle && !isScript && !isTextarea && textContent && forceMask) {\n textContent = maskTextFn\n ? maskTextFn(textContent, n.parentElement)\n : textContent.replace(/[\\S]/g, '*');\n }\n if (isTextarea && textContent && (maskInputOptions.textarea || forceMask)) {\n textContent = maskInputFn\n ? maskInputFn(textContent, n.parentNode)\n : textContent.replace(/[\\S]/g, '*');\n }\n if (parentTagName === 'OPTION' && textContent) {\n const isInputMasked = shouldMaskInput({\n type: null,\n tagName: parentTagName,\n maskInputOptions,\n });\n textContent = maskInputValue({\n isMasked: needMaskingText(n, maskTextClass, maskTextSelector, unmaskTextClass, unmaskTextSelector, isInputMasked),\n element: n,\n value: textContent,\n maskInputFn,\n });\n }\n return {\n type: NodeType$1.Text,\n textContent: textContent || '',\n isStyle,\n rootId,\n };\n}\nfunction serializeElementNode(n, options) {\n const { doc, blockClass, blockSelector, unblockSelector, inlineStylesheet, maskInputOptions = {}, maskAttributeFn, maskInputFn, dataURLOptions = {}, inlineImages, recordCanvas, keepIframeSrcFn, newlyAddedElement = false, rootId, maskAllText, maskTextClass, unmaskTextClass, maskTextSelector, unmaskTextSelector, } = options;\n const needBlock = _isBlockedElement(n, blockClass, blockSelector, unblockSelector);\n const tagName = getValidTagName(n);\n let attributes = {};\n const len = n.attributes.length;\n for (let i = 0; i < len; i++) {\n const attr = n.attributes[i];\n if (attr.name && !ignoreAttribute(tagName, attr.name, attr.value)) {\n attributes[attr.name] = transformAttribute(doc, tagName, toLowerCase(attr.name), attr.value, n, maskAttributeFn);\n }\n }\n if (tagName === 'link' && inlineStylesheet) {\n const stylesheet = Array.from(doc.styleSheets).find((s) => {\n return s.href === n.href;\n });\n let cssText = null;\n if (stylesheet) {\n cssText = stringifyStylesheet(stylesheet);\n }\n if (cssText) {\n delete attributes.rel;\n delete attributes.href;\n attributes._cssText = absoluteToStylesheet(cssText, stylesheet.href);\n }\n }\n if (tagName === 'style' &&\n n.sheet &&\n !(n.innerText || n.textContent || '').trim().length) {\n const cssText = stringifyStylesheet(n.sheet);\n if (cssText) {\n attributes._cssText = absoluteToStylesheet(cssText, getHref());\n }\n }\n if (tagName === 'input' ||\n tagName === 'textarea' ||\n tagName === 'select' ||\n tagName === 'option') {\n const el = n;\n const type = getInputType(el);\n const value = getInputValue(el, toUpperCase(tagName), type);\n const checked = el.checked;\n if (type !== 'submit' && type !== 'button' && value) {\n const forceMask = needMaskingText(el, maskTextClass, maskTextSelector, unmaskTextClass, unmaskTextSelector, shouldMaskInput({\n type,\n tagName: toUpperCase(tagName),\n maskInputOptions,\n }));\n attributes.value = maskInputValue({\n isMasked: forceMask,\n element: el,\n value,\n maskInputFn,\n });\n }\n if (checked) {\n attributes.checked = checked;\n }\n }\n if (tagName === 'option') {\n if (n.selected && !maskInputOptions['select']) {\n attributes.selected = true;\n }\n else {\n delete attributes.selected;\n }\n }\n if (tagName === 'canvas' && recordCanvas) {\n if (n.__context === '2d') {\n if (!is2DCanvasBlank(n)) {\n attributes.rr_dataURL = n.toDataURL(dataURLOptions.type, dataURLOptions.quality);\n }\n }\n else if (!('__context' in n)) {\n const canvasDataURL = n.toDataURL(dataURLOptions.type, dataURLOptions.quality);\n const blankCanvas = document.createElement('canvas');\n blankCanvas.width = n.width;\n blankCanvas.height = n.height;\n const blankCanvasDataURL = blankCanvas.toDataURL(dataURLOptions.type, dataURLOptions.quality);\n if (canvasDataURL !== blankCanvasDataURL) {\n attributes.rr_dataURL = canvasDataURL;\n }\n }\n }\n if (tagName === 'img' && inlineImages) {\n if (!canvasService) {\n canvasService = doc.createElement('canvas');\n canvasCtx = canvasService.getContext('2d');\n }\n const image = n;\n const oldValue = image.crossOrigin;\n image.crossOrigin = 'anonymous';\n const recordInlineImage = () => {\n image.removeEventListener('load', recordInlineImage);\n try {\n canvasService.width = image.naturalWidth;\n canvasService.height = image.naturalHeight;\n canvasCtx.drawImage(image, 0, 0);\n attributes.rr_dataURL = canvasService.toDataURL(dataURLOptions.type, dataURLOptions.quality);\n }\n catch (err) {\n console.warn(`Cannot inline img src=${image.currentSrc}! Error: ${err}`);\n }\n oldValue\n ? (attributes.crossOrigin = oldValue)\n : image.removeAttribute('crossorigin');\n };\n if (image.complete && image.naturalWidth !== 0)\n recordInlineImage();\n else\n image.addEventListener('load', recordInlineImage);\n }\n if (tagName === 'audio' || tagName === 'video') {\n attributes.rr_mediaState = n.paused\n ? 'paused'\n : 'played';\n attributes.rr_mediaCurrentTime = n.currentTime;\n }\n if (!newlyAddedElement) {\n if (n.scrollLeft) {\n attributes.rr_scrollLeft = n.scrollLeft;\n }\n if (n.scrollTop) {\n attributes.rr_scrollTop = n.scrollTop;\n }\n }\n if (needBlock) {\n const { width, height } = n.getBoundingClientRect();\n attributes = {\n class: attributes.class,\n rr_width: `${width}px`,\n rr_height: `${height}px`,\n };\n }\n if (tagName === 'iframe' && !keepIframeSrcFn(attributes.src)) {\n if (!needBlock && !n.contentDocument) {\n attributes.rr_src = attributes.src;\n }\n delete attributes.src;\n }\n let isCustomElement;\n try {\n if (customElements.get(tagName))\n isCustomElement = true;\n }\n catch (e) {\n }\n return {\n type: NodeType$1.Element,\n tagName,\n attributes,\n childNodes: [],\n isSVG: isSVGElement(n) || undefined,\n needBlock,\n rootId,\n isCustom: isCustomElement,\n };\n}\nfunction lowerIfExists(maybeAttr) {\n if (maybeAttr === undefined || maybeAttr === null) {\n return '';\n }\n else {\n return maybeAttr.toLowerCase();\n }\n}\nfunction slimDOMExcluded(sn, slimDOMOptions) {\n if (slimDOMOptions.comment && sn.type === NodeType$1.Comment) {\n return true;\n }\n else if (sn.type === NodeType$1.Element) {\n if (slimDOMOptions.script &&\n (sn.tagName === 'script' ||\n (sn.tagName === 'link' &&\n (sn.attributes.rel === 'preload' ||\n sn.attributes.rel === 'modulepreload') &&\n sn.attributes.as === 'script') ||\n (sn.tagName === 'link' &&\n sn.attributes.rel === 'prefetch' &&\n typeof sn.attributes.href === 'string' &&\n extractFileExtension(sn.attributes.href) === 'js'))) {\n return true;\n }\n else if (slimDOMOptions.headFavicon &&\n ((sn.tagName === 'link' && sn.attributes.rel === 'shortcut icon') ||\n (sn.tagName === 'meta' &&\n (lowerIfExists(sn.attributes.name).match(/^msapplication-tile(image|color)$/) ||\n lowerIfExists(sn.attributes.name) === 'application-name' ||\n lowerIfExists(sn.attributes.rel) === 'icon' ||\n lowerIfExists(sn.attributes.rel) === 'apple-touch-icon' ||\n lowerIfExists(sn.attributes.rel) === 'shortcut icon')))) {\n return true;\n }\n else if (sn.tagName === 'meta') {\n if (slimDOMOptions.headMetaDescKeywords &&\n lowerIfExists(sn.attributes.name).match(/^description|keywords$/)) {\n return true;\n }\n else if (slimDOMOptions.headMetaSocial &&\n (lowerIfExists(sn.attributes.property).match(/^(og|twitter|fb):/) ||\n lowerIfExists(sn.attributes.name).match(/^(og|twitter):/) ||\n lowerIfExists(sn.attributes.name) === 'pinterest')) {\n return true;\n }\n else if (slimDOMOptions.headMetaRobots &&\n (lowerIfExists(sn.attributes.name) === 'robots' ||\n lowerIfExists(sn.attributes.name) === 'googlebot' ||\n lowerIfExists(sn.attributes.name) === 'bingbot')) {\n return true;\n }\n else if (slimDOMOptions.headMetaHttpEquiv &&\n sn.attributes['http-equiv'] !== undefined) {\n return true;\n }\n else if (slimDOMOptions.headMetaAuthorship &&\n (lowerIfExists(sn.attributes.name) === 'author' ||\n lowerIfExists(sn.attributes.name) === 'generator' ||\n lowerIfExists(sn.attributes.name) === 'framework' ||\n lowerIfExists(sn.attributes.name) === 'publisher' ||\n lowerIfExists(sn.attributes.name) === 'progid' ||\n lowerIfExists(sn.attributes.property).match(/^article:/) ||\n lowerIfExists(sn.attributes.property).match(/^product:/))) {\n return true;\n }\n else if (slimDOMOptions.headMetaVerification &&\n (lowerIfExists(sn.attributes.name) === 'google-site-verification' ||\n lowerIfExists(sn.attributes.name) === 'yandex-verification' ||\n lowerIfExists(sn.attributes.name) === 'csrf-token' ||\n lowerIfExists(sn.attributes.name) === 'p:domain_verify' ||\n lowerIfExists(sn.attributes.name) === 'verify-v1' ||\n lowerIfExists(sn.attributes.name) === 'verification' ||\n lowerIfExists(sn.attributes.name) === 'shopify-checkout-api-token')) {\n return true;\n }\n }\n }\n return false;\n}\nfunction serializeNodeWithId(n, options) {\n const { doc, mirror, blockClass, blockSelector, unblockSelector, maskAllText, maskTextClass, unmaskTextClass, maskTextSelector, unmaskTextSelector, skipChild = false, inlineStylesheet = true, maskInputOptions = {}, maskAttributeFn, maskTextFn, maskInputFn, slimDOMOptions, dataURLOptions = {}, inlineImages = false, recordCanvas = false, onSerialize, onIframeLoad, iframeLoadTimeout = 5000, onStylesheetLoad, stylesheetLoadTimeout = 5000, keepIframeSrcFn = () => false, newlyAddedElement = false, } = options;\n let { preserveWhiteSpace = true } = options;\n const _serializedNode = serializeNode(n, {\n doc,\n mirror,\n blockClass,\n blockSelector,\n maskAllText,\n unblockSelector,\n maskTextClass,\n unmaskTextClass,\n maskTextSelector,\n unmaskTextSelector,\n inlineStylesheet,\n maskInputOptions,\n maskAttributeFn,\n maskTextFn,\n maskInputFn,\n dataURLOptions,\n inlineImages,\n recordCanvas,\n keepIframeSrcFn,\n newlyAddedElement,\n });\n if (!_serializedNode) {\n console.warn(n, 'not serialized');\n return null;\n }\n let id;\n if (mirror.hasNode(n)) {\n id = mirror.getId(n);\n }\n else if (slimDOMExcluded(_serializedNode, slimDOMOptions) ||\n (!preserveWhiteSpace &&\n _serializedNode.type === NodeType$1.Text &&\n !_serializedNode.isStyle &&\n !_serializedNode.textContent.replace(/^\\s+|\\s+$/gm, '').length)) {\n id = IGNORED_NODE;\n }\n else {\n id = genId();\n }\n const serializedNode = Object.assign(_serializedNode, { id });\n mirror.add(n, serializedNode);\n if (id === IGNORED_NODE) {\n return null;\n }\n if (onSerialize) {\n onSerialize(n);\n }\n let recordChild = !skipChild;\n if (serializedNode.type === NodeType$1.Element) {\n recordChild = recordChild && !serializedNode.needBlock;\n delete serializedNode.needBlock;\n const shadowRoot = n.shadowRoot;\n if (shadowRoot && isNativeShadowDom(shadowRoot))\n serializedNode.isShadowHost = true;\n }\n if ((serializedNode.type === NodeType$1.Document ||\n serializedNode.type === NodeType$1.Element) &&\n recordChild) {\n if (slimDOMOptions.headWhitespace &&\n serializedNode.type === NodeType$1.Element &&\n serializedNode.tagName === 'head') {\n preserveWhiteSpace = false;\n }\n const bypassOptions = {\n doc,\n mirror,\n blockClass,\n blockSelector,\n maskAllText,\n unblockSelector,\n maskTextClass,\n unmaskTextClass,\n maskTextSelector,\n unmaskTextSelector,\n skipChild,\n inlineStylesheet,\n maskInputOptions,\n maskAttributeFn,\n maskTextFn,\n maskInputFn,\n slimDOMOptions,\n dataURLOptions,\n inlineImages,\n recordCanvas,\n preserveWhiteSpace,\n onSerialize,\n onIframeLoad,\n iframeLoadTimeout,\n onStylesheetLoad,\n stylesheetLoadTimeout,\n keepIframeSrcFn,\n };\n for (const childN of Array.from(n.childNodes)) {\n const serializedChildNode = serializeNodeWithId(childN, bypassOptions);\n if (serializedChildNode) {\n serializedNode.childNodes.push(serializedChildNode);\n }\n }\n if (isElement$1(n) && n.shadowRoot) {\n for (const childN of Array.from(n.shadowRoot.childNodes)) {\n const serializedChildNode = serializeNodeWithId(childN, bypassOptions);\n if (serializedChildNode) {\n isNativeShadowDom(n.shadowRoot) &&\n (serializedChildNode.isShadow = true);\n serializedNode.childNodes.push(serializedChildNode);\n }\n }\n }\n }\n if (n.parentNode &&\n isShadowRoot(n.parentNode) &&\n isNativeShadowDom(n.parentNode)) {\n serializedNode.isShadow = true;\n }\n if (serializedNode.type === NodeType$1.Element &&\n serializedNode.tagName === 'iframe') {\n onceIframeLoaded(n, () => {\n const iframeDoc = n.contentDocument;\n if (iframeDoc && onIframeLoad) {\n const serializedIframeNode = serializeNodeWithId(iframeDoc, {\n doc: iframeDoc,\n mirror,\n blockClass,\n blockSelector,\n unblockSelector,\n maskAllText,\n maskTextClass,\n unmaskTextClass,\n maskTextSelector,\n unmaskTextSelector,\n skipChild: false,\n inlineStylesheet,\n maskInputOptions,\n maskAttributeFn,\n maskTextFn,\n maskInputFn,\n slimDOMOptions,\n dataURLOptions,\n inlineImages,\n recordCanvas,\n preserveWhiteSpace,\n onSerialize,\n onIframeLoad,\n iframeLoadTimeout,\n onStylesheetLoad,\n stylesheetLoadTimeout,\n keepIframeSrcFn,\n });\n if (serializedIframeNode) {\n onIframeLoad(n, serializedIframeNode);\n }\n }\n }, iframeLoadTimeout);\n }\n if (serializedNode.type === NodeType$1.Element &&\n serializedNode.tagName === 'link' &&\n typeof serializedNode.attributes.rel === 'string' &&\n (serializedNode.attributes.rel === 'stylesheet' ||\n (serializedNode.attributes.rel === 'preload' &&\n typeof serializedNode.attributes.href === 'string' &&\n extractFileExtension(serializedNode.attributes.href) === 'css'))) {\n onceStylesheetLoaded(n, () => {\n if (onStylesheetLoad) {\n const serializedLinkNode = serializeNodeWithId(n, {\n doc,\n mirror,\n blockClass,\n blockSelector,\n unblockSelector,\n maskAllText,\n maskTextClass,\n unmaskTextClass,\n maskTextSelector,\n unmaskTextSelector,\n skipChild: false,\n inlineStylesheet,\n maskInputOptions,\n maskAttributeFn,\n maskTextFn,\n maskInputFn,\n slimDOMOptions,\n dataURLOptions,\n inlineImages,\n recordCanvas,\n preserveWhiteSpace,\n onSerialize,\n onIframeLoad,\n iframeLoadTimeout,\n onStylesheetLoad,\n stylesheetLoadTimeout,\n keepIframeSrcFn,\n });\n if (serializedLinkNode) {\n onStylesheetLoad(n, serializedLinkNode);\n }\n }\n }, stylesheetLoadTimeout);\n }\n return serializedNode;\n}\nfunction snapshot(n, options) {\n const { mirror = new Mirror(), blockClass = 'rr-block', blockSelector = null, unblockSelector = null, maskAllText = false, maskTextClass = 'rr-mask', unmaskTextClass = null, maskTextSelector = null, unmaskTextSelector = null, inlineStylesheet = true, inlineImages = false, recordCanvas = false, maskAllInputs = false, maskAttributeFn, maskTextFn, maskInputFn, slimDOM = false, dataURLOptions, preserveWhiteSpace, onSerialize, onIframeLoad, iframeLoadTimeout, onStylesheetLoad, stylesheetLoadTimeout, keepIframeSrcFn = () => false, } = options || {};\n const maskInputOptions = maskAllInputs === true\n ? {\n color: true,\n date: true,\n 'datetime-local': true,\n email: true,\n month: true,\n number: true,\n range: true,\n search: true,\n tel: true,\n text: true,\n time: true,\n url: true,\n week: true,\n textarea: true,\n select: true,\n }\n : maskAllInputs === false\n ? {}\n : maskAllInputs;\n const slimDOMOptions = slimDOM === true || slimDOM === 'all'\n ?\n {\n script: true,\n comment: true,\n headFavicon: true,\n headWhitespace: true,\n headMetaDescKeywords: slimDOM === 'all',\n headMetaSocial: true,\n headMetaRobots: true,\n headMetaHttpEquiv: true,\n headMetaAuthorship: true,\n headMetaVerification: true,\n }\n : slimDOM === false\n ? {}\n : slimDOM;\n return serializeNodeWithId(n, {\n doc: n,\n mirror,\n blockClass,\n blockSelector,\n unblockSelector,\n maskAllText,\n maskTextClass,\n unmaskTextClass,\n maskTextSelector,\n unmaskTextSelector,\n skipChild: false,\n inlineStylesheet,\n maskInputOptions,\n maskAttributeFn,\n maskTextFn,\n maskInputFn,\n slimDOMOptions,\n dataURLOptions,\n inlineImages,\n recordCanvas,\n preserveWhiteSpace,\n onSerialize,\n onIframeLoad,\n iframeLoadTimeout,\n onStylesheetLoad,\n stylesheetLoadTimeout,\n keepIframeSrcFn,\n newlyAddedElement: false,\n });\n}\n\nfunction _optionalChain$4(ops) { let lastAccessLHS = undefined; let value = ops[0]; let i = 1; while (i < ops.length) { const op = ops[i]; const fn = ops[i + 1]; i += 2; if ((op === 'optionalAccess' || op === 'optionalCall') && value == null) { return undefined; } if (op === 'access' || op === 'optionalAccess') { lastAccessLHS = value; value = fn(value); } else if (op === 'call' || op === 'optionalCall') { value = fn((...args) => value.call(lastAccessLHS, ...args)); lastAccessLHS = undefined; } } return value; }\nfunction on(type, fn, target = document) {\n const options = { capture: true, passive: true };\n target.addEventListener(type, fn, options);\n return () => target.removeEventListener(type, fn, options);\n}\nconst DEPARTED_MIRROR_ACCESS_WARNING = 'Please stop import mirror directly. Instead of that,' +\n '\\r\\n' +\n 'now you can use replayer.getMirror() to access the mirror instance of a replayer,' +\n '\\r\\n' +\n 'or you can use record.mirror to access the mirror instance during recording.';\nlet _mirror = {\n map: {},\n getId() {\n console.error(DEPARTED_MIRROR_ACCESS_WARNING);\n return -1;\n },\n getNode() {\n console.error(DEPARTED_MIRROR_ACCESS_WARNING);\n return null;\n },\n removeNodeFromMap() {\n console.error(DEPARTED_MIRROR_ACCESS_WARNING);\n },\n has() {\n console.error(DEPARTED_MIRROR_ACCESS_WARNING);\n return false;\n },\n reset() {\n console.error(DEPARTED_MIRROR_ACCESS_WARNING);\n },\n};\nif (typeof window !== 'undefined' && window.Proxy && window.Reflect) {\n _mirror = new Proxy(_mirror, {\n get(target, prop, receiver) {\n if (prop === 'map') {\n console.error(DEPARTED_MIRROR_ACCESS_WARNING);\n }\n return Reflect.get(target, prop, receiver);\n },\n });\n}\nfunction throttle$1(func, wait, options = {}) {\n let timeout = null;\n let previous = 0;\n return function (...args) {\n const now = Date.now();\n if (!previous && options.leading === false) {\n previous = now;\n }\n const remaining = wait - (now - previous);\n const context = this;\n if (remaining <= 0 || remaining > wait) {\n if (timeout) {\n clearTimeout$1(timeout);\n timeout = null;\n }\n previous = now;\n func.apply(context, args);\n }\n else if (!timeout && options.trailing !== false) {\n timeout = setTimeout$1(() => {\n previous = options.leading === false ? 0 : Date.now();\n timeout = null;\n func.apply(context, args);\n }, remaining);\n }\n };\n}\nfunction hookSetter(target, key, d, isRevoked, win = window) {\n const original = win.Object.getOwnPropertyDescriptor(target, key);\n win.Object.defineProperty(target, key, isRevoked\n ? d\n : {\n set(value) {\n setTimeout$1(() => {\n d.set.call(this, value);\n }, 0);\n if (original && original.set) {\n original.set.call(this, value);\n }\n },\n });\n return () => hookSetter(target, key, original || {}, true);\n}\nfunction patch(source, name, replacement) {\n try {\n if (!(name in source)) {\n return () => {\n };\n }\n const original = source[name];\n const wrapped = replacement(original);\n if (typeof wrapped === 'function') {\n wrapped.prototype = wrapped.prototype || {};\n Object.defineProperties(wrapped, {\n __rrweb_original__: {\n enumerable: false,\n value: original,\n },\n });\n }\n source[name] = wrapped;\n return () => {\n source[name] = original;\n };\n }\n catch (e2) {\n return () => {\n };\n }\n}\nlet nowTimestamp = Date.now;\nif (!(/[1-9][0-9]{12}/.test(Date.now().toString()))) {\n nowTimestamp = () => new Date().getTime();\n}\nfunction getWindowScroll(win) {\n const doc = win.document;\n return {\n left: doc.scrollingElement\n ? doc.scrollingElement.scrollLeft\n : win.pageXOffset !== undefined\n ? win.pageXOffset\n : _optionalChain$4([doc, 'optionalAccess', _ => _.documentElement, 'access', _2 => _2.scrollLeft]) ||\n _optionalChain$4([doc, 'optionalAccess', _3 => _3.body, 'optionalAccess', _4 => _4.parentElement, 'optionalAccess', _5 => _5.scrollLeft]) ||\n _optionalChain$4([doc, 'optionalAccess', _6 => _6.body, 'optionalAccess', _7 => _7.scrollLeft]) ||\n 0,\n top: doc.scrollingElement\n ? doc.scrollingElement.scrollTop\n : win.pageYOffset !== undefined\n ? win.pageYOffset\n : _optionalChain$4([doc, 'optionalAccess', _8 => _8.documentElement, 'access', _9 => _9.scrollTop]) ||\n _optionalChain$4([doc, 'optionalAccess', _10 => _10.body, 'optionalAccess', _11 => _11.parentElement, 'optionalAccess', _12 => _12.scrollTop]) ||\n _optionalChain$4([doc, 'optionalAccess', _13 => _13.body, 'optionalAccess', _14 => _14.scrollTop]) ||\n 0,\n };\n}\nfunction getWindowHeight() {\n return (window.innerHeight ||\n (document.documentElement && document.documentElement.clientHeight) ||\n (document.body && document.body.clientHeight));\n}\nfunction getWindowWidth() {\n return (window.innerWidth ||\n (document.documentElement && document.documentElement.clientWidth) ||\n (document.body && document.body.clientWidth));\n}\nfunction closestElementOfNode(node) {\n if (!node) {\n return null;\n }\n const el = node.nodeType === node.ELEMENT_NODE\n ? node\n : node.parentElement;\n return el;\n}\nfunction isBlocked(node, blockClass, blockSelector, unblockSelector, checkAncestors) {\n if (!node) {\n return false;\n }\n const el = closestElementOfNode(node);\n if (!el) {\n return false;\n }\n const blockedPredicate = createMatchPredicate(blockClass, blockSelector);\n if (!checkAncestors) {\n const isUnblocked = unblockSelector && el.matches(unblockSelector);\n return blockedPredicate(el) && !isUnblocked;\n }\n const blockDistance = distanceToMatch(el, blockedPredicate);\n let unblockDistance = -1;\n if (blockDistance < 0) {\n return false;\n }\n if (unblockSelector) {\n unblockDistance = distanceToMatch(el, createMatchPredicate(null, unblockSelector));\n }\n if (blockDistance > -1 && unblockDistance < 0) {\n return true;\n }\n return blockDistance < unblockDistance;\n}\nfunction isSerialized(n, mirror) {\n return mirror.getId(n) !== -1;\n}\nfunction isIgnored(n, mirror) {\n return mirror.getId(n) === IGNORED_NODE;\n}\nfunction isAncestorRemoved(target, mirror) {\n if (isShadowRoot(target)) {\n return false;\n }\n const id = mirror.getId(target);\n if (!mirror.has(id)) {\n return true;\n }\n if (target.parentNode &&\n target.parentNode.nodeType === target.DOCUMENT_NODE) {\n return false;\n }\n if (!target.parentNode) {\n return true;\n }\n return isAncestorRemoved(target.parentNode, mirror);\n}\nfunction legacy_isTouchEvent(event) {\n return Boolean(event.changedTouches);\n}\nfunction polyfill(win = window) {\n if ('NodeList' in win && !win.NodeList.prototype.forEach) {\n win.NodeList.prototype.forEach = Array.prototype\n .forEach;\n }\n if ('DOMTokenList' in win && !win.DOMTokenList.prototype.forEach) {\n win.DOMTokenList.prototype.forEach = Array.prototype\n .forEach;\n }\n if (!Node.prototype.contains) {\n Node.prototype.contains = (...args) => {\n let node = args[0];\n if (!(0 in args)) {\n throw new TypeError('1 argument is required');\n }\n do {\n if (this === node) {\n return true;\n }\n } while ((node = node && node.parentNode));\n return false;\n };\n }\n}\nfunction isSerializedIframe(n, mirror) {\n return Boolean(n.nodeName === 'IFRAME' && mirror.getMeta(n));\n}\nfunction isSerializedStylesheet(n, mirror) {\n return Boolean(n.nodeName === 'LINK' &&\n n.nodeType === n.ELEMENT_NODE &&\n n.getAttribute &&\n n.getAttribute('rel') === 'stylesheet' &&\n mirror.getMeta(n));\n}\nfunction hasShadowRoot(n) {\n return Boolean(_optionalChain$4([n, 'optionalAccess', _18 => _18.shadowRoot]));\n}\nclass StyleSheetMirror {\n constructor() {\n this.id = 1;\n this.styleIDMap = new WeakMap();\n this.idStyleMap = new Map();\n }\n getId(stylesheet) {\n return _nullishCoalesce(this.styleIDMap.get(stylesheet), () => ( -1));\n }\n has(stylesheet) {\n return this.styleIDMap.has(stylesheet);\n }\n add(stylesheet, id) {\n if (this.has(stylesheet))\n return this.getId(stylesheet);\n let newId;\n if (id === undefined) {\n newId = this.id++;\n }\n else\n newId = id;\n this.styleIDMap.set(stylesheet, newId);\n this.idStyleMap.set(newId, stylesheet);\n return newId;\n }\n getStyle(id) {\n return this.idStyleMap.get(id) || null;\n }\n reset() {\n this.styleIDMap = new WeakMap();\n this.idStyleMap = new Map();\n this.id = 1;\n }\n generateId() {\n return this.id++;\n }\n}\nfunction getShadowHost(n) {\n let shadowHost = null;\n if (_optionalChain$4([n, 'access', _19 => _19.getRootNode, 'optionalCall', _20 => _20(), 'optionalAccess', _21 => _21.nodeType]) === Node.DOCUMENT_FRAGMENT_NODE &&\n n.getRootNode().host)\n shadowHost = n.getRootNode().host;\n return shadowHost;\n}\nfunction getRootShadowHost(n) {\n let rootShadowHost = n;\n let shadowHost;\n while ((shadowHost = getShadowHost(rootShadowHost)))\n rootShadowHost = shadowHost;\n return rootShadowHost;\n}\nfunction shadowHostInDom(n) {\n const doc = n.ownerDocument;\n if (!doc)\n return false;\n const shadowHost = getRootShadowHost(n);\n return doc.contains(shadowHost);\n}\nfunction inDom(n) {\n const doc = n.ownerDocument;\n if (!doc)\n return false;\n return doc.contains(n) || shadowHostInDom(n);\n}\nconst cachedImplementations = {};\nfunction getImplementation(name) {\n const cached = cachedImplementations[name];\n if (cached) {\n return cached;\n }\n const document = window.document;\n let impl = window[name];\n if (document && typeof document.createElement === 'function') {\n try {\n const sandbox = document.createElement('iframe');\n sandbox.hidden = true;\n document.head.appendChild(sandbox);\n const contentWindow = sandbox.contentWindow;\n if (contentWindow && contentWindow[name]) {\n impl =\n contentWindow[name];\n }\n document.head.removeChild(sandbox);\n }\n catch (e) {\n }\n }\n return (cachedImplementations[name] = impl.bind(window));\n}\nfunction onRequestAnimationFrame(...rest) {\n return getImplementation('requestAnimationFrame')(...rest);\n}\nfunction setTimeout$1(...rest) {\n return getImplementation('setTimeout')(...rest);\n}\nfunction clearTimeout$1(...rest) {\n return getImplementation('clearTimeout')(...rest);\n}\n\nvar EventType = /* @__PURE__ */ ((EventType2) => {\n EventType2[EventType2[\"DomContentLoaded\"] = 0] = \"DomContentLoaded\";\n EventType2[EventType2[\"Load\"] = 1] = \"Load\";\n EventType2[EventType2[\"FullSnapshot\"] = 2] = \"FullSnapshot\";\n EventType2[EventType2[\"IncrementalSnapshot\"] = 3] = \"IncrementalSnapshot\";\n EventType2[EventType2[\"Meta\"] = 4] = \"Meta\";\n EventType2[EventType2[\"Custom\"] = 5] = \"Custom\";\n EventType2[EventType2[\"Plugin\"] = 6] = \"Plugin\";\n return EventType2;\n})(EventType || {});\nvar IncrementalSource = /* @__PURE__ */ ((IncrementalSource2) => {\n IncrementalSource2[IncrementalSource2[\"Mutation\"] = 0] = \"Mutation\";\n IncrementalSource2[IncrementalSource2[\"MouseMove\"] = 1] = \"MouseMove\";\n IncrementalSource2[IncrementalSource2[\"MouseInteraction\"] = 2] = \"MouseInteraction\";\n IncrementalSource2[IncrementalSource2[\"Scroll\"] = 3] = \"Scroll\";\n IncrementalSource2[IncrementalSource2[\"ViewportResize\"] = 4] = \"ViewportResize\";\n IncrementalSource2[IncrementalSource2[\"Input\"] = 5] = \"Input\";\n IncrementalSource2[IncrementalSource2[\"TouchMove\"] = 6] = \"TouchMove\";\n IncrementalSource2[IncrementalSource2[\"MediaInteraction\"] = 7] = \"MediaInteraction\";\n IncrementalSource2[IncrementalSource2[\"StyleSheetRule\"] = 8] = \"StyleSheetRule\";\n IncrementalSource2[IncrementalSource2[\"CanvasMutation\"] = 9] = \"CanvasMutation\";\n IncrementalSource2[IncrementalSource2[\"Font\"] = 10] = \"Font\";\n IncrementalSource2[IncrementalSource2[\"Log\"] = 11] = \"Log\";\n IncrementalSource2[IncrementalSource2[\"Drag\"] = 12] = \"Drag\";\n IncrementalSource2[IncrementalSource2[\"StyleDeclaration\"] = 13] = \"StyleDeclaration\";\n IncrementalSource2[IncrementalSource2[\"Selection\"] = 14] = \"Selection\";\n IncrementalSource2[IncrementalSource2[\"AdoptedStyleSheet\"] = 15] = \"AdoptedStyleSheet\";\n IncrementalSource2[IncrementalSource2[\"CustomElement\"] = 16] = \"CustomElement\";\n return IncrementalSource2;\n})(IncrementalSource || {});\nvar MouseInteractions = /* @__PURE__ */ ((MouseInteractions2) => {\n MouseInteractions2[MouseInteractions2[\"MouseUp\"] = 0] = \"MouseUp\";\n MouseInteractions2[MouseInteractions2[\"MouseDown\"] = 1] = \"MouseDown\";\n MouseInteractions2[MouseInteractions2[\"Click\"] = 2] = \"Click\";\n MouseInteractions2[MouseInteractions2[\"ContextMenu\"] = 3] = \"ContextMenu\";\n MouseInteractions2[MouseInteractions2[\"DblClick\"] = 4] = \"DblClick\";\n MouseInteractions2[MouseInteractions2[\"Focus\"] = 5] = \"Focus\";\n MouseInteractions2[MouseInteractions2[\"Blur\"] = 6] = \"Blur\";\n MouseInteractions2[MouseInteractions2[\"TouchStart\"] = 7] = \"TouchStart\";\n MouseInteractions2[MouseInteractions2[\"TouchMove_Departed\"] = 8] = \"TouchMove_Departed\";\n MouseInteractions2[MouseInteractions2[\"TouchEnd\"] = 9] = \"TouchEnd\";\n MouseInteractions2[MouseInteractions2[\"TouchCancel\"] = 10] = \"TouchCancel\";\n return MouseInteractions2;\n})(MouseInteractions || {});\nvar PointerTypes = /* @__PURE__ */ ((PointerTypes2) => {\n PointerTypes2[PointerTypes2[\"Mouse\"] = 0] = \"Mouse\";\n PointerTypes2[PointerTypes2[\"Pen\"] = 1] = \"Pen\";\n PointerTypes2[PointerTypes2[\"Touch\"] = 2] = \"Touch\";\n return PointerTypes2;\n})(PointerTypes || {});\n\nfunction _optionalChain$3(ops) { let lastAccessLHS = undefined; let value = ops[0]; let i = 1; while (i < ops.length) { const op = ops[i]; const fn = ops[i + 1]; i += 2; if ((op === 'optionalAccess' || op === 'optionalCall') && value == null) { return undefined; } if (op === 'access' || op === 'optionalAccess') { lastAccessLHS = value; value = fn(value); } else if (op === 'call' || op === 'optionalCall') { value = fn((...args) => value.call(lastAccessLHS, ...args)); lastAccessLHS = undefined; } } return value; }\nfunction isNodeInLinkedList(n) {\n return '__ln' in n;\n}\nclass DoubleLinkedList {\n constructor() {\n this.length = 0;\n this.head = null;\n this.tail = null;\n }\n get(position) {\n if (position >= this.length) {\n throw new Error('Position outside of list range');\n }\n let current = this.head;\n for (let index = 0; index < position; index++) {\n current = _optionalChain$3([current, 'optionalAccess', _ => _.next]) || null;\n }\n return current;\n }\n addNode(n) {\n const node = {\n value: n,\n previous: null,\n next: null,\n };\n n.__ln = node;\n if (n.previousSibling && isNodeInLinkedList(n.previousSibling)) {\n const current = n.previousSibling.__ln.next;\n node.next = current;\n node.previous = n.previousSibling.__ln;\n n.previousSibling.__ln.next = node;\n if (current) {\n current.previous = node;\n }\n }\n else if (n.nextSibling &&\n isNodeInLinkedList(n.nextSibling) &&\n n.nextSibling.__ln.previous) {\n const current = n.nextSibling.__ln.previous;\n node.previous = current;\n node.next = n.nextSibling.__ln;\n n.nextSibling.__ln.previous = node;\n if (current) {\n current.next = node;\n }\n }\n else {\n if (this.head) {\n this.head.previous = node;\n }\n node.next = this.head;\n this.head = node;\n }\n if (node.next === null) {\n this.tail = node;\n }\n this.length++;\n }\n removeNode(n) {\n const current = n.__ln;\n if (!this.head) {\n return;\n }\n if (!current.previous) {\n this.head = current.next;\n if (this.head) {\n this.head.previous = null;\n }\n else {\n this.tail = null;\n }\n }\n else {\n current.previous.next = current.next;\n if (current.next) {\n current.next.previous = current.previous;\n }\n else {\n this.tail = current.previous;\n }\n }\n if (n.__ln) {\n delete n.__ln;\n }\n this.length--;\n }\n}\nconst moveKey = (id, parentId) => `${id}@${parentId}`;\nclass MutationBuffer {\n constructor() {\n this.frozen = false;\n this.locked = false;\n this.texts = [];\n this.attributes = [];\n this.attributeMap = new WeakMap();\n this.removes = [];\n this.mapRemoves = [];\n this.movedMap = {};\n this.addedSet = new Set();\n this.movedSet = new Set();\n this.droppedSet = new Set();\n this.processMutations = (mutations) => {\n mutations.forEach(this.processMutation);\n this.emit();\n };\n this.emit = () => {\n if (this.frozen || this.locked) {\n return;\n }\n const adds = [];\n const addedIds = new Set();\n const addList = new DoubleLinkedList();\n const getNextId = (n) => {\n let ns = n;\n let nextId = IGNORED_NODE;\n while (nextId === IGNORED_NODE) {\n ns = ns && ns.nextSibling;\n nextId = ns && this.mirror.getId(ns);\n }\n return nextId;\n };\n const pushAdd = (n) => {\n if (!n.parentNode || !inDom(n)) {\n return;\n }\n const parentId = isShadowRoot(n.parentNode)\n ? this.mirror.getId(getShadowHost(n))\n : this.mirror.getId(n.parentNode);\n const nextId = getNextId(n);\n if (parentId === -1 || nextId === -1) {\n return addList.addNode(n);\n }\n const sn = serializeNodeWithId(n, {\n doc: this.doc,\n mirror: this.mirror,\n blockClass: this.blockClass,\n blockSelector: this.blockSelector,\n maskAllText: this.maskAllText,\n unblockSelector: this.unblockSelector,\n maskTextClass: this.maskTextClass,\n unmaskTextClass: this.unmaskTextClass,\n maskTextSelector: this.maskTextSelector,\n unmaskTextSelector: this.unmaskTextSelector,\n skipChild: true,\n newlyAddedElement: true,\n inlineStylesheet: this.inlineStylesheet,\n maskInputOptions: this.maskInputOptions,\n maskAttributeFn: this.maskAttributeFn,\n maskTextFn: this.maskTextFn,\n maskInputFn: this.maskInputFn,\n slimDOMOptions: this.slimDOMOptions,\n dataURLOptions: this.dataURLOptions,\n recordCanvas: this.recordCanvas,\n inlineImages: this.inlineImages,\n onSerialize: (currentN) => {\n if (isSerializedIframe(currentN, this.mirror)) {\n this.iframeManager.addIframe(currentN);\n }\n if (isSerializedStylesheet(currentN, this.mirror)) {\n this.stylesheetManager.trackLinkElement(currentN);\n }\n if (hasShadowRoot(n)) {\n this.shadowDomManager.addShadowRoot(n.shadowRoot, this.doc);\n }\n },\n onIframeLoad: (iframe, childSn) => {\n this.iframeManager.attachIframe(iframe, childSn);\n if (iframe.contentWindow) {\n this.canvasManager.addWindow(iframe.contentWindow);\n }\n this.shadowDomManager.observeAttachShadow(iframe);\n },\n onStylesheetLoad: (link, childSn) => {\n this.stylesheetManager.attachLinkElement(link, childSn);\n },\n });\n if (sn) {\n adds.push({\n parentId,\n nextId,\n node: sn,\n });\n addedIds.add(sn.id);\n }\n };\n while (this.mapRemoves.length) {\n this.mirror.removeNodeFromMap(this.mapRemoves.shift());\n }\n for (const n of this.movedSet) {\n if (isParentRemoved(this.removes, n, this.mirror) &&\n !this.movedSet.has(n.parentNode)) {\n continue;\n }\n pushAdd(n);\n }\n for (const n of this.addedSet) {\n if (!isAncestorInSet(this.droppedSet, n) &&\n !isParentRemoved(this.removes, n, this.mirror)) {\n pushAdd(n);\n }\n else if (isAncestorInSet(this.movedSet, n)) {\n pushAdd(n);\n }\n else {\n this.droppedSet.add(n);\n }\n }\n let candidate = null;\n while (addList.length) {\n let node = null;\n if (candidate) {\n const parentId = this.mirror.getId(candidate.value.parentNode);\n const nextId = getNextId(candidate.value);\n if (parentId !== -1 && nextId !== -1) {\n node = candidate;\n }\n }\n if (!node) {\n let tailNode = addList.tail;\n while (tailNode) {\n const _node = tailNode;\n tailNode = tailNode.previous;\n if (_node) {\n const parentId = this.mirror.getId(_node.value.parentNode);\n const nextId = getNextId(_node.value);\n if (nextId === -1)\n continue;\n else if (parentId !== -1) {\n node = _node;\n break;\n }\n else {\n const unhandledNode = _node.value;\n if (unhandledNode.parentNode &&\n unhandledNode.parentNode.nodeType ===\n Node.DOCUMENT_FRAGMENT_NODE) {\n const shadowHost = unhandledNode.parentNode\n .host;\n const parentId = this.mirror.getId(shadowHost);\n if (parentId !== -1) {\n node = _node;\n break;\n }\n }\n }\n }\n }\n }\n if (!node) {\n while (addList.head) {\n addList.removeNode(addList.head.value);\n }\n break;\n }\n candidate = node.previous;\n addList.removeNode(node.value);\n pushAdd(node.value);\n }\n const payload = {\n texts: this.texts\n .map((text) => ({\n id: this.mirror.getId(text.node),\n value: text.value,\n }))\n .filter((text) => !addedIds.has(text.id))\n .filter((text) => this.mirror.has(text.id)),\n attributes: this.attributes\n .map((attribute) => {\n const { attributes } = attribute;\n if (typeof attributes.style === 'string') {\n const diffAsStr = JSON.stringify(attribute.styleDiff);\n const unchangedAsStr = JSON.stringify(attribute._unchangedStyles);\n if (diffAsStr.length < attributes.style.length) {\n if ((diffAsStr + unchangedAsStr).split('var(').length ===\n attributes.style.split('var(').length) {\n attributes.style = attribute.styleDiff;\n }\n }\n }\n return {\n id: this.mirror.getId(attribute.node),\n attributes: attributes,\n };\n })\n .filter((attribute) => !addedIds.has(attribute.id))\n .filter((attribute) => this.mirror.has(attribute.id)),\n removes: this.removes,\n adds,\n };\n if (!payload.texts.length &&\n !payload.attributes.length &&\n !payload.removes.length &&\n !payload.adds.length) {\n return;\n }\n this.texts = [];\n this.attributes = [];\n this.attributeMap = new WeakMap();\n this.removes = [];\n this.addedSet = new Set();\n this.movedSet = new Set();\n this.droppedSet = new Set();\n this.movedMap = {};\n this.mutationCb(payload);\n };\n this.processMutation = (m) => {\n if (isIgnored(m.target, this.mirror)) {\n return;\n }\n switch (m.type) {\n case 'characterData': {\n const value = m.target.textContent;\n if (!isBlocked(m.target, this.blockClass, this.blockSelector, this.unblockSelector, false) &&\n value !== m.oldValue) {\n this.texts.push({\n value: needMaskingText(m.target, this.maskTextClass, this.maskTextSelector, this.unmaskTextClass, this.unmaskTextSelector, this.maskAllText) && value\n ? this.maskTextFn\n ? this.maskTextFn(value, closestElementOfNode(m.target))\n : value.replace(/[\\S]/g, '*')\n : value,\n node: m.target,\n });\n }\n break;\n }\n case 'attributes': {\n const target = m.target;\n let attributeName = m.attributeName;\n let value = m.target.getAttribute(attributeName);\n if (attributeName === 'value') {\n const type = getInputType(target);\n const tagName = target.tagName;\n value = getInputValue(target, tagName, type);\n const isInputMasked = shouldMaskInput({\n maskInputOptions: this.maskInputOptions,\n tagName,\n type,\n });\n const forceMask = needMaskingText(m.target, this.maskTextClass, this.maskTextSelector, this.unmaskTextClass, this.unmaskTextSelector, isInputMasked);\n value = maskInputValue({\n isMasked: forceMask,\n element: target,\n value,\n maskInputFn: this.maskInputFn,\n });\n }\n if (isBlocked(m.target, this.blockClass, this.blockSelector, this.unblockSelector, false) ||\n value === m.oldValue) {\n return;\n }\n let item = this.attributeMap.get(m.target);\n if (target.tagName === 'IFRAME' &&\n attributeName === 'src' &&\n !this.keepIframeSrcFn(value)) {\n if (!target.contentDocument) {\n attributeName = 'rr_src';\n }\n else {\n return;\n }\n }\n if (!item) {\n item = {\n node: m.target,\n attributes: {},\n styleDiff: {},\n _unchangedStyles: {},\n };\n this.attributes.push(item);\n this.attributeMap.set(m.target, item);\n }\n if (attributeName === 'type' &&\n target.tagName === 'INPUT' &&\n (m.oldValue || '').toLowerCase() === 'password') {\n target.setAttribute('data-rr-is-password', 'true');\n }\n if (!ignoreAttribute(target.tagName, attributeName)) {\n item.attributes[attributeName] = transformAttribute(this.doc, toLowerCase(target.tagName), toLowerCase(attributeName), value, target, this.maskAttributeFn);\n if (attributeName === 'style') {\n if (!this.unattachedDoc) {\n try {\n this.unattachedDoc =\n document.implementation.createHTMLDocument();\n }\n catch (e) {\n this.unattachedDoc = this.doc;\n }\n }\n const old = this.unattachedDoc.createElement('span');\n if (m.oldValue) {\n old.setAttribute('style', m.oldValue);\n }\n for (const pname of Array.from(target.style)) {\n const newValue = target.style.getPropertyValue(pname);\n const newPriority = target.style.getPropertyPriority(pname);\n if (newValue !== old.style.getPropertyValue(pname) ||\n newPriority !== old.style.getPropertyPriority(pname)) {\n if (newPriority === '') {\n item.styleDiff[pname] = newValue;\n }\n else {\n item.styleDiff[pname] = [newValue, newPriority];\n }\n }\n else {\n item._unchangedStyles[pname] = [newValue, newPriority];\n }\n }\n for (const pname of Array.from(old.style)) {\n if (target.style.getPropertyValue(pname) === '') {\n item.styleDiff[pname] = false;\n }\n }\n }\n }\n break;\n }\n case 'childList': {\n if (isBlocked(m.target, this.blockClass, this.blockSelector, this.unblockSelector, true)) {\n return;\n }\n m.addedNodes.forEach((n) => this.genAdds(n, m.target));\n m.removedNodes.forEach((n) => {\n const nodeId = this.mirror.getId(n);\n const parentId = isShadowRoot(m.target)\n ? this.mirror.getId(m.target.host)\n : this.mirror.getId(m.target);\n if (isBlocked(m.target, this.blockClass, this.blockSelector, this.unblockSelector, false) ||\n isIgnored(n, this.mirror) ||\n !isSerialized(n, this.mirror)) {\n return;\n }\n if (this.addedSet.has(n)) {\n deepDelete(this.addedSet, n);\n this.droppedSet.add(n);\n }\n else if (this.addedSet.has(m.target) && nodeId === -1) ;\n else if (isAncestorRemoved(m.target, this.mirror)) ;\n else if (this.movedSet.has(n) &&\n this.movedMap[moveKey(nodeId, parentId)]) {\n deepDelete(this.movedSet, n);\n }\n else {\n this.removes.push({\n parentId,\n id: nodeId,\n isShadow: isShadowRoot(m.target) && isNativeShadowDom(m.target)\n ? true\n : undefined,\n });\n }\n this.mapRemoves.push(n);\n });\n break;\n }\n }\n };\n this.genAdds = (n, target) => {\n if (this.processedNodeManager.inOtherBuffer(n, this))\n return;\n if (this.addedSet.has(n) || this.movedSet.has(n))\n return;\n if (this.mirror.hasNode(n)) {\n if (isIgnored(n, this.mirror)) {\n return;\n }\n this.movedSet.add(n);\n let targetId = null;\n if (target && this.mirror.hasNode(target)) {\n targetId = this.mirror.getId(target);\n }\n if (targetId && targetId !== -1) {\n this.movedMap[moveKey(this.mirror.getId(n), targetId)] = true;\n }\n }\n else {\n this.addedSet.add(n);\n this.droppedSet.delete(n);\n }\n if (!isBlocked(n, this.blockClass, this.blockSelector, this.unblockSelector, false)) {\n n.childNodes.forEach((childN) => this.genAdds(childN));\n if (hasShadowRoot(n)) {\n n.shadowRoot.childNodes.forEach((childN) => {\n this.processedNodeManager.add(childN, this);\n this.genAdds(childN, n);\n });\n }\n }\n };\n }\n init(options) {\n [\n 'mutationCb',\n 'blockClass',\n 'blockSelector',\n 'unblockSelector',\n 'maskAllText',\n 'maskTextClass',\n 'unmaskTextClass',\n 'maskTextSelector',\n 'unmaskTextSelector',\n 'inlineStylesheet',\n 'maskInputOptions',\n 'maskAttributeFn',\n 'maskTextFn',\n 'maskInputFn',\n 'keepIframeSrcFn',\n 'recordCanvas',\n 'inlineImages',\n 'slimDOMOptions',\n 'dataURLOptions',\n 'doc',\n 'mirror',\n 'iframeManager',\n 'stylesheetManager',\n 'shadowDomManager',\n 'canvasManager',\n 'processedNodeManager',\n ].forEach((key) => {\n this[key] = options[key];\n });\n }\n freeze() {\n this.frozen = true;\n this.canvasManager.freeze();\n }\n unfreeze() {\n this.frozen = false;\n this.canvasManager.unfreeze();\n this.emit();\n }\n isFrozen() {\n return this.frozen;\n }\n lock() {\n this.locked = true;\n this.canvasManager.lock();\n }\n unlock() {\n this.locked = false;\n this.canvasManager.unlock();\n this.emit();\n }\n reset() {\n this.shadowDomManager.reset();\n this.canvasManager.reset();\n }\n}\nfunction deepDelete(addsSet, n) {\n addsSet.delete(n);\n n.childNodes.forEach((childN) => deepDelete(addsSet, childN));\n}\nfunction isParentRemoved(removes, n, mirror) {\n if (removes.length === 0)\n return false;\n return _isParentRemoved(removes, n, mirror);\n}\nfunction _isParentRemoved(removes, n, mirror) {\n const { parentNode } = n;\n if (!parentNode) {\n return false;\n }\n const parentId = mirror.getId(parentNode);\n if (removes.some((r) => r.id === parentId)) {\n return true;\n }\n return _isParentRemoved(removes, parentNode, mirror);\n}\nfunction isAncestorInSet(set, n) {\n if (set.size === 0)\n return false;\n return _isAncestorInSet(set, n);\n}\nfunction _isAncestorInSet(set, n) {\n const { parentNode } = n;\n if (!parentNode) {\n return false;\n }\n if (set.has(parentNode)) {\n return true;\n }\n return _isAncestorInSet(set, parentNode);\n}\n\nlet errorHandler;\nfunction registerErrorHandler(handler) {\n errorHandler = handler;\n}\nfunction unregisterErrorHandler() {\n errorHandler = undefined;\n}\nconst callbackWrapper = (cb) => {\n if (!errorHandler) {\n return cb;\n }\n const rrwebWrapped = ((...rest) => {\n try {\n return cb(...rest);\n }\n catch (error) {\n if (errorHandler && errorHandler(error) === true) {\n return () => {\n };\n }\n throw error;\n }\n });\n return rrwebWrapped;\n};\n\nfunction _optionalChain$2(ops) { let lastAccessLHS = undefined; let value = ops[0]; let i = 1; while (i < ops.length) { const op = ops[i]; const fn = ops[i + 1]; i += 2; if ((op === 'optionalAccess' || op === 'optionalCall') && value == null) { return undefined; } if (op === 'access' || op === 'optionalAccess') { lastAccessLHS = value; value = fn(value); } else if (op === 'call' || op === 'optionalCall') { value = fn((...args) => value.call(lastAccessLHS, ...args)); lastAccessLHS = undefined; } } return value; }\nconst mutationBuffers = [];\nfunction getEventTarget(event) {\n try {\n if ('composedPath' in event) {\n const path = event.composedPath();\n if (path.length) {\n return path[0];\n }\n }\n else if ('path' in event && event.path.length) {\n return event.path[0];\n }\n }\n catch (e2) {\n }\n return event && event.target;\n}\nfunction initMutationObserver(options, rootEl) {\n const mutationBuffer = new MutationBuffer();\n mutationBuffers.push(mutationBuffer);\n mutationBuffer.init(options);\n let mutationObserverCtor = window.MutationObserver ||\n window.__rrMutationObserver;\n const angularZoneSymbol = _optionalChain$2([window, 'optionalAccess', _ => _.Zone, 'optionalAccess', _2 => _2.__symbol__, 'optionalCall', _3 => _3('MutationObserver')]);\n if (angularZoneSymbol &&\n window[angularZoneSymbol]) {\n mutationObserverCtor = window[angularZoneSymbol];\n }\n const observer = new mutationObserverCtor(callbackWrapper((mutations) => {\n if (options.onMutation && options.onMutation(mutations) === false) {\n return;\n }\n mutationBuffer.processMutations.bind(mutationBuffer)(mutations);\n }));\n observer.observe(rootEl, {\n attributes: true,\n attributeOldValue: true,\n characterData: true,\n characterDataOldValue: true,\n childList: true,\n subtree: true,\n });\n return observer;\n}\nfunction initMoveObserver({ mousemoveCb, sampling, doc, mirror, }) {\n if (sampling.mousemove === false) {\n return () => {\n };\n }\n const threshold = typeof sampling.mousemove === 'number' ? sampling.mousemove : 50;\n const callbackThreshold = typeof sampling.mousemoveCallback === 'number'\n ? sampling.mousemoveCallback\n : 500;\n let positions = [];\n let timeBaseline;\n const wrappedCb = throttle$1(callbackWrapper((source) => {\n const totalOffset = Date.now() - timeBaseline;\n mousemoveCb(positions.map((p) => {\n p.timeOffset -= totalOffset;\n return p;\n }), source);\n positions = [];\n timeBaseline = null;\n }), callbackThreshold);\n const updatePosition = callbackWrapper(throttle$1(callbackWrapper((evt) => {\n const target = getEventTarget(evt);\n const { clientX, clientY } = legacy_isTouchEvent(evt)\n ? evt.changedTouches[0]\n : evt;\n if (!timeBaseline) {\n timeBaseline = nowTimestamp();\n }\n positions.push({\n x: clientX,\n y: clientY,\n id: mirror.getId(target),\n timeOffset: nowTimestamp() - timeBaseline,\n });\n wrappedCb(typeof DragEvent !== 'undefined' && evt instanceof DragEvent\n ? IncrementalSource.Drag\n : evt instanceof MouseEvent\n ? IncrementalSource.MouseMove\n : IncrementalSource.TouchMove);\n }), threshold, {\n trailing: false,\n }));\n const handlers = [\n on('mousemove', updatePosition, doc),\n on('touchmove', updatePosition, doc),\n on('drag', updatePosition, doc),\n ];\n return callbackWrapper(() => {\n handlers.forEach((h) => h());\n });\n}\nfunction initMouseInteractionObserver({ mouseInteractionCb, doc, mirror, blockClass, blockSelector, unblockSelector, sampling, }) {\n if (sampling.mouseInteraction === false) {\n return () => {\n };\n }\n const disableMap = sampling.mouseInteraction === true ||\n sampling.mouseInteraction === undefined\n ? {}\n : sampling.mouseInteraction;\n const handlers = [];\n let currentPointerType = null;\n const getHandler = (eventKey) => {\n return (event) => {\n const target = getEventTarget(event);\n if (isBlocked(target, blockClass, blockSelector, unblockSelector, true)) {\n return;\n }\n let pointerType = null;\n let thisEventKey = eventKey;\n if ('pointerType' in event) {\n switch (event.pointerType) {\n case 'mouse':\n pointerType = PointerTypes.Mouse;\n break;\n case 'touch':\n pointerType = PointerTypes.Touch;\n break;\n case 'pen':\n pointerType = PointerTypes.Pen;\n break;\n }\n if (pointerType === PointerTypes.Touch) {\n if (MouseInteractions[eventKey] === MouseInteractions.MouseDown) {\n thisEventKey = 'TouchStart';\n }\n else if (MouseInteractions[eventKey] === MouseInteractions.MouseUp) {\n thisEventKey = 'TouchEnd';\n }\n }\n else if (pointerType === PointerTypes.Pen) ;\n }\n else if (legacy_isTouchEvent(event)) {\n pointerType = PointerTypes.Touch;\n }\n if (pointerType !== null) {\n currentPointerType = pointerType;\n if ((thisEventKey.startsWith('Touch') &&\n pointerType === PointerTypes.Touch) ||\n (thisEventKey.startsWith('Mouse') &&\n pointerType === PointerTypes.Mouse)) {\n pointerType = null;\n }\n }\n else if (MouseInteractions[eventKey] === MouseInteractions.Click) {\n pointerType = currentPointerType;\n currentPointerType = null;\n }\n const e = legacy_isTouchEvent(event) ? event.changedTouches[0] : event;\n if (!e) {\n return;\n }\n const id = mirror.getId(target);\n const { clientX, clientY } = e;\n callbackWrapper(mouseInteractionCb)({\n type: MouseInteractions[thisEventKey],\n id,\n x: clientX,\n y: clientY,\n ...(pointerType !== null && { pointerType }),\n });\n };\n };\n Object.keys(MouseInteractions)\n .filter((key) => Number.isNaN(Number(key)) &&\n !key.endsWith('_Departed') &&\n disableMap[key] !== false)\n .forEach((eventKey) => {\n let eventName = toLowerCase(eventKey);\n const handler = getHandler(eventKey);\n if (window.PointerEvent) {\n switch (MouseInteractions[eventKey]) {\n case MouseInteractions.MouseDown:\n case MouseInteractions.MouseUp:\n eventName = eventName.replace('mouse', 'pointer');\n break;\n case MouseInteractions.TouchStart:\n case MouseInteractions.TouchEnd:\n return;\n }\n }\n handlers.push(on(eventName, handler, doc));\n });\n return callbackWrapper(() => {\n handlers.forEach((h) => h());\n });\n}\nfunction initScrollObserver({ scrollCb, doc, mirror, blockClass, blockSelector, unblockSelector, sampling, }) {\n const updatePosition = callbackWrapper(throttle$1(callbackWrapper((evt) => {\n const target = getEventTarget(evt);\n if (!target ||\n isBlocked(target, blockClass, blockSelector, unblockSelector, true)) {\n return;\n }\n const id = mirror.getId(target);\n if (target === doc && doc.defaultView) {\n const scrollLeftTop = getWindowScroll(doc.defaultView);\n scrollCb({\n id,\n x: scrollLeftTop.left,\n y: scrollLeftTop.top,\n });\n }\n else {\n scrollCb({\n id,\n x: target.scrollLeft,\n y: target.scrollTop,\n });\n }\n }), sampling.scroll || 100));\n return on('scroll', updatePosition, doc);\n}\nfunction initViewportResizeObserver({ viewportResizeCb }, { win }) {\n let lastH = -1;\n let lastW = -1;\n const updateDimension = callbackWrapper(throttle$1(callbackWrapper(() => {\n const height = getWindowHeight();\n const width = getWindowWidth();\n if (lastH !== height || lastW !== width) {\n viewportResizeCb({\n width: Number(width),\n height: Number(height),\n });\n lastH = height;\n lastW = width;\n }\n }), 200));\n return on('resize', updateDimension, win);\n}\nconst INPUT_TAGS = ['INPUT', 'TEXTAREA', 'SELECT'];\nconst lastInputValueMap = new WeakMap();\nfunction initInputObserver({ inputCb, doc, mirror, blockClass, blockSelector, unblockSelector, ignoreClass, ignoreSelector, maskInputOptions, maskInputFn, sampling, userTriggeredOnInput, maskTextClass, unmaskTextClass, maskTextSelector, unmaskTextSelector, }) {\n function eventHandler(event) {\n let target = getEventTarget(event);\n const userTriggered = event.isTrusted;\n const tagName = target && toUpperCase(target.tagName);\n if (tagName === 'OPTION')\n target = target.parentElement;\n if (!target ||\n !tagName ||\n INPUT_TAGS.indexOf(tagName) < 0 ||\n isBlocked(target, blockClass, blockSelector, unblockSelector, true)) {\n return;\n }\n const el = target;\n if (el.classList.contains(ignoreClass) ||\n (ignoreSelector && el.matches(ignoreSelector))) {\n return;\n }\n const type = getInputType(target);\n let text = getInputValue(el, tagName, type);\n let isChecked = false;\n const isInputMasked = shouldMaskInput({\n maskInputOptions,\n tagName,\n type,\n });\n const forceMask = needMaskingText(target, maskTextClass, maskTextSelector, unmaskTextClass, unmaskTextSelector, isInputMasked);\n if (type === 'radio' || type === 'checkbox') {\n isChecked = target.checked;\n }\n text = maskInputValue({\n isMasked: forceMask,\n element: target,\n value: text,\n maskInputFn,\n });\n cbWithDedup(target, userTriggeredOnInput\n ? { text, isChecked, userTriggered }\n : { text, isChecked });\n const name = target.name;\n if (type === 'radio' && name && isChecked) {\n doc\n .querySelectorAll(`input[type=\"radio\"][name=\"${name}\"]`)\n .forEach((el) => {\n if (el !== target) {\n const text = maskInputValue({\n isMasked: forceMask,\n element: el,\n value: getInputValue(el, tagName, type),\n maskInputFn,\n });\n cbWithDedup(el, userTriggeredOnInput\n ? { text, isChecked: !isChecked, userTriggered: false }\n : { text, isChecked: !isChecked });\n }\n });\n }\n }\n function cbWithDedup(target, v) {\n const lastInputValue = lastInputValueMap.get(target);\n if (!lastInputValue ||\n lastInputValue.text !== v.text ||\n lastInputValue.isChecked !== v.isChecked) {\n lastInputValueMap.set(target, v);\n const id = mirror.getId(target);\n callbackWrapper(inputCb)({\n ...v,\n id,\n });\n }\n }\n const events = sampling.input === 'last' ? ['change'] : ['input', 'change'];\n const handlers = events.map((eventName) => on(eventName, callbackWrapper(eventHandler), doc));\n const currentWindow = doc.defaultView;\n if (!currentWindow) {\n return () => {\n handlers.forEach((h) => h());\n };\n }\n const propertyDescriptor = currentWindow.Object.getOwnPropertyDescriptor(currentWindow.HTMLInputElement.prototype, 'value');\n const hookProperties = [\n [currentWindow.HTMLInputElement.prototype, 'value'],\n [currentWindow.HTMLInputElement.prototype, 'checked'],\n [currentWindow.HTMLSelectElement.prototype, 'value'],\n [currentWindow.HTMLTextAreaElement.prototype, 'value'],\n [currentWindow.HTMLSelectElement.prototype, 'selectedIndex'],\n [currentWindow.HTMLOptionElement.prototype, 'selected'],\n ];\n if (propertyDescriptor && propertyDescriptor.set) {\n handlers.push(...hookProperties.map((p) => hookSetter(p[0], p[1], {\n set() {\n callbackWrapper(eventHandler)({\n target: this,\n isTrusted: false,\n });\n },\n }, false, currentWindow)));\n }\n return callbackWrapper(() => {\n handlers.forEach((h) => h());\n });\n}\nfunction getNestedCSSRulePositions(rule) {\n const positions = [];\n function recurse(childRule, pos) {\n if ((hasNestedCSSRule('CSSGroupingRule') &&\n childRule.parentRule instanceof CSSGroupingRule) ||\n (hasNestedCSSRule('CSSMediaRule') &&\n childRule.parentRule instanceof CSSMediaRule) ||\n (hasNestedCSSRule('CSSSupportsRule') &&\n childRule.parentRule instanceof CSSSupportsRule) ||\n (hasNestedCSSRule('CSSConditionRule') &&\n childRule.parentRule instanceof CSSConditionRule)) {\n const rules = Array.from(childRule.parentRule.cssRules);\n const index = rules.indexOf(childRule);\n pos.unshift(index);\n }\n else if (childRule.parentStyleSheet) {\n const rules = Array.from(childRule.parentStyleSheet.cssRules);\n const index = rules.indexOf(childRule);\n pos.unshift(index);\n }\n return pos;\n }\n return recurse(rule, positions);\n}\nfunction getIdAndStyleId(sheet, mirror, styleMirror) {\n let id, styleId;\n if (!sheet)\n return {};\n if (sheet.ownerNode)\n id = mirror.getId(sheet.ownerNode);\n else\n styleId = styleMirror.getId(sheet);\n return {\n styleId,\n id,\n };\n}\nfunction initStyleSheetObserver({ styleSheetRuleCb, mirror, stylesheetManager }, { win }) {\n if (!win.CSSStyleSheet || !win.CSSStyleSheet.prototype) {\n return () => {\n };\n }\n const insertRule = win.CSSStyleSheet.prototype.insertRule;\n win.CSSStyleSheet.prototype.insertRule = new Proxy(insertRule, {\n apply: callbackWrapper((target, thisArg, argumentsList) => {\n const [rule, index] = argumentsList;\n const { id, styleId } = getIdAndStyleId(thisArg, mirror, stylesheetManager.styleMirror);\n if ((id && id !== -1) || (styleId && styleId !== -1)) {\n styleSheetRuleCb({\n id,\n styleId,\n adds: [{ rule, index }],\n });\n }\n return target.apply(thisArg, argumentsList);\n }),\n });\n const deleteRule = win.CSSStyleSheet.prototype.deleteRule;\n win.CSSStyleSheet.prototype.deleteRule = new Proxy(deleteRule, {\n apply: callbackWrapper((target, thisArg, argumentsList) => {\n const [index] = argumentsList;\n const { id, styleId } = getIdAndStyleId(thisArg, mirror, stylesheetManager.styleMirror);\n if ((id && id !== -1) || (styleId && styleId !== -1)) {\n styleSheetRuleCb({\n id,\n styleId,\n removes: [{ index }],\n });\n }\n return target.apply(thisArg, argumentsList);\n }),\n });\n let replace;\n if (win.CSSStyleSheet.prototype.replace) {\n replace = win.CSSStyleSheet.prototype.replace;\n win.CSSStyleSheet.prototype.replace = new Proxy(replace, {\n apply: callbackWrapper((target, thisArg, argumentsList) => {\n const [text] = argumentsList;\n const { id, styleId } = getIdAndStyleId(thisArg, mirror, stylesheetManager.styleMirror);\n if ((id && id !== -1) || (styleId && styleId !== -1)) {\n styleSheetRuleCb({\n id,\n styleId,\n replace: text,\n });\n }\n return target.apply(thisArg, argumentsList);\n }),\n });\n }\n let replaceSync;\n if (win.CSSStyleSheet.prototype.replaceSync) {\n replaceSync = win.CSSStyleSheet.prototype.replaceSync;\n win.CSSStyleSheet.prototype.replaceSync = new Proxy(replaceSync, {\n apply: callbackWrapper((target, thisArg, argumentsList) => {\n const [text] = argumentsList;\n const { id, styleId } = getIdAndStyleId(thisArg, mirror, stylesheetManager.styleMirror);\n if ((id && id !== -1) || (styleId && styleId !== -1)) {\n styleSheetRuleCb({\n id,\n styleId,\n replaceSync: text,\n });\n }\n return target.apply(thisArg, argumentsList);\n }),\n });\n }\n const supportedNestedCSSRuleTypes = {};\n if (canMonkeyPatchNestedCSSRule('CSSGroupingRule')) {\n supportedNestedCSSRuleTypes.CSSGroupingRule = win.CSSGroupingRule;\n }\n else {\n if (canMonkeyPatchNestedCSSRule('CSSMediaRule')) {\n supportedNestedCSSRuleTypes.CSSMediaRule = win.CSSMediaRule;\n }\n if (canMonkeyPatchNestedCSSRule('CSSConditionRule')) {\n supportedNestedCSSRuleTypes.CSSConditionRule = win.CSSConditionRule;\n }\n if (canMonkeyPatchNestedCSSRule('CSSSupportsRule')) {\n supportedNestedCSSRuleTypes.CSSSupportsRule = win.CSSSupportsRule;\n }\n }\n const unmodifiedFunctions = {};\n Object.entries(supportedNestedCSSRuleTypes).forEach(([typeKey, type]) => {\n unmodifiedFunctions[typeKey] = {\n insertRule: type.prototype.insertRule,\n deleteRule: type.prototype.deleteRule,\n };\n type.prototype.insertRule = new Proxy(unmodifiedFunctions[typeKey].insertRule, {\n apply: callbackWrapper((target, thisArg, argumentsList) => {\n const [rule, index] = argumentsList;\n const { id, styleId } = getIdAndStyleId(thisArg.parentStyleSheet, mirror, stylesheetManager.styleMirror);\n if ((id && id !== -1) || (styleId && styleId !== -1)) {\n styleSheetRuleCb({\n id,\n styleId,\n adds: [\n {\n rule,\n index: [\n ...getNestedCSSRulePositions(thisArg),\n index || 0,\n ],\n },\n ],\n });\n }\n return target.apply(thisArg, argumentsList);\n }),\n });\n type.prototype.deleteRule = new Proxy(unmodifiedFunctions[typeKey].deleteRule, {\n apply: callbackWrapper((target, thisArg, argumentsList) => {\n const [index] = argumentsList;\n const { id, styleId } = getIdAndStyleId(thisArg.parentStyleSheet, mirror, stylesheetManager.styleMirror);\n if ((id && id !== -1) || (styleId && styleId !== -1)) {\n styleSheetRuleCb({\n id,\n styleId,\n removes: [\n { index: [...getNestedCSSRulePositions(thisArg), index] },\n ],\n });\n }\n return target.apply(thisArg, argumentsList);\n }),\n });\n });\n return callbackWrapper(() => {\n win.CSSStyleSheet.prototype.insertRule = insertRule;\n win.CSSStyleSheet.prototype.deleteRule = deleteRule;\n replace && (win.CSSStyleSheet.prototype.replace = replace);\n replaceSync && (win.CSSStyleSheet.prototype.replaceSync = replaceSync);\n Object.entries(supportedNestedCSSRuleTypes).forEach(([typeKey, type]) => {\n type.prototype.insertRule = unmodifiedFunctions[typeKey].insertRule;\n type.prototype.deleteRule = unmodifiedFunctions[typeKey].deleteRule;\n });\n });\n}\nfunction initAdoptedStyleSheetObserver({ mirror, stylesheetManager, }, host) {\n let hostId = null;\n if (host.nodeName === '#document')\n hostId = mirror.getId(host);\n else\n hostId = mirror.getId(host.host);\n const patchTarget = host.nodeName === '#document'\n ? _optionalChain$2([host, 'access', _4 => _4.defaultView, 'optionalAccess', _5 => _5.Document])\n : _optionalChain$2([host, 'access', _6 => _6.ownerDocument, 'optionalAccess', _7 => _7.defaultView, 'optionalAccess', _8 => _8.ShadowRoot]);\n const originalPropertyDescriptor = _optionalChain$2([patchTarget, 'optionalAccess', _9 => _9.prototype])\n ? Object.getOwnPropertyDescriptor(_optionalChain$2([patchTarget, 'optionalAccess', _10 => _10.prototype]), 'adoptedStyleSheets')\n : undefined;\n if (hostId === null ||\n hostId === -1 ||\n !patchTarget ||\n !originalPropertyDescriptor)\n return () => {\n };\n Object.defineProperty(host, 'adoptedStyleSheets', {\n configurable: originalPropertyDescriptor.configurable,\n enumerable: originalPropertyDescriptor.enumerable,\n get() {\n return _optionalChain$2([originalPropertyDescriptor, 'access', _11 => _11.get, 'optionalAccess', _12 => _12.call, 'call', _13 => _13(this)]);\n },\n set(sheets) {\n const result = _optionalChain$2([originalPropertyDescriptor, 'access', _14 => _14.set, 'optionalAccess', _15 => _15.call, 'call', _16 => _16(this, sheets)]);\n if (hostId !== null && hostId !== -1) {\n try {\n stylesheetManager.adoptStyleSheets(sheets, hostId);\n }\n catch (e) {\n }\n }\n return result;\n },\n });\n return callbackWrapper(() => {\n Object.defineProperty(host, 'adoptedStyleSheets', {\n configurable: originalPropertyDescriptor.configurable,\n enumerable: originalPropertyDescriptor.enumerable,\n get: originalPropertyDescriptor.get,\n set: originalPropertyDescriptor.set,\n });\n });\n}\nfunction initStyleDeclarationObserver({ styleDeclarationCb, mirror, ignoreCSSAttributes, stylesheetManager, }, { win }) {\n const setProperty = win.CSSStyleDeclaration.prototype.setProperty;\n win.CSSStyleDeclaration.prototype.setProperty = new Proxy(setProperty, {\n apply: callbackWrapper((target, thisArg, argumentsList) => {\n const [property, value, priority] = argumentsList;\n if (ignoreCSSAttributes.has(property)) {\n return setProperty.apply(thisArg, [property, value, priority]);\n }\n const { id, styleId } = getIdAndStyleId(_optionalChain$2([thisArg, 'access', _17 => _17.parentRule, 'optionalAccess', _18 => _18.parentStyleSheet]), mirror, stylesheetManager.styleMirror);\n if ((id && id !== -1) || (styleId && styleId !== -1)) {\n styleDeclarationCb({\n id,\n styleId,\n set: {\n property,\n value,\n priority,\n },\n index: getNestedCSSRulePositions(thisArg.parentRule),\n });\n }\n return target.apply(thisArg, argumentsList);\n }),\n });\n const removeProperty = win.CSSStyleDeclaration.prototype.removeProperty;\n win.CSSStyleDeclaration.prototype.removeProperty = new Proxy(removeProperty, {\n apply: callbackWrapper((target, thisArg, argumentsList) => {\n const [property] = argumentsList;\n if (ignoreCSSAttributes.has(property)) {\n return removeProperty.apply(thisArg, [property]);\n }\n const { id, styleId } = getIdAndStyleId(_optionalChain$2([thisArg, 'access', _19 => _19.parentRule, 'optionalAccess', _20 => _20.parentStyleSheet]), mirror, stylesheetManager.styleMirror);\n if ((id && id !== -1) || (styleId && styleId !== -1)) {\n styleDeclarationCb({\n id,\n styleId,\n remove: {\n property,\n },\n index: getNestedCSSRulePositions(thisArg.parentRule),\n });\n }\n return target.apply(thisArg, argumentsList);\n }),\n });\n return callbackWrapper(() => {\n win.CSSStyleDeclaration.prototype.setProperty = setProperty;\n win.CSSStyleDeclaration.prototype.removeProperty = removeProperty;\n });\n}\nfunction initMediaInteractionObserver({ mediaInteractionCb, blockClass, blockSelector, unblockSelector, mirror, sampling, doc, }) {\n const handler = callbackWrapper((type) => throttle$1(callbackWrapper((event) => {\n const target = getEventTarget(event);\n if (!target ||\n isBlocked(target, blockClass, blockSelector, unblockSelector, true)) {\n return;\n }\n const { currentTime, volume, muted, playbackRate } = target;\n mediaInteractionCb({\n type,\n id: mirror.getId(target),\n currentTime,\n volume,\n muted,\n playbackRate,\n });\n }), sampling.media || 500));\n const handlers = [\n on('play', handler(0), doc),\n on('pause', handler(1), doc),\n on('seeked', handler(2), doc),\n on('volumechange', handler(3), doc),\n on('ratechange', handler(4), doc),\n ];\n return callbackWrapper(() => {\n handlers.forEach((h) => h());\n });\n}\nfunction initFontObserver({ fontCb, doc }) {\n const win = doc.defaultView;\n if (!win) {\n return () => {\n };\n }\n const handlers = [];\n const fontMap = new WeakMap();\n const originalFontFace = win.FontFace;\n win.FontFace = function FontFace(family, source, descriptors) {\n const fontFace = new originalFontFace(family, source, descriptors);\n fontMap.set(fontFace, {\n family,\n buffer: typeof source !== 'string',\n descriptors,\n fontSource: typeof source === 'string'\n ? source\n : JSON.stringify(Array.from(new Uint8Array(source))),\n });\n return fontFace;\n };\n const restoreHandler = patch(doc.fonts, 'add', function (original) {\n return function (fontFace) {\n setTimeout$1(callbackWrapper(() => {\n const p = fontMap.get(fontFace);\n if (p) {\n fontCb(p);\n fontMap.delete(fontFace);\n }\n }), 0);\n return original.apply(this, [fontFace]);\n };\n });\n handlers.push(() => {\n win.FontFace = originalFontFace;\n });\n handlers.push(restoreHandler);\n return callbackWrapper(() => {\n handlers.forEach((h) => h());\n });\n}\nfunction initSelectionObserver(param) {\n const { doc, mirror, blockClass, blockSelector, unblockSelector, selectionCb, } = param;\n let collapsed = true;\n const updateSelection = callbackWrapper(() => {\n const selection = doc.getSelection();\n if (!selection || (collapsed && _optionalChain$2([selection, 'optionalAccess', _21 => _21.isCollapsed])))\n return;\n collapsed = selection.isCollapsed || false;\n const ranges = [];\n const count = selection.rangeCount || 0;\n for (let i = 0; i < count; i++) {\n const range = selection.getRangeAt(i);\n const { startContainer, startOffset, endContainer, endOffset } = range;\n const blocked = isBlocked(startContainer, blockClass, blockSelector, unblockSelector, true) ||\n isBlocked(endContainer, blockClass, blockSelector, unblockSelector, true);\n if (blocked)\n continue;\n ranges.push({\n start: mirror.getId(startContainer),\n startOffset,\n end: mirror.getId(endContainer),\n endOffset,\n });\n }\n selectionCb({ ranges });\n });\n updateSelection();\n return on('selectionchange', updateSelection);\n}\nfunction initCustomElementObserver({ doc, customElementCb, }) {\n const win = doc.defaultView;\n if (!win || !win.customElements)\n return () => { };\n const restoreHandler = patch(win.customElements, 'define', function (original) {\n return function (name, constructor, options) {\n try {\n customElementCb({\n define: {\n name,\n },\n });\n }\n catch (e) {\n }\n return original.apply(this, [name, constructor, options]);\n };\n });\n return restoreHandler;\n}\nfunction initObservers(o, _hooks = {}) {\n const currentWindow = o.doc.defaultView;\n if (!currentWindow) {\n return () => {\n };\n }\n let mutationObserver;\n if (o.recordDOM) {\n mutationObserver = initMutationObserver(o, o.doc);\n }\n const mousemoveHandler = initMoveObserver(o);\n const mouseInteractionHandler = initMouseInteractionObserver(o);\n const scrollHandler = initScrollObserver(o);\n const viewportResizeHandler = initViewportResizeObserver(o, {\n win: currentWindow,\n });\n const inputHandler = initInputObserver(o);\n const mediaInteractionHandler = initMediaInteractionObserver(o);\n let styleSheetObserver = () => { };\n let adoptedStyleSheetObserver = () => { };\n let styleDeclarationObserver = () => { };\n let fontObserver = () => { };\n if (o.recordDOM) {\n styleSheetObserver = initStyleSheetObserver(o, { win: currentWindow });\n adoptedStyleSheetObserver = initAdoptedStyleSheetObserver(o, o.doc);\n styleDeclarationObserver = initStyleDeclarationObserver(o, {\n win: currentWindow,\n });\n if (o.collectFonts) {\n fontObserver = initFontObserver(o);\n }\n }\n const selectionObserver = initSelectionObserver(o);\n const customElementObserver = initCustomElementObserver(o);\n const pluginHandlers = [];\n for (const plugin of o.plugins) {\n pluginHandlers.push(plugin.observer(plugin.callback, currentWindow, plugin.options));\n }\n return callbackWrapper(() => {\n mutationBuffers.forEach((b) => b.reset());\n _optionalChain$2([mutationObserver, 'optionalAccess', _22 => _22.disconnect, 'call', _23 => _23()]);\n mousemoveHandler();\n mouseInteractionHandler();\n scrollHandler();\n viewportResizeHandler();\n inputHandler();\n mediaInteractionHandler();\n styleSheetObserver();\n adoptedStyleSheetObserver();\n styleDeclarationObserver();\n fontObserver();\n selectionObserver();\n customElementObserver();\n pluginHandlers.forEach((h) => h());\n });\n}\nfunction hasNestedCSSRule(prop) {\n return typeof window[prop] !== 'undefined';\n}\nfunction canMonkeyPatchNestedCSSRule(prop) {\n return Boolean(typeof window[prop] !== 'undefined' &&\n window[prop].prototype &&\n 'insertRule' in window[prop].prototype &&\n 'deleteRule' in window[prop].prototype);\n}\n\nclass CrossOriginIframeMirror {\n constructor(generateIdFn) {\n this.generateIdFn = generateIdFn;\n this.iframeIdToRemoteIdMap = new WeakMap();\n this.iframeRemoteIdToIdMap = new WeakMap();\n }\n getId(iframe, remoteId, idToRemoteMap, remoteToIdMap) {\n const idToRemoteIdMap = idToRemoteMap || this.getIdToRemoteIdMap(iframe);\n const remoteIdToIdMap = remoteToIdMap || this.getRemoteIdToIdMap(iframe);\n let id = idToRemoteIdMap.get(remoteId);\n if (!id) {\n id = this.generateIdFn();\n idToRemoteIdMap.set(remoteId, id);\n remoteIdToIdMap.set(id, remoteId);\n }\n return id;\n }\n getIds(iframe, remoteId) {\n const idToRemoteIdMap = this.getIdToRemoteIdMap(iframe);\n const remoteIdToIdMap = this.getRemoteIdToIdMap(iframe);\n return remoteId.map((id) => this.getId(iframe, id, idToRemoteIdMap, remoteIdToIdMap));\n }\n getRemoteId(iframe, id, map) {\n const remoteIdToIdMap = map || this.getRemoteIdToIdMap(iframe);\n if (typeof id !== 'number')\n return id;\n const remoteId = remoteIdToIdMap.get(id);\n if (!remoteId)\n return -1;\n return remoteId;\n }\n getRemoteIds(iframe, ids) {\n const remoteIdToIdMap = this.getRemoteIdToIdMap(iframe);\n return ids.map((id) => this.getRemoteId(iframe, id, remoteIdToIdMap));\n }\n reset(iframe) {\n if (!iframe) {\n this.iframeIdToRemoteIdMap = new WeakMap();\n this.iframeRemoteIdToIdMap = new WeakMap();\n return;\n }\n this.iframeIdToRemoteIdMap.delete(iframe);\n this.iframeRemoteIdToIdMap.delete(iframe);\n }\n getIdToRemoteIdMap(iframe) {\n let idToRemoteIdMap = this.iframeIdToRemoteIdMap.get(iframe);\n if (!idToRemoteIdMap) {\n idToRemoteIdMap = new Map();\n this.iframeIdToRemoteIdMap.set(iframe, idToRemoteIdMap);\n }\n return idToRemoteIdMap;\n }\n getRemoteIdToIdMap(iframe) {\n let remoteIdToIdMap = this.iframeRemoteIdToIdMap.get(iframe);\n if (!remoteIdToIdMap) {\n remoteIdToIdMap = new Map();\n this.iframeRemoteIdToIdMap.set(iframe, remoteIdToIdMap);\n }\n return remoteIdToIdMap;\n }\n}\n\nfunction _optionalChain$1(ops) { let lastAccessLHS = undefined; let value = ops[0]; let i = 1; while (i < ops.length) { const op = ops[i]; const fn = ops[i + 1]; i += 2; if ((op === 'optionalAccess' || op === 'optionalCall') && value == null) { return undefined; } if (op === 'access' || op === 'optionalAccess') { lastAccessLHS = value; value = fn(value); } else if (op === 'call' || op === 'optionalCall') { value = fn((...args) => value.call(lastAccessLHS, ...args)); lastAccessLHS = undefined; } } return value; }\nclass IframeManagerNoop {\n constructor() {\n this.crossOriginIframeMirror = new CrossOriginIframeMirror(genId);\n this.crossOriginIframeRootIdMap = new WeakMap();\n }\n addIframe() {\n }\n addLoadListener() {\n }\n attachIframe() {\n }\n}\nclass IframeManager {\n constructor(options) {\n this.iframes = new WeakMap();\n this.crossOriginIframeMap = new WeakMap();\n this.crossOriginIframeMirror = new CrossOriginIframeMirror(genId);\n this.crossOriginIframeRootIdMap = new WeakMap();\n this.mutationCb = options.mutationCb;\n this.wrappedEmit = options.wrappedEmit;\n this.stylesheetManager = options.stylesheetManager;\n this.recordCrossOriginIframes = options.recordCrossOriginIframes;\n this.crossOriginIframeStyleMirror = new CrossOriginIframeMirror(this.stylesheetManager.styleMirror.generateId.bind(this.stylesheetManager.styleMirror));\n this.mirror = options.mirror;\n if (this.recordCrossOriginIframes) {\n window.addEventListener('message', this.handleMessage.bind(this));\n }\n }\n addIframe(iframeEl) {\n this.iframes.set(iframeEl, true);\n if (iframeEl.contentWindow)\n this.crossOriginIframeMap.set(iframeEl.contentWindow, iframeEl);\n }\n addLoadListener(cb) {\n this.loadListener = cb;\n }\n attachIframe(iframeEl, childSn) {\n this.mutationCb({\n adds: [\n {\n parentId: this.mirror.getId(iframeEl),\n nextId: null,\n node: childSn,\n },\n ],\n removes: [],\n texts: [],\n attributes: [],\n isAttachIframe: true,\n });\n _optionalChain$1([this, 'access', _ => _.loadListener, 'optionalCall', _2 => _2(iframeEl)]);\n if (iframeEl.contentDocument &&\n iframeEl.contentDocument.adoptedStyleSheets &&\n iframeEl.contentDocument.adoptedStyleSheets.length > 0)\n this.stylesheetManager.adoptStyleSheets(iframeEl.contentDocument.adoptedStyleSheets, this.mirror.getId(iframeEl.contentDocument));\n }\n handleMessage(message) {\n const crossOriginMessageEvent = message;\n if (crossOriginMessageEvent.data.type !== 'rrweb' ||\n crossOriginMessageEvent.origin !== crossOriginMessageEvent.data.origin)\n return;\n const iframeSourceWindow = message.source;\n if (!iframeSourceWindow)\n return;\n const iframeEl = this.crossOriginIframeMap.get(message.source);\n if (!iframeEl)\n return;\n const transformedEvent = this.transformCrossOriginEvent(iframeEl, crossOriginMessageEvent.data.event);\n if (transformedEvent)\n this.wrappedEmit(transformedEvent, crossOriginMessageEvent.data.isCheckout);\n }\n transformCrossOriginEvent(iframeEl, e) {\n switch (e.type) {\n case EventType.FullSnapshot: {\n this.crossOriginIframeMirror.reset(iframeEl);\n this.crossOriginIframeStyleMirror.reset(iframeEl);\n this.replaceIdOnNode(e.data.node, iframeEl);\n const rootId = e.data.node.id;\n this.crossOriginIframeRootIdMap.set(iframeEl, rootId);\n this.patchRootIdOnNode(e.data.node, rootId);\n return {\n timestamp: e.timestamp,\n type: EventType.IncrementalSnapshot,\n data: {\n source: IncrementalSource.Mutation,\n adds: [\n {\n parentId: this.mirror.getId(iframeEl),\n nextId: null,\n node: e.data.node,\n },\n ],\n removes: [],\n texts: [],\n attributes: [],\n isAttachIframe: true,\n },\n };\n }\n case EventType.Meta:\n case EventType.Load:\n case EventType.DomContentLoaded: {\n return false;\n }\n case EventType.Plugin: {\n return e;\n }\n case EventType.Custom: {\n this.replaceIds(e.data.payload, iframeEl, ['id', 'parentId', 'previousId', 'nextId']);\n return e;\n }\n case EventType.IncrementalSnapshot: {\n switch (e.data.source) {\n case IncrementalSource.Mutation: {\n e.data.adds.forEach((n) => {\n this.replaceIds(n, iframeEl, [\n 'parentId',\n 'nextId',\n 'previousId',\n ]);\n this.replaceIdOnNode(n.node, iframeEl);\n const rootId = this.crossOriginIframeRootIdMap.get(iframeEl);\n rootId && this.patchRootIdOnNode(n.node, rootId);\n });\n e.data.removes.forEach((n) => {\n this.replaceIds(n, iframeEl, ['parentId', 'id']);\n });\n e.data.attributes.forEach((n) => {\n this.replaceIds(n, iframeEl, ['id']);\n });\n e.data.texts.forEach((n) => {\n this.replaceIds(n, iframeEl, ['id']);\n });\n return e;\n }\n case IncrementalSource.Drag:\n case IncrementalSource.TouchMove:\n case IncrementalSource.MouseMove: {\n e.data.positions.forEach((p) => {\n this.replaceIds(p, iframeEl, ['id']);\n });\n return e;\n }\n case IncrementalSource.ViewportResize: {\n return false;\n }\n case IncrementalSource.MediaInteraction:\n case IncrementalSource.MouseInteraction:\n case IncrementalSource.Scroll:\n case IncrementalSource.CanvasMutation:\n case IncrementalSource.Input: {\n this.replaceIds(e.data, iframeEl, ['id']);\n return e;\n }\n case IncrementalSource.StyleSheetRule:\n case IncrementalSource.StyleDeclaration: {\n this.replaceIds(e.data, iframeEl, ['id']);\n this.replaceStyleIds(e.data, iframeEl, ['styleId']);\n return e;\n }\n case IncrementalSource.Font: {\n return e;\n }\n case IncrementalSource.Selection: {\n e.data.ranges.forEach((range) => {\n this.replaceIds(range, iframeEl, ['start', 'end']);\n });\n return e;\n }\n case IncrementalSource.AdoptedStyleSheet: {\n this.replaceIds(e.data, iframeEl, ['id']);\n this.replaceStyleIds(e.data, iframeEl, ['styleIds']);\n _optionalChain$1([e, 'access', _3 => _3.data, 'access', _4 => _4.styles, 'optionalAccess', _5 => _5.forEach, 'call', _6 => _6((style) => {\n this.replaceStyleIds(style, iframeEl, ['styleId']);\n })]);\n return e;\n }\n }\n }\n }\n return false;\n }\n replace(iframeMirror, obj, iframeEl, keys) {\n for (const key of keys) {\n if (!Array.isArray(obj[key]) && typeof obj[key] !== 'number')\n continue;\n if (Array.isArray(obj[key])) {\n obj[key] = iframeMirror.getIds(iframeEl, obj[key]);\n }\n else {\n obj[key] = iframeMirror.getId(iframeEl, obj[key]);\n }\n }\n return obj;\n }\n replaceIds(obj, iframeEl, keys) {\n return this.replace(this.crossOriginIframeMirror, obj, iframeEl, keys);\n }\n replaceStyleIds(obj, iframeEl, keys) {\n return this.replace(this.crossOriginIframeStyleMirror, obj, iframeEl, keys);\n }\n replaceIdOnNode(node, iframeEl) {\n this.replaceIds(node, iframeEl, ['id', 'rootId']);\n if ('childNodes' in node) {\n node.childNodes.forEach((child) => {\n this.replaceIdOnNode(child, iframeEl);\n });\n }\n }\n patchRootIdOnNode(node, rootId) {\n if (node.type !== NodeType$1.Document && !node.rootId)\n node.rootId = rootId;\n if ('childNodes' in node) {\n node.childNodes.forEach((child) => {\n this.patchRootIdOnNode(child, rootId);\n });\n }\n }\n}\n\nclass ShadowDomManagerNoop {\n init() {\n }\n addShadowRoot() {\n }\n observeAttachShadow() {\n }\n reset() {\n }\n}\nclass ShadowDomManager {\n constructor(options) {\n this.shadowDoms = new WeakSet();\n this.restoreHandlers = [];\n this.mutationCb = options.mutationCb;\n this.scrollCb = options.scrollCb;\n this.bypassOptions = options.bypassOptions;\n this.mirror = options.mirror;\n this.init();\n }\n init() {\n this.reset();\n this.patchAttachShadow(Element, document);\n }\n addShadowRoot(shadowRoot, doc) {\n if (!isNativeShadowDom(shadowRoot))\n return;\n if (this.shadowDoms.has(shadowRoot))\n return;\n this.shadowDoms.add(shadowRoot);\n this.bypassOptions.canvasManager.addShadowRoot(shadowRoot);\n const observer = initMutationObserver({\n ...this.bypassOptions,\n doc,\n mutationCb: this.mutationCb,\n mirror: this.mirror,\n shadowDomManager: this,\n }, shadowRoot);\n this.restoreHandlers.push(() => observer.disconnect());\n this.restoreHandlers.push(initScrollObserver({\n ...this.bypassOptions,\n scrollCb: this.scrollCb,\n doc: shadowRoot,\n mirror: this.mirror,\n }));\n setTimeout$1(() => {\n if (shadowRoot.adoptedStyleSheets &&\n shadowRoot.adoptedStyleSheets.length > 0)\n this.bypassOptions.stylesheetManager.adoptStyleSheets(shadowRoot.adoptedStyleSheets, this.mirror.getId(shadowRoot.host));\n this.restoreHandlers.push(initAdoptedStyleSheetObserver({\n mirror: this.mirror,\n stylesheetManager: this.bypassOptions.stylesheetManager,\n }, shadowRoot));\n }, 0);\n }\n observeAttachShadow(iframeElement) {\n if (!iframeElement.contentWindow || !iframeElement.contentDocument)\n return;\n this.patchAttachShadow(iframeElement.contentWindow.Element, iframeElement.contentDocument);\n }\n patchAttachShadow(element, doc) {\n const manager = this;\n this.restoreHandlers.push(patch(element.prototype, 'attachShadow', function (original) {\n return function (option) {\n const shadowRoot = original.call(this, option);\n if (this.shadowRoot && inDom(this))\n manager.addShadowRoot(this.shadowRoot, doc);\n return shadowRoot;\n };\n }));\n }\n reset() {\n this.restoreHandlers.forEach((handler) => {\n try {\n handler();\n }\n catch (e) {\n }\n });\n this.restoreHandlers = [];\n this.shadowDoms = new WeakSet();\n this.bypassOptions.canvasManager.resetShadowRoots();\n }\n}\n\nclass CanvasManagerNoop {\n reset() {\n }\n freeze() {\n }\n unfreeze() {\n }\n lock() {\n }\n unlock() {\n }\n snapshot() {\n }\n addWindow() {\n }\n addShadowRoot() {\n }\n resetShadowRoots() {\n }\n}\n\nclass StylesheetManager {\n constructor(options) {\n this.trackedLinkElements = new WeakSet();\n this.styleMirror = new StyleSheetMirror();\n this.mutationCb = options.mutationCb;\n this.adoptedStyleSheetCb = options.adoptedStyleSheetCb;\n }\n attachLinkElement(linkEl, childSn) {\n if ('_cssText' in childSn.attributes)\n this.mutationCb({\n adds: [],\n removes: [],\n texts: [],\n attributes: [\n {\n id: childSn.id,\n attributes: childSn\n .attributes,\n },\n ],\n });\n this.trackLinkElement(linkEl);\n }\n trackLinkElement(linkEl) {\n if (this.trackedLinkElements.has(linkEl))\n return;\n this.trackedLinkElements.add(linkEl);\n this.trackStylesheetInLinkElement(linkEl);\n }\n adoptStyleSheets(sheets, hostId) {\n if (sheets.length === 0)\n return;\n const adoptedStyleSheetData = {\n id: hostId,\n styleIds: [],\n };\n const styles = [];\n for (const sheet of sheets) {\n let styleId;\n if (!this.styleMirror.has(sheet)) {\n styleId = this.styleMirror.add(sheet);\n styles.push({\n styleId,\n rules: Array.from(sheet.rules || CSSRule, (r, index) => ({\n rule: stringifyRule(r),\n index,\n })),\n });\n }\n else\n styleId = this.styleMirror.getId(sheet);\n adoptedStyleSheetData.styleIds.push(styleId);\n }\n if (styles.length > 0)\n adoptedStyleSheetData.styles = styles;\n this.adoptedStyleSheetCb(adoptedStyleSheetData);\n }\n reset() {\n this.styleMirror.reset();\n this.trackedLinkElements = new WeakSet();\n }\n trackStylesheetInLinkElement(linkEl) {\n }\n}\n\nclass ProcessedNodeManager {\n constructor() {\n this.nodeMap = new WeakMap();\n this.loop = true;\n this.periodicallyClear();\n }\n periodicallyClear() {\n onRequestAnimationFrame(() => {\n this.clear();\n if (this.loop)\n this.periodicallyClear();\n });\n }\n inOtherBuffer(node, thisBuffer) {\n const buffers = this.nodeMap.get(node);\n return (buffers && Array.from(buffers).some((buffer) => buffer !== thisBuffer));\n }\n add(node, buffer) {\n this.nodeMap.set(node, (this.nodeMap.get(node) || new Set()).add(buffer));\n }\n clear() {\n this.nodeMap = new WeakMap();\n }\n destroy() {\n this.loop = false;\n }\n}\n\nlet wrappedEmit;\nlet _takeFullSnapshot;\ntry {\n if (Array.from([1], (x) => x * 2)[0] !== 2) {\n const cleanFrame = document.createElement('iframe');\n document.body.appendChild(cleanFrame);\n Array.from = _optionalChain([cleanFrame, 'access', _ => _.contentWindow, 'optionalAccess', _2 => _2.Array, 'access', _3 => _3.from]) || Array.from;\n document.body.removeChild(cleanFrame);\n }\n}\ncatch (err) {\n console.debug('Unable to override Array.from', err);\n}\nconst mirror = createMirror();\nfunction record(options = {}) {\n const { emit, checkoutEveryNms, checkoutEveryNth, blockClass = 'rr-block', blockSelector = null, unblockSelector = null, ignoreClass = 'rr-ignore', ignoreSelector = null, maskAllText = false, maskTextClass = 'rr-mask', unmaskTextClass = null, maskTextSelector = null, unmaskTextSelector = null, inlineStylesheet = true, maskAllInputs, maskInputOptions: _maskInputOptions, slimDOMOptions: _slimDOMOptions, maskAttributeFn, maskInputFn, maskTextFn, maxCanvasSize = null, packFn, sampling = {}, dataURLOptions = {}, mousemoveWait, recordDOM = true, recordCanvas = false, recordCrossOriginIframes = false, recordAfter = options.recordAfter === 'DOMContentLoaded'\n ? options.recordAfter\n : 'load', userTriggeredOnInput = false, collectFonts = false, inlineImages = false, plugins, keepIframeSrcFn = () => false, ignoreCSSAttributes = new Set([]), errorHandler, onMutation, getCanvasManager, } = options;\n registerErrorHandler(errorHandler);\n const inEmittingFrame = recordCrossOriginIframes\n ? window.parent === window\n : true;\n let passEmitsToParent = false;\n if (!inEmittingFrame) {\n try {\n if (window.parent.document) {\n passEmitsToParent = false;\n }\n }\n catch (e) {\n passEmitsToParent = true;\n }\n }\n if (inEmittingFrame && !emit) {\n throw new Error('emit function is required');\n }\n if (mousemoveWait !== undefined && sampling.mousemove === undefined) {\n sampling.mousemove = mousemoveWait;\n }\n mirror.reset();\n const maskInputOptions = maskAllInputs === true\n ? {\n color: true,\n date: true,\n 'datetime-local': true,\n email: true,\n month: true,\n number: true,\n range: true,\n search: true,\n tel: true,\n text: true,\n time: true,\n url: true,\n week: true,\n textarea: true,\n select: true,\n radio: true,\n checkbox: true,\n }\n : _maskInputOptions !== undefined\n ? _maskInputOptions\n : {};\n const slimDOMOptions = _slimDOMOptions === true || _slimDOMOptions === 'all'\n ? {\n script: true,\n comment: true,\n headFavicon: true,\n headWhitespace: true,\n headMetaSocial: true,\n headMetaRobots: true,\n headMetaHttpEquiv: true,\n headMetaVerification: true,\n headMetaAuthorship: _slimDOMOptions === 'all',\n headMetaDescKeywords: _slimDOMOptions === 'all',\n }\n : _slimDOMOptions\n ? _slimDOMOptions\n : {};\n polyfill();\n let lastFullSnapshotEvent;\n let incrementalSnapshotCount = 0;\n const eventProcessor = (e) => {\n for (const plugin of plugins || []) {\n if (plugin.eventProcessor) {\n e = plugin.eventProcessor(e);\n }\n }\n if (packFn &&\n !passEmitsToParent) {\n e = packFn(e);\n }\n return e;\n };\n wrappedEmit = (r, isCheckout) => {\n const e = r;\n e.timestamp = nowTimestamp();\n if (_optionalChain([mutationBuffers, 'access', _4 => _4[0], 'optionalAccess', _5 => _5.isFrozen, 'call', _6 => _6()]) &&\n e.type !== EventType.FullSnapshot &&\n !(e.type === EventType.IncrementalSnapshot &&\n e.data.source === IncrementalSource.Mutation)) {\n mutationBuffers.forEach((buf) => buf.unfreeze());\n }\n if (inEmittingFrame) {\n _optionalChain([emit, 'optionalCall', _7 => _7(eventProcessor(e), isCheckout)]);\n }\n else if (passEmitsToParent) {\n const message = {\n type: 'rrweb',\n event: eventProcessor(e),\n origin: window.location.origin,\n isCheckout,\n };\n window.parent.postMessage(message, '*');\n }\n if (e.type === EventType.FullSnapshot) {\n lastFullSnapshotEvent = e;\n incrementalSnapshotCount = 0;\n }\n else if (e.type === EventType.IncrementalSnapshot) {\n if (e.data.source === IncrementalSource.Mutation &&\n e.data.isAttachIframe) {\n return;\n }\n incrementalSnapshotCount++;\n const exceedCount = checkoutEveryNth && incrementalSnapshotCount >= checkoutEveryNth;\n const exceedTime = checkoutEveryNms &&\n lastFullSnapshotEvent &&\n e.timestamp - lastFullSnapshotEvent.timestamp > checkoutEveryNms;\n if (exceedCount || exceedTime) {\n takeFullSnapshot(true);\n }\n }\n };\n const wrappedMutationEmit = (m) => {\n wrappedEmit({\n type: EventType.IncrementalSnapshot,\n data: {\n source: IncrementalSource.Mutation,\n ...m,\n },\n });\n };\n const wrappedScrollEmit = (p) => wrappedEmit({\n type: EventType.IncrementalSnapshot,\n data: {\n source: IncrementalSource.Scroll,\n ...p,\n },\n });\n const wrappedCanvasMutationEmit = (p) => wrappedEmit({\n type: EventType.IncrementalSnapshot,\n data: {\n source: IncrementalSource.CanvasMutation,\n ...p,\n },\n });\n const wrappedAdoptedStyleSheetEmit = (a) => wrappedEmit({\n type: EventType.IncrementalSnapshot,\n data: {\n source: IncrementalSource.AdoptedStyleSheet,\n ...a,\n },\n });\n const stylesheetManager = new StylesheetManager({\n mutationCb: wrappedMutationEmit,\n adoptedStyleSheetCb: wrappedAdoptedStyleSheetEmit,\n });\n const iframeManager = typeof __RRWEB_EXCLUDE_IFRAME__ === 'boolean' && __RRWEB_EXCLUDE_IFRAME__\n ? new IframeManagerNoop()\n : new IframeManager({\n mirror,\n mutationCb: wrappedMutationEmit,\n stylesheetManager: stylesheetManager,\n recordCrossOriginIframes,\n wrappedEmit,\n });\n for (const plugin of plugins || []) {\n if (plugin.getMirror)\n plugin.getMirror({\n nodeMirror: mirror,\n crossOriginIframeMirror: iframeManager.crossOriginIframeMirror,\n crossOriginIframeStyleMirror: iframeManager.crossOriginIframeStyleMirror,\n });\n }\n const processedNodeManager = new ProcessedNodeManager();\n const canvasManager = _getCanvasManager(getCanvasManager, {\n mirror,\n win: window,\n mutationCb: (p) => wrappedEmit({\n type: EventType.IncrementalSnapshot,\n data: {\n source: IncrementalSource.CanvasMutation,\n ...p,\n },\n }),\n recordCanvas,\n blockClass,\n blockSelector,\n unblockSelector,\n maxCanvasSize,\n sampling: sampling['canvas'],\n dataURLOptions,\n errorHandler,\n });\n const shadowDomManager = typeof __RRWEB_EXCLUDE_SHADOW_DOM__ === 'boolean' &&\n __RRWEB_EXCLUDE_SHADOW_DOM__\n ? new ShadowDomManagerNoop()\n : new ShadowDomManager({\n mutationCb: wrappedMutationEmit,\n scrollCb: wrappedScrollEmit,\n bypassOptions: {\n onMutation,\n blockClass,\n blockSelector,\n unblockSelector,\n maskAllText,\n maskTextClass,\n unmaskTextClass,\n maskTextSelector,\n unmaskTextSelector,\n inlineStylesheet,\n maskInputOptions,\n dataURLOptions,\n maskAttributeFn,\n maskTextFn,\n maskInputFn,\n recordCanvas,\n inlineImages,\n sampling,\n slimDOMOptions,\n iframeManager,\n stylesheetManager,\n canvasManager,\n keepIframeSrcFn,\n processedNodeManager,\n },\n mirror,\n });\n const takeFullSnapshot = (isCheckout = false) => {\n if (!recordDOM) {\n return;\n }\n wrappedEmit({\n type: EventType.Meta,\n data: {\n href: window.location.href,\n width: getWindowWidth(),\n height: getWindowHeight(),\n },\n }, isCheckout);\n stylesheetManager.reset();\n shadowDomManager.init();\n mutationBuffers.forEach((buf) => buf.lock());\n const node = snapshot(document, {\n mirror,\n blockClass,\n blockSelector,\n unblockSelector,\n maskAllText,\n maskTextClass,\n unmaskTextClass,\n maskTextSelector,\n unmaskTextSelector,\n inlineStylesheet,\n maskAllInputs: maskInputOptions,\n maskAttributeFn,\n maskInputFn,\n maskTextFn,\n slimDOM: slimDOMOptions,\n dataURLOptions,\n recordCanvas,\n inlineImages,\n onSerialize: (n) => {\n if (isSerializedIframe(n, mirror)) {\n iframeManager.addIframe(n);\n }\n if (isSerializedStylesheet(n, mirror)) {\n stylesheetManager.trackLinkElement(n);\n }\n if (hasShadowRoot(n)) {\n shadowDomManager.addShadowRoot(n.shadowRoot, document);\n }\n },\n onIframeLoad: (iframe, childSn) => {\n iframeManager.attachIframe(iframe, childSn);\n if (iframe.contentWindow) {\n canvasManager.addWindow(iframe.contentWindow);\n }\n shadowDomManager.observeAttachShadow(iframe);\n },\n onStylesheetLoad: (linkEl, childSn) => {\n stylesheetManager.attachLinkElement(linkEl, childSn);\n },\n keepIframeSrcFn,\n });\n if (!node) {\n return console.warn('Failed to snapshot the document');\n }\n wrappedEmit({\n type: EventType.FullSnapshot,\n data: {\n node,\n initialOffset: getWindowScroll(window),\n },\n });\n mutationBuffers.forEach((buf) => buf.unlock());\n if (document.adoptedStyleSheets && document.adoptedStyleSheets.length > 0)\n stylesheetManager.adoptStyleSheets(document.adoptedStyleSheets, mirror.getId(document));\n };\n _takeFullSnapshot = takeFullSnapshot;\n try {\n const handlers = [];\n const observe = (doc) => {\n return callbackWrapper(initObservers)({\n onMutation,\n mutationCb: wrappedMutationEmit,\n mousemoveCb: (positions, source) => wrappedEmit({\n type: EventType.IncrementalSnapshot,\n data: {\n source,\n positions,\n },\n }),\n mouseInteractionCb: (d) => wrappedEmit({\n type: EventType.IncrementalSnapshot,\n data: {\n source: IncrementalSource.MouseInteraction,\n ...d,\n },\n }),\n scrollCb: wrappedScrollEmit,\n viewportResizeCb: (d) => wrappedEmit({\n type: EventType.IncrementalSnapshot,\n data: {\n source: IncrementalSource.ViewportResize,\n ...d,\n },\n }),\n inputCb: (v) => wrappedEmit({\n type: EventType.IncrementalSnapshot,\n data: {\n source: IncrementalSource.Input,\n ...v,\n },\n }),\n mediaInteractionCb: (p) => wrappedEmit({\n type: EventType.IncrementalSnapshot,\n data: {\n source: IncrementalSource.MediaInteraction,\n ...p,\n },\n }),\n styleSheetRuleCb: (r) => wrappedEmit({\n type: EventType.IncrementalSnapshot,\n data: {\n source: IncrementalSource.StyleSheetRule,\n ...r,\n },\n }),\n styleDeclarationCb: (r) => wrappedEmit({\n type: EventType.IncrementalSnapshot,\n data: {\n source: IncrementalSource.StyleDeclaration,\n ...r,\n },\n }),\n canvasMutationCb: wrappedCanvasMutationEmit,\n fontCb: (p) => wrappedEmit({\n type: EventType.IncrementalSnapshot,\n data: {\n source: IncrementalSource.Font,\n ...p,\n },\n }),\n selectionCb: (p) => {\n wrappedEmit({\n type: EventType.IncrementalSnapshot,\n data: {\n source: IncrementalSource.Selection,\n ...p,\n },\n });\n },\n customElementCb: (c) => {\n wrappedEmit({\n type: EventType.IncrementalSnapshot,\n data: {\n source: IncrementalSource.CustomElement,\n ...c,\n },\n });\n },\n blockClass,\n ignoreClass,\n ignoreSelector,\n maskAllText,\n maskTextClass,\n unmaskTextClass,\n maskTextSelector,\n unmaskTextSelector,\n maskInputOptions,\n inlineStylesheet,\n sampling,\n recordDOM,\n recordCanvas,\n inlineImages,\n userTriggeredOnInput,\n collectFonts,\n doc,\n maskAttributeFn,\n maskInputFn,\n maskTextFn,\n keepIframeSrcFn,\n blockSelector,\n unblockSelector,\n slimDOMOptions,\n dataURLOptions,\n mirror,\n iframeManager,\n stylesheetManager,\n shadowDomManager,\n processedNodeManager,\n canvasManager,\n ignoreCSSAttributes,\n plugins: _optionalChain([plugins\n, 'optionalAccess', _8 => _8.filter, 'call', _9 => _9((p) => p.observer)\n, 'optionalAccess', _10 => _10.map, 'call', _11 => _11((p) => ({\n observer: p.observer,\n options: p.options,\n callback: (payload) => wrappedEmit({\n type: EventType.Plugin,\n data: {\n plugin: p.name,\n payload,\n },\n }),\n }))]) || [],\n }, {});\n };\n iframeManager.addLoadListener((iframeEl) => {\n try {\n handlers.push(observe(iframeEl.contentDocument));\n }\n catch (error) {\n console.warn(error);\n }\n });\n const init = () => {\n takeFullSnapshot();\n handlers.push(observe(document));\n };\n if (document.readyState === 'interactive' ||\n document.readyState === 'complete') {\n init();\n }\n else {\n handlers.push(on('DOMContentLoaded', () => {\n wrappedEmit({\n type: EventType.DomContentLoaded,\n data: {},\n });\n if (recordAfter === 'DOMContentLoaded')\n init();\n }));\n handlers.push(on('load', () => {\n wrappedEmit({\n type: EventType.Load,\n data: {},\n });\n if (recordAfter === 'load')\n init();\n }, window));\n }\n return () => {\n handlers.forEach((h) => h());\n processedNodeManager.destroy();\n _takeFullSnapshot = undefined;\n unregisterErrorHandler();\n };\n }\n catch (error) {\n console.warn(error);\n }\n}\nfunction takeFullSnapshot(isCheckout) {\n if (!_takeFullSnapshot) {\n throw new Error('please take full snapshot after start recording');\n }\n _takeFullSnapshot(isCheckout);\n}\nrecord.mirror = mirror;\nrecord.takeFullSnapshot = takeFullSnapshot;\nfunction _getCanvasManager(getCanvasManagerFn, options) {\n try {\n return getCanvasManagerFn\n ? getCanvasManagerFn(options)\n : new CanvasManagerNoop();\n }\n catch (e2) {\n console.warn('Unable to initialize CanvasManager');\n return new CanvasManagerNoop();\n }\n}\n\n/**\n * This serves as a build time flag that will be true by default, but false in non-debug builds or if users replace `__SENTRY_DEBUG__` in their generated code.\n *\n * ATTENTION: This constant must never cross package boundaries (i.e. be exported) to guarantee that it can be used for tree shaking.\n */\nconst DEBUG_BUILD = (typeof __SENTRY_DEBUG__ === 'undefined' || __SENTRY_DEBUG__);\n\nconst CONSOLE_LEVELS = ['info', 'warn', 'error', 'log'] ;\nconst PREFIX = '[Replay] ';\n\nfunction _addBreadcrumb(message, level = 'info') {\n addBreadcrumb(\n {\n category: 'console',\n data: {\n logger: 'replay',\n },\n level,\n message: `${PREFIX}${message}`,\n },\n { level },\n );\n}\n\nfunction makeReplayLogger() {\n let _capture = false;\n let _trace = false;\n\n const _logger = {\n exception: () => undefined,\n infoTick: () => undefined,\n setConfig: (opts) => {\n _capture = opts.captureExceptions;\n _trace = opts.traceInternals;\n },\n };\n\n if (DEBUG_BUILD) {\n CONSOLE_LEVELS.forEach(name => {\n _logger[name] = (...args) => {\n logger$1[name](PREFIX, ...args);\n if (_trace) {\n _addBreadcrumb(args[0]);\n }\n };\n });\n\n _logger.exception = (error, ...message) => {\n if (_logger.error) {\n _logger.error(...message);\n }\n\n logger$1.error(PREFIX, error);\n\n if (_capture) {\n captureException(error);\n } else if (_trace) {\n // No need for a breadcrumb is `_capture` is enabled since it should be\n // captured as an exception\n _addBreadcrumb(error);\n }\n };\n\n _logger.infoTick = (...args) => {\n logger$1.info(PREFIX, ...args);\n if (_trace) {\n // Wait a tick here to avoid race conditions for some initial logs\n // which may be added before replay is initialized\n setTimeout(() => _addBreadcrumb(args[0]), 0);\n }\n };\n } else {\n CONSOLE_LEVELS.forEach(name => {\n _logger[name] = () => undefined;\n });\n }\n\n return _logger ;\n}\n\nconst logger = makeReplayLogger();\n\nconst ReplayEventTypeIncrementalSnapshot = 3;\nconst ReplayEventTypeCustom = 5;\n\n/**\n * Converts a timestamp to ms, if it was in s, or keeps it as ms.\n */\nfunction timestampToMs(timestamp) {\n const isMs = timestamp > 9999999999;\n return isMs ? timestamp : timestamp * 1000;\n}\n\n/**\n * Converts a timestamp to s, if it was in ms, or keeps it as s.\n */\nfunction timestampToS(timestamp) {\n const isMs = timestamp > 9999999999;\n return isMs ? timestamp / 1000 : timestamp;\n}\n\n/**\n * Add a breadcrumb event to replay.\n */\nfunction addBreadcrumbEvent(replay, breadcrumb) {\n if (breadcrumb.category === 'sentry.transaction') {\n return;\n }\n\n if (['ui.click', 'ui.input'].includes(breadcrumb.category )) {\n replay.triggerUserActivity();\n } else {\n replay.checkAndHandleExpiredSession();\n }\n\n replay.addUpdate(() => {\n // This should never reject\n // eslint-disable-next-line @typescript-eslint/no-floating-promises\n replay.throttledAddEvent({\n type: EventType.Custom,\n // TODO: We were converting from ms to seconds for breadcrumbs, spans,\n // but maybe we should just keep them as milliseconds\n timestamp: (breadcrumb.timestamp || 0) * 1000,\n data: {\n tag: 'breadcrumb',\n // normalize to max. 10 depth and 1_000 properties per object\n payload: normalize(breadcrumb, 10, 1000),\n },\n });\n\n // Do not flush after console log messages\n return breadcrumb.category === 'console';\n });\n}\n\nconst INTERACTIVE_SELECTOR = 'button,a';\n\n/** Get the closest interactive parent element, or else return the given element. */\nfunction getClosestInteractive(element) {\n const closestInteractive = element.closest(INTERACTIVE_SELECTOR);\n return closestInteractive || element;\n}\n\n/**\n * For clicks, we check if the target is inside of a button or link\n * If so, we use this as the target instead\n * This is useful because if you click on the image in ,\n * The target will be the image, not the button, which we don't want here\n */\nfunction getClickTargetNode(event) {\n const target = getTargetNode(event);\n\n if (!target || !(target instanceof Element)) {\n return target;\n }\n\n return getClosestInteractive(target);\n}\n\n/** Get the event target node. */\nfunction getTargetNode(event) {\n if (isEventWithTarget(event)) {\n return event.target ;\n }\n\n return event;\n}\n\nfunction isEventWithTarget(event) {\n return typeof event === 'object' && !!event && 'target' in event;\n}\n\nlet handlers;\n\n/**\n * Register a handler to be called when `window.open()` is called.\n * Returns a cleanup function.\n */\nfunction onWindowOpen(cb) {\n // Ensure to only register this once\n if (!handlers) {\n handlers = [];\n monkeyPatchWindowOpen();\n }\n\n handlers.push(cb);\n\n return () => {\n const pos = handlers ? handlers.indexOf(cb) : -1;\n if (pos > -1) {\n (handlers ).splice(pos, 1);\n }\n };\n}\n\nfunction monkeyPatchWindowOpen() {\n fill(WINDOW, 'open', function (originalWindowOpen) {\n return function (...args) {\n if (handlers) {\n try {\n handlers.forEach(handler => handler());\n } catch (e) {\n // ignore errors in here\n }\n }\n\n return originalWindowOpen.apply(WINDOW, args);\n };\n });\n}\n\n/** Handle a click. */\nfunction handleClick(clickDetector, clickBreadcrumb, node) {\n clickDetector.handleClick(clickBreadcrumb, node);\n}\n\n/** A click detector class that can be used to detect slow or rage clicks on elements. */\nclass ClickDetector {\n // protected for testing\n\n constructor(\n replay,\n slowClickConfig,\n // Just for easier testing\n _addBreadcrumbEvent = addBreadcrumbEvent,\n ) {\n this._lastMutation = 0;\n this._lastScroll = 0;\n this._clicks = [];\n\n // We want everything in s, but options are in ms\n this._timeout = slowClickConfig.timeout / 1000;\n this._threshold = slowClickConfig.threshold / 1000;\n this._scollTimeout = slowClickConfig.scrollTimeout / 1000;\n this._replay = replay;\n this._ignoreSelector = slowClickConfig.ignoreSelector;\n this._addBreadcrumbEvent = _addBreadcrumbEvent;\n }\n\n /** Register click detection handlers on mutation or scroll. */\n addListeners() {\n const cleanupWindowOpen = onWindowOpen(() => {\n // Treat window.open as mutation\n this._lastMutation = nowInSeconds();\n });\n\n this._teardown = () => {\n cleanupWindowOpen();\n\n this._clicks = [];\n this._lastMutation = 0;\n this._lastScroll = 0;\n };\n }\n\n /** Clean up listeners. */\n removeListeners() {\n if (this._teardown) {\n this._teardown();\n }\n\n if (this._checkClickTimeout) {\n clearTimeout(this._checkClickTimeout);\n }\n }\n\n /** @inheritDoc */\n handleClick(breadcrumb, node) {\n if (ignoreElement(node, this._ignoreSelector) || !isClickBreadcrumb(breadcrumb)) {\n return;\n }\n\n const newClick = {\n timestamp: timestampToS(breadcrumb.timestamp),\n clickBreadcrumb: breadcrumb,\n // Set this to 0 so we know it originates from the click breadcrumb\n clickCount: 0,\n node,\n };\n\n // If there was a click in the last 1s on the same element, ignore it - only keep a single reference per second\n if (\n this._clicks.some(click => click.node === newClick.node && Math.abs(click.timestamp - newClick.timestamp) < 1)\n ) {\n return;\n }\n\n this._clicks.push(newClick);\n\n // If this is the first new click, set a timeout to check for multi clicks\n if (this._clicks.length === 1) {\n this._scheduleCheckClicks();\n }\n }\n\n /** @inheritDoc */\n registerMutation(timestamp = Date.now()) {\n this._lastMutation = timestampToS(timestamp);\n }\n\n /** @inheritDoc */\n registerScroll(timestamp = Date.now()) {\n this._lastScroll = timestampToS(timestamp);\n }\n\n /** @inheritDoc */\n registerClick(element) {\n const node = getClosestInteractive(element);\n this._handleMultiClick(node );\n }\n\n /** Count multiple clicks on elements. */\n _handleMultiClick(node) {\n this._getClicks(node).forEach(click => {\n click.clickCount++;\n });\n }\n\n /** Get all pending clicks for a given node. */\n _getClicks(node) {\n return this._clicks.filter(click => click.node === node);\n }\n\n /** Check the clicks that happened. */\n _checkClicks() {\n const timedOutClicks = [];\n\n const now = nowInSeconds();\n\n this._clicks.forEach(click => {\n if (!click.mutationAfter && this._lastMutation) {\n click.mutationAfter = click.timestamp <= this._lastMutation ? this._lastMutation - click.timestamp : undefined;\n }\n if (!click.scrollAfter && this._lastScroll) {\n click.scrollAfter = click.timestamp <= this._lastScroll ? this._lastScroll - click.timestamp : undefined;\n }\n\n // All of these are in seconds!\n if (click.timestamp + this._timeout <= now) {\n timedOutClicks.push(click);\n }\n });\n\n // Remove \"old\" clicks\n for (const click of timedOutClicks) {\n const pos = this._clicks.indexOf(click);\n\n if (pos > -1) {\n this._generateBreadcrumbs(click);\n this._clicks.splice(pos, 1);\n }\n }\n\n // Trigger new check, unless no clicks left\n if (this._clicks.length) {\n this._scheduleCheckClicks();\n }\n }\n\n /** Generate matching breadcrumb(s) for the click. */\n _generateBreadcrumbs(click) {\n const replay = this._replay;\n const hadScroll = click.scrollAfter && click.scrollAfter <= this._scollTimeout;\n const hadMutation = click.mutationAfter && click.mutationAfter <= this._threshold;\n\n const isSlowClick = !hadScroll && !hadMutation;\n const { clickCount, clickBreadcrumb } = click;\n\n // Slow click\n if (isSlowClick) {\n // If `mutationAfter` is set, it means a mutation happened after the threshold, but before the timeout\n // If not, it means we just timed out without scroll & mutation\n const timeAfterClickMs = Math.min(click.mutationAfter || this._timeout, this._timeout) * 1000;\n const endReason = timeAfterClickMs < this._timeout * 1000 ? 'mutation' : 'timeout';\n\n const breadcrumb = {\n type: 'default',\n message: clickBreadcrumb.message,\n timestamp: clickBreadcrumb.timestamp,\n category: 'ui.slowClickDetected',\n data: {\n ...clickBreadcrumb.data,\n url: WINDOW.location.href,\n route: replay.getCurrentRoute(),\n timeAfterClickMs,\n endReason,\n // If clickCount === 0, it means multiClick was not correctly captured here\n // - we still want to send 1 in this case\n clickCount: clickCount || 1,\n },\n };\n\n this._addBreadcrumbEvent(replay, breadcrumb);\n return;\n }\n\n // Multi click\n if (clickCount > 1) {\n const breadcrumb = {\n type: 'default',\n message: clickBreadcrumb.message,\n timestamp: clickBreadcrumb.timestamp,\n category: 'ui.multiClick',\n data: {\n ...clickBreadcrumb.data,\n url: WINDOW.location.href,\n route: replay.getCurrentRoute(),\n clickCount,\n metric: true,\n },\n };\n\n this._addBreadcrumbEvent(replay, breadcrumb);\n }\n }\n\n /** Schedule to check current clicks. */\n _scheduleCheckClicks() {\n if (this._checkClickTimeout) {\n clearTimeout(this._checkClickTimeout);\n }\n\n this._checkClickTimeout = setTimeout$3(() => this._checkClicks(), 1000);\n }\n}\n\nconst SLOW_CLICK_TAGS = ['A', 'BUTTON', 'INPUT'];\n\n/** exported for tests only */\nfunction ignoreElement(node, ignoreSelector) {\n if (!SLOW_CLICK_TAGS.includes(node.tagName)) {\n return true;\n }\n\n // If tag, we only want to consider input[type='submit'] & input[type='button']\n if (node.tagName === 'INPUT' && !['submit', 'button'].includes(node.getAttribute('type') || '')) {\n return true;\n }\n\n // If tag, detect special variants that may not lead to an action\n // If target !== _self, we may open the link somewhere else, which would lead to no action\n // Also, when downloading a file, we may not leave the page, but still not trigger an action\n if (\n node.tagName === 'A' &&\n (node.hasAttribute('download') || (node.hasAttribute('target') && node.getAttribute('target') !== '_self'))\n ) {\n return true;\n }\n\n if (ignoreSelector && node.matches(ignoreSelector)) {\n return true;\n }\n\n return false;\n}\n\nfunction isClickBreadcrumb(breadcrumb) {\n return !!(breadcrumb.data && typeof breadcrumb.data.nodeId === 'number' && breadcrumb.timestamp);\n}\n\n// This is good enough for us, and is easier to test/mock than `timestampInSeconds`\nfunction nowInSeconds() {\n return Date.now() / 1000;\n}\n\n/** Update the click detector based on a recording event of rrweb. */\nfunction updateClickDetectorForRecordingEvent(clickDetector, event) {\n try {\n // note: We only consider incremental snapshots here\n // This means that any full snapshot is ignored for mutation detection - the reason is that we simply cannot know if a mutation happened here.\n // E.g. think that we are buffering, an error happens and we take a full snapshot because we switched to session mode -\n // in this scenario, we would not know if a dead click happened because of the error, which is a key dead click scenario.\n // Instead, by ignoring full snapshots, we have the risk that we generate a false positive\n // (if a mutation _did_ happen but was \"swallowed\" by the full snapshot)\n // But this should be more unlikely as we'd generally capture the incremental snapshot right away\n\n if (!isIncrementalEvent(event)) {\n return;\n }\n\n const { source } = event.data;\n if (source === IncrementalSource.Mutation) {\n clickDetector.registerMutation(event.timestamp);\n }\n\n if (source === IncrementalSource.Scroll) {\n clickDetector.registerScroll(event.timestamp);\n }\n\n if (isIncrementalMouseInteraction(event)) {\n const { type, id } = event.data;\n const node = record.mirror.getNode(id);\n\n if (node instanceof HTMLElement && type === MouseInteractions.Click) {\n clickDetector.registerClick(node);\n }\n }\n } catch (e) {\n // ignore errors here, e.g. if accessing something that does not exist\n }\n}\n\nfunction isIncrementalEvent(event) {\n return event.type === ReplayEventTypeIncrementalSnapshot;\n}\n\nfunction isIncrementalMouseInteraction(\n event,\n) {\n return event.data.source === IncrementalSource.MouseInteraction;\n}\n\n/**\n * Create a breadcrumb for a replay.\n */\nfunction createBreadcrumb(\n breadcrumb,\n) {\n return {\n timestamp: Date.now() / 1000,\n type: 'default',\n ...breadcrumb,\n };\n}\n\nvar NodeType;\n(function (NodeType) {\n NodeType[NodeType[\"Document\"] = 0] = \"Document\";\n NodeType[NodeType[\"DocumentType\"] = 1] = \"DocumentType\";\n NodeType[NodeType[\"Element\"] = 2] = \"Element\";\n NodeType[NodeType[\"Text\"] = 3] = \"Text\";\n NodeType[NodeType[\"CDATA\"] = 4] = \"CDATA\";\n NodeType[NodeType[\"Comment\"] = 5] = \"Comment\";\n})(NodeType || (NodeType = {}));\n\n// Note that these are the serialized attributes and not attributes directly on\n// the DOM Node. Attributes we are interested in:\nconst ATTRIBUTES_TO_RECORD = new Set([\n 'id',\n 'class',\n 'aria-label',\n 'role',\n 'name',\n 'alt',\n 'title',\n 'data-test-id',\n 'data-testid',\n 'disabled',\n 'aria-disabled',\n 'data-sentry-component',\n]);\n\n/**\n * Inclusion list of attributes that we want to record from the DOM element\n */\nfunction getAttributesToRecord(attributes) {\n const obj = {};\n if (!attributes['data-sentry-component'] && attributes['data-sentry-element']) {\n attributes['data-sentry-component'] = attributes['data-sentry-element'];\n }\n for (const key in attributes) {\n if (ATTRIBUTES_TO_RECORD.has(key)) {\n let normalizedKey = key;\n\n if (key === 'data-testid' || key === 'data-test-id') {\n normalizedKey = 'testId';\n }\n\n obj[normalizedKey] = attributes[key];\n }\n }\n\n return obj;\n}\n\nconst handleDomListener = (\n replay,\n) => {\n return (handlerData) => {\n if (!replay.isEnabled()) {\n return;\n }\n\n const result = handleDom(handlerData);\n\n if (!result) {\n return;\n }\n\n const isClick = handlerData.name === 'click';\n const event = isClick ? (handlerData.event ) : undefined;\n // Ignore clicks if ctrl/alt/meta/shift keys are held down as they alter behavior of clicks (e.g. open in new tab)\n if (\n isClick &&\n replay.clickDetector &&\n event &&\n event.target &&\n !event.altKey &&\n !event.metaKey &&\n !event.ctrlKey &&\n !event.shiftKey\n ) {\n handleClick(\n replay.clickDetector,\n result ,\n getClickTargetNode(handlerData.event ) ,\n );\n }\n\n addBreadcrumbEvent(replay, result);\n };\n};\n\n/** Get the base DOM breadcrumb. */\nfunction getBaseDomBreadcrumb(target, message) {\n const nodeId = record.mirror.getId(target);\n const node = nodeId && record.mirror.getNode(nodeId);\n const meta = node && record.mirror.getMeta(node);\n const element = meta && isElement(meta) ? meta : null;\n\n return {\n message,\n data: element\n ? {\n nodeId,\n node: {\n id: nodeId,\n tagName: element.tagName,\n textContent: Array.from(element.childNodes)\n .map((node) => node.type === NodeType.Text && node.textContent)\n .filter(Boolean) // filter out empty values\n .map(text => (text ).trim())\n .join(''),\n attributes: getAttributesToRecord(element.attributes),\n },\n }\n : {},\n };\n}\n\n/**\n * An event handler to react to DOM events.\n * Exported for tests.\n */\nfunction handleDom(handlerData) {\n const { target, message } = getDomTarget(handlerData);\n\n return createBreadcrumb({\n category: `ui.${handlerData.name}`,\n ...getBaseDomBreadcrumb(target, message),\n });\n}\n\nfunction getDomTarget(handlerData) {\n const isClick = handlerData.name === 'click';\n\n let message;\n let target = null;\n\n // Accessing event.target can throw (see getsentry/raven-js#838, #768)\n try {\n target = isClick ? getClickTargetNode(handlerData.event ) : getTargetNode(handlerData.event );\n message = htmlTreeAsString(target, { maxStringLength: 200 }) || '';\n } catch (e) {\n message = '';\n }\n\n return { target, message };\n}\n\nfunction isElement(node) {\n return node.type === NodeType.Element;\n}\n\n/** Handle keyboard events & create breadcrumbs. */\nfunction handleKeyboardEvent(replay, event) {\n if (!replay.isEnabled()) {\n return;\n }\n\n // Update user activity, but do not restart recording as it can create\n // noisy/low-value replays (e.g. user comes back from idle, hits alt-tab, new\n // session with a single \"keydown\" breadcrumb is created)\n replay.updateUserActivity();\n\n const breadcrumb = getKeyboardBreadcrumb(event);\n\n if (!breadcrumb) {\n return;\n }\n\n addBreadcrumbEvent(replay, breadcrumb);\n}\n\n/** exported only for tests */\nfunction getKeyboardBreadcrumb(event) {\n const { metaKey, shiftKey, ctrlKey, altKey, key, target } = event;\n\n // never capture for input fields\n if (!target || isInputElement(target ) || !key) {\n return null;\n }\n\n // Note: We do not consider shift here, as that means \"uppercase\"\n const hasModifierKey = metaKey || ctrlKey || altKey;\n const isCharacterKey = key.length === 1; // other keys like Escape, Tab, etc have a longer length\n\n // Do not capture breadcrumb if only a word key is pressed\n // This could leak e.g. user input\n if (!hasModifierKey && isCharacterKey) {\n return null;\n }\n\n const message = htmlTreeAsString(target, { maxStringLength: 200 }) || '';\n const baseBreadcrumb = getBaseDomBreadcrumb(target , message);\n\n return createBreadcrumb({\n category: 'ui.keyDown',\n message,\n data: {\n ...baseBreadcrumb.data,\n metaKey,\n shiftKey,\n ctrlKey,\n altKey,\n key,\n },\n });\n}\n\nfunction isInputElement(target) {\n return target.tagName === 'INPUT' || target.tagName === 'TEXTAREA' || target.isContentEditable;\n}\n\n// Map entryType -> function to normalize data for event\nconst ENTRY_TYPES\n\n = {\n // @ts-expect-error TODO: entry type does not fit the create* functions entry type\n resource: createResourceEntry,\n paint: createPaintEntry,\n // @ts-expect-error TODO: entry type does not fit the create* functions entry type\n navigation: createNavigationEntry,\n};\n\n/**\n * Handler creater for web vitals\n */\nfunction webVitalHandler(\n getter,\n replay,\n) {\n return ({ metric }) => void replay.replayPerformanceEntries.push(getter(metric));\n}\n\n/**\n * Create replay performance entries from the browser performance entries.\n */\nfunction createPerformanceEntries(\n entries,\n) {\n return entries.map(createPerformanceEntry).filter(Boolean) ;\n}\n\nfunction createPerformanceEntry(entry) {\n const entryType = ENTRY_TYPES[entry.entryType];\n if (!entryType) {\n return null;\n }\n\n return entryType(entry);\n}\n\nfunction getAbsoluteTime(time) {\n // browserPerformanceTimeOrigin can be undefined if `performance` or\n // `performance.now` doesn't exist, but this is already checked by this integration\n return ((browserPerformanceTimeOrigin || WINDOW.performance.timeOrigin) + time) / 1000;\n}\n\nfunction createPaintEntry(entry) {\n const { duration, entryType, name, startTime } = entry;\n\n const start = getAbsoluteTime(startTime);\n return {\n type: entryType,\n name,\n start,\n end: start + duration,\n data: undefined,\n };\n}\n\nfunction createNavigationEntry(entry) {\n const {\n entryType,\n name,\n decodedBodySize,\n duration,\n domComplete,\n encodedBodySize,\n domContentLoadedEventStart,\n domContentLoadedEventEnd,\n domInteractive,\n loadEventStart,\n loadEventEnd,\n redirectCount,\n startTime,\n transferSize,\n type,\n } = entry;\n\n // Ignore entries with no duration, they do not seem to be useful and cause dupes\n if (duration === 0) {\n return null;\n }\n\n return {\n type: `${entryType}.${type}`,\n start: getAbsoluteTime(startTime),\n end: getAbsoluteTime(domComplete),\n name,\n data: {\n size: transferSize,\n decodedBodySize,\n encodedBodySize,\n duration,\n domInteractive,\n domContentLoadedEventStart,\n domContentLoadedEventEnd,\n loadEventStart,\n loadEventEnd,\n domComplete,\n redirectCount,\n },\n };\n}\n\nfunction createResourceEntry(\n entry,\n) {\n const {\n entryType,\n initiatorType,\n name,\n responseEnd,\n startTime,\n decodedBodySize,\n encodedBodySize,\n responseStatus,\n transferSize,\n } = entry;\n\n // Core SDK handles these\n if (['fetch', 'xmlhttprequest'].includes(initiatorType)) {\n return null;\n }\n\n return {\n type: `${entryType}.${initiatorType}`,\n start: getAbsoluteTime(startTime),\n end: getAbsoluteTime(responseEnd),\n name,\n data: {\n size: transferSize,\n statusCode: responseStatus,\n decodedBodySize,\n encodedBodySize,\n },\n };\n}\n\n/**\n * Add a LCP event to the replay based on a LCP metric.\n */\nfunction getLargestContentfulPaint(metric) {\n const lastEntry = metric.entries[metric.entries.length - 1] ;\n const node = lastEntry && lastEntry.element ? 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class{constructor(){this._init()}clear(){this._init()}addEvent(t){if(!t)throw new Error(\"Adding invalid event\");const n=this._hasEvents?\",\":\"\";this.stream.push(n+t),this._hasEvents=!0}finish(){this.stream.push(\"]\",!0);const t=function(t){let n=0;for(const r of t)n+=r.length;const r=new Uint8Array(n);for(let n=0,e=0,i=t.length;n{this._deflatedData.push(t)},this.stream=new N(((t,n)=>{this.deflate.push(t,n)})),this.stream.push(\"[\")}},V={clear:()=>{R.clear()},addEvent:t=>R.addEvent(t),finish:()=>R.finish(),compress:t=>Q(t)};addEventListener(\"message\",(function(t){const n=t.data.method,r=t.data.id,e=t.data.arg;if(n in V&&\"function\"==typeof V[n])try{const t=V[n](e);postMessage({id:r,method:n,success:!0,response:t})}catch(t){postMessage({id:r,method:n,success:!1,response:t.message}),console.error(t)}})),postMessage({id:void 0,method:\"init\",success:!0,response:void 0});`;\n\nfunction e(){const e=new Blob([r]);return URL.createObjectURL(e)}\n\n/** This error indicates that the event buffer size exceeded the limit.. */\nclass EventBufferSizeExceededError extends Error {\n constructor() {\n super(`Event buffer exceeded maximum size of ${REPLAY_MAX_EVENT_BUFFER_SIZE}.`);\n }\n}\n\n/**\n * A basic event buffer that does not do any compression.\n * Used as fallback if the compression worker cannot be loaded or is disabled.\n */\nclass EventBufferArray {\n /** All the events that are buffered to be sent. */\n\n /** @inheritdoc */\n\n constructor() {\n this.events = [];\n this._totalSize = 0;\n this.hasCheckout = false;\n }\n\n /** @inheritdoc */\n get hasEvents() {\n return this.events.length > 0;\n }\n\n /** @inheritdoc */\n get type() {\n return 'sync';\n }\n\n /** @inheritdoc */\n destroy() {\n this.events = [];\n }\n\n /** @inheritdoc */\n async addEvent(event) {\n const eventSize = JSON.stringify(event).length;\n this._totalSize += eventSize;\n if (this._totalSize > REPLAY_MAX_EVENT_BUFFER_SIZE) {\n throw new EventBufferSizeExceededError();\n }\n\n this.events.push(event);\n }\n\n /** @inheritdoc */\n finish() {\n return new Promise(resolve => {\n // Make a copy of the events array reference and immediately clear the\n // events member so that we do not lose new events while uploading\n // attachment.\n const eventsRet = this.events;\n this.clear();\n resolve(JSON.stringify(eventsRet));\n });\n }\n\n /** @inheritdoc */\n clear() {\n this.events = [];\n this._totalSize = 0;\n this.hasCheckout = false;\n }\n\n /** @inheritdoc */\n getEarliestTimestamp() {\n const timestamp = this.events.map(event => event.timestamp).sort()[0];\n\n if (!timestamp) {\n return null;\n }\n\n return timestampToMs(timestamp);\n }\n}\n\n/**\n * Event buffer that uses a web worker to compress events.\n * Exported only for testing.\n */\nclass WorkerHandler {\n\n constructor(worker) {\n this._worker = worker;\n this._id = 0;\n }\n\n /**\n * Ensure the worker is ready (or not).\n * This will either resolve when the worker is ready, or reject if an error occured.\n */\n ensureReady() {\n // Ensure we only check once\n if (this._ensureReadyPromise) {\n return this._ensureReadyPromise;\n }\n\n this._ensureReadyPromise = new Promise((resolve, reject) => {\n this._worker.addEventListener(\n 'message',\n ({ data }) => {\n if ((data ).success) {\n resolve();\n } else {\n reject();\n }\n },\n { once: true },\n );\n\n this._worker.addEventListener(\n 'error',\n error => {\n reject(error);\n },\n { once: true },\n );\n });\n\n return this._ensureReadyPromise;\n }\n\n /**\n * Destroy the worker.\n */\n destroy() {\n DEBUG_BUILD && logger.info('Destroying compression worker');\n this._worker.terminate();\n }\n\n /**\n * Post message to worker and wait for response before resolving promise.\n */\n postMessage(method, arg) {\n const id = this._getAndIncrementId();\n\n return new Promise((resolve, reject) => {\n const listener = ({ data }) => {\n const response = data ;\n if (response.method !== method) {\n return;\n }\n\n // There can be multiple listeners for a single method, the id ensures\n // that the response matches the caller.\n if (response.id !== id) {\n return;\n }\n\n // At this point, we'll always want to remove listener regardless of result status\n this._worker.removeEventListener('message', listener);\n\n if (!response.success) {\n // TODO: Do some error handling, not sure what\n DEBUG_BUILD && logger.error('Error in compression worker: ', response.response);\n\n reject(new Error('Error in compression worker'));\n return;\n }\n\n resolve(response.response );\n };\n\n // Note: we can't use `once` option because it's possible it needs to\n // listen to multiple messages\n this._worker.addEventListener('message', listener);\n this._worker.postMessage({ id, method, arg });\n });\n }\n\n /** Get the current ID and increment it for the next call. */\n _getAndIncrementId() {\n return this._id++;\n }\n}\n\n/**\n * Event buffer that uses a web worker to compress events.\n * Exported only for testing.\n */\nclass EventBufferCompressionWorker {\n /** @inheritdoc */\n\n constructor(worker) {\n this._worker = new WorkerHandler(worker);\n this._earliestTimestamp = null;\n this._totalSize = 0;\n this.hasCheckout = false;\n }\n\n /** @inheritdoc */\n get hasEvents() {\n return !!this._earliestTimestamp;\n }\n\n /** @inheritdoc */\n get type() {\n return 'worker';\n }\n\n /**\n * Ensure the worker is ready (or not).\n * This will either resolve when the worker is ready, or reject if an error occured.\n */\n ensureReady() {\n return this._worker.ensureReady();\n }\n\n /**\n * Destroy the event buffer.\n */\n destroy() {\n this._worker.destroy();\n }\n\n /**\n * Add an event to the event buffer.\n *\n * Returns true if event was successfuly received and processed by worker.\n */\n addEvent(event) {\n const timestamp = timestampToMs(event.timestamp);\n if (!this._earliestTimestamp || timestamp < this._earliestTimestamp) {\n this._earliestTimestamp = timestamp;\n }\n\n const data = JSON.stringify(event);\n this._totalSize += data.length;\n\n if (this._totalSize > REPLAY_MAX_EVENT_BUFFER_SIZE) {\n return Promise.reject(new EventBufferSizeExceededError());\n }\n\n return this._sendEventToWorker(data);\n }\n\n /**\n * Finish the event buffer and return the compressed data.\n */\n finish() {\n return this._finishRequest();\n }\n\n /** @inheritdoc */\n clear() {\n this._earliestTimestamp = null;\n this._totalSize = 0;\n this.hasCheckout = false;\n\n // We do not wait on this, as we assume the order of messages is consistent for the worker\n this._worker.postMessage('clear').then(null, e => {\n DEBUG_BUILD && logger.exception(e, 'Sending \"clear\" message to worker failed', e);\n });\n }\n\n /** @inheritdoc */\n getEarliestTimestamp() {\n return this._earliestTimestamp;\n }\n\n /**\n * Send the event to the worker.\n */\n _sendEventToWorker(data) {\n return this._worker.postMessage('addEvent', data);\n }\n\n /**\n * Finish the request and return the compressed data from the worker.\n */\n async _finishRequest() {\n const response = await this._worker.postMessage('finish');\n\n this._earliestTimestamp = null;\n this._totalSize = 0;\n\n return response;\n }\n}\n\n/**\n * This proxy will try to use the compression worker, and fall back to use the simple buffer if an error occurs there.\n * This can happen e.g. if the worker cannot be loaded.\n * Exported only for testing.\n */\nclass EventBufferProxy {\n\n constructor(worker) {\n this._fallback = new EventBufferArray();\n this._compression = new EventBufferCompressionWorker(worker);\n this._used = this._fallback;\n\n this._ensureWorkerIsLoadedPromise = this._ensureWorkerIsLoaded();\n }\n\n /** @inheritdoc */\n get type() {\n return this._used.type;\n }\n\n /** @inheritDoc */\n get hasEvents() {\n return this._used.hasEvents;\n }\n\n /** @inheritdoc */\n get hasCheckout() {\n return this._used.hasCheckout;\n }\n /** @inheritdoc */\n set hasCheckout(value) {\n this._used.hasCheckout = value;\n }\n\n /** @inheritDoc */\n destroy() {\n this._fallback.destroy();\n this._compression.destroy();\n }\n\n /** @inheritdoc */\n clear() {\n return this._used.clear();\n }\n\n /** @inheritdoc */\n getEarliestTimestamp() {\n return this._used.getEarliestTimestamp();\n }\n\n /**\n * Add an event to the event buffer.\n *\n * Returns true if event was successfully added.\n */\n addEvent(event) {\n return this._used.addEvent(event);\n }\n\n /** @inheritDoc */\n async finish() {\n // Ensure the worker is loaded, so the sent event is compressed\n await this.ensureWorkerIsLoaded();\n\n return this._used.finish();\n }\n\n /** Ensure the worker has loaded. */\n ensureWorkerIsLoaded() {\n return this._ensureWorkerIsLoadedPromise;\n }\n\n /** Actually check if the worker has been loaded. */\n async _ensureWorkerIsLoaded() {\n try {\n await this._compression.ensureReady();\n } catch (error) {\n // If the worker fails to load, we fall back to the simple buffer.\n // Nothing more to do from our side here\n DEBUG_BUILD && logger.exception(error, 'Failed to load the compression worker, falling back to simple buffer');\n return;\n }\n\n // Now we need to switch over the array buffer to the compression worker\n await this._switchToCompressionWorker();\n }\n\n /** Switch the used buffer to the compression worker. */\n async _switchToCompressionWorker() {\n const { events, hasCheckout } = this._fallback;\n\n const addEventPromises = [];\n for (const event of events) {\n addEventPromises.push(this._compression.addEvent(event));\n }\n\n this._compression.hasCheckout = hasCheckout;\n\n // We switch over to the new buffer immediately - any further events will be added\n // after the previously buffered ones\n this._used = this._compression;\n\n // Wait for original events to be re-added before resolving\n try {\n await Promise.all(addEventPromises);\n } catch (error) {\n DEBUG_BUILD && logger.exception(error, 'Failed to add events when switching buffers.');\n }\n }\n}\n\n/**\n * Create an event buffer for replays.\n */\nfunction createEventBuffer({\n useCompression,\n workerUrl: customWorkerUrl,\n}) {\n if (\n useCompression &&\n // eslint-disable-next-line no-restricted-globals\n window.Worker\n ) {\n const worker = _loadWorker(customWorkerUrl);\n\n if (worker) {\n return worker;\n }\n }\n\n DEBUG_BUILD && logger.info('Using simple buffer');\n return new EventBufferArray();\n}\n\nfunction _loadWorker(customWorkerUrl) {\n try {\n const workerUrl = customWorkerUrl || _getWorkerUrl();\n\n if (!workerUrl) {\n return;\n }\n\n DEBUG_BUILD && logger.info(`Using compression worker${customWorkerUrl ? ` from ${customWorkerUrl}` : ''}`);\n const worker = new Worker(workerUrl);\n return new EventBufferProxy(worker);\n } catch (error) {\n DEBUG_BUILD && logger.exception(error, 'Failed to create compression worker');\n // Fall back to use simple event buffer array\n }\n}\n\nfunction _getWorkerUrl() {\n if (typeof __SENTRY_EXCLUDE_REPLAY_WORKER__ === 'undefined' || !__SENTRY_EXCLUDE_REPLAY_WORKER__) {\n return e();\n }\n\n return '';\n}\n\n/** If sessionStorage is available. */\nfunction hasSessionStorage() {\n try {\n // This can throw, e.g. when being accessed in a sandboxed iframe\n return 'sessionStorage' in WINDOW && !!WINDOW.sessionStorage;\n } catch (e) {\n return false;\n }\n}\n\n/**\n * Removes the session from Session Storage and unsets session in replay instance\n */\nfunction clearSession(replay) {\n deleteSession();\n replay.session = undefined;\n}\n\n/**\n * Deletes a session from storage\n */\nfunction deleteSession() {\n if (!hasSessionStorage()) {\n return;\n }\n\n try {\n WINDOW.sessionStorage.removeItem(REPLAY_SESSION_KEY);\n } catch (e) {\n // Ignore potential SecurityError exceptions\n }\n}\n\n/**\n * Given a sample rate, returns true if replay should be sampled.\n *\n * 1.0 = 100% sampling\n * 0.0 = 0% sampling\n */\nfunction isSampled(sampleRate) {\n if (sampleRate === undefined) {\n return false;\n }\n\n // Math.random() returns a number in range of 0 to 1 (inclusive of 0, but not 1)\n return Math.random() < sampleRate;\n}\n\n/**\n * Get a session with defaults & applied sampling.\n */\nfunction makeSession(session) {\n const now = Date.now();\n const id = session.id || uuid4();\n // Note that this means we cannot set a started/lastActivity of `0`, but this should not be relevant outside of tests.\n const started = session.started || now;\n const lastActivity = session.lastActivity || now;\n const segmentId = session.segmentId || 0;\n const sampled = session.sampled;\n const previousSessionId = session.previousSessionId;\n\n return {\n id,\n started,\n lastActivity,\n segmentId,\n sampled,\n previousSessionId,\n };\n}\n\n/**\n * Save a session to session storage.\n */\nfunction saveSession(session) {\n if (!hasSessionStorage()) {\n return;\n }\n\n try {\n WINDOW.sessionStorage.setItem(REPLAY_SESSION_KEY, JSON.stringify(session));\n } catch (e) {\n // Ignore potential SecurityError exceptions\n }\n}\n\n/**\n * Get the sampled status for a session based on sample rates & current sampled status.\n */\nfunction getSessionSampleType(sessionSampleRate, allowBuffering) {\n return isSampled(sessionSampleRate) ? 'session' : allowBuffering ? 'buffer' : false;\n}\n\n/**\n * Create a new session, which in its current implementation is a Sentry event\n * that all replays will be saved to as attachments. Currently, we only expect\n * one of these Sentry events per \"replay session\".\n */\nfunction createSession(\n { sessionSampleRate, allowBuffering, stickySession = false },\n { previousSessionId } = {},\n) {\n const sampled = getSessionSampleType(sessionSampleRate, allowBuffering);\n const session = makeSession({\n sampled,\n previousSessionId,\n });\n\n if (stickySession) {\n saveSession(session);\n }\n\n return session;\n}\n\n/**\n * Fetches a session from storage\n */\nfunction fetchSession() {\n if (!hasSessionStorage()) {\n return null;\n }\n\n try {\n // This can throw if cookies are disabled\n const sessionStringFromStorage = WINDOW.sessionStorage.getItem(REPLAY_SESSION_KEY);\n\n if (!sessionStringFromStorage) {\n return null;\n }\n\n const sessionObj = JSON.parse(sessionStringFromStorage) ;\n\n DEBUG_BUILD && logger.infoTick('Loading existing session');\n\n return makeSession(sessionObj);\n } catch (e) {\n return null;\n }\n}\n\n/**\n * Given an initial timestamp and an expiry duration, checks to see if current\n * time should be considered as expired.\n */\nfunction isExpired(\n initialTime,\n expiry,\n targetTime = +new Date(),\n) {\n // Always expired if < 0\n if (initialTime === null || expiry === undefined || expiry < 0) {\n return true;\n }\n\n // Never expires if == 0\n if (expiry === 0) {\n return false;\n }\n\n return initialTime + expiry <= targetTime;\n}\n\n/**\n * Checks to see if session is expired\n */\nfunction isSessionExpired(\n session,\n {\n maxReplayDuration,\n sessionIdleExpire,\n targetTime = Date.now(),\n },\n) {\n return (\n // First, check that maximum session length has not been exceeded\n isExpired(session.started, maxReplayDuration, targetTime) ||\n // check that the idle timeout has not been exceeded (i.e. user has\n // performed an action within the last `sessionIdleExpire` ms)\n isExpired(session.lastActivity, sessionIdleExpire, targetTime)\n );\n}\n\n/** If the session should be refreshed or not. */\nfunction shouldRefreshSession(\n session,\n { sessionIdleExpire, maxReplayDuration },\n) {\n // If not expired, all good, just keep the session\n if (!isSessionExpired(session, { sessionIdleExpire, maxReplayDuration })) {\n return false;\n }\n\n // If we are buffering & haven't ever flushed yet, always continue\n if (session.sampled === 'buffer' && session.segmentId === 0) {\n return false;\n }\n\n return true;\n}\n\n/**\n * Get or create a session, when initializing the replay.\n * Returns a session that may be unsampled.\n */\nfunction loadOrCreateSession(\n {\n sessionIdleExpire,\n maxReplayDuration,\n previousSessionId,\n }\n\n,\n sessionOptions,\n) {\n const existingSession = sessionOptions.stickySession && fetchSession();\n\n // No session exists yet, just create a new one\n if (!existingSession) {\n DEBUG_BUILD && logger.infoTick('Creating new session');\n return createSession(sessionOptions, { previousSessionId });\n }\n\n if (!shouldRefreshSession(existingSession, { sessionIdleExpire, maxReplayDuration })) {\n return existingSession;\n }\n\n DEBUG_BUILD && logger.infoTick('Session in sessionStorage is expired, creating new one...');\n return createSession(sessionOptions, { previousSessionId: existingSession.id });\n}\n\nfunction isCustomEvent(event) {\n return event.type === EventType.Custom;\n}\n\n/**\n * Add an event to the event buffer.\n * In contrast to `addEvent`, this does not return a promise & does not wait for the adding of the event to succeed/fail.\n * Instead this returns `true` if we tried to add the event, else false.\n * It returns `false` e.g. if we are paused, disabled, or out of the max replay duration.\n *\n * `isCheckout` is true if this is either the very first event, or an event triggered by `checkoutEveryNms`.\n */\nfunction addEventSync(replay, event, isCheckout) {\n if (!shouldAddEvent(replay, event)) {\n return false;\n }\n\n // This should never reject\n // eslint-disable-next-line @typescript-eslint/no-floating-promises\n _addEvent(replay, event, isCheckout);\n\n return true;\n}\n\n/**\n * Add an event to the event buffer.\n * Resolves to `null` if no event was added, else to `void`.\n *\n * `isCheckout` is true if this is either the very first event, or an event triggered by `checkoutEveryNms`.\n */\nfunction addEvent(\n replay,\n event,\n isCheckout,\n) {\n if (!shouldAddEvent(replay, event)) {\n return Promise.resolve(null);\n }\n\n return _addEvent(replay, event, isCheckout);\n}\n\nasync function _addEvent(\n replay,\n event,\n isCheckout,\n) {\n if (!replay.eventBuffer) {\n return null;\n }\n\n try {\n if (isCheckout && replay.recordingMode === 'buffer') {\n replay.eventBuffer.clear();\n }\n\n if (isCheckout) {\n replay.eventBuffer.hasCheckout = true;\n }\n\n const replayOptions = replay.getOptions();\n\n const eventAfterPossibleCallback = maybeApplyCallback(event, replayOptions.beforeAddRecordingEvent);\n\n if (!eventAfterPossibleCallback) {\n return;\n }\n\n return await replay.eventBuffer.addEvent(eventAfterPossibleCallback);\n } catch (error) {\n const reason = error && error instanceof EventBufferSizeExceededError ? 'addEventSizeExceeded' : 'addEvent';\n replay.handleException(error);\n\n await replay.stop({ reason });\n\n const client = getClient();\n\n if (client) {\n client.recordDroppedEvent('internal_sdk_error', 'replay');\n }\n }\n}\n\n/** Exported only for tests. */\nfunction shouldAddEvent(replay, event) {\n if (!replay.eventBuffer || replay.isPaused() || !replay.isEnabled()) {\n return false;\n }\n\n const timestampInMs = timestampToMs(event.timestamp);\n\n // Throw out events that happen more than 5 minutes ago. This can happen if\n // page has been left open and idle for a long period of time and user\n // comes back to trigger a new session. The performance entries rely on\n // `performance.timeOrigin`, which is when the page first opened.\n if (timestampInMs + replay.timeouts.sessionIdlePause < Date.now()) {\n return false;\n }\n\n // Throw out events that are +60min from the initial timestamp\n if (timestampInMs > replay.getContext().initialTimestamp + replay.getOptions().maxReplayDuration) {\n DEBUG_BUILD &&\n logger.infoTick(`Skipping event with timestamp ${timestampInMs} because it is after maxReplayDuration`);\n return false;\n }\n\n return true;\n}\n\nfunction maybeApplyCallback(\n event,\n callback,\n) {\n try {\n if (typeof callback === 'function' && isCustomEvent(event)) {\n return callback(event);\n }\n } catch (error) {\n DEBUG_BUILD &&\n logger.exception(error, 'An error occured in the `beforeAddRecordingEvent` callback, skipping the event...');\n return null;\n }\n\n return event;\n}\n\n/** If the event is an error event */\nfunction isErrorEvent(event) {\n return !event.type;\n}\n\n/** If the event is a transaction event */\nfunction isTransactionEvent(event) {\n return event.type === 'transaction';\n}\n\n/** If the event is an replay event */\nfunction isReplayEvent(event) {\n return event.type === 'replay_event';\n}\n\n/** If the event is a feedback event */\nfunction isFeedbackEvent(event) {\n return event.type === 'feedback';\n}\n\n/**\n * Returns a listener to be added to `client.on('afterSendErrorEvent, listener)`.\n */\nfunction handleAfterSendEvent(replay) {\n return (event, sendResponse) => {\n if (!replay.isEnabled() || (!isErrorEvent(event) && !isTransactionEvent(event))) {\n return;\n }\n\n const statusCode = sendResponse && sendResponse.statusCode;\n\n // We only want to do stuff on successful error sending, otherwise you get error replays without errors attached\n // If not using the base transport, we allow `undefined` response (as a custom transport may not implement this correctly yet)\n // If we do use the base transport, we skip if we encountered an non-OK status code\n if (!statusCode || statusCode < 200 || statusCode >= 300) {\n return;\n }\n\n if (isTransactionEvent(event)) {\n handleTransactionEvent(replay, event);\n return;\n }\n\n handleErrorEvent(replay, event);\n };\n}\n\nfunction handleTransactionEvent(replay, event) {\n const replayContext = replay.getContext();\n\n // Collect traceIds in _context regardless of `recordingMode`\n // In error mode, _context gets cleared on every checkout\n // We limit to max. 100 transactions linked\n if (event.contexts && event.contexts.trace && event.contexts.trace.trace_id && replayContext.traceIds.size < 100) {\n replayContext.traceIds.add(event.contexts.trace.trace_id );\n }\n}\n\nfunction handleErrorEvent(replay, event) {\n const replayContext = replay.getContext();\n\n // Add error to list of errorIds of replay. This is ok to do even if not\n // sampled because context will get reset at next checkout.\n // XXX: There is also a race condition where it's possible to capture an\n // error to Sentry before Replay SDK has loaded, but response returns after\n // it was loaded, and this gets called.\n // We limit to max. 100 errors linked\n if (event.event_id && replayContext.errorIds.size < 100) {\n replayContext.errorIds.add(event.event_id);\n }\n\n // If error event is tagged with replay id it means it was sampled (when in buffer mode)\n // Need to be very careful that this does not cause an infinite loop\n if (replay.recordingMode !== 'buffer' || !event.tags || !event.tags.replayId) {\n return;\n }\n\n const { beforeErrorSampling } = replay.getOptions();\n if (typeof beforeErrorSampling === 'function' && !beforeErrorSampling(event)) {\n return;\n }\n\n setTimeout$3(() => {\n // Capture current event buffer as new replay\n // This should never reject\n // eslint-disable-next-line @typescript-eslint/no-floating-promises\n replay.sendBufferedReplayOrFlush();\n });\n}\n\n/**\n * Returns a listener to be added to `client.on('afterSendErrorEvent, listener)`.\n */\nfunction handleBeforeSendEvent(replay) {\n return (event) => {\n if (!replay.isEnabled() || !isErrorEvent(event)) {\n return;\n }\n\n handleHydrationError(replay, event);\n };\n}\n\nfunction handleHydrationError(replay, event) {\n const exceptionValue =\n event.exception && event.exception.values && event.exception.values[0] && event.exception.values[0].value;\n if (typeof exceptionValue !== 'string') {\n return;\n }\n\n if (\n // Only matches errors in production builds of react-dom\n // Example https://reactjs.org/docs/error-decoder.html?invariant=423\n // With newer React versions, the messages changed to a different website https://react.dev/errors/418\n exceptionValue.match(\n /(reactjs\\.org\\/docs\\/error-decoder\\.html\\?invariant=|react\\.dev\\/errors\\/)(418|419|422|423|425)/,\n ) ||\n // Development builds of react-dom\n // Error 1: Hydration failed because the initial UI does not match what was rendered on the server.\n // Error 2: Text content does not match server-rendered HTML. Warning: Text content did not match.\n exceptionValue.match(/(does not match server-rendered HTML|Hydration failed because)/i)\n ) {\n const breadcrumb = createBreadcrumb({\n category: 'replay.hydrate-error',\n data: {\n url: getLocationHref(),\n },\n });\n addBreadcrumbEvent(replay, breadcrumb);\n }\n}\n\n/**\n * Handle breadcrumbs that Sentry captures, and make sure to capture relevant breadcrumbs to Replay as well.\n */\nfunction handleBreadcrumbs(replay) {\n const client = getClient();\n\n if (!client) {\n return;\n }\n\n client.on('beforeAddBreadcrumb', breadcrumb => beforeAddBreadcrumb(replay, breadcrumb));\n}\n\nfunction beforeAddBreadcrumb(replay, breadcrumb) {\n if (!replay.isEnabled() || !isBreadcrumbWithCategory(breadcrumb)) {\n return;\n }\n\n const result = normalizeBreadcrumb(breadcrumb);\n if (result) {\n addBreadcrumbEvent(replay, result);\n }\n}\n\n/** Exported only for tests. */\nfunction normalizeBreadcrumb(breadcrumb) {\n if (\n !isBreadcrumbWithCategory(breadcrumb) ||\n [\n // fetch & xhr are handled separately,in handleNetworkBreadcrumbs\n 'fetch',\n 'xhr',\n // These two are breadcrumbs for emitted sentry events, we don't care about them\n 'sentry.event',\n 'sentry.transaction',\n ].includes(breadcrumb.category) ||\n // We capture UI breadcrumbs separately\n breadcrumb.category.startsWith('ui.')\n ) {\n return null;\n }\n\n if (breadcrumb.category === 'console') {\n return normalizeConsoleBreadcrumb(breadcrumb);\n }\n\n return createBreadcrumb(breadcrumb);\n}\n\n/** exported for tests only */\nfunction normalizeConsoleBreadcrumb(\n breadcrumb,\n) {\n const args = breadcrumb.data && breadcrumb.data.arguments;\n\n if (!Array.isArray(args) || args.length === 0) {\n return createBreadcrumb(breadcrumb);\n }\n\n let isTruncated = false;\n\n // Avoid giant args captures\n const normalizedArgs = args.map(arg => {\n if (!arg) {\n return arg;\n }\n if (typeof arg === 'string') {\n if (arg.length > CONSOLE_ARG_MAX_SIZE) {\n isTruncated = true;\n return `${arg.slice(0, CONSOLE_ARG_MAX_SIZE)}…`;\n }\n\n return arg;\n }\n if (typeof arg === 'object') {\n try {\n const normalizedArg = normalize(arg, 7);\n const stringified = JSON.stringify(normalizedArg);\n if (stringified.length > CONSOLE_ARG_MAX_SIZE) {\n isTruncated = true;\n // We use the pretty printed JSON string here as a base\n return `${JSON.stringify(normalizedArg, null, 2).slice(0, CONSOLE_ARG_MAX_SIZE)}…`;\n }\n return normalizedArg;\n } catch (e) {\n // fall back to default\n }\n }\n\n return arg;\n });\n\n return createBreadcrumb({\n ...breadcrumb,\n data: {\n ...breadcrumb.data,\n arguments: normalizedArgs,\n ...(isTruncated ? { _meta: { warnings: ['CONSOLE_ARG_TRUNCATED'] } } : {}),\n },\n });\n}\n\nfunction isBreadcrumbWithCategory(breadcrumb) {\n return !!breadcrumb.category;\n}\n\n/**\n * Returns true if we think the given event is an error originating inside of rrweb.\n */\nfunction isRrwebError(event, hint) {\n if (event.type || !event.exception || !event.exception.values || !event.exception.values.length) {\n return false;\n }\n\n // @ts-expect-error this may be set by rrweb when it finds errors\n if (hint.originalException && hint.originalException.__rrweb__) {\n return true;\n }\n\n return false;\n}\n\n/**\n * Add a feedback breadcrumb event to replay.\n */\nfunction addFeedbackBreadcrumb(replay, event) {\n replay.triggerUserActivity();\n replay.addUpdate(() => {\n if (!event.timestamp) {\n // Ignore events that don't have timestamps (this shouldn't happen, more of a typing issue)\n // Return true here so that we don't flush\n return true;\n }\n\n // This should never reject\n // eslint-disable-next-line @typescript-eslint/no-floating-promises\n replay.throttledAddEvent({\n type: EventType.Custom,\n timestamp: event.timestamp * 1000,\n data: {\n tag: 'breadcrumb',\n payload: {\n timestamp: event.timestamp,\n type: 'default',\n category: 'sentry.feedback',\n data: {\n feedbackId: event.event_id,\n },\n },\n },\n } );\n\n return false;\n });\n}\n\n/**\n * Determine if event should be sampled (only applies in buffer mode).\n * When an event is captured by `hanldleGlobalEvent`, when in buffer mode\n * we determine if we want to sample the error or not.\n */\nfunction shouldSampleForBufferEvent(replay, event) {\n if (replay.recordingMode !== 'buffer') {\n return false;\n }\n\n // ignore this error because otherwise we could loop indefinitely with\n // trying to capture replay and failing\n if (event.message === UNABLE_TO_SEND_REPLAY) {\n return false;\n }\n\n // Require the event to be an error event & to have an exception\n if (!event.exception || event.type) {\n return false;\n }\n\n return isSampled(replay.getOptions().errorSampleRate);\n}\n\n/**\n * Returns a listener to be added to `addEventProcessor(listener)`.\n */\nfunction handleGlobalEventListener(replay) {\n return Object.assign(\n (event, hint) => {\n // Do nothing if replay has been disabled\n if (!replay.isEnabled()) {\n return event;\n }\n\n if (isReplayEvent(event)) {\n // Replays have separate set of breadcrumbs, do not include breadcrumbs\n // from core SDK\n delete event.breadcrumbs;\n return event;\n }\n\n // We only want to handle errors, transactions, and feedbacks, nothing else\n if (!isErrorEvent(event) && !isTransactionEvent(event) && !isFeedbackEvent(event)) {\n return event;\n }\n\n // Ensure we do not add replay_id if the session is expired\n const isSessionActive = replay.checkAndHandleExpiredSession();\n if (!isSessionActive) {\n return event;\n }\n\n if (isFeedbackEvent(event)) {\n // This should never reject\n // eslint-disable-next-line @typescript-eslint/no-floating-promises\n replay.flush();\n event.contexts.feedback.replay_id = replay.getSessionId();\n // Add a replay breadcrumb for this piece of feedback\n addFeedbackBreadcrumb(replay, event);\n return event;\n }\n\n // Unless `captureExceptions` is enabled, we want to ignore errors coming from rrweb\n // As there can be a bunch of stuff going wrong in internals there, that we don't want to bubble up to users\n if (isRrwebError(event, hint) && !replay.getOptions()._experiments.captureExceptions) {\n DEBUG_BUILD && logger.log('Ignoring error from rrweb internals', event);\n return null;\n }\n\n // When in buffer mode, we decide to sample here.\n // Later, in `handleAfterSendEvent`, if the replayId is set, we know that we sampled\n // And convert the buffer session to a full session\n const isErrorEventSampled = shouldSampleForBufferEvent(replay, event);\n\n // Tag errors if it has been sampled in buffer mode, or if it is session mode\n // Only tag transactions if in session mode\n const shouldTagReplayId = isErrorEventSampled || replay.recordingMode === 'session';\n\n if (shouldTagReplayId) {\n event.tags = { ...event.tags, replayId: replay.getSessionId() };\n }\n\n return event;\n },\n { id: 'Replay' },\n );\n}\n\n/**\n * Create a \"span\" for each performance entry.\n */\nfunction createPerformanceSpans(\n replay,\n entries,\n) {\n return entries.map(({ type, start, end, name, data }) => {\n const response = replay.throttledAddEvent({\n type: EventType.Custom,\n timestamp: start,\n data: {\n tag: 'performanceSpan',\n payload: {\n op: type,\n description: name,\n startTimestamp: start,\n endTimestamp: end,\n data,\n },\n },\n });\n\n // If response is a string, it means its either THROTTLED or SKIPPED\n return typeof response === 'string' ? Promise.resolve(null) : response;\n });\n}\n\nfunction handleHistory(handlerData) {\n const { from, to } = handlerData;\n\n const now = Date.now() / 1000;\n\n return {\n type: 'navigation.push',\n start: now,\n end: now,\n name: to,\n data: {\n previous: from,\n },\n };\n}\n\n/**\n * Returns a listener to be added to `addHistoryInstrumentationHandler(listener)`.\n */\nfunction handleHistorySpanListener(replay) {\n return (handlerData) => {\n if (!replay.isEnabled()) {\n return;\n }\n\n const result = handleHistory(handlerData);\n\n if (result === null) {\n return;\n }\n\n // Need to collect visited URLs\n replay.getContext().urls.push(result.name);\n replay.triggerUserActivity();\n\n replay.addUpdate(() => {\n createPerformanceSpans(replay, [result]);\n // Returning false to flush\n return false;\n });\n };\n}\n\n/**\n * Check whether a given request URL should be filtered out. This is so we\n * don't log Sentry ingest requests.\n */\nfunction shouldFilterRequest(replay, url) {\n // If we enabled the `traceInternals` experiment, we want to trace everything\n if (DEBUG_BUILD && replay.getOptions()._experiments.traceInternals) {\n return false;\n }\n\n return isSentryRequestUrl(url, getClient());\n}\n\n/** Add a performance entry breadcrumb */\nfunction addNetworkBreadcrumb(\n replay,\n result,\n) {\n if (!replay.isEnabled()) {\n return;\n }\n\n if (result === null) {\n return;\n }\n\n if (shouldFilterRequest(replay, result.name)) {\n return;\n }\n\n replay.addUpdate(() => {\n createPerformanceSpans(replay, [result]);\n // Returning true will cause `addUpdate` to not flush\n // We do not want network requests to cause a flush. This will prevent\n // recurring/polling requests from keeping the replay session alive.\n return true;\n });\n}\n\n/** Get the size of a body. */\nfunction getBodySize(body) {\n if (!body) {\n return undefined;\n }\n\n const textEncoder = new TextEncoder();\n\n try {\n if (typeof body === 'string') {\n return textEncoder.encode(body).length;\n }\n\n if (body instanceof URLSearchParams) {\n return textEncoder.encode(body.toString()).length;\n }\n\n if (body instanceof FormData) {\n const formDataStr = _serializeFormData(body);\n return textEncoder.encode(formDataStr).length;\n }\n\n if (body instanceof Blob) {\n return body.size;\n }\n\n if (body instanceof ArrayBuffer) {\n return body.byteLength;\n }\n\n // Currently unhandled types: ArrayBufferView, ReadableStream\n } catch (e) {\n // just return undefined\n }\n\n return undefined;\n}\n\n/** Convert a Content-Length header to number/undefined. */\nfunction parseContentLengthHeader(header) {\n if (!header) {\n return undefined;\n }\n\n const size = parseInt(header, 10);\n return isNaN(size) ? undefined : size;\n}\n\n/** Get the string representation of a body. */\nfunction getBodyString(body) {\n try {\n if (typeof body === 'string') {\n return [body];\n }\n\n if (body instanceof URLSearchParams) {\n return [body.toString()];\n }\n\n if (body instanceof FormData) {\n return [_serializeFormData(body)];\n }\n\n if (!body) {\n return [undefined];\n }\n } catch (error) {\n DEBUG_BUILD && logger.exception(error, 'Failed to serialize body', body);\n return [undefined, 'BODY_PARSE_ERROR'];\n }\n\n DEBUG_BUILD && logger.info('Skipping network body because of body type', body);\n\n return [undefined, 'UNPARSEABLE_BODY_TYPE'];\n}\n\n/** Merge a warning into an existing network request/response. */\nfunction mergeWarning(\n info,\n warning,\n) {\n if (!info) {\n return {\n headers: {},\n size: undefined,\n _meta: {\n warnings: [warning],\n },\n };\n }\n\n const newMeta = { ...info._meta };\n const existingWarnings = newMeta.warnings || [];\n newMeta.warnings = [...existingWarnings, warning];\n\n info._meta = newMeta;\n return info;\n}\n\n/** Convert ReplayNetworkRequestData to a PerformanceEntry. */\nfunction makeNetworkReplayBreadcrumb(\n type,\n data,\n) {\n if (!data) {\n return null;\n }\n\n const { startTimestamp, endTimestamp, url, method, statusCode, request, response } = data;\n\n const result = {\n type,\n start: startTimestamp / 1000,\n end: endTimestamp / 1000,\n name: url,\n data: dropUndefinedKeys({\n method,\n statusCode,\n request,\n response,\n }),\n };\n\n return result;\n}\n\n/** Build the request or response part of a replay network breadcrumb that was skipped. */\nfunction buildSkippedNetworkRequestOrResponse(bodySize) {\n return {\n headers: {},\n size: bodySize,\n _meta: {\n warnings: ['URL_SKIPPED'],\n },\n };\n}\n\n/** Build the request or response part of a replay network breadcrumb. */\nfunction buildNetworkRequestOrResponse(\n headers,\n bodySize,\n body,\n) {\n if (!bodySize && Object.keys(headers).length === 0) {\n return undefined;\n }\n\n if (!bodySize) {\n return {\n headers,\n };\n }\n\n if (!body) {\n return {\n headers,\n size: bodySize,\n };\n }\n\n const info = {\n headers,\n size: bodySize,\n };\n\n const { body: normalizedBody, warnings } = normalizeNetworkBody(body);\n info.body = normalizedBody;\n if (warnings && warnings.length > 0) {\n info._meta = {\n warnings,\n };\n }\n\n return info;\n}\n\n/** Filter a set of headers */\nfunction getAllowedHeaders(headers, allowedHeaders) {\n return Object.entries(headers).reduce((filteredHeaders, [key, value]) => {\n const normalizedKey = key.toLowerCase();\n // Avoid putting empty strings into the headers\n if (allowedHeaders.includes(normalizedKey) && headers[key]) {\n filteredHeaders[normalizedKey] = value;\n }\n return filteredHeaders;\n }, {});\n}\n\nfunction _serializeFormData(formData) {\n // This is a bit simplified, but gives us a decent estimate\n // This converts e.g. { name: 'Anne Smith', age: 13 } to 'name=Anne+Smith&age=13'\n // @ts-expect-error passing FormData to URLSearchParams actually works\n return new URLSearchParams(formData).toString();\n}\n\nfunction normalizeNetworkBody(body)\n\n {\n if (!body || typeof body !== 'string') {\n return {\n body,\n };\n }\n\n const exceedsSizeLimit = body.length > NETWORK_BODY_MAX_SIZE;\n const isProbablyJson = _strIsProbablyJson(body);\n\n if (exceedsSizeLimit) {\n const truncatedBody = body.slice(0, NETWORK_BODY_MAX_SIZE);\n\n if (isProbablyJson) {\n return {\n body: truncatedBody,\n warnings: ['MAYBE_JSON_TRUNCATED'],\n };\n }\n\n return {\n body: `${truncatedBody}…`,\n warnings: ['TEXT_TRUNCATED'],\n };\n }\n\n if (isProbablyJson) {\n try {\n const jsonBody = JSON.parse(body);\n return {\n body: jsonBody,\n };\n } catch (e2) {\n // fall back to just send the body as string\n }\n }\n\n return {\n body,\n };\n}\n\nfunction _strIsProbablyJson(str) {\n const first = str[0];\n const last = str[str.length - 1];\n\n // Simple check: If this does not start & end with {} or [], it's not JSON\n return (first === '[' && last === ']') || (first === '{' && last === '}');\n}\n\n/** Match an URL against a list of strings/Regex. */\nfunction urlMatches(url, urls) {\n const fullUrl = getFullUrl(url);\n\n return stringMatchesSomePattern(fullUrl, urls);\n}\n\n/** exported for tests */\nfunction getFullUrl(url, baseURI = WINDOW.document.baseURI) {\n // Short circuit for common cases:\n if (url.startsWith('http://') || url.startsWith('https://') || url.startsWith(WINDOW.location.origin)) {\n return url;\n }\n const fixedUrl = new URL(url, baseURI);\n\n // If these do not match, we are not dealing with a relative URL, so just return it\n if (fixedUrl.origin !== new URL(baseURI).origin) {\n return url;\n }\n\n const fullUrl = fixedUrl.href;\n\n // Remove trailing slashes, if they don't match the original URL\n if (!url.endsWith('/') && fullUrl.endsWith('/')) {\n return fullUrl.slice(0, -1);\n }\n\n return fullUrl;\n}\n\n/**\n * Capture a fetch breadcrumb to a replay.\n * This adds additional data (where approriate).\n */\nasync function captureFetchBreadcrumbToReplay(\n breadcrumb,\n hint,\n options\n\n,\n) {\n try {\n const data = await _prepareFetchData(breadcrumb, hint, options);\n\n // Create a replay performance entry from this breadcrumb\n const result = makeNetworkReplayBreadcrumb('resource.fetch', data);\n addNetworkBreadcrumb(options.replay, result);\n } catch (error) {\n DEBUG_BUILD && logger.exception(error, 'Failed to capture fetch breadcrumb');\n }\n}\n\n/**\n * Enrich a breadcrumb with additional data.\n * This has to be sync & mutate the given breadcrumb,\n * as the breadcrumb is afterwards consumed by other handlers.\n */\nfunction enrichFetchBreadcrumb(\n breadcrumb,\n hint,\n) {\n const { input, response } = hint;\n\n const body = input ? _getFetchRequestArgBody(input) : undefined;\n const reqSize = getBodySize(body);\n\n const resSize = response ? parseContentLengthHeader(response.headers.get('content-length')) : undefined;\n\n if (reqSize !== undefined) {\n breadcrumb.data.request_body_size = reqSize;\n }\n if (resSize !== undefined) {\n breadcrumb.data.response_body_size = resSize;\n }\n}\n\nasync function _prepareFetchData(\n breadcrumb,\n hint,\n options,\n) {\n const now = Date.now();\n const { startTimestamp = now, endTimestamp = now } = hint;\n\n const {\n url,\n method,\n status_code: statusCode = 0,\n request_body_size: requestBodySize,\n response_body_size: responseBodySize,\n } = breadcrumb.data;\n\n const captureDetails =\n urlMatches(url, options.networkDetailAllowUrls) && !urlMatches(url, options.networkDetailDenyUrls);\n\n const request = captureDetails\n ? _getRequestInfo(options, hint.input, requestBodySize)\n : buildSkippedNetworkRequestOrResponse(requestBodySize);\n const response = await _getResponseInfo(captureDetails, options, hint.response, responseBodySize);\n\n return {\n startTimestamp,\n endTimestamp,\n url,\n method,\n statusCode,\n request,\n response,\n };\n}\n\nfunction _getRequestInfo(\n { networkCaptureBodies, networkRequestHeaders },\n input,\n requestBodySize,\n) {\n const headers = input ? getRequestHeaders(input, networkRequestHeaders) : {};\n\n if (!networkCaptureBodies) {\n return buildNetworkRequestOrResponse(headers, requestBodySize, undefined);\n }\n\n // We only want to transmit string or string-like bodies\n const requestBody = _getFetchRequestArgBody(input);\n const [bodyStr, warning] = getBodyString(requestBody);\n const data = buildNetworkRequestOrResponse(headers, requestBodySize, bodyStr);\n\n if (warning) {\n return mergeWarning(data, warning);\n }\n\n return data;\n}\n\n/** Exported only for tests. */\nasync function _getResponseInfo(\n captureDetails,\n {\n networkCaptureBodies,\n networkResponseHeaders,\n },\n response,\n responseBodySize,\n) {\n if (!captureDetails && responseBodySize !== undefined) {\n return buildSkippedNetworkRequestOrResponse(responseBodySize);\n }\n\n const headers = response ? getAllHeaders(response.headers, networkResponseHeaders) : {};\n\n if (!response || (!networkCaptureBodies && responseBodySize !== undefined)) {\n return buildNetworkRequestOrResponse(headers, responseBodySize, undefined);\n }\n\n const [bodyText, warning] = await _parseFetchResponseBody(response);\n const result = getResponseData(bodyText, {\n networkCaptureBodies,\n\n responseBodySize,\n captureDetails,\n headers,\n });\n\n if (warning) {\n return mergeWarning(result, warning);\n }\n\n return result;\n}\n\nfunction getResponseData(\n bodyText,\n {\n networkCaptureBodies,\n responseBodySize,\n captureDetails,\n headers,\n }\n\n,\n) {\n try {\n const size =\n bodyText && bodyText.length && responseBodySize === undefined ? getBodySize(bodyText) : responseBodySize;\n\n if (!captureDetails) {\n return buildSkippedNetworkRequestOrResponse(size);\n }\n\n if (networkCaptureBodies) {\n return buildNetworkRequestOrResponse(headers, size, bodyText);\n }\n\n return buildNetworkRequestOrResponse(headers, size, undefined);\n } catch (error) {\n DEBUG_BUILD && logger.exception(error, 'Failed to serialize response body');\n // fallback\n return buildNetworkRequestOrResponse(headers, responseBodySize, undefined);\n }\n}\n\nasync function _parseFetchResponseBody(response) {\n const res = _tryCloneResponse(response);\n\n if (!res) {\n return [undefined, 'BODY_PARSE_ERROR'];\n }\n\n try {\n const text = await _tryGetResponseText(res);\n return [text];\n } catch (error) {\n DEBUG_BUILD && logger.exception(error, 'Failed to get text body from response');\n return [undefined, 'BODY_PARSE_ERROR'];\n }\n}\n\nfunction _getFetchRequestArgBody(fetchArgs = []) {\n // We only support getting the body from the fetch options\n if (fetchArgs.length !== 2 || typeof fetchArgs[1] !== 'object') {\n return undefined;\n }\n\n return (fetchArgs[1] ).body;\n}\n\nfunction getAllHeaders(headers, allowedHeaders) {\n const allHeaders = {};\n\n allowedHeaders.forEach(header => {\n if (headers.get(header)) {\n allHeaders[header] = headers.get(header) ;\n }\n });\n\n return allHeaders;\n}\n\nfunction getRequestHeaders(fetchArgs, allowedHeaders) {\n if (fetchArgs.length === 1 && typeof fetchArgs[0] !== 'string') {\n return getHeadersFromOptions(fetchArgs[0] , allowedHeaders);\n }\n\n if (fetchArgs.length === 2) {\n return getHeadersFromOptions(fetchArgs[1] , allowedHeaders);\n }\n\n return {};\n}\n\nfunction getHeadersFromOptions(\n input,\n allowedHeaders,\n) {\n if (!input) {\n return {};\n }\n\n const headers = input.headers;\n\n if (!headers) {\n return {};\n }\n\n if (headers instanceof Headers) {\n return getAllHeaders(headers, allowedHeaders);\n }\n\n // We do not support this, as it is not really documented (anymore?)\n if (Array.isArray(headers)) {\n return {};\n }\n\n return getAllowedHeaders(headers, allowedHeaders);\n}\n\nfunction _tryCloneResponse(response) {\n try {\n // We have to clone this, as the body can only be read once\n return response.clone();\n } catch (error) {\n // this can throw if the response was already consumed before\n DEBUG_BUILD && logger.exception(error, 'Failed to clone response body');\n }\n}\n\n/**\n * Get the response body of a fetch request, or timeout after 500ms.\n * Fetch can return a streaming body, that may not resolve (or not for a long time).\n * If that happens, we rather abort after a short time than keep waiting for this.\n */\nfunction _tryGetResponseText(response) {\n return new Promise((resolve, reject) => {\n const timeout = setTimeout$3(() => reject(new Error('Timeout while trying to read response body')), 500);\n\n _getResponseText(response)\n .then(\n txt => resolve(txt),\n reason => reject(reason),\n )\n .finally(() => clearTimeout(timeout));\n });\n}\n\nasync function _getResponseText(response) {\n // Force this to be a promise, just to be safe\n // eslint-disable-next-line no-return-await\n return await response.text();\n}\n\n/**\n * Capture an XHR breadcrumb to a replay.\n * This adds additional data (where approriate).\n */\nasync function captureXhrBreadcrumbToReplay(\n breadcrumb,\n hint,\n options,\n) {\n try {\n const data = _prepareXhrData(breadcrumb, hint, options);\n\n // Create a replay performance entry from this breadcrumb\n const result = makeNetworkReplayBreadcrumb('resource.xhr', data);\n addNetworkBreadcrumb(options.replay, result);\n } catch (error) {\n DEBUG_BUILD && logger.exception(error, 'Failed to capture xhr breadcrumb');\n }\n}\n\n/**\n * Enrich a breadcrumb with additional data.\n * This has to be sync & mutate the given breadcrumb,\n * as the breadcrumb is afterwards consumed by other handlers.\n */\nfunction enrichXhrBreadcrumb(\n breadcrumb,\n hint,\n) {\n const { xhr, input } = hint;\n\n if (!xhr) {\n return;\n }\n\n const reqSize = getBodySize(input);\n const resSize = xhr.getResponseHeader('content-length')\n ? parseContentLengthHeader(xhr.getResponseHeader('content-length'))\n : _getBodySize(xhr.response, xhr.responseType);\n\n if (reqSize !== undefined) {\n breadcrumb.data.request_body_size = reqSize;\n }\n if (resSize !== undefined) {\n breadcrumb.data.response_body_size = resSize;\n }\n}\n\nfunction _prepareXhrData(\n breadcrumb,\n hint,\n options,\n) {\n const now = Date.now();\n const { startTimestamp = now, endTimestamp = now, input, xhr } = hint;\n\n const {\n url,\n method,\n status_code: statusCode = 0,\n request_body_size: requestBodySize,\n response_body_size: responseBodySize,\n } = breadcrumb.data;\n\n if (!url) {\n return null;\n }\n\n if (!xhr || !urlMatches(url, options.networkDetailAllowUrls) || urlMatches(url, options.networkDetailDenyUrls)) {\n const request = buildSkippedNetworkRequestOrResponse(requestBodySize);\n const response = buildSkippedNetworkRequestOrResponse(responseBodySize);\n return {\n startTimestamp,\n endTimestamp,\n url,\n method,\n statusCode,\n request,\n response,\n };\n }\n\n const xhrInfo = xhr[SENTRY_XHR_DATA_KEY];\n const networkRequestHeaders = xhrInfo\n ? getAllowedHeaders(xhrInfo.request_headers, options.networkRequestHeaders)\n : {};\n const networkResponseHeaders = getAllowedHeaders(getResponseHeaders(xhr), options.networkResponseHeaders);\n\n const [requestBody, requestWarning] = options.networkCaptureBodies ? getBodyString(input) : [undefined];\n const [responseBody, responseWarning] = options.networkCaptureBodies ? _getXhrResponseBody(xhr) : [undefined];\n\n const request = buildNetworkRequestOrResponse(networkRequestHeaders, requestBodySize, requestBody);\n const response = buildNetworkRequestOrResponse(networkResponseHeaders, responseBodySize, responseBody);\n\n return {\n startTimestamp,\n endTimestamp,\n url,\n method,\n statusCode,\n request: requestWarning ? mergeWarning(request, requestWarning) : request,\n response: responseWarning ? mergeWarning(response, responseWarning) : response,\n };\n}\n\nfunction getResponseHeaders(xhr) {\n const headers = xhr.getAllResponseHeaders();\n\n if (!headers) {\n return {};\n }\n\n return headers.split('\\r\\n').reduce((acc, line) => {\n const [key, value] = line.split(': ') ;\n if (value) {\n acc[key.toLowerCase()] = value;\n }\n return acc;\n }, {});\n}\n\nfunction _getXhrResponseBody(xhr) {\n // We collect errors that happen, but only log them if we can't get any response body\n const errors = [];\n\n try {\n return [xhr.responseText];\n } catch (e) {\n errors.push(e);\n }\n\n // Try to manually parse the response body, if responseText fails\n try {\n return _parseXhrResponse(xhr.response, xhr.responseType);\n } catch (e) {\n errors.push(e);\n }\n\n DEBUG_BUILD && logger.warn('Failed to get xhr response body', ...errors);\n\n return [undefined];\n}\n\n/**\n * Get the string representation of the XHR response.\n * Based on MDN, these are the possible types of the response:\n * string\n * ArrayBuffer\n * Blob\n * Document\n * POJO\n *\n * Exported only for tests.\n */\nfunction _parseXhrResponse(\n body,\n responseType,\n) {\n try {\n if (typeof body === 'string') {\n return [body];\n }\n\n if (body instanceof Document) {\n return [body.body.outerHTML];\n }\n\n if (responseType === 'json' && body && typeof body === 'object') {\n return [JSON.stringify(body)];\n }\n\n if (!body) {\n return [undefined];\n }\n } catch (error) {\n DEBUG_BUILD && logger.exception(error, 'Failed to serialize body', body);\n return [undefined, 'BODY_PARSE_ERROR'];\n }\n\n DEBUG_BUILD && logger.info('Skipping network body because of body type', body);\n\n return [undefined, 'UNPARSEABLE_BODY_TYPE'];\n}\n\nfunction _getBodySize(\n body,\n responseType,\n) {\n try {\n const bodyStr = responseType === 'json' && body && typeof body === 'object' ? JSON.stringify(body) : body;\n return getBodySize(bodyStr);\n } catch (e2) {\n return undefined;\n }\n}\n\n/**\n * This method does two things:\n * - It enriches the regular XHR/fetch breadcrumbs with request/response size data\n * - It captures the XHR/fetch breadcrumbs to the replay\n * (enriching it with further data that is _not_ added to the regular breadcrumbs)\n */\nfunction handleNetworkBreadcrumbs(replay) {\n const client = getClient();\n\n try {\n const {\n networkDetailAllowUrls,\n networkDetailDenyUrls,\n networkCaptureBodies,\n networkRequestHeaders,\n networkResponseHeaders,\n } = replay.getOptions();\n\n const options = {\n replay,\n networkDetailAllowUrls,\n networkDetailDenyUrls,\n networkCaptureBodies,\n networkRequestHeaders,\n networkResponseHeaders,\n };\n\n if (client) {\n client.on('beforeAddBreadcrumb', (breadcrumb, hint) => beforeAddNetworkBreadcrumb(options, breadcrumb, hint));\n }\n } catch (e2) {\n // Do nothing\n }\n}\n\n/** just exported for tests */\nfunction beforeAddNetworkBreadcrumb(\n options,\n breadcrumb,\n hint,\n) {\n if (!breadcrumb.data) {\n return;\n }\n\n try {\n if (_isXhrBreadcrumb(breadcrumb) && _isXhrHint(hint)) {\n // This has to be sync, as we need to ensure the breadcrumb is enriched in the same tick\n // Because the hook runs synchronously, and the breadcrumb is afterwards passed on\n // So any async mutations to it will not be reflected in the final breadcrumb\n enrichXhrBreadcrumb(breadcrumb, hint);\n\n // This call should not reject\n // eslint-disable-next-line @typescript-eslint/no-floating-promises\n captureXhrBreadcrumbToReplay(breadcrumb, hint, options);\n }\n\n if (_isFetchBreadcrumb(breadcrumb) && _isFetchHint(hint)) {\n // This has to be sync, as we need to ensure the breadcrumb is enriched in the same tick\n // Because the hook runs synchronously, and the breadcrumb is afterwards passed on\n // So any async mutations to it will not be reflected in the final breadcrumb\n enrichFetchBreadcrumb(breadcrumb, hint);\n\n // This call should not reject\n // eslint-disable-next-line @typescript-eslint/no-floating-promises\n captureFetchBreadcrumbToReplay(breadcrumb, hint, options);\n }\n } catch (e) {\n DEBUG_BUILD && logger.exception(e, 'Error when enriching network breadcrumb');\n }\n}\n\nfunction _isXhrBreadcrumb(breadcrumb) {\n return breadcrumb.category === 'xhr';\n}\n\nfunction _isFetchBreadcrumb(breadcrumb) {\n return breadcrumb.category === 'fetch';\n}\n\nfunction _isXhrHint(hint) {\n return hint && hint.xhr;\n}\n\nfunction _isFetchHint(hint) {\n return hint && hint.response;\n}\n\n/**\n * Add global listeners that cannot be removed.\n */\nfunction addGlobalListeners(replay) {\n // Listeners from core SDK //\n const client = getClient();\n\n addClickKeypressInstrumentationHandler(handleDomListener(replay));\n addHistoryInstrumentationHandler(handleHistorySpanListener(replay));\n handleBreadcrumbs(replay);\n handleNetworkBreadcrumbs(replay);\n\n // Tag all (non replay) events that get sent to Sentry with the current\n // replay ID so that we can reference them later in the UI\n const eventProcessor = handleGlobalEventListener(replay);\n addEventProcessor(eventProcessor);\n\n // If a custom client has no hooks yet, we continue to use the \"old\" implementation\n if (client) {\n client.on('beforeSendEvent', handleBeforeSendEvent(replay));\n client.on('afterSendEvent', handleAfterSendEvent(replay));\n client.on('createDsc', (dsc) => {\n const replayId = replay.getSessionId();\n // We do not want to set the DSC when in buffer mode, as that means the replay has not been sent (yet)\n if (replayId && replay.isEnabled() && replay.recordingMode === 'session') {\n // Ensure to check that the session is still active - it could have expired in the meanwhile\n const isSessionActive = replay.checkAndHandleExpiredSession();\n if (isSessionActive) {\n dsc.replay_id = replayId;\n }\n }\n });\n\n client.on('spanStart', span => {\n replay.lastActiveSpan = span;\n });\n\n // We may be missing the initial spanStart due to timing issues,\n // so we capture it on finish again.\n client.on('spanEnd', span => {\n replay.lastActiveSpan = span;\n });\n\n // We want to flush replay\n client.on('beforeSendFeedback', (feedbackEvent, options) => {\n const replayId = replay.getSessionId();\n if (options && options.includeReplay && replay.isEnabled() && replayId) {\n // This should never reject\n if (feedbackEvent.contexts && feedbackEvent.contexts.feedback) {\n feedbackEvent.contexts.feedback.replay_id = replayId;\n }\n }\n });\n }\n}\n\n/**\n * Create a \"span\" for the total amount of memory being used by JS objects\n * (including v8 internal objects).\n */\nasync function addMemoryEntry(replay) {\n // window.performance.memory is a non-standard API and doesn't work on all browsers, so we try-catch this\n try {\n return Promise.all(\n createPerformanceSpans(replay, [\n // @ts-expect-error memory doesn't exist on type Performance as the API is non-standard (we check that it exists above)\n createMemoryEntry(WINDOW.performance.memory),\n ]),\n );\n } catch (error) {\n // Do nothing\n return [];\n }\n}\n\nfunction createMemoryEntry(memoryEntry) {\n const { jsHeapSizeLimit, totalJSHeapSize, usedJSHeapSize } = memoryEntry;\n // we don't want to use `getAbsoluteTime` because it adds the event time to the\n // time origin, so we get the current timestamp instead\n const time = Date.now() / 1000;\n return {\n type: 'memory',\n name: 'memory',\n start: time,\n end: time,\n data: {\n memory: {\n jsHeapSizeLimit,\n totalJSHeapSize,\n usedJSHeapSize,\n },\n },\n };\n}\n\n/**\n * Heavily simplified debounce function based on lodash.debounce.\n *\n * This function takes a callback function (@param fun) and delays its invocation\n * by @param wait milliseconds. Optionally, a maxWait can be specified in @param options,\n * which ensures that the callback is invoked at least once after the specified max. wait time.\n *\n * @param func the function whose invocation is to be debounced\n * @param wait the minimum time until the function is invoked after it was called once\n * @param options the options object, which can contain the `maxWait` property\n *\n * @returns the debounced version of the function, which needs to be called at least once to start the\n * debouncing process. Subsequent calls will reset the debouncing timer and, in case @paramfunc\n * was already invoked in the meantime, return @param func's return value.\n * The debounced function has two additional properties:\n * - `flush`: Invokes the debounced function immediately and returns its return value\n * - `cancel`: Cancels the debouncing process and resets the debouncing timer\n */\nfunction debounce(func, wait, options) {\n let callbackReturnValue;\n\n let timerId;\n let maxTimerId;\n\n const maxWait = options && options.maxWait ? Math.max(options.maxWait, wait) : 0;\n\n function invokeFunc() {\n cancelTimers();\n callbackReturnValue = func();\n return callbackReturnValue;\n }\n\n function cancelTimers() {\n timerId !== undefined && clearTimeout(timerId);\n maxTimerId !== undefined && clearTimeout(maxTimerId);\n timerId = maxTimerId = undefined;\n }\n\n function flush() {\n if (timerId !== undefined || maxTimerId !== undefined) {\n return invokeFunc();\n }\n return callbackReturnValue;\n }\n\n function debounced() {\n if (timerId) {\n clearTimeout(timerId);\n }\n timerId = setTimeout$3(invokeFunc, wait);\n\n if (maxWait && maxTimerId === undefined) {\n maxTimerId = setTimeout$3(invokeFunc, maxWait);\n }\n\n return callbackReturnValue;\n }\n\n debounced.cancel = cancelTimers;\n debounced.flush = flush;\n return debounced;\n}\n\n/**\n * Handler for recording events.\n *\n * Adds to event buffer, and has varying flushing behaviors if the event was a checkout.\n */\nfunction getHandleRecordingEmit(replay) {\n let hadFirstEvent = false;\n\n return (event, _isCheckout) => {\n // If this is false, it means session is expired, create and a new session and wait for checkout\n if (!replay.checkAndHandleExpiredSession()) {\n DEBUG_BUILD && logger.warn('Received replay event after session expired.');\n\n return;\n }\n\n // `_isCheckout` is only set when the checkout is due to `checkoutEveryNms`\n // We also want to treat the first event as a checkout, so we handle this specifically here\n const isCheckout = _isCheckout || !hadFirstEvent;\n hadFirstEvent = true;\n\n if (replay.clickDetector) {\n updateClickDetectorForRecordingEvent(replay.clickDetector, event);\n }\n\n // The handler returns `true` if we do not want to trigger debounced flush, `false` if we want to debounce flush.\n replay.addUpdate(() => {\n // The session is always started immediately on pageload/init, but for\n // error-only replays, it should reflect the most recent checkout\n // when an error occurs. Clear any state that happens before this current\n // checkout. This needs to happen before `addEvent()` which updates state\n // dependent on this reset.\n if (replay.recordingMode === 'buffer' && isCheckout) {\n replay.setInitialState();\n }\n\n // If the event is not added (e.g. due to being paused, disabled, or out of the max replay duration),\n // Skip all further steps\n if (!addEventSync(replay, event, isCheckout)) {\n // Return true to skip scheduling a debounced flush\n return true;\n }\n\n // Different behavior for full snapshots (type=2), ignore other event types\n // See https://github.com/rrweb-io/rrweb/blob/d8f9290ca496712aa1e7d472549480c4e7876594/packages/rrweb/src/types.ts#L16\n if (!isCheckout) {\n return false;\n }\n\n // Additionally, create a meta event that will capture certain SDK settings.\n // In order to handle buffer mode, this needs to either be done when we\n // receive checkout events or at flush time.\n //\n // `isCheckout` is always true, but want to be explicit that it should\n // only be added for checkouts\n addSettingsEvent(replay, isCheckout);\n\n // If there is a previousSessionId after a full snapshot occurs, then\n // the replay session was started due to session expiration. The new session\n // is started before triggering a new checkout and contains the id\n // of the previous session. Do not immediately flush in this case\n // to avoid capturing only the checkout and instead the replay will\n // be captured if they perform any follow-up actions.\n if (replay.session && replay.session.previousSessionId) {\n return true;\n }\n\n // When in buffer mode, make sure we adjust the session started date to the current earliest event of the buffer\n // this should usually be the timestamp of the checkout event, but to be safe...\n if (replay.recordingMode === 'buffer' && replay.session && replay.eventBuffer) {\n const earliestEvent = replay.eventBuffer.getEarliestTimestamp();\n if (earliestEvent) {\n DEBUG_BUILD &&\n logger.info(`Updating session start time to earliest event in buffer to ${new Date(earliestEvent)}`);\n\n replay.session.started = earliestEvent;\n\n if (replay.getOptions().stickySession) {\n saveSession(replay.session);\n }\n }\n }\n\n if (replay.recordingMode === 'session') {\n // If the full snapshot is due to an initial load, we will not have\n // a previous session ID. In this case, we want to buffer events\n // for a set amount of time before flushing. This can help avoid\n // capturing replays of users that immediately close the window.\n\n // This should never reject\n // eslint-disable-next-line @typescript-eslint/no-floating-promises\n void replay.flush();\n }\n\n return true;\n });\n };\n}\n\n/**\n * Exported for tests\n */\nfunction createOptionsEvent(replay) {\n const options = replay.getOptions();\n return {\n type: EventType.Custom,\n timestamp: Date.now(),\n data: {\n tag: 'options',\n payload: {\n shouldRecordCanvas: replay.isRecordingCanvas(),\n sessionSampleRate: options.sessionSampleRate,\n errorSampleRate: options.errorSampleRate,\n useCompressionOption: options.useCompression,\n blockAllMedia: options.blockAllMedia,\n maskAllText: options.maskAllText,\n maskAllInputs: options.maskAllInputs,\n useCompression: replay.eventBuffer ? replay.eventBuffer.type === 'worker' : false,\n networkDetailHasUrls: options.networkDetailAllowUrls.length > 0,\n networkCaptureBodies: options.networkCaptureBodies,\n networkRequestHasHeaders: options.networkRequestHeaders.length > 0,\n networkResponseHasHeaders: options.networkResponseHeaders.length > 0,\n },\n },\n };\n}\n\n/**\n * Add a \"meta\" event that contains a simplified view on current configuration\n * options. This should only be included on the first segment of a recording.\n */\nfunction addSettingsEvent(replay, isCheckout) {\n // Only need to add this event when sending the first segment\n if (!isCheckout || !replay.session || replay.session.segmentId !== 0) {\n return;\n }\n\n addEventSync(replay, createOptionsEvent(replay), false);\n}\n\n/**\n * Create a replay envelope ready to be sent.\n * This includes both the replay event, as well as the recording data.\n */\nfunction createReplayEnvelope(\n replayEvent,\n recordingData,\n dsn,\n tunnel,\n) {\n return createEnvelope(\n createEventEnvelopeHeaders(replayEvent, getSdkMetadataForEnvelopeHeader(replayEvent), tunnel, dsn),\n [\n [{ type: 'replay_event' }, replayEvent],\n [\n {\n type: 'replay_recording',\n // If string then we need to encode to UTF8, otherwise will have\n // wrong size. TextEncoder has similar browser support to\n // MutationObserver, although it does not accept IE11.\n length:\n typeof recordingData === 'string' ? new TextEncoder().encode(recordingData).length : recordingData.length,\n },\n recordingData,\n ],\n ],\n );\n}\n\n/**\n * Prepare the recording data ready to be sent.\n */\nfunction prepareRecordingData({\n recordingData,\n headers,\n}\n\n) {\n let payloadWithSequence;\n\n // XXX: newline is needed to separate sequence id from events\n const replayHeaders = `${JSON.stringify(headers)}\n`;\n\n if (typeof recordingData === 'string') {\n payloadWithSequence = `${replayHeaders}${recordingData}`;\n } else {\n const enc = new TextEncoder();\n // XXX: newline is needed to separate sequence id from events\n const sequence = enc.encode(replayHeaders);\n // Merge the two Uint8Arrays\n payloadWithSequence = new Uint8Array(sequence.length + recordingData.length);\n payloadWithSequence.set(sequence);\n payloadWithSequence.set(recordingData, sequence.length);\n }\n\n return payloadWithSequence;\n}\n\n/**\n * Prepare a replay event & enrich it with the SDK metadata.\n */\nasync function prepareReplayEvent({\n client,\n scope,\n replayId: event_id,\n event,\n}\n\n) {\n const integrations =\n typeof client._integrations === 'object' && client._integrations !== null && !Array.isArray(client._integrations)\n ? Object.keys(client._integrations)\n : undefined;\n\n const eventHint = { event_id, integrations };\n\n client.emit('preprocessEvent', event, eventHint);\n\n const preparedEvent = (await prepareEvent(\n client.getOptions(),\n event,\n eventHint,\n scope,\n client,\n getIsolationScope(),\n )) ;\n\n // If e.g. a global event processor returned null\n if (!preparedEvent) {\n return null;\n }\n\n // This normally happens in browser client \"_prepareEvent\"\n // but since we do not use this private method from the client, but rather the plain import\n // we need to do this manually.\n preparedEvent.platform = preparedEvent.platform || 'javascript';\n\n // extract the SDK name because `client._prepareEvent` doesn't add it to the event\n const metadata = client.getSdkMetadata();\n const { name, version } = (metadata && metadata.sdk) || {};\n\n preparedEvent.sdk = {\n ...preparedEvent.sdk,\n name: name || 'sentry.javascript.unknown',\n version: version || '0.0.0',\n };\n\n return preparedEvent;\n}\n\n/**\n * Send replay attachment using `fetch()`\n */\nasync function sendReplayRequest({\n recordingData,\n replayId,\n segmentId: segment_id,\n eventContext,\n timestamp,\n session,\n}) {\n const preparedRecordingData = prepareRecordingData({\n recordingData,\n headers: {\n segment_id,\n },\n });\n\n const { urls, errorIds, traceIds, initialTimestamp } = eventContext;\n\n const client = getClient();\n const scope = getCurrentScope();\n const transport = client && client.getTransport();\n const dsn = client && client.getDsn();\n\n if (!client || !transport || !dsn || !session.sampled) {\n return resolvedSyncPromise({});\n }\n\n const baseEvent = {\n type: REPLAY_EVENT_NAME,\n replay_start_timestamp: initialTimestamp / 1000,\n timestamp: timestamp / 1000,\n error_ids: errorIds,\n trace_ids: traceIds,\n urls,\n replay_id: replayId,\n segment_id,\n replay_type: session.sampled,\n };\n\n const replayEvent = await prepareReplayEvent({ scope, client, replayId, event: baseEvent });\n\n if (!replayEvent) {\n // Taken from baseclient's `_processEvent` method, where this is handled for errors/transactions\n client.recordDroppedEvent('event_processor', 'replay', baseEvent);\n DEBUG_BUILD && logger.info('An event processor returned `null`, will not send event.');\n return resolvedSyncPromise({});\n }\n\n /*\n For reference, the fully built event looks something like this:\n {\n \"type\": \"replay_event\",\n \"timestamp\": 1670837008.634,\n \"error_ids\": [\n \"errorId\"\n ],\n \"trace_ids\": [\n \"traceId\"\n ],\n \"urls\": [\n \"https://example.com\"\n ],\n \"replay_id\": \"eventId\",\n \"segment_id\": 3,\n \"replay_type\": \"error\",\n \"platform\": \"javascript\",\n \"event_id\": \"eventId\",\n \"environment\": \"production\",\n \"sdk\": {\n \"integrations\": [\n \"BrowserTracing\",\n \"Replay\"\n ],\n \"name\": \"sentry.javascript.browser\",\n \"version\": \"7.25.0\"\n },\n \"sdkProcessingMetadata\": {},\n \"contexts\": {\n },\n }\n */\n\n // Prevent this data (which, if it exists, was used in earlier steps in the processing pipeline) from being sent to\n // sentry. (Note: Our use of this property comes and goes with whatever we might be debugging, whatever hacks we may\n // have temporarily added, etc. Even if we don't happen to be using it at some point in the future, let's not get rid\n // of this `delete`, lest we miss putting it back in the next time the property is in use.)\n delete replayEvent.sdkProcessingMetadata;\n\n const envelope = createReplayEnvelope(replayEvent, preparedRecordingData, dsn, client.getOptions().tunnel);\n\n let response;\n\n try {\n response = await transport.send(envelope);\n } catch (err) {\n const error = new Error(UNABLE_TO_SEND_REPLAY);\n\n try {\n // In case browsers don't allow this property to be writable\n // @ts-expect-error This needs lib es2022 and newer\n error.cause = err;\n } catch (e) {\n // nothing to do\n }\n throw error;\n }\n\n // If the status code is invalid, we want to immediately stop & not retry\n if (typeof response.statusCode === 'number' && (response.statusCode < 200 || response.statusCode >= 300)) {\n throw new TransportStatusCodeError(response.statusCode);\n }\n\n const rateLimits = updateRateLimits({}, response);\n if (isRateLimited(rateLimits, 'replay')) {\n throw new RateLimitError(rateLimits);\n }\n\n return response;\n}\n\n/**\n * This error indicates that the transport returned an invalid status code.\n */\nclass TransportStatusCodeError extends Error {\n constructor(statusCode) {\n super(`Transport returned status code ${statusCode}`);\n }\n}\n\n/**\n * This error indicates that we hit a rate limit API error.\n */\nclass RateLimitError extends Error {\n\n constructor(rateLimits) {\n super('Rate limit hit');\n this.rateLimits = rateLimits;\n }\n}\n\n/**\n * Finalize and send the current replay event to Sentry\n */\nasync function sendReplay(\n replayData,\n retryConfig = {\n count: 0,\n interval: RETRY_BASE_INTERVAL,\n },\n) {\n const { recordingData, options } = replayData;\n\n // short circuit if there's no events to upload (this shouldn't happen as _runFlush makes this check)\n if (!recordingData.length) {\n return;\n }\n\n try {\n await sendReplayRequest(replayData);\n return true;\n } catch (err) {\n if (err instanceof TransportStatusCodeError || err instanceof RateLimitError) {\n throw err;\n }\n\n // Capture error for every failed replay\n setContext('Replays', {\n _retryCount: retryConfig.count,\n });\n\n if (DEBUG_BUILD && options._experiments && options._experiments.captureExceptions) {\n captureException(err);\n }\n\n // If an error happened here, it's likely that uploading the attachment\n // failed, we'll can retry with the same events payload\n if (retryConfig.count >= RETRY_MAX_COUNT) {\n const error = new Error(`${UNABLE_TO_SEND_REPLAY} - max retries exceeded`);\n\n try {\n // In case browsers don't allow this property to be writable\n // @ts-expect-error This needs lib es2022 and newer\n error.cause = err;\n } catch (e) {\n // nothing to do\n }\n\n throw error;\n }\n\n // will retry in intervals of 5, 10, 30\n retryConfig.interval *= ++retryConfig.count;\n\n return new Promise((resolve, reject) => {\n setTimeout$3(async () => {\n try {\n await sendReplay(replayData, retryConfig);\n resolve(true);\n } catch (err) {\n reject(err);\n }\n }, retryConfig.interval);\n });\n }\n}\n\nconst THROTTLED = '__THROTTLED';\nconst SKIPPED = '__SKIPPED';\n\n/**\n * Create a throttled function off a given function.\n * When calling the throttled function, it will call the original function only\n * if it hasn't been called more than `maxCount` times in the last `durationSeconds`.\n *\n * Returns `THROTTLED` if throttled for the first time, after that `SKIPPED`,\n * or else the return value of the original function.\n */\n// eslint-disable-next-line @typescript-eslint/no-explicit-any\nfunction throttle(\n fn,\n maxCount,\n durationSeconds,\n) {\n const counter = new Map();\n\n const _cleanup = (now) => {\n const threshold = now - durationSeconds;\n counter.forEach((_value, key) => {\n if (key < threshold) {\n counter.delete(key);\n }\n });\n };\n\n const _getTotalCount = () => {\n return [...counter.values()].reduce((a, b) => a + b, 0);\n };\n\n let isThrottled = false;\n\n return (...rest) => {\n // Date in second-precision, which we use as basis for the throttling\n const now = Math.floor(Date.now() / 1000);\n\n // First, make sure to delete any old entries\n _cleanup(now);\n\n // If already over limit, do nothing\n if (_getTotalCount() >= maxCount) {\n const wasThrottled = isThrottled;\n isThrottled = true;\n return wasThrottled ? SKIPPED : THROTTLED;\n }\n\n isThrottled = false;\n const count = counter.get(now) || 0;\n counter.set(now, count + 1);\n\n return fn(...rest);\n };\n}\n\n/* eslint-disable max-lines */ // TODO: We might want to split this file up\n\n/**\n * The main replay container class, which holds all the state and methods for recording and sending replays.\n */\nclass ReplayContainer {\n\n /**\n * Recording can happen in one of three modes:\n * - session: Record the whole session, sending it continuously\n * - buffer: Always keep the last 60s of recording, requires:\n * - having replaysOnErrorSampleRate > 0 to capture replay when an error occurs\n * - or calling `flush()` to send the replay\n */\n\n /**\n * The current or last active span.\n * This is only available when performance is enabled.\n */\n\n /**\n * These are here so we can overwrite them in tests etc.\n * @hidden\n */\n\n /** The replay has to be manually started, because no sample rate (neither session or error) was provided. */\n\n /**\n * Options to pass to `rrweb.record()`\n */\n\n /**\n * Timestamp of the last user activity. This lives across sessions.\n */\n\n /**\n * Is the integration currently active?\n */\n\n /**\n * Paused is a state where:\n * - DOM Recording is not listening at all\n * - Nothing will be added to event buffer (e.g. core SDK events)\n */\n\n /**\n * Have we attached listeners to the core SDK?\n * Note we have to track this as there is no way to remove instrumentation handlers.\n */\n\n /**\n * Function to stop recording\n */\n\n /**\n * Internal use for canvas recording options\n */\n\n constructor({\n options,\n recordingOptions,\n }\n\n) {ReplayContainer.prototype.__init.call(this);ReplayContainer.prototype.__init2.call(this);ReplayContainer.prototype.__init3.call(this);ReplayContainer.prototype.__init4.call(this);ReplayContainer.prototype.__init5.call(this);ReplayContainer.prototype.__init6.call(this);\n this.eventBuffer = null;\n this.performanceEntries = [];\n this.replayPerformanceEntries = [];\n this.recordingMode = 'session';\n this.timeouts = {\n sessionIdlePause: SESSION_IDLE_PAUSE_DURATION,\n sessionIdleExpire: SESSION_IDLE_EXPIRE_DURATION,\n } ;\n this._lastActivity = Date.now();\n this._isEnabled = false;\n this._isPaused = false;\n this._requiresManualStart = false;\n this._hasInitializedCoreListeners = false;\n this._context = {\n errorIds: new Set(),\n traceIds: new Set(),\n urls: [],\n initialTimestamp: Date.now(),\n initialUrl: '',\n };\n\n this._recordingOptions = recordingOptions;\n this._options = options;\n\n this._debouncedFlush = debounce(() => this._flush(), this._options.flushMinDelay, {\n maxWait: this._options.flushMaxDelay,\n });\n\n this._throttledAddEvent = throttle(\n (event, isCheckout) => addEvent(this, event, isCheckout),\n // Max 300 events...\n 300,\n // ... per 5s\n 5,\n );\n\n const { slowClickTimeout, slowClickIgnoreSelectors } = this.getOptions();\n\n const slowClickConfig = slowClickTimeout\n ? {\n threshold: Math.min(SLOW_CLICK_THRESHOLD, slowClickTimeout),\n timeout: slowClickTimeout,\n scrollTimeout: SLOW_CLICK_SCROLL_TIMEOUT,\n ignoreSelector: slowClickIgnoreSelectors ? slowClickIgnoreSelectors.join(',') : '',\n }\n : undefined;\n\n if (slowClickConfig) {\n this.clickDetector = new ClickDetector(this, slowClickConfig);\n }\n\n // Configure replay logger w/ experimental options\n if (DEBUG_BUILD) {\n const experiments = options._experiments;\n logger.setConfig({\n captureExceptions: !!experiments.captureExceptions,\n traceInternals: !!experiments.traceInternals,\n });\n }\n }\n\n /** Get the event context. */\n getContext() {\n return this._context;\n }\n\n /** If recording is currently enabled. */\n isEnabled() {\n return this._isEnabled;\n }\n\n /** If recording is currently paused. */\n isPaused() {\n return this._isPaused;\n }\n\n /**\n * Determine if canvas recording is enabled\n */\n isRecordingCanvas() {\n return Boolean(this._canvas);\n }\n\n /** Get the replay integration options. */\n getOptions() {\n return this._options;\n }\n\n /** A wrapper to conditionally capture exceptions. */\n handleException(error) {\n DEBUG_BUILD && logger.exception(error);\n }\n\n /**\n * Initializes the plugin based on sampling configuration. Should not be\n * called outside of constructor.\n */\n initializeSampling(previousSessionId) {\n const { errorSampleRate, sessionSampleRate } = this._options;\n\n // If neither sample rate is > 0, then do nothing - user will need to call one of\n // `start()` or `startBuffering` themselves.\n const requiresManualStart = errorSampleRate <= 0 && sessionSampleRate <= 0;\n\n this._requiresManualStart = requiresManualStart;\n\n if (requiresManualStart) {\n return;\n }\n\n // Otherwise if there is _any_ sample rate set, try to load an existing\n // session, or create a new one.\n this._initializeSessionForSampling(previousSessionId);\n\n if (!this.session) {\n // This should not happen, something wrong has occurred\n DEBUG_BUILD && logger.exception(new Error('Unable to initialize and create session'));\n return;\n }\n\n if (this.session.sampled === false) {\n // This should only occur if `errorSampleRate` is 0 and was unsampled for\n // session-based replay. In this case there is nothing to do.\n return;\n }\n\n // If segmentId > 0, it means we've previously already captured this session\n // In this case, we still want to continue in `session` recording mode\n this.recordingMode = this.session.sampled === 'buffer' && this.session.segmentId === 0 ? 'buffer' : 'session';\n\n DEBUG_BUILD && logger.infoTick(`Starting replay in ${this.recordingMode} mode`);\n\n this._initializeRecording();\n }\n\n /**\n * Start a replay regardless of sampling rate. Calling this will always\n * create a new session. Will log a message if replay is already in progress.\n *\n * Creates or loads a session, attaches listeners to varying events (DOM,\n * _performanceObserver, Recording, Sentry SDK, etc)\n */\n start() {\n if (this._isEnabled && this.recordingMode === 'session') {\n DEBUG_BUILD && logger.info('Recording is already in progress');\n return;\n }\n\n if (this._isEnabled && this.recordingMode === 'buffer') {\n DEBUG_BUILD && logger.info('Buffering is in progress, call `flush()` to save the replay');\n return;\n }\n\n DEBUG_BUILD && logger.infoTick('Starting replay in session mode');\n\n // Required as user activity is initially set in\n // constructor, so if `start()` is called after\n // session idle expiration, a replay will not be\n // created due to an idle timeout.\n this._updateUserActivity();\n\n const session = loadOrCreateSession(\n {\n maxReplayDuration: this._options.maxReplayDuration,\n sessionIdleExpire: this.timeouts.sessionIdleExpire,\n },\n {\n stickySession: this._options.stickySession,\n // This is intentional: create a new session-based replay when calling `start()`\n sessionSampleRate: 1,\n allowBuffering: false,\n },\n );\n\n this.session = session;\n\n this._initializeRecording();\n }\n\n /**\n * Start replay buffering. Buffers until `flush()` is called or, if\n * `replaysOnErrorSampleRate` > 0, an error occurs.\n */\n startBuffering() {\n if (this._isEnabled) {\n DEBUG_BUILD && logger.info('Buffering is in progress, call `flush()` to save the replay');\n return;\n }\n\n DEBUG_BUILD && logger.infoTick('Starting replay in buffer mode');\n\n const session = loadOrCreateSession(\n {\n sessionIdleExpire: this.timeouts.sessionIdleExpire,\n maxReplayDuration: this._options.maxReplayDuration,\n },\n {\n stickySession: this._options.stickySession,\n sessionSampleRate: 0,\n allowBuffering: true,\n },\n );\n\n this.session = session;\n\n this.recordingMode = 'buffer';\n this._initializeRecording();\n }\n\n /**\n * Start recording.\n *\n * Note that this will cause a new DOM checkout\n */\n startRecording() {\n try {\n const canvasOptions = this._canvas;\n\n this._stopRecording = record({\n ...this._recordingOptions,\n // When running in error sampling mode, we need to overwrite `checkoutEveryNms`\n // Without this, it would record forever, until an error happens, which we don't want\n // instead, we'll always keep the last 60 seconds of replay before an error happened\n ...(this.recordingMode === 'buffer' && { checkoutEveryNms: BUFFER_CHECKOUT_TIME }),\n emit: getHandleRecordingEmit(this),\n onMutation: this._onMutationHandler,\n ...(canvasOptions\n ? {\n recordCanvas: canvasOptions.recordCanvas,\n getCanvasManager: canvasOptions.getCanvasManager,\n sampling: canvasOptions.sampling,\n dataURLOptions: canvasOptions.dataURLOptions,\n }\n : {}),\n });\n } catch (err) {\n this.handleException(err);\n }\n }\n\n /**\n * Stops the recording, if it was running.\n *\n * Returns true if it was previously stopped, or is now stopped,\n * otherwise false.\n */\n stopRecording() {\n try {\n if (this._stopRecording) {\n this._stopRecording();\n this._stopRecording = undefined;\n }\n\n return true;\n } catch (err) {\n this.handleException(err);\n return false;\n }\n }\n\n /**\n * Currently, this needs to be manually called (e.g. for tests). Sentry SDK\n * does not support a teardown\n */\n async stop({ forceFlush = false, reason } = {}) {\n if (!this._isEnabled) {\n return;\n }\n\n // We can't move `_isEnabled` after awaiting a flush, otherwise we can\n // enter into an infinite loop when `stop()` is called while flushing.\n this._isEnabled = false;\n\n try {\n DEBUG_BUILD && logger.info(`Stopping Replay${reason ? ` triggered by ${reason}` : ''}`);\n\n this._removeListeners();\n this.stopRecording();\n\n this._debouncedFlush.cancel();\n // See comment above re: `_isEnabled`, we \"force\" a flush, ignoring the\n // `_isEnabled` state of the plugin since it was disabled above.\n if (forceFlush) {\n await this._flush({ force: true });\n }\n\n // After flush, destroy event buffer\n this.eventBuffer && this.eventBuffer.destroy();\n this.eventBuffer = null;\n\n // Clear session from session storage, note this means if a new session\n // is started after, it will not have `previousSessionId`\n clearSession(this);\n } catch (err) {\n this.handleException(err);\n }\n }\n\n /**\n * Pause some replay functionality. See comments for `_isPaused`.\n * This differs from stop as this only stops DOM recording, it is\n * not as thorough of a shutdown as `stop()`.\n */\n pause() {\n if (this._isPaused) {\n return;\n }\n\n this._isPaused = true;\n this.stopRecording();\n\n DEBUG_BUILD && logger.info('Pausing replay');\n }\n\n /**\n * Resumes recording, see notes for `pause().\n *\n * Note that calling `startRecording()` here will cause a\n * new DOM checkout.`\n */\n resume() {\n if (!this._isPaused || !this._checkSession()) {\n return;\n }\n\n this._isPaused = false;\n this.startRecording();\n\n DEBUG_BUILD && logger.info('Resuming replay');\n }\n\n /**\n * If not in \"session\" recording mode, flush event buffer which will create a new replay.\n * Unless `continueRecording` is false, the replay will continue to record and\n * behave as a \"session\"-based replay.\n *\n * Otherwise, queue up a flush.\n */\n async sendBufferedReplayOrFlush({ continueRecording = true } = {}) {\n if (this.recordingMode === 'session') {\n return this.flushImmediate();\n }\n\n const activityTime = Date.now();\n\n DEBUG_BUILD && logger.info('Converting buffer to session');\n\n // Allow flush to complete before resuming as a session recording, otherwise\n // the checkout from `startRecording` may be included in the payload.\n // Prefer to keep the error replay as a separate (and smaller) segment\n // than the session replay.\n await this.flushImmediate();\n\n const hasStoppedRecording = this.stopRecording();\n\n if (!continueRecording || !hasStoppedRecording) {\n return;\n }\n\n // To avoid race conditions where this is called multiple times, we check here again that we are still buffering\n if ((this.recordingMode ) === 'session') {\n return;\n }\n\n // Re-start recording in session-mode\n this.recordingMode = 'session';\n\n // Once this session ends, we do not want to refresh it\n if (this.session) {\n this._updateUserActivity(activityTime);\n this._updateSessionActivity(activityTime);\n this._maybeSaveSession();\n }\n\n this.startRecording();\n }\n\n /**\n * We want to batch uploads of replay events. Save events only if\n * `` milliseconds have elapsed since the last event\n * *OR* if `` milliseconds have elapsed.\n *\n * Accepts a callback to perform side-effects and returns true to stop batch\n * processing and hand back control to caller.\n */\n addUpdate(cb) {\n // We need to always run `cb` (e.g. in the case of `this.recordingMode == 'buffer'`)\n const cbResult = cb();\n\n // If this option is turned on then we will only want to call `flush`\n // explicitly\n if (this.recordingMode === 'buffer') {\n return;\n }\n\n // If callback is true, we do not want to continue with flushing -- the\n // caller will need to handle it.\n if (cbResult === true) {\n return;\n }\n\n // addUpdate is called quite frequently - use _debouncedFlush so that it\n // respects the flush delays and does not flush immediately\n this._debouncedFlush();\n }\n\n /**\n * Updates the user activity timestamp and resumes recording. This should be\n * called in an event handler for a user action that we consider as the user\n * being \"active\" (e.g. a mouse click).\n */\n triggerUserActivity() {\n this._updateUserActivity();\n\n // This case means that recording was once stopped due to inactivity.\n // Ensure that recording is resumed.\n if (!this._stopRecording) {\n // Create a new session, otherwise when the user action is flushed, it\n // will get rejected due to an expired session.\n if (!this._checkSession()) {\n return;\n }\n\n // Note: This will cause a new DOM checkout\n this.resume();\n return;\n }\n\n // Otherwise... recording was never suspended, continue as normalish\n this.checkAndHandleExpiredSession();\n\n this._updateSessionActivity();\n }\n\n /**\n * Updates the user activity timestamp *without* resuming\n * recording. Some user events (e.g. keydown) can be create\n * low-value replays that only contain the keypress as a\n * breadcrumb. Instead this would require other events to\n * create a new replay after a session has expired.\n */\n updateUserActivity() {\n this._updateUserActivity();\n this._updateSessionActivity();\n }\n\n /**\n * Only flush if `this.recordingMode === 'session'`\n */\n conditionalFlush() {\n if (this.recordingMode === 'buffer') {\n return Promise.resolve();\n }\n\n return this.flushImmediate();\n }\n\n /**\n * Flush using debounce flush\n */\n flush() {\n return this._debouncedFlush() ;\n }\n\n /**\n * Always flush via `_debouncedFlush` so that we do not have flushes triggered\n * from calling both `flush` and `_debouncedFlush`. Otherwise, there could be\n * cases of mulitple flushes happening closely together.\n */\n flushImmediate() {\n this._debouncedFlush();\n // `.flush` is provided by the debounced function, analogously to lodash.debounce\n return this._debouncedFlush.flush() ;\n }\n\n /**\n * Cancels queued up flushes.\n */\n cancelFlush() {\n this._debouncedFlush.cancel();\n }\n\n /** Get the current sesion (=replay) ID */\n getSessionId() {\n return this.session && this.session.id;\n }\n\n /**\n * Checks if recording should be stopped due to user inactivity. Otherwise\n * check if session is expired and create a new session if so. Triggers a new\n * full snapshot on new session.\n *\n * Returns true if session is not expired, false otherwise.\n * @hidden\n */\n checkAndHandleExpiredSession() {\n // Prevent starting a new session if the last user activity is older than\n // SESSION_IDLE_PAUSE_DURATION. Otherwise non-user activity can trigger a new\n // session+recording. This creates noisy replays that do not have much\n // content in them.\n if (\n this._lastActivity &&\n isExpired(this._lastActivity, this.timeouts.sessionIdlePause) &&\n this.session &&\n this.session.sampled === 'session'\n ) {\n // Pause recording only for session-based replays. Otherwise, resuming\n // will create a new replay and will conflict with users who only choose\n // to record error-based replays only. (e.g. the resumed replay will not\n // contain a reference to an error)\n this.pause();\n return;\n }\n\n // --- There is recent user activity --- //\n // This will create a new session if expired, based on expiry length\n if (!this._checkSession()) {\n // Check session handles the refreshing itself\n return false;\n }\n\n return true;\n }\n\n /**\n * Capture some initial state that can change throughout the lifespan of the\n * replay. This is required because otherwise they would be captured at the\n * first flush.\n */\n setInitialState() {\n const urlPath = `${WINDOW.location.pathname}${WINDOW.location.hash}${WINDOW.location.search}`;\n const url = `${WINDOW.location.origin}${urlPath}`;\n\n this.performanceEntries = [];\n this.replayPerformanceEntries = [];\n\n // Reset _context as well\n this._clearContext();\n\n this._context.initialUrl = url;\n this._context.initialTimestamp = Date.now();\n this._context.urls.push(url);\n }\n\n /**\n * Add a breadcrumb event, that may be throttled.\n * If it was throttled, we add a custom breadcrumb to indicate that.\n */\n throttledAddEvent(\n event,\n isCheckout,\n ) {\n const res = this._throttledAddEvent(event, isCheckout);\n\n // If this is THROTTLED, it means we have throttled the event for the first time\n // In this case, we want to add a breadcrumb indicating that something was skipped\n if (res === THROTTLED) {\n const breadcrumb = createBreadcrumb({\n category: 'replay.throttled',\n });\n\n this.addUpdate(() => {\n // Return `false` if the event _was_ added, as that means we schedule a flush\n return !addEventSync(this, {\n type: ReplayEventTypeCustom,\n timestamp: breadcrumb.timestamp || 0,\n data: {\n tag: 'breadcrumb',\n payload: breadcrumb,\n metric: true,\n },\n });\n });\n }\n\n return res;\n }\n\n /**\n * This will get the parametrized route name of the current page.\n * This is only available if performance is enabled, and if an instrumented router is used.\n */\n getCurrentRoute() {\n const lastActiveSpan = this.lastActiveSpan || getActiveSpan();\n const lastRootSpan = lastActiveSpan && getRootSpan(lastActiveSpan);\n\n const attributes = (lastRootSpan && spanToJSON(lastRootSpan).data) || {};\n const source = attributes[SEMANTIC_ATTRIBUTE_SENTRY_SOURCE];\n if (!lastRootSpan || !source || !['route', 'custom'].includes(source)) {\n return undefined;\n }\n\n return spanToJSON(lastRootSpan).description;\n }\n\n /**\n * Initialize and start all listeners to varying events (DOM,\n * Performance Observer, Recording, Sentry SDK, etc)\n */\n _initializeRecording() {\n this.setInitialState();\n\n // this method is generally called on page load or manually - in both cases\n // we should treat it as an activity\n this._updateSessionActivity();\n\n this.eventBuffer = createEventBuffer({\n useCompression: this._options.useCompression,\n workerUrl: this._options.workerUrl,\n });\n\n this._removeListeners();\n this._addListeners();\n\n // Need to set as enabled before we start recording, as `record()` can trigger a flush with a new checkout\n this._isEnabled = true;\n this._isPaused = false;\n\n this.startRecording();\n }\n\n /**\n * Loads (or refreshes) the current session.\n */\n _initializeSessionForSampling(previousSessionId) {\n // Whenever there is _any_ error sample rate, we always allow buffering\n // Because we decide on sampling when an error occurs, we need to buffer at all times if sampling for errors\n const allowBuffering = this._options.errorSampleRate > 0;\n\n const session = loadOrCreateSession(\n {\n sessionIdleExpire: this.timeouts.sessionIdleExpire,\n maxReplayDuration: this._options.maxReplayDuration,\n previousSessionId,\n },\n {\n stickySession: this._options.stickySession,\n sessionSampleRate: this._options.sessionSampleRate,\n allowBuffering,\n },\n );\n\n this.session = session;\n }\n\n /**\n * Checks and potentially refreshes the current session.\n * Returns false if session is not recorded.\n */\n _checkSession() {\n // If there is no session yet, we do not want to refresh anything\n // This should generally not happen, but to be safe....\n if (!this.session) {\n return false;\n }\n\n const currentSession = this.session;\n\n if (\n shouldRefreshSession(currentSession, {\n sessionIdleExpire: this.timeouts.sessionIdleExpire,\n maxReplayDuration: this._options.maxReplayDuration,\n })\n ) {\n // This should never reject\n // eslint-disable-next-line @typescript-eslint/no-floating-promises\n this._refreshSession(currentSession);\n return false;\n }\n\n return true;\n }\n\n /**\n * Refresh a session with a new one.\n * This stops the current session (without forcing a flush, as that would never work since we are expired),\n * and then does a new sampling based on the refreshed session.\n */\n async _refreshSession(session) {\n if (!this._isEnabled) {\n return;\n }\n await this.stop({ reason: 'refresh session' });\n this.initializeSampling(session.id);\n }\n\n /**\n * Adds listeners to record events for the replay\n */\n _addListeners() {\n try {\n WINDOW.document.addEventListener('visibilitychange', this._handleVisibilityChange);\n WINDOW.addEventListener('blur', this._handleWindowBlur);\n WINDOW.addEventListener('focus', this._handleWindowFocus);\n WINDOW.addEventListener('keydown', this._handleKeyboardEvent);\n\n if (this.clickDetector) {\n this.clickDetector.addListeners();\n }\n\n // There is no way to remove these listeners, so ensure they are only added once\n if (!this._hasInitializedCoreListeners) {\n addGlobalListeners(this);\n\n this._hasInitializedCoreListeners = true;\n }\n } catch (err) {\n this.handleException(err);\n }\n\n this._performanceCleanupCallback = setupPerformanceObserver(this);\n }\n\n /**\n * Cleans up listeners that were created in `_addListeners`\n */\n _removeListeners() {\n try {\n WINDOW.document.removeEventListener('visibilitychange', this._handleVisibilityChange);\n\n WINDOW.removeEventListener('blur', this._handleWindowBlur);\n WINDOW.removeEventListener('focus', this._handleWindowFocus);\n WINDOW.removeEventListener('keydown', this._handleKeyboardEvent);\n\n if (this.clickDetector) {\n this.clickDetector.removeListeners();\n }\n\n if (this._performanceCleanupCallback) {\n this._performanceCleanupCallback();\n }\n } catch (err) {\n this.handleException(err);\n }\n }\n\n /**\n * Handle when visibility of the page content changes. Opening a new tab will\n * cause the state to change to hidden because of content of current page will\n * be hidden. Likewise, moving a different window to cover the contents of the\n * page will also trigger a change to a hidden state.\n */\n __init() {this._handleVisibilityChange = () => {\n if (WINDOW.document.visibilityState === 'visible') {\n this._doChangeToForegroundTasks();\n } else {\n this._doChangeToBackgroundTasks();\n }\n };}\n\n /**\n * Handle when page is blurred\n */\n __init2() {this._handleWindowBlur = () => {\n const breadcrumb = createBreadcrumb({\n category: 'ui.blur',\n });\n\n // Do not count blur as a user action -- it's part of the process of them\n // leaving the page\n this._doChangeToBackgroundTasks(breadcrumb);\n };}\n\n /**\n * Handle when page is focused\n */\n __init3() {this._handleWindowFocus = () => {\n const breadcrumb = createBreadcrumb({\n category: 'ui.focus',\n });\n\n // Do not count focus as a user action -- instead wait until they focus and\n // interactive with page\n this._doChangeToForegroundTasks(breadcrumb);\n };}\n\n /** Ensure page remains active when a key is pressed. */\n __init4() {this._handleKeyboardEvent = (event) => {\n handleKeyboardEvent(this, event);\n };}\n\n /**\n * Tasks to run when we consider a page to be hidden (via blurring and/or visibility)\n */\n _doChangeToBackgroundTasks(breadcrumb) {\n if (!this.session) {\n return;\n }\n\n const expired = isSessionExpired(this.session, {\n maxReplayDuration: this._options.maxReplayDuration,\n sessionIdleExpire: this.timeouts.sessionIdleExpire,\n });\n\n if (expired) {\n return;\n }\n\n if (breadcrumb) {\n this._createCustomBreadcrumb(breadcrumb);\n }\n\n // Send replay when the page/tab becomes hidden. There is no reason to send\n // replay if it becomes visible, since no actions we care about were done\n // while it was hidden\n // This should never reject\n // eslint-disable-next-line @typescript-eslint/no-floating-promises\n void this.conditionalFlush();\n }\n\n /**\n * Tasks to run when we consider a page to be visible (via focus and/or visibility)\n */\n _doChangeToForegroundTasks(breadcrumb) {\n if (!this.session) {\n return;\n }\n\n const isSessionActive = this.checkAndHandleExpiredSession();\n\n if (!isSessionActive) {\n // If the user has come back to the page within SESSION_IDLE_PAUSE_DURATION\n // ms, we will re-use the existing session, otherwise create a new\n // session\n DEBUG_BUILD && logger.info('Document has become active, but session has expired');\n return;\n }\n\n if (breadcrumb) {\n this._createCustomBreadcrumb(breadcrumb);\n }\n }\n\n /**\n * Update user activity (across session lifespans)\n */\n _updateUserActivity(_lastActivity = Date.now()) {\n this._lastActivity = _lastActivity;\n }\n\n /**\n * Updates the session's last activity timestamp\n */\n _updateSessionActivity(_lastActivity = Date.now()) {\n if (this.session) {\n this.session.lastActivity = _lastActivity;\n this._maybeSaveSession();\n }\n }\n\n /**\n * Helper to create (and buffer) a replay breadcrumb from a core SDK breadcrumb\n */\n _createCustomBreadcrumb(breadcrumb) {\n this.addUpdate(() => {\n // This should never reject\n // eslint-disable-next-line @typescript-eslint/no-floating-promises\n this.throttledAddEvent({\n type: EventType.Custom,\n timestamp: breadcrumb.timestamp || 0,\n data: {\n tag: 'breadcrumb',\n payload: breadcrumb,\n },\n });\n });\n }\n\n /**\n * Observed performance events are added to `this.performanceEntries`. These\n * are included in the replay event before it is finished and sent to Sentry.\n */\n _addPerformanceEntries() {\n const performanceEntries = createPerformanceEntries(this.performanceEntries).concat(this.replayPerformanceEntries);\n\n this.performanceEntries = [];\n this.replayPerformanceEntries = [];\n\n return Promise.all(createPerformanceSpans(this, performanceEntries));\n }\n\n /**\n * Clear _context\n */\n _clearContext() {\n // XXX: `initialTimestamp` and `initialUrl` do not get cleared\n this._context.errorIds.clear();\n this._context.traceIds.clear();\n this._context.urls = [];\n }\n\n /** Update the initial timestamp based on the buffer content. */\n _updateInitialTimestampFromEventBuffer() {\n const { session, eventBuffer } = this;\n // If replay was started manually (=no sample rate was given),\n // We do not want to back-port the initial timestamp\n if (!session || !eventBuffer || this._requiresManualStart) {\n return;\n }\n\n // we only ever update this on the initial segment\n if (session.segmentId) {\n return;\n }\n\n const earliestEvent = eventBuffer.getEarliestTimestamp();\n if (earliestEvent && earliestEvent < this._context.initialTimestamp) {\n this._context.initialTimestamp = earliestEvent;\n }\n }\n\n /**\n * Return and clear _context\n */\n _popEventContext() {\n const _context = {\n initialTimestamp: this._context.initialTimestamp,\n initialUrl: this._context.initialUrl,\n errorIds: Array.from(this._context.errorIds),\n traceIds: Array.from(this._context.traceIds),\n urls: this._context.urls,\n };\n\n this._clearContext();\n\n return _context;\n }\n\n /**\n * Flushes replay event buffer to Sentry.\n *\n * Performance events are only added right before flushing - this is\n * due to the buffered performance observer events.\n *\n * Should never be called directly, only by `flush`\n */\n async _runFlush() {\n const replayId = this.getSessionId();\n\n if (!this.session || !this.eventBuffer || !replayId) {\n DEBUG_BUILD && logger.error('No session or eventBuffer found to flush.');\n return;\n }\n\n await this._addPerformanceEntries();\n\n // Check eventBuffer again, as it could have been stopped in the meanwhile\n if (!this.eventBuffer || !this.eventBuffer.hasEvents) {\n return;\n }\n\n // Only attach memory event if eventBuffer is not empty\n await addMemoryEntry(this);\n\n // Check eventBuffer again, as it could have been stopped in the meanwhile\n if (!this.eventBuffer) {\n return;\n }\n\n // if this changed in the meanwhile, e.g. because the session was refreshed or similar, we abort here\n if (replayId !== this.getSessionId()) {\n return;\n }\n\n try {\n // This uses the data from the eventBuffer, so we need to call this before `finish()\n this._updateInitialTimestampFromEventBuffer();\n\n const timestamp = Date.now();\n\n // Check total duration again, to avoid sending outdated stuff\n // We leave 30s wiggle room to accomodate late flushing etc.\n // This _could_ happen when the browser is suspended during flushing, in which case we just want to stop\n if (timestamp - this._context.initialTimestamp > this._options.maxReplayDuration + 30000) {\n throw new Error('Session is too long, not sending replay');\n }\n\n const eventContext = this._popEventContext();\n // Always increment segmentId regardless of outcome of sending replay\n const segmentId = this.session.segmentId++;\n this._maybeSaveSession();\n\n // Note this empties the event buffer regardless of outcome of sending replay\n const recordingData = await this.eventBuffer.finish();\n\n await sendReplay({\n replayId,\n recordingData,\n segmentId,\n eventContext,\n session: this.session,\n options: this.getOptions(),\n timestamp,\n });\n } catch (err) {\n this.handleException(err);\n\n // This means we retried 3 times and all of them failed,\n // or we ran into a problem we don't want to retry, like rate limiting.\n // In this case, we want to completely stop the replay - otherwise, we may get inconsistent segments\n // This should never reject\n // eslint-disable-next-line @typescript-eslint/no-floating-promises\n this.stop({ reason: 'sendReplay' });\n\n const client = getClient();\n\n if (client) {\n client.recordDroppedEvent('send_error', 'replay');\n }\n }\n }\n\n /**\n * Flush recording data to Sentry. Creates a lock so that only a single flush\n * can be active at a time. Do not call this directly.\n */\n __init5() {this._flush = async ({\n force = false,\n }\n\n = {}) => {\n if (!this._isEnabled && !force) {\n // This can happen if e.g. the replay was stopped because of exceeding the retry limit\n return;\n }\n\n if (!this.checkAndHandleExpiredSession()) {\n DEBUG_BUILD && logger.error('Attempting to finish replay event after session expired.');\n return;\n }\n\n if (!this.session) {\n // should never happen, as we would have bailed out before\n return;\n }\n\n const start = this.session.started;\n const now = Date.now();\n const duration = now - start;\n\n // A flush is about to happen, cancel any queued flushes\n this._debouncedFlush.cancel();\n\n // If session is too short, or too long (allow some wiggle room over maxReplayDuration), do not send it\n // This _should_ not happen, but it may happen if flush is triggered due to a page activity change or similar\n const tooShort = duration < this._options.minReplayDuration;\n const tooLong = duration > this._options.maxReplayDuration + 5000;\n if (tooShort || tooLong) {\n DEBUG_BUILD &&\n logger.info(\n `Session duration (${Math.floor(duration / 1000)}s) is too ${\n tooShort ? 'short' : 'long'\n }, not sending replay.`,\n );\n\n if (tooShort) {\n this._debouncedFlush();\n }\n return;\n }\n\n const eventBuffer = this.eventBuffer;\n if (eventBuffer && this.session.segmentId === 0 && !eventBuffer.hasCheckout) {\n DEBUG_BUILD && logger.info('Flushing initial segment without checkout.');\n // TODO FN: Evaluate if we want to stop here, or remove this again?\n }\n\n // this._flushLock acts as a lock so that future calls to `_flush()`\n // will be blocked until this promise resolves\n if (!this._flushLock) {\n this._flushLock = this._runFlush();\n await this._flushLock;\n this._flushLock = undefined;\n return;\n }\n\n // Wait for previous flush to finish, then call the debounced `_flush()`.\n // It's possible there are other flush requests queued and waiting for it\n // to resolve. We want to reduce all outstanding requests (as well as any\n // new flush requests that occur within a second of the locked flush\n // completing) into a single flush.\n\n try {\n await this._flushLock;\n } catch (err) {\n DEBUG_BUILD && logger.error(err);\n } finally {\n this._debouncedFlush();\n }\n };}\n\n /** Save the session, if it is sticky */\n _maybeSaveSession() {\n if (this.session && this._options.stickySession) {\n saveSession(this.session);\n }\n }\n\n /** Handler for rrweb.record.onMutation */\n __init6() {this._onMutationHandler = (mutations) => {\n const count = mutations.length;\n\n const mutationLimit = this._options.mutationLimit;\n const mutationBreadcrumbLimit = this._options.mutationBreadcrumbLimit;\n const overMutationLimit = mutationLimit && count > mutationLimit;\n\n // Create a breadcrumb if a lot of mutations happen at the same time\n // We can show this in the UI as an information with potential performance improvements\n if (count > mutationBreadcrumbLimit || overMutationLimit) {\n const breadcrumb = createBreadcrumb({\n category: 'replay.mutations',\n data: {\n count,\n limit: overMutationLimit,\n },\n });\n this._createCustomBreadcrumb(breadcrumb);\n }\n\n // Stop replay if over the mutation limit\n if (overMutationLimit) {\n // This should never reject\n // eslint-disable-next-line @typescript-eslint/no-floating-promises\n this.stop({ reason: 'mutationLimit', forceFlush: this.recordingMode === 'session' });\n return false;\n }\n\n // `true` means we use the regular mutation handling by rrweb\n return true;\n };}\n}\n\nfunction getOption(selectors, defaultSelectors) {\n return [\n ...selectors,\n // sentry defaults\n ...defaultSelectors,\n ].join(',');\n}\n\n/**\n * Returns privacy related configuration for use in rrweb\n */\nfunction getPrivacyOptions({ mask, unmask, block, unblock, ignore }) {\n const defaultBlockedElements = ['base[href=\"/\"]'];\n\n const maskSelector = getOption(mask, ['.sentry-mask', '[data-sentry-mask]']);\n const unmaskSelector = getOption(unmask, []);\n\n const options = {\n // We are making the decision to make text and input selectors the same\n maskTextSelector: maskSelector,\n unmaskTextSelector: unmaskSelector,\n\n blockSelector: getOption(block, ['.sentry-block', '[data-sentry-block]', ...defaultBlockedElements]),\n unblockSelector: getOption(unblock, []),\n ignoreSelector: getOption(ignore, ['.sentry-ignore', '[data-sentry-ignore]', 'input[type=\"file\"]']),\n };\n\n return options;\n}\n\n/**\n * Masks an attribute if necessary, otherwise return attribute value as-is.\n */\nfunction maskAttribute({\n el,\n key,\n maskAttributes,\n maskAllText,\n privacyOptions,\n value,\n}) {\n // We only mask attributes if `maskAllText` is true\n if (!maskAllText) {\n return value;\n }\n\n // unmaskTextSelector takes precendence\n if (privacyOptions.unmaskTextSelector && el.matches(privacyOptions.unmaskTextSelector)) {\n return value;\n }\n\n if (\n maskAttributes.includes(key) ||\n // Need to mask `value` attribute for `` if it's a button-like\n // type\n (key === 'value' && el.tagName === 'INPUT' && ['submit', 'button'].includes(el.getAttribute('type') || ''))\n ) {\n return value.replace(/[\\S]/g, '*');\n }\n\n return value;\n}\n\nconst MEDIA_SELECTORS =\n 'img,image,svg,video,object,picture,embed,map,audio,link[rel=\"icon\"],link[rel=\"apple-touch-icon\"]';\n\nconst DEFAULT_NETWORK_HEADERS = ['content-length', 'content-type', 'accept'];\n\nlet _initialized = false;\n\n/**\n * Sentry integration for [Session Replay](https://sentry.io/for/session-replay/).\n *\n * See the [Replay documentation](https://docs.sentry.io/platforms/javascript/guides/session-replay/) for more information.\n *\n * @example\n *\n * ```\n * Sentry.init({\n * dsn: '__DSN__',\n * integrations: [Sentry.replayIntegration()],\n * });\n * ```\n */\nconst replayIntegration = ((options) => {\n return new Replay(options);\n}) ;\n\n/**\n * Replay integration\n *\n * TODO: Rewrite this to be functional integration\n * Exported for tests.\n */\nclass Replay {\n /**\n * @inheritDoc\n */\n static __initStatic() {this.id = 'Replay';}\n\n /**\n * @inheritDoc\n */\n\n /**\n * Options to pass to `rrweb.record()`\n */\n\n /**\n * Initial options passed to the replay integration, merged with default values.\n * Note: `sessionSampleRate` and `errorSampleRate` are not required here, as they\n * can only be finally set when setupOnce() is called.\n *\n * @private\n */\n\n constructor({\n flushMinDelay = DEFAULT_FLUSH_MIN_DELAY,\n flushMaxDelay = DEFAULT_FLUSH_MAX_DELAY,\n minReplayDuration = MIN_REPLAY_DURATION,\n maxReplayDuration = MAX_REPLAY_DURATION,\n stickySession = true,\n useCompression = true,\n workerUrl,\n _experiments = {},\n maskAllText = true,\n maskAllInputs = true,\n blockAllMedia = true,\n\n mutationBreadcrumbLimit = 750,\n mutationLimit = 10000,\n\n slowClickTimeout = 7000,\n slowClickIgnoreSelectors = [],\n\n networkDetailAllowUrls = [],\n networkDetailDenyUrls = [],\n networkCaptureBodies = true,\n networkRequestHeaders = [],\n networkResponseHeaders = [],\n\n mask = [],\n maskAttributes = ['title', 'placeholder'],\n unmask = [],\n block = [],\n unblock = [],\n ignore = [],\n maskFn,\n\n beforeAddRecordingEvent,\n beforeErrorSampling,\n } = {}) {\n this.name = Replay.id;\n\n const privacyOptions = getPrivacyOptions({\n mask,\n unmask,\n block,\n unblock,\n ignore,\n });\n\n this._recordingOptions = {\n maskAllInputs,\n maskAllText,\n maskInputOptions: { password: true },\n maskTextFn: maskFn,\n maskInputFn: maskFn,\n maskAttributeFn: (key, value, el) =>\n maskAttribute({\n maskAttributes,\n maskAllText,\n privacyOptions,\n key,\n value,\n el,\n }),\n\n ...privacyOptions,\n\n // Our defaults\n slimDOMOptions: 'all',\n inlineStylesheet: true,\n // Disable inline images as it will increase segment/replay size\n inlineImages: false,\n // collect fonts, but be aware that `sentry.io` needs to be an allowed\n // origin for playback\n collectFonts: true,\n errorHandler: (err) => {\n try {\n err.__rrweb__ = true;\n } catch (error) {\n // ignore errors here\n // this can happen if the error is frozen or does not allow mutation for other reasons\n }\n },\n };\n\n this._initialOptions = {\n flushMinDelay,\n flushMaxDelay,\n minReplayDuration: Math.min(minReplayDuration, MIN_REPLAY_DURATION_LIMIT),\n maxReplayDuration: Math.min(maxReplayDuration, MAX_REPLAY_DURATION),\n stickySession,\n useCompression,\n workerUrl,\n blockAllMedia,\n maskAllInputs,\n maskAllText,\n mutationBreadcrumbLimit,\n mutationLimit,\n slowClickTimeout,\n slowClickIgnoreSelectors,\n networkDetailAllowUrls,\n networkDetailDenyUrls,\n networkCaptureBodies,\n networkRequestHeaders: _getMergedNetworkHeaders(networkRequestHeaders),\n networkResponseHeaders: _getMergedNetworkHeaders(networkResponseHeaders),\n beforeAddRecordingEvent,\n beforeErrorSampling,\n\n _experiments,\n };\n\n if (this._initialOptions.blockAllMedia) {\n // `blockAllMedia` is a more user friendly option to configure blocking\n // embedded media elements\n this._recordingOptions.blockSelector = !this._recordingOptions.blockSelector\n ? MEDIA_SELECTORS\n : `${this._recordingOptions.blockSelector},${MEDIA_SELECTORS}`;\n }\n\n if (this._isInitialized && isBrowser()) {\n throw new Error('Multiple Sentry Session Replay instances are not supported');\n }\n\n this._isInitialized = true;\n }\n\n /** If replay has already been initialized */\n get _isInitialized() {\n return _initialized;\n }\n\n /** Update _isInitialized */\n set _isInitialized(value) {\n _initialized = value;\n }\n\n /**\n * Setup and initialize replay container\n */\n afterAllSetup(client) {\n if (!isBrowser() || this._replay) {\n return;\n }\n\n this._setup(client);\n this._initialize(client);\n }\n\n /**\n * Start a replay regardless of sampling rate. Calling this will always\n * create a new session. Will log a message if replay is already in progress.\n *\n * Creates or loads a session, attaches listeners to varying events (DOM,\n * PerformanceObserver, Recording, Sentry SDK, etc)\n */\n start() {\n if (!this._replay) {\n return;\n }\n this._replay.start();\n }\n\n /**\n * Start replay buffering. Buffers until `flush()` is called or, if\n * `replaysOnErrorSampleRate` > 0, until an error occurs.\n */\n startBuffering() {\n if (!this._replay) {\n return;\n }\n\n this._replay.startBuffering();\n }\n\n /**\n * Currently, this needs to be manually called (e.g. for tests). Sentry SDK\n * does not support a teardown\n */\n stop() {\n if (!this._replay) {\n return Promise.resolve();\n }\n\n return this._replay.stop({ forceFlush: this._replay.recordingMode === 'session' });\n }\n\n /**\n * If not in \"session\" recording mode, flush event buffer which will create a new replay.\n * If replay is not enabled, a new session replay is started.\n * Unless `continueRecording` is false, the replay will continue to record and\n * behave as a \"session\"-based replay.\n *\n * Otherwise, queue up a flush.\n */\n flush(options) {\n if (!this._replay) {\n return Promise.resolve();\n }\n\n // assuming a session should be recorded in this case\n if (!this._replay.isEnabled()) {\n this._replay.start();\n return Promise.resolve();\n }\n\n return this._replay.sendBufferedReplayOrFlush(options);\n }\n\n /**\n * Get the current session ID.\n */\n getReplayId() {\n if (!this._replay || !this._replay.isEnabled()) {\n return;\n }\n\n return this._replay.getSessionId();\n }\n\n /**\n * Initializes replay.\n */\n _initialize(client) {\n if (!this._replay) {\n return;\n }\n\n this._maybeLoadFromReplayCanvasIntegration(client);\n this._replay.initializeSampling();\n }\n\n /** Setup the integration. */\n _setup(client) {\n // Client is not available in constructor, so we need to wait until setupOnce\n const finalOptions = loadReplayOptionsFromClient(this._initialOptions, client);\n\n this._replay = new ReplayContainer({\n options: finalOptions,\n recordingOptions: this._recordingOptions,\n });\n }\n\n /** Get canvas options from ReplayCanvas integration, if it is also added. */\n _maybeLoadFromReplayCanvasIntegration(client) {\n // To save bundle size, we skip checking for stuff here\n // and instead just try-catch everything - as generally this should all be defined\n /* eslint-disable @typescript-eslint/no-non-null-assertion */\n try {\n const canvasIntegration = client.getIntegrationByName('ReplayCanvas')\n\n;\n if (!canvasIntegration) {\n return;\n }\n\n this._replay['_canvas'] = canvasIntegration.getOptions();\n } catch (e) {\n // ignore errors here\n }\n /* eslint-enable @typescript-eslint/no-non-null-assertion */\n }\n}Replay.__initStatic();\n\n/** Parse Replay-related options from SDK options */\nfunction loadReplayOptionsFromClient(initialOptions, client) {\n const opt = client.getOptions() ;\n\n const finalOptions = {\n sessionSampleRate: 0,\n errorSampleRate: 0,\n ...dropUndefinedKeys(initialOptions),\n };\n\n const replaysSessionSampleRate = parseSampleRate(opt.replaysSessionSampleRate);\n const replaysOnErrorSampleRate = parseSampleRate(opt.replaysOnErrorSampleRate);\n\n if (replaysSessionSampleRate == null && replaysOnErrorSampleRate == null) {\n consoleSandbox(() => {\n // eslint-disable-next-line no-console\n console.warn(\n 'Replay is disabled because neither `replaysSessionSampleRate` nor `replaysOnErrorSampleRate` are set.',\n );\n });\n }\n\n if (replaysSessionSampleRate != null) {\n finalOptions.sessionSampleRate = replaysSessionSampleRate;\n }\n\n if (replaysOnErrorSampleRate != null) {\n finalOptions.errorSampleRate = replaysOnErrorSampleRate;\n }\n\n return finalOptions;\n}\n\nfunction _getMergedNetworkHeaders(headers) {\n return [...DEFAULT_NETWORK_HEADERS, ...headers.map(header => header.toLowerCase())];\n}\n\n/**\n * This is a small utility to get a type-safe instance of the Replay integration.\n */\nfunction getReplay() {\n const client = getClient();\n return client && client.getIntegrationByName('Replay');\n}\n\nexport { getReplay, replayIntegration };\n","// https://github.com/alangpierce/sucrase/tree/265887868966917f3b924ce38dfad01fbab1329f\n//\n// The MIT License (MIT)\n//\n// Copyright (c) 2012-2018 various contributors (see AUTHORS)\n//\n// Permission is hereby granted, free of charge, to any person obtaining a copy\n// of this software and associated documentation files (the \"Software\"), to deal\n// in the Software without restriction, including without limitation the rights\n// to use, copy, modify, merge, publish, distribute, sublicense, and/or sell\n// copies of the Software, and to permit persons to whom the Software is\n// furnished to do so, subject to the following conditions:\n//\n// The above copyright notice and this permission notice shall be included in all\n// copies or substantial portions of the Software.\n//\n// THE SOFTWARE IS PROVIDED \"AS IS\", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR\n// IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,\n// FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE\n// AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER\n// LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,\n// OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE\n// SOFTWARE.\n\n/**\n * Polyfill for the nullish coalescing operator (`??`).\n *\n * Note that the RHS is wrapped in a function so that if it's a computed value, that evaluation won't happen unless the\n * LHS evaluates to a nullish value, to mimic the operator's short-circuiting behavior.\n *\n * Adapted from Sucrase (https://github.com/alangpierce/sucrase)\n *\n * @param lhs The value of the expression to the left of the `??`\n * @param rhsFn A function returning the value of the expression to the right of the `??`\n * @returns The LHS value, unless it's `null` or `undefined`, in which case, the RHS value\n */\nfunction _nullishCoalesce(lhs, rhsFn) {\n // by checking for loose equality to `null`, we catch both `null` and `undefined`\n return lhs != null ? lhs : rhsFn();\n}\n\n// Sucrase version:\n// function _nullishCoalesce(lhs, rhsFn) {\n// if (lhs != null) {\n// return lhs;\n// } else {\n// return rhsFn();\n// }\n// }\n\nexport { _nullishCoalesce };\n","import { addXhrInstrumentationHandler, SENTRY_XHR_DATA_KEY } from '@sentry-internal/browser-utils';\nimport { defineIntegration, getClient, captureEvent, isSentryRequestUrl } from '@sentry/core';\nimport { supportsNativeFetch, addFetchInstrumentationHandler, GLOBAL_OBJ, logger, addExceptionMechanism } from '@sentry/utils';\nimport { DEBUG_BUILD } from '../debug-build.js';\n\nconst INTEGRATION_NAME = 'HttpClient';\n\nconst _httpClientIntegration = ((options = {}) => {\n const _options = {\n failedRequestStatusCodes: [[500, 599]],\n failedRequestTargets: [/.*/],\n ...options,\n };\n\n return {\n name: INTEGRATION_NAME,\n setup(client) {\n _wrapFetch(client, _options);\n _wrapXHR(client, _options);\n },\n };\n}) ;\n\n/**\n * Create events for failed client side HTTP requests.\n */\nconst httpClientIntegration = defineIntegration(_httpClientIntegration);\n\n/**\n * Interceptor function for fetch requests\n *\n * @param requestInfo The Fetch API request info\n * @param response The Fetch API response\n * @param requestInit The request init object\n */\nfunction _fetchResponseHandler(\n options,\n requestInfo,\n response,\n requestInit,\n) {\n if (_shouldCaptureResponse(options, response.status, response.url)) {\n const request = _getRequest(requestInfo, requestInit);\n\n let requestHeaders, responseHeaders, requestCookies, responseCookies;\n\n if (_shouldSendDefaultPii()) {\n [requestHeaders, requestCookies] = _parseCookieHeaders('Cookie', request);\n [responseHeaders, responseCookies] = _parseCookieHeaders('Set-Cookie', response);\n }\n\n const event = _createEvent({\n url: request.url,\n method: request.method,\n status: response.status,\n requestHeaders,\n responseHeaders,\n requestCookies,\n responseCookies,\n });\n\n captureEvent(event);\n }\n}\n\nfunction _parseCookieHeaders(\n cookieHeader,\n obj,\n) {\n const headers = _extractFetchHeaders(obj.headers);\n let cookies;\n\n try {\n const cookieString = headers[cookieHeader] || headers[cookieHeader.toLowerCase()] || undefined;\n\n if (cookieString) {\n cookies = _parseCookieString(cookieString);\n }\n } catch (e) {\n DEBUG_BUILD && logger.log(`Could not extract cookies from header ${cookieHeader}`);\n }\n\n return [headers, cookies];\n}\n\n/**\n * Interceptor function for XHR requests\n *\n * @param xhr The XHR request\n * @param method The HTTP method\n * @param headers The HTTP headers\n */\nfunction _xhrResponseHandler(\n options,\n xhr,\n method,\n headers,\n) {\n if (_shouldCaptureResponse(options, xhr.status, xhr.responseURL)) {\n let requestHeaders, responseCookies, responseHeaders;\n\n if (_shouldSendDefaultPii()) {\n try {\n const cookieString = xhr.getResponseHeader('Set-Cookie') || xhr.getResponseHeader('set-cookie') || undefined;\n\n if (cookieString) {\n responseCookies = _parseCookieString(cookieString);\n }\n } catch (e) {\n DEBUG_BUILD && logger.log('Could not extract cookies from response headers');\n }\n\n try {\n responseHeaders = _getXHRResponseHeaders(xhr);\n } catch (e) {\n DEBUG_BUILD && logger.log('Could not extract headers from response');\n }\n\n requestHeaders = headers;\n }\n\n const event = _createEvent({\n url: xhr.responseURL,\n method,\n status: xhr.status,\n requestHeaders,\n // Can't access request cookies from XHR\n responseHeaders,\n responseCookies,\n });\n\n captureEvent(event);\n }\n}\n\n/**\n * Extracts response size from `Content-Length` header when possible\n *\n * @param headers\n * @returns The response size in bytes or undefined\n */\nfunction _getResponseSizeFromHeaders(headers) {\n if (headers) {\n const contentLength = headers['Content-Length'] || headers['content-length'];\n\n if (contentLength) {\n return parseInt(contentLength, 10);\n }\n }\n\n return undefined;\n}\n\n/**\n * Creates an object containing cookies from the given cookie string\n *\n * @param cookieString The cookie string to parse\n * @returns The parsed cookies\n */\nfunction _parseCookieString(cookieString) {\n return cookieString.split('; ').reduce((acc, cookie) => {\n const [key, value] = cookie.split('=');\n if (key && value) {\n acc[key] = value;\n }\n return acc;\n }, {});\n}\n\n/**\n * Extracts the headers as an object from the given Fetch API request or response object\n *\n * @param headers The headers to extract\n * @returns The extracted headers as an object\n */\nfunction _extractFetchHeaders(headers) {\n const result = {};\n\n headers.forEach((value, key) => {\n result[key] = value;\n });\n\n return result;\n}\n\n/**\n * Extracts the response headers as an object from the given XHR object\n *\n * @param xhr The XHR object to extract the response headers from\n * @returns The response headers as an object\n */\nfunction _getXHRResponseHeaders(xhr) {\n const headers = xhr.getAllResponseHeaders();\n\n if (!headers) {\n return {};\n }\n\n return headers.split('\\r\\n').reduce((acc, line) => {\n const [key, value] = line.split(': ');\n if (key && value) {\n acc[key] = value;\n }\n return acc;\n }, {});\n}\n\n/**\n * Checks if the given target url is in the given list of targets\n *\n * @param target The target url to check\n * @returns true if the target url is in the given list of targets, false otherwise\n */\nfunction _isInGivenRequestTargets(\n failedRequestTargets,\n target,\n) {\n return failedRequestTargets.some((givenRequestTarget) => {\n if (typeof givenRequestTarget === 'string') {\n return target.includes(givenRequestTarget);\n }\n\n return givenRequestTarget.test(target);\n });\n}\n\n/**\n * Checks if the given status code is in the given range\n *\n * @param status The status code to check\n * @returns true if the status code is in the given range, false otherwise\n */\nfunction _isInGivenStatusRanges(\n failedRequestStatusCodes,\n status,\n) {\n return failedRequestStatusCodes.some((range) => {\n if (typeof range === 'number') {\n return range === status;\n }\n\n return status >= range[0] && status <= range[1];\n });\n}\n\n/**\n * Wraps `fetch` function to capture request and response data\n */\nfunction _wrapFetch(client, options) {\n if (!supportsNativeFetch()) {\n return;\n }\n\n addFetchInstrumentationHandler(handlerData => {\n if (getClient() !== client) {\n return;\n }\n\n const { response, args } = handlerData;\n const [requestInfo, requestInit] = args ;\n\n if (!response) {\n return;\n }\n\n _fetchResponseHandler(options, requestInfo, response , requestInit);\n });\n}\n\n/**\n * Wraps XMLHttpRequest to capture request and response data\n */\nfunction _wrapXHR(client, options) {\n if (!('XMLHttpRequest' in GLOBAL_OBJ)) {\n return;\n }\n\n addXhrInstrumentationHandler(handlerData => {\n if (getClient() !== client) {\n return;\n }\n\n const xhr = handlerData.xhr ;\n\n const sentryXhrData = xhr[SENTRY_XHR_DATA_KEY];\n\n if (!sentryXhrData) {\n return;\n }\n\n const { method, request_headers: headers } = sentryXhrData;\n\n try {\n _xhrResponseHandler(options, xhr, method, headers);\n } catch (e) {\n DEBUG_BUILD && logger.warn('Error while extracting response event form XHR response', e);\n }\n });\n}\n\n/**\n * Checks whether to capture given response as an event\n *\n * @param status response status code\n * @param url response url\n */\nfunction _shouldCaptureResponse(options, status, url) {\n return (\n _isInGivenStatusRanges(options.failedRequestStatusCodes, status) &&\n _isInGivenRequestTargets(options.failedRequestTargets, url) &&\n !isSentryRequestUrl(url, getClient())\n );\n}\n\n/**\n * Creates a synthetic Sentry event from given response data\n *\n * @param data response data\n * @returns event\n */\nfunction _createEvent(data\n\n) {\n const message = `HTTP Client Error with status code: ${data.status}`;\n\n const event = {\n message,\n exception: {\n values: [\n {\n type: 'Error',\n value: message,\n },\n ],\n },\n request: {\n url: data.url,\n method: data.method,\n headers: data.requestHeaders,\n cookies: data.requestCookies,\n },\n contexts: {\n response: {\n status_code: data.status,\n headers: data.responseHeaders,\n cookies: data.responseCookies,\n body_size: _getResponseSizeFromHeaders(data.responseHeaders),\n },\n },\n };\n\n addExceptionMechanism(event, {\n type: 'http.client',\n handled: false,\n });\n\n return event;\n}\n\nfunction _getRequest(requestInfo, requestInit) {\n if (!requestInit && requestInfo instanceof Request) {\n return requestInfo;\n }\n\n // If both are set, we try to construct a new Request with the given arguments\n // However, if e.g. the original request has a `body`, this will throw an error because it was already accessed\n // In this case, as a fallback, we just use the original request - using both is rather an edge case\n if (requestInfo instanceof Request && requestInfo.bodyUsed) {\n return requestInfo;\n }\n\n return new Request(requestInfo, requestInit);\n}\n\nfunction _shouldSendDefaultPii() {\n const client = getClient();\n return client ? Boolean(client.getOptions().sendDefaultPii) : false;\n}\n\nexport { httpClientIntegration };\n","export const GLOBAL_ICONS = ['usa-flag', 'canada-flag'];\n","import { CommonModule } from '@angular/common';\nimport { Component } from '@angular/core';\nimport { MatIconRegistry } from '@angular/material/icon';\nimport { DomSanitizer } from '@angular/platform-browser';\nimport { RouterOutlet } from '@angular/router';\nimport { GLOBAL_ICONS } from '../assets/icons/iconRegistry';\n\n@Component({\n selector: 'app-root',\n standalone: true,\n imports: [CommonModule, RouterOutlet],\n templateUrl: './app.component.html',\n styleUrl: './app.component.scss',\n})\nexport class AppComponent {\n public title = 'fuschl';\n\n public constructor(\n private readonly iconRegistry: MatIconRegistry,\n private readonly sanitizer: DomSanitizer\n ) {\n this.registerGlobalIcons();\n }\n\n private registerGlobalIcons() {\n GLOBAL_ICONS.forEach((icon) => {\n this.iconRegistry.addSvgIcon(\n icon,\n this.sanitizer.bypassSecurityTrustResourceUrl(\n `assets/icons/${icon}.svg`\n )\n );\n });\n }\n}\n","","/**\n * @license Angular v18.2.1\n * (c) 2010-2024 Google LLC. https://angular.io/\n * License: MIT\n */\n\nimport { DOCUMENT } from '@angular/common';\nimport * as i0 from '@angular/core';\nimport { inject, ɵChangeDetectionScheduler, ɵRuntimeError, Injectable, ɵperformanceMarkFeature, makeEnvironmentProviders, RendererFactory2, NgZone, ANIMATION_MODULE_TYPE } from '@angular/core';\nimport { ɵDomRendererFactory2 } from '@angular/platform-browser';\n\nconst ANIMATION_PREFIX = '@';\nclass AsyncAnimationRendererFactory {\n /**\n *\n * @param moduleImpl allows to provide a mock implmentation (or will load the animation module)\n */\n constructor(doc, delegate, zone, animationType, moduleImpl) {\n this.doc = doc;\n this.delegate = delegate;\n this.zone = zone;\n this.animationType = animationType;\n this.moduleImpl = moduleImpl;\n this._rendererFactoryPromise = null;\n this.scheduler = inject(ɵChangeDetectionScheduler, { optional: true });\n }\n /** @nodoc */\n ngOnDestroy() {\n // When the root view is removed, the renderer defers the actual work to the\n // `TransitionAnimationEngine` to do this, and the `TransitionAnimationEngine` doesn't actually\n // remove the DOM node, but just calls `markElementAsRemoved()`. The actual DOM node is not\n // removed until `TransitionAnimationEngine` \"flushes\".\n // Note: we already flush on destroy within the `InjectableAnimationEngine`. The injectable\n // engine is not provided when async animations are used.\n this._engine?.flush();\n }\n /**\n * @internal\n */\n loadImpl() {\n // Note on the `.then(m => m)` part below: Closure compiler optimizations in g3 require\n // `.then` to be present for a dynamic import (or an import should be `await`ed) to detect\n // the set of imported symbols.\n const moduleImpl = this.moduleImpl ?? import('@angular/animations/browser').then((m) => m);\n return moduleImpl\n .catch((e) => {\n throw new ɵRuntimeError(5300 /* RuntimeErrorCode.ANIMATION_RENDERER_ASYNC_LOADING_FAILURE */, (typeof ngDevMode === 'undefined' || ngDevMode) &&\n 'Async loading for animations package was ' +\n 'enabled, but loading failed. Angular falls back to using regular rendering. ' +\n \"No animations will be displayed and their styles won't be applied.\");\n })\n .then(({ ɵcreateEngine, ɵAnimationRendererFactory }) => {\n // We can't create the renderer yet because we might need the hostElement and the type\n // Both are provided in createRenderer().\n this._engine = ɵcreateEngine(this.animationType, this.doc);\n const rendererFactory = new ɵAnimationRendererFactory(this.delegate, this._engine, this.zone);\n this.delegate = rendererFactory;\n return rendererFactory;\n });\n }\n /**\n * This method is delegating the renderer creation to the factories.\n * It uses default factory while the animation factory isn't loaded\n * and will rely on the animation factory once it is loaded.\n *\n * Calling this method will trigger as side effect the loading of the animation module\n * if the renderered component uses animations.\n */\n createRenderer(hostElement, rendererType) {\n const renderer = this.delegate.createRenderer(hostElement, rendererType);\n if (renderer.ɵtype === 0 /* AnimationRendererType.Regular */) {\n // The factory is already loaded, this is an animation renderer\n return renderer;\n }\n // We need to prevent the DomRenderer to throw an error because of synthetic properties\n if (typeof renderer.throwOnSyntheticProps === 'boolean') {\n renderer.throwOnSyntheticProps = false;\n }\n // Using a dynamic renderer to switch the renderer implementation once the module is loaded.\n const dynamicRenderer = new DynamicDelegationRenderer(renderer);\n // Kick off the module loading if the component uses animations but the module hasn't been\n // loaded yet.\n if (rendererType?.data?.['animation'] && !this._rendererFactoryPromise) {\n this._rendererFactoryPromise = this.loadImpl();\n }\n this._rendererFactoryPromise\n ?.then((animationRendererFactory) => {\n const animationRenderer = animationRendererFactory.createRenderer(hostElement, rendererType);\n dynamicRenderer.use(animationRenderer);\n this.scheduler?.notify(9 /* NotificationSource.AsyncAnimationsLoaded */);\n })\n .catch((e) => {\n // Permanently use regular renderer when loading fails.\n dynamicRenderer.use(renderer);\n });\n return dynamicRenderer;\n }\n begin() {\n this.delegate.begin?.();\n }\n end() {\n this.delegate.end?.();\n }\n whenRenderingDone() {\n return this.delegate.whenRenderingDone?.() ?? Promise.resolve();\n }\n static { this.ɵfac = i0.ɵɵngDeclareFactory({ minVersion: \"12.0.0\", version: \"18.2.1\", ngImport: i0, type: AsyncAnimationRendererFactory, deps: \"invalid\", target: i0.ɵɵFactoryTarget.Injectable }); }\n static { this.ɵprov = i0.ɵɵngDeclareInjectable({ minVersion: \"12.0.0\", version: \"18.2.1\", ngImport: i0, type: AsyncAnimationRendererFactory }); }\n}\ni0.ɵɵngDeclareClassMetadata({ minVersion: \"12.0.0\", version: \"18.2.1\", ngImport: i0, type: AsyncAnimationRendererFactory, decorators: [{\n type: Injectable\n }], ctorParameters: () => [{ type: Document }, { type: i0.RendererFactory2 }, { type: i0.NgZone }, { type: undefined }, { type: Promise }] });\n/**\n * The class allows to dynamicly switch between different renderer implementations\n * by changing the delegate renderer.\n */\nclass DynamicDelegationRenderer {\n constructor(delegate) {\n this.delegate = delegate;\n // List of callbacks that need to be replayed on the animation renderer once its loaded\n this.replay = [];\n this.ɵtype = 1 /* AnimationRendererType.Delegated */;\n }\n use(impl) {\n this.delegate = impl;\n if (this.replay !== null) {\n // Replay queued actions using the animation renderer to apply\n // all events and properties collected while loading was in progress.\n for (const fn of this.replay) {\n fn(impl);\n }\n // Set to `null` to indicate that the queue was processed\n // and we no longer need to collect events and properties.\n this.replay = null;\n }\n }\n get data() {\n return this.delegate.data;\n }\n destroy() {\n this.replay = null;\n this.delegate.destroy();\n }\n createElement(name, namespace) {\n return this.delegate.createElement(name, namespace);\n }\n createComment(value) {\n return this.delegate.createComment(value);\n }\n createText(value) {\n return this.delegate.createText(value);\n }\n get destroyNode() {\n return this.delegate.destroyNode;\n }\n appendChild(parent, newChild) {\n this.delegate.appendChild(parent, newChild);\n }\n insertBefore(parent, newChild, refChild, isMove) {\n this.delegate.insertBefore(parent, newChild, refChild, isMove);\n }\n removeChild(parent, oldChild, isHostElement) {\n this.delegate.removeChild(parent, oldChild, isHostElement);\n }\n selectRootElement(selectorOrNode, preserveContent) {\n return this.delegate.selectRootElement(selectorOrNode, preserveContent);\n }\n parentNode(node) {\n return this.delegate.parentNode(node);\n }\n nextSibling(node) {\n return this.delegate.nextSibling(node);\n }\n setAttribute(el, name, value, namespace) {\n this.delegate.setAttribute(el, name, value, namespace);\n }\n removeAttribute(el, name, namespace) {\n this.delegate.removeAttribute(el, name, namespace);\n }\n addClass(el, name) {\n this.delegate.addClass(el, name);\n }\n removeClass(el, name) {\n this.delegate.removeClass(el, name);\n }\n setStyle(el, style, value, flags) {\n this.delegate.setStyle(el, style, value, flags);\n }\n removeStyle(el, style, flags) {\n this.delegate.removeStyle(el, style, flags);\n }\n setProperty(el, name, value) {\n // We need to keep track of animation properties set on default renderer\n // So we can also set them also on the animation renderer\n if (this.shouldReplay(name)) {\n this.replay.push((renderer) => renderer.setProperty(el, name, value));\n }\n this.delegate.setProperty(el, name, value);\n }\n setValue(node, value) {\n this.delegate.setValue(node, value);\n }\n listen(target, eventName, callback) {\n // We need to keep track of animation events registred by the default renderer\n // So we can also register them against the animation renderer\n if (this.shouldReplay(eventName)) {\n this.replay.push((renderer) => renderer.listen(target, eventName, callback));\n }\n return this.delegate.listen(target, eventName, callback);\n }\n shouldReplay(propOrEventName) {\n //`null` indicates that we no longer need to collect events and properties\n return this.replay !== null && propOrEventName.startsWith(ANIMATION_PREFIX);\n }\n}\n\n/**\n * Returns the set of dependency-injection providers\n * to enable animations in an application. See [animations guide](guide/animations)\n * to learn more about animations in Angular.\n *\n * When you use this function instead of the eager `provideAnimations()`, animations won't be\n * rendered until the renderer is loaded.\n *\n * @usageNotes\n *\n * The function is useful when you want to enable animations in an application\n * bootstrapped using the `bootstrapApplication` function. In this scenario there\n * is no need to import the `BrowserAnimationsModule` NgModule at all, just add\n * providers returned by this function to the `providers` list as show below.\n *\n * ```typescript\n * bootstrapApplication(RootComponent, {\n * providers: [\n * provideAnimationsAsync()\n * ]\n * });\n * ```\n *\n * @param type pass `'noop'` as argument to disable animations.\n *\n * @publicApi\n */\nfunction provideAnimationsAsync(type = 'animations') {\n ɵperformanceMarkFeature('NgAsyncAnimations');\n return makeEnvironmentProviders([\n {\n provide: RendererFactory2,\n useFactory: (doc, renderer, zone) => {\n return new AsyncAnimationRendererFactory(doc, renderer, zone, type);\n },\n deps: [DOCUMENT, ɵDomRendererFactory2, NgZone],\n },\n {\n provide: ANIMATION_MODULE_TYPE,\n useValue: type === 'noop' ? 'NoopAnimations' : 'BrowserAnimations',\n },\n ]);\n}\n\n/**\n * @module\n * @description\n * Entry point for all animation APIs of the animation browser 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 { provideAnimationsAsync, AsyncAnimationRendererFactory as ɵAsyncAnimationRendererFactory };\n","import { inject } from '@angular/core';\nimport { ActivatedRouteSnapshot, CanActivateFn, Router } from '@angular/router';\nimport { PasswordProtector } from './utils/passwordProtector.service';\n\nexport const checkRegion: CanActivateFn = (route: ActivatedRouteSnapshot) => {\n const region = route.paramMap.get('region');\n const supportedRegions = ['usa', 'canada', 'world'];\n\n return (\n (region && supportedRegions.includes(region)) ||\n inject(Router).createUrlTree(['/'])\n );\n};\n\nexport const loggedIn: CanActivateFn = (route, state) =>\n !inject(PasswordProtector).locked ||\n inject(Router).createUrlTree(['/password'], {\n queryParams: { returnUrl: state.url },\n });\n\nexport const loggedOut: CanActivateFn = () =>\n inject(PasswordProtector).locked || inject(Router).createUrlTree(['/']);\n","import { Routes } from '@angular/router';\nimport { checkRegion, loggedIn, loggedOut } from './route.validators';\n\nexport const routes: Routes = [\n {\n path: 'password',\n canActivate: [loggedOut],\n loadComponent: () =>\n import('./password/password.component').then(\n (component) => component.PasswordComponent\n ),\n },\n {\n path: '',\n canActivateChild: [loggedIn],\n children: [\n {\n path: '',\n loadComponent: () =>\n import('./signup-root/signup-root.component').then(\n (component) => component.SignupRootComponent\n ),\n },\n {\n path: 'company',\n data: { applicationType: 'company' },\n children: [\n {\n path: '',\n loadComponent: () =>\n import(\n './select-jurisdiction/select-jurisdiction.component'\n ).then((component) => component.SelectJurisdictionComponent),\n },\n {\n path: ':region',\n loadComponent: () =>\n import('./select-products/select-products.component').then(\n (component) => component.SelectProductsComponent\n ),\n },\n {\n path: ':region/:product',\n canActivate: [checkRegion],\n loadComponent: () =>\n import('./company-signup/company-signup.component').then(\n (component) => component.CompanySignupComponent\n ),\n },\n {\n path: ':region/:product/verification',\n canActivate: [checkRegion],\n loadComponent: () =>\n import(\n './verification-company/verification-company.component'\n ).then((component) => component.VerificationCompanyComponent),\n },\n ],\n },\n {\n path: 'individual',\n data: { applicationType: 'individual' },\n children: [\n {\n path: '',\n loadComponent: () =>\n import(\n './select-jurisdiction/select-jurisdiction.component'\n ).then((component) => component.SelectJurisdictionComponent),\n },\n {\n path: ':region',\n loadComponent: () =>\n import('./select-products/select-products.component').then(\n (component) => component.SelectProductsComponent\n ),\n },\n {\n path: ':region/:product',\n canActivate: [checkRegion],\n loadComponent: () =>\n import('./individual-signup/individual-signup.component').then(\n (component) => component.IndividualSignupComponent\n ),\n },\n {\n path: ':region/:product/verification',\n canActivate: [checkRegion],\n loadComponent: () =>\n import(\n './verification-individual/verification-individual.component'\n ).then((component) => component.VerificationIndividualComponent),\n },\n ],\n },\n ],\n },\n {\n path: '**',\n redirectTo: '',\n },\n];\n","import {APP_INITIALIZER, ApplicationConfig, ErrorHandler,} from '@angular/core';\nimport {provideRouter, Router} from '@angular/router';\nimport {provideAnimationsAsync} from '@angular/platform-browser/animations/async';\nimport * as Sentry from '@sentry/angular';\nimport {RECAPTCHA_V3_SITE_KEY} from 'ng-recaptcha';\nimport {environment} from '../environments/environment';\nimport {routes} from './app.routes';\nimport {PasswordProtector} from './utils/passwordProtector.service';\nimport {provideHttpClient} from \"@angular/common/http\";\n\nexport const appConfig: ApplicationConfig = {\n providers: [\n provideRouter(routes),\n provideAnimationsAsync(),\n provideHttpClient(),\n {\n provide: PasswordProtector,\n },\n {\n provide: RECAPTCHA_V3_SITE_KEY,\n useValue: environment.RECAPTCHA_SITE_KEY,\n },\n {\n provide: ErrorHandler,\n useValue: Sentry.createErrorHandler({\n showDialog: false,\n }),\n },\n {\n provide: Sentry.TraceService,\n deps: [Router],\n },\n {\n provide: APP_INITIALIZER,\n useFactory: () => () => {},\n deps: [Sentry.TraceService],\n multi: true,\n },\n ],\n};\n","import { bootstrapApplication } from '@angular/platform-browser';\nimport * as Sentry from '@sentry/angular';\nimport { AppComponent } from './app/app.component';\nimport { appConfig } from './app/app.config';\nimport { environment } from './environments/environment';\n\nSentry.init({\n dsn: 'https://47735d110449fc36549cdeeb688281eb@o4507503317090304.ingest.us.sentry.io/4507612285173760',\n integrations: [\n // Registers and configures the Tracing integration,\n // which automatically instruments your application to monitor its\n // performance, including custom Angular routing instrumentation\n Sentry.browserTracingIntegration({}),\n // Registers the Replay integration,\n // which automatically captures Session Replays\n Sentry.replayIntegration({\n networkDetailAllowUrls: ['https://api.hellosign.com/v3'],\n networkRequestHeaders: ['X-Custom-Header'],\n networkResponseHeaders: ['X-Custom-Header'],\n }),\n\n Sentry.httpClientIntegration({\n failedRequestStatusCodes: [[400, 599]],\n }),\n ],\n enabled: environment.PRODUCTION,\n\n environment: window.location.hostname,\n // Set tracesSampleRate to 1.0 to capture 100%\n // of transactions for tracing.\n // We recommend adjusting this value in production\n tracesSampleRate: 1.0,\n\n // Set `tracePropagationTargets` to control for which URLs trace propagation should be enabled\n tracePropagationTargets: ['localhost'],\n\n // Capture Replay for 10% of all sessions,\n // plus for 100% of sessions with an error\n replaysSessionSampleRate: 1.0,\n replaysOnErrorSampleRate: 1.0,\n});\n\nbootstrapApplication(AppComponent, appConfig).catch((err) =>\n console.error(err)\n);\n","import { Subject } from './Subject';\nexport class BehaviorSubject extends Subject {\n constructor(_value) {\n super();\n this._value = _value;\n }\n get value() {\n return this.getValue();\n }\n _subscribe(subscriber) {\n const subscription = super._subscribe(subscriber);\n !subscription.closed && subscriber.next(this._value);\n return subscription;\n }\n getValue() {\n const { hasError, thrownError, _value } = this;\n if (hasError) {\n throw thrownError;\n }\n this._throwIfClosed();\n return _value;\n }\n next(value) {\n super.next((this._value = value));\n }\n}\n","import { SafeSubscriber, Subscriber } from './Subscriber';\nimport { isSubscription } from './Subscription';\nimport { observable as Symbol_observable } from './symbol/observable';\nimport { pipeFromArray } from './util/pipe';\nimport { config } from './config';\nimport { isFunction } from './util/isFunction';\nimport { errorContext } from './util/errorContext';\nexport class Observable {\n constructor(subscribe) {\n if (subscribe) {\n this._subscribe = subscribe;\n }\n }\n lift(operator) {\n const observable = new Observable();\n observable.source = this;\n observable.operator = operator;\n return observable;\n }\n subscribe(observerOrNext, error, complete) {\n const subscriber = isSubscriber(observerOrNext) ? observerOrNext : new SafeSubscriber(observerOrNext, error, complete);\n errorContext(() => {\n const { operator, source } = this;\n subscriber.add(operator\n ?\n operator.call(subscriber, source)\n : source\n ?\n this._subscribe(subscriber)\n :\n this._trySubscribe(subscriber));\n });\n return subscriber;\n }\n _trySubscribe(sink) {\n try {\n return this._subscribe(sink);\n }\n catch (err) {\n sink.error(err);\n }\n }\n forEach(next, promiseCtor) {\n promiseCtor = getPromiseCtor(promiseCtor);\n return new promiseCtor((resolve, reject) => {\n const subscriber = new SafeSubscriber({\n next: (value) => {\n try {\n next(value);\n }\n catch (err) {\n reject(err);\n subscriber.unsubscribe();\n }\n },\n error: reject,\n complete: resolve,\n });\n this.subscribe(subscriber);\n });\n }\n _subscribe(subscriber) {\n var _a;\n return (_a = this.source) === null || _a === void 0 ? void 0 : _a.subscribe(subscriber);\n }\n [Symbol_observable]() {\n return this;\n }\n pipe(...operations) {\n return pipeFromArray(operations)(this);\n }\n toPromise(promiseCtor) {\n promiseCtor = getPromiseCtor(promiseCtor);\n return new promiseCtor((resolve, reject) => {\n let value;\n this.subscribe((x) => (value = x), (err) => reject(err), () => resolve(value));\n });\n }\n}\nObservable.create = (subscribe) => {\n return new Observable(subscribe);\n};\nfunction getPromiseCtor(promiseCtor) {\n var _a;\n return (_a = promiseCtor !== null && promiseCtor !== void 0 ? promiseCtor : config.Promise) !== null && _a !== void 0 ? _a : Promise;\n}\nfunction isObserver(value) {\n return value && isFunction(value.next) && isFunction(value.error) && isFunction(value.complete);\n}\nfunction isSubscriber(value) {\n return (value && value instanceof Subscriber) || (isObserver(value) && isSubscription(value));\n}\n","import { createErrorClass } from './createErrorClass';\nexport const ObjectUnsubscribedError = createErrorClass((_super) => function ObjectUnsubscribedErrorImpl() {\n _super(this);\n this.name = 'ObjectUnsubscribedError';\n this.message = 'object unsubscribed';\n});\n","import { Observable } from './Observable';\nimport { Subscription, EMPTY_SUBSCRIPTION } from './Subscription';\nimport { ObjectUnsubscribedError } from './util/ObjectUnsubscribedError';\nimport { arrRemove } from './util/arrRemove';\nimport { errorContext } from './util/errorContext';\nexport class Subject extends Observable {\n constructor() {\n super();\n this.closed = false;\n this.currentObservers = null;\n this.observers = [];\n this.isStopped = false;\n this.hasError = false;\n this.thrownError = null;\n }\n lift(operator) {\n const subject = new AnonymousSubject(this, this);\n subject.operator = operator;\n return subject;\n }\n _throwIfClosed() {\n if (this.closed) {\n throw new ObjectUnsubscribedError();\n }\n }\n next(value) {\n errorContext(() => {\n this._throwIfClosed();\n if (!this.isStopped) {\n if (!this.currentObservers) {\n this.currentObservers = Array.from(this.observers);\n }\n for (const observer of this.currentObservers) {\n observer.next(value);\n }\n }\n });\n }\n error(err) {\n errorContext(() => {\n this._throwIfClosed();\n if (!this.isStopped) {\n this.hasError = this.isStopped = true;\n this.thrownError = err;\n const { observers } = this;\n while (observers.length) {\n observers.shift().error(err);\n }\n }\n });\n }\n complete() {\n errorContext(() => {\n this._throwIfClosed();\n if (!this.isStopped) {\n this.isStopped = true;\n const { observers } = this;\n while (observers.length) {\n observers.shift().complete();\n }\n }\n });\n }\n unsubscribe() {\n this.isStopped = this.closed = true;\n this.observers = this.currentObservers = null;\n }\n get observed() {\n var _a;\n return ((_a = this.observers) === null || _a === void 0 ? void 0 : _a.length) > 0;\n }\n _trySubscribe(subscriber) {\n this._throwIfClosed();\n return super._trySubscribe(subscriber);\n }\n _subscribe(subscriber) {\n this._throwIfClosed();\n this._checkFinalizedStatuses(subscriber);\n return this._innerSubscribe(subscriber);\n }\n _innerSubscribe(subscriber) {\n const { hasError, isStopped, observers } = this;\n if (hasError || isStopped) {\n return EMPTY_SUBSCRIPTION;\n }\n this.currentObservers = null;\n observers.push(subscriber);\n return new Subscription(() => {\n this.currentObservers = null;\n arrRemove(observers, subscriber);\n });\n }\n _checkFinalizedStatuses(subscriber) {\n const { hasError, thrownError, isStopped } = this;\n if (hasError) {\n subscriber.error(thrownError);\n }\n else if (isStopped) {\n subscriber.complete();\n }\n }\n asObservable() {\n const observable = new Observable();\n observable.source = this;\n return observable;\n }\n}\nSubject.create = (destination, source) => {\n return new AnonymousSubject(destination, source);\n};\nexport class AnonymousSubject extends Subject {\n constructor(destination, source) {\n super();\n this.destination = destination;\n this.source = source;\n }\n next(value) {\n var _a, _b;\n (_b = (_a = this.destination) === null || _a === void 0 ? void 0 : _a.next) === null || _b === void 0 ? void 0 : _b.call(_a, value);\n }\n error(err) {\n var _a, _b;\n (_b = (_a = this.destination) === null || _a === void 0 ? void 0 : _a.error) === null || _b === void 0 ? void 0 : _b.call(_a, err);\n }\n complete() {\n var _a, _b;\n (_b = (_a = this.destination) === null || _a === void 0 ? void 0 : _a.complete) === null || _b === void 0 ? void 0 : _b.call(_a);\n }\n _subscribe(subscriber) {\n var _a, _b;\n return (_b = (_a = this.source) === null || _a === void 0 ? void 0 : _a.subscribe(subscriber)) !== null && _b !== void 0 ? _b : EMPTY_SUBSCRIPTION;\n }\n}\n","export const COMPLETE_NOTIFICATION = (() => createNotification('C', undefined, undefined))();\nexport function errorNotification(error) {\n return createNotification('E', undefined, error);\n}\nexport function nextNotification(value) {\n return createNotification('N', value, undefined);\n}\nexport function createNotification(kind, value, error) {\n return {\n kind,\n value,\n error,\n };\n}\n","import { isFunction } from './util/isFunction';\nimport { isSubscription, Subscription } from './Subscription';\nimport { config } from './config';\nimport { reportUnhandledError } from './util/reportUnhandledError';\nimport { noop } from './util/noop';\nimport { nextNotification, errorNotification, COMPLETE_NOTIFICATION } from './NotificationFactories';\nimport { timeoutProvider } from './scheduler/timeoutProvider';\nimport { captureError } from './util/errorContext';\nexport class Subscriber extends Subscription {\n constructor(destination) {\n super();\n this.isStopped = false;\n if (destination) {\n this.destination = destination;\n if (isSubscription(destination)) {\n destination.add(this);\n }\n }\n else {\n this.destination = EMPTY_OBSERVER;\n }\n }\n static create(next, error, complete) {\n return new SafeSubscriber(next, error, complete);\n }\n next(value) {\n if (this.isStopped) {\n handleStoppedNotification(nextNotification(value), this);\n }\n else {\n this._next(value);\n }\n }\n error(err) {\n if (this.isStopped) {\n handleStoppedNotification(errorNotification(err), this);\n }\n else {\n this.isStopped = true;\n this._error(err);\n }\n }\n complete() {\n if (this.isStopped) {\n handleStoppedNotification(COMPLETE_NOTIFICATION, this);\n }\n else {\n this.isStopped = true;\n this._complete();\n }\n }\n unsubscribe() {\n if (!this.closed) {\n this.isStopped = true;\n super.unsubscribe();\n this.destination = null;\n }\n }\n _next(value) {\n this.destination.next(value);\n }\n _error(err) {\n try {\n this.destination.error(err);\n }\n finally {\n this.unsubscribe();\n }\n }\n _complete() {\n try {\n this.destination.complete();\n }\n finally {\n this.unsubscribe();\n }\n }\n}\nconst _bind = Function.prototype.bind;\nfunction bind(fn, thisArg) {\n return _bind.call(fn, thisArg);\n}\nclass ConsumerObserver {\n constructor(partialObserver) {\n this.partialObserver = partialObserver;\n }\n next(value) {\n const { partialObserver } = this;\n if (partialObserver.next) {\n try {\n partialObserver.next(value);\n }\n catch (error) {\n handleUnhandledError(error);\n }\n }\n }\n error(err) {\n const { partialObserver } = this;\n if (partialObserver.error) {\n try {\n partialObserver.error(err);\n }\n catch (error) {\n handleUnhandledError(error);\n }\n }\n else {\n handleUnhandledError(err);\n }\n }\n complete() {\n const { partialObserver } = this;\n if (partialObserver.complete) {\n try {\n partialObserver.complete();\n }\n catch (error) {\n handleUnhandledError(error);\n }\n }\n }\n}\nexport class SafeSubscriber extends Subscriber {\n constructor(observerOrNext, error, complete) {\n super();\n let partialObserver;\n if (isFunction(observerOrNext) || !observerOrNext) {\n partialObserver = {\n next: (observerOrNext !== null && observerOrNext !== void 0 ? observerOrNext : undefined),\n error: error !== null && error !== void 0 ? error : undefined,\n complete: complete !== null && complete !== void 0 ? complete : undefined,\n };\n }\n else {\n let context;\n if (this && config.useDeprecatedNextContext) {\n context = Object.create(observerOrNext);\n context.unsubscribe = () => this.unsubscribe();\n partialObserver = {\n next: observerOrNext.next && bind(observerOrNext.next, context),\n error: observerOrNext.error && bind(observerOrNext.error, context),\n complete: observerOrNext.complete && bind(observerOrNext.complete, context),\n };\n }\n else {\n partialObserver = observerOrNext;\n }\n }\n this.destination = new ConsumerObserver(partialObserver);\n }\n}\nfunction handleUnhandledError(error) {\n if (config.useDeprecatedSynchronousErrorHandling) {\n captureError(error);\n }\n else {\n reportUnhandledError(error);\n }\n}\nfunction defaultErrorHandler(err) {\n throw err;\n}\nfunction handleStoppedNotification(notification, subscriber) {\n const { onStoppedNotification } = config;\n onStoppedNotification && timeoutProvider.setTimeout(() => onStoppedNotification(notification, subscriber));\n}\nexport const EMPTY_OBSERVER = {\n closed: true,\n next: noop,\n error: defaultErrorHandler,\n complete: noop,\n};\n","import { createErrorClass } from './createErrorClass';\nexport const UnsubscriptionError = createErrorClass((_super) => function UnsubscriptionErrorImpl(errors) {\n _super(this);\n this.message = errors\n ? `${errors.length} errors occurred during unsubscription:\n${errors.map((err, i) => `${i + 1}) ${err.toString()}`).join('\\n ')}`\n : '';\n this.name = 'UnsubscriptionError';\n this.errors = errors;\n});\n","import { isFunction } from './util/isFunction';\nimport { UnsubscriptionError } from './util/UnsubscriptionError';\nimport { arrRemove } from './util/arrRemove';\nexport class Subscription {\n constructor(initialTeardown) {\n this.initialTeardown = initialTeardown;\n this.closed = false;\n this._parentage = null;\n this._finalizers = null;\n }\n unsubscribe() {\n let errors;\n if (!this.closed) {\n this.closed = true;\n const { _parentage } = this;\n if (_parentage) {\n this._parentage = null;\n if (Array.isArray(_parentage)) {\n for (const parent of _parentage) {\n parent.remove(this);\n }\n }\n else {\n _parentage.remove(this);\n }\n }\n const { initialTeardown: initialFinalizer } = this;\n if (isFunction(initialFinalizer)) {\n try {\n initialFinalizer();\n }\n catch (e) {\n errors = e instanceof UnsubscriptionError ? e.errors : [e];\n }\n }\n const { _finalizers } = this;\n if (_finalizers) {\n this._finalizers = null;\n for (const finalizer of _finalizers) {\n try {\n execFinalizer(finalizer);\n }\n catch (err) {\n errors = errors !== null && errors !== void 0 ? errors : [];\n if (err instanceof UnsubscriptionError) {\n errors = [...errors, ...err.errors];\n }\n else {\n errors.push(err);\n }\n }\n }\n }\n if (errors) {\n throw new UnsubscriptionError(errors);\n }\n }\n }\n add(teardown) {\n var _a;\n if (teardown && teardown !== this) {\n if (this.closed) {\n execFinalizer(teardown);\n }\n else {\n if (teardown instanceof Subscription) {\n if (teardown.closed || teardown._hasParent(this)) {\n return;\n }\n teardown._addParent(this);\n }\n (this._finalizers = (_a = this._finalizers) !== null && _a !== void 0 ? _a : []).push(teardown);\n }\n }\n }\n _hasParent(parent) {\n const { _parentage } = this;\n return _parentage === parent || (Array.isArray(_parentage) && _parentage.includes(parent));\n }\n _addParent(parent) {\n const { _parentage } = this;\n this._parentage = Array.isArray(_parentage) ? (_parentage.push(parent), _parentage) : _parentage ? [_parentage, parent] : parent;\n }\n _removeParent(parent) {\n const { _parentage } = this;\n if (_parentage === parent) {\n this._parentage = null;\n }\n else if (Array.isArray(_parentage)) {\n arrRemove(_parentage, parent);\n }\n }\n remove(teardown) {\n const { _finalizers } = this;\n _finalizers && arrRemove(_finalizers, teardown);\n if (teardown instanceof Subscription) {\n teardown._removeParent(this);\n }\n }\n}\nSubscription.EMPTY = (() => {\n const empty = new Subscription();\n empty.closed = true;\n return empty;\n})();\nexport const EMPTY_SUBSCRIPTION = Subscription.EMPTY;\nexport function isSubscription(value) {\n return (value instanceof Subscription ||\n (value && 'closed' in value && isFunction(value.remove) && isFunction(value.add) && isFunction(value.unsubscribe)));\n}\nfunction execFinalizer(finalizer) {\n if (isFunction(finalizer)) {\n finalizer();\n }\n else {\n finalizer.unsubscribe();\n }\n}\n","export const config = {\n onUnhandledError: null,\n onStoppedNotification: null,\n Promise: undefined,\n useDeprecatedSynchronousErrorHandling: false,\n useDeprecatedNextContext: false,\n};\n","import { Observable } from '../Observable';\nimport { argsArgArrayOrObject } from '../util/argsArgArrayOrObject';\nimport { from } from './from';\nimport { identity } from '../util/identity';\nimport { mapOneOrManyArgs } from '../util/mapOneOrManyArgs';\nimport { popResultSelector, popScheduler } from '../util/args';\nimport { createObject } from '../util/createObject';\nimport { createOperatorSubscriber } from '../operators/OperatorSubscriber';\nimport { executeSchedule } from '../util/executeSchedule';\nexport function combineLatest(...args) {\n const scheduler = popScheduler(args);\n const resultSelector = popResultSelector(args);\n const { args: observables, keys } = argsArgArrayOrObject(args);\n if (observables.length === 0) {\n return from([], scheduler);\n }\n const result = new Observable(combineLatestInit(observables, scheduler, keys\n ?\n (values) => createObject(keys, values)\n :\n identity));\n return resultSelector ? result.pipe(mapOneOrManyArgs(resultSelector)) : result;\n}\nexport function combineLatestInit(observables, scheduler, valueTransform = identity) {\n return (subscriber) => {\n maybeSchedule(scheduler, () => {\n const { length } = observables;\n const values = new Array(length);\n let active = length;\n let remainingFirstValues = length;\n for (let i = 0; i < length; i++) {\n maybeSchedule(scheduler, () => {\n const source = from(observables[i], scheduler);\n let hasFirstValue = false;\n source.subscribe(createOperatorSubscriber(subscriber, (value) => {\n values[i] = value;\n if (!hasFirstValue) {\n hasFirstValue = true;\n remainingFirstValues--;\n }\n if (!remainingFirstValues) {\n subscriber.next(valueTransform(values.slice()));\n }\n }, () => {\n if (!--active) {\n subscriber.complete();\n }\n }));\n }, subscriber);\n }\n }, subscriber);\n };\n}\nfunction maybeSchedule(scheduler, execute, subscription) {\n if (scheduler) {\n executeSchedule(subscription, scheduler, execute);\n }\n else {\n execute();\n }\n}\n","import { concatAll } from '../operators/concatAll';\nimport { popScheduler } from '../util/args';\nimport { from } from './from';\nexport function concat(...args) {\n return concatAll()(from(args, popScheduler(args)));\n}\n","import { mergeAll } from './mergeAll';\nexport function concatAll() {\n return mergeAll(1);\n}\n","import { Observable } from '../Observable';\nimport { innerFrom } from './innerFrom';\nexport function defer(observableFactory) {\n return new Observable((subscriber) => {\n innerFrom(observableFactory()).subscribe(subscriber);\n });\n}\n","import { Observable } from '../Observable';\nexport const EMPTY = new Observable((subscriber) => subscriber.complete());\nexport function empty(scheduler) {\n return scheduler ? emptyScheduled(scheduler) : EMPTY;\n}\nfunction emptyScheduled(scheduler) {\n return new Observable((subscriber) => scheduler.schedule(() => subscriber.complete()));\n}\n","import { Observable } from '../Observable';\nimport { argsArgArrayOrObject } from '../util/argsArgArrayOrObject';\nimport { innerFrom } from './innerFrom';\nimport { popResultSelector } from '../util/args';\nimport { createOperatorSubscriber } from '../operators/OperatorSubscriber';\nimport { mapOneOrManyArgs } from '../util/mapOneOrManyArgs';\nimport { createObject } from '../util/createObject';\nexport function forkJoin(...args) {\n const resultSelector = popResultSelector(args);\n const { args: sources, keys } = argsArgArrayOrObject(args);\n const result = new Observable((subscriber) => {\n const { length } = sources;\n if (!length) {\n subscriber.complete();\n return;\n }\n const values = new Array(length);\n let remainingCompletions = length;\n let remainingEmissions = length;\n for (let sourceIndex = 0; sourceIndex < length; sourceIndex++) {\n let hasValue = false;\n innerFrom(sources[sourceIndex]).subscribe(createOperatorSubscriber(subscriber, (value) => {\n if (!hasValue) {\n hasValue = true;\n remainingEmissions--;\n }\n values[sourceIndex] = value;\n }, () => remainingCompletions--, undefined, () => {\n if (!remainingCompletions || !hasValue) {\n if (!remainingEmissions) {\n subscriber.next(keys ? createObject(keys, values) : values);\n }\n subscriber.complete();\n }\n }));\n }\n });\n return resultSelector ? result.pipe(mapOneOrManyArgs(resultSelector)) : result;\n}\n","import { executeSchedule } from '../util/executeSchedule';\nimport { operate } from '../util/lift';\nimport { createOperatorSubscriber } from './OperatorSubscriber';\nexport function observeOn(scheduler, delay = 0) {\n return operate((source, subscriber) => {\n source.subscribe(createOperatorSubscriber(subscriber, (value) => executeSchedule(subscriber, scheduler, () => subscriber.next(value), delay), () => executeSchedule(subscriber, scheduler, () => subscriber.complete(), delay), (err) => executeSchedule(subscriber, scheduler, () => subscriber.error(err), delay)));\n });\n}\n","import { operate } from '../util/lift';\nexport function subscribeOn(scheduler, delay = 0) {\n return operate((source, subscriber) => {\n subscriber.add(scheduler.schedule(() => source.subscribe(subscriber), delay));\n });\n}\n","import { Observable } from '../Observable';\nimport { executeSchedule } from '../util/executeSchedule';\nexport function scheduleAsyncIterable(input, scheduler) {\n if (!input) {\n throw new Error('Iterable cannot be null');\n }\n return new Observable((subscriber) => {\n executeSchedule(subscriber, scheduler, () => {\n const iterator = input[Symbol.asyncIterator]();\n executeSchedule(subscriber, scheduler, () => {\n iterator.next().then((result) => {\n if (result.done) {\n subscriber.complete();\n }\n else {\n subscriber.next(result.value);\n }\n });\n }, 0, true);\n });\n });\n}\n","import { scheduled } from '../scheduled/scheduled';\nimport { innerFrom } from './innerFrom';\nexport function from(input, scheduler) {\n return scheduler ? scheduled(input, scheduler) : innerFrom(input);\n}\n","import { scheduleObservable } from './scheduleObservable';\nimport { schedulePromise } from './schedulePromise';\nimport { scheduleArray } from './scheduleArray';\nimport { scheduleIterable } from './scheduleIterable';\nimport { scheduleAsyncIterable } from './scheduleAsyncIterable';\nimport { isInteropObservable } from '../util/isInteropObservable';\nimport { isPromise } from '../util/isPromise';\nimport { isArrayLike } from '../util/isArrayLike';\nimport { isIterable } from '../util/isIterable';\nimport { isAsyncIterable } from '../util/isAsyncIterable';\nimport { createInvalidObservableTypeError } from '../util/throwUnobservableError';\nimport { isReadableStreamLike } from '../util/isReadableStreamLike';\nimport { scheduleReadableStreamLike } from './scheduleReadableStreamLike';\nexport function scheduled(input, scheduler) {\n if (input != null) {\n if (isInteropObservable(input)) {\n return scheduleObservable(input, scheduler);\n }\n if (isArrayLike(input)) {\n return scheduleArray(input, scheduler);\n }\n if (isPromise(input)) {\n return schedulePromise(input, scheduler);\n }\n if (isAsyncIterable(input)) {\n return scheduleAsyncIterable(input, scheduler);\n }\n if (isIterable(input)) {\n return scheduleIterable(input, scheduler);\n }\n if (isReadableStreamLike(input)) {\n return scheduleReadableStreamLike(input, scheduler);\n }\n }\n throw createInvalidObservableTypeError(input);\n}\n","import { innerFrom } from '../observable/innerFrom';\nimport { observeOn } from '../operators/observeOn';\nimport { subscribeOn } from '../operators/subscribeOn';\nexport function scheduleObservable(input, scheduler) {\n return innerFrom(input).pipe(subscribeOn(scheduler), observeOn(scheduler));\n}\n","import { Observable } from '../Observable';\nexport function scheduleArray(input, scheduler) {\n return new Observable((subscriber) => {\n let i = 0;\n return scheduler.schedule(function () {\n if (i === input.length) {\n subscriber.complete();\n }\n else {\n subscriber.next(input[i++]);\n if (!subscriber.closed) {\n this.schedule();\n }\n }\n });\n });\n}\n","import { innerFrom } from '../observable/innerFrom';\nimport { observeOn } from '../operators/observeOn';\nimport { subscribeOn } from '../operators/subscribeOn';\nexport function schedulePromise(input, scheduler) {\n return innerFrom(input).pipe(subscribeOn(scheduler), observeOn(scheduler));\n}\n","import { Observable } from '../Observable';\nimport { iterator as Symbol_iterator } from '../symbol/iterator';\nimport { isFunction } from '../util/isFunction';\nimport { executeSchedule } from '../util/executeSchedule';\nexport function scheduleIterable(input, scheduler) {\n return new Observable((subscriber) => {\n let iterator;\n executeSchedule(subscriber, scheduler, () => {\n iterator = input[Symbol_iterator]();\n executeSchedule(subscriber, scheduler, () => {\n let value;\n let done;\n try {\n ({ value, done } = iterator.next());\n }\n catch (err) {\n subscriber.error(err);\n return;\n }\n if (done) {\n subscriber.complete();\n }\n else {\n subscriber.next(value);\n }\n }, 0, true);\n });\n return () => isFunction(iterator === null || iterator === void 0 ? void 0 : iterator.return) && iterator.return();\n });\n}\n","import { scheduleAsyncIterable } from './scheduleAsyncIterable';\nimport { readableStreamLikeToAsyncGenerator } from '../util/isReadableStreamLike';\nexport function scheduleReadableStreamLike(input, scheduler) {\n return scheduleAsyncIterable(readableStreamLikeToAsyncGenerator(input), scheduler);\n}\n","import { __asyncValues, __awaiter } from \"tslib\";\nimport { isArrayLike } from '../util/isArrayLike';\nimport { isPromise } from '../util/isPromise';\nimport { Observable } from '../Observable';\nimport { isInteropObservable } from '../util/isInteropObservable';\nimport { isAsyncIterable } from '../util/isAsyncIterable';\nimport { createInvalidObservableTypeError } from '../util/throwUnobservableError';\nimport { isIterable } from '../util/isIterable';\nimport { isReadableStreamLike, readableStreamLikeToAsyncGenerator } from '../util/isReadableStreamLike';\nimport { isFunction } from '../util/isFunction';\nimport { reportUnhandledError } from '../util/reportUnhandledError';\nimport { observable as Symbol_observable } from '../symbol/observable';\nexport function innerFrom(input) {\n if (input instanceof Observable) {\n return input;\n }\n if (input != null) {\n if (isInteropObservable(input)) {\n return fromInteropObservable(input);\n }\n if (isArrayLike(input)) {\n return fromArrayLike(input);\n }\n if (isPromise(input)) {\n return fromPromise(input);\n }\n if (isAsyncIterable(input)) {\n return fromAsyncIterable(input);\n }\n if (isIterable(input)) {\n return fromIterable(input);\n }\n if (isReadableStreamLike(input)) {\n return fromReadableStreamLike(input);\n }\n }\n throw createInvalidObservableTypeError(input);\n}\nexport function fromInteropObservable(obj) {\n return new Observable((subscriber) => {\n const obs = obj[Symbol_observable]();\n if (isFunction(obs.subscribe)) {\n return obs.subscribe(subscriber);\n }\n throw new TypeError('Provided object does not correctly implement Symbol.observable');\n });\n}\nexport function fromArrayLike(array) {\n return new Observable((subscriber) => {\n for (let i = 0; i < array.length && !subscriber.closed; i++) {\n subscriber.next(array[i]);\n }\n subscriber.complete();\n });\n}\nexport function fromPromise(promise) {\n return new Observable((subscriber) => {\n promise\n .then((value) => {\n if (!subscriber.closed) {\n subscriber.next(value);\n subscriber.complete();\n }\n }, (err) => subscriber.error(err))\n .then(null, reportUnhandledError);\n });\n}\nexport function fromIterable(iterable) {\n return new Observable((subscriber) => {\n for (const value of iterable) {\n subscriber.next(value);\n if (subscriber.closed) {\n return;\n }\n }\n subscriber.complete();\n });\n}\nexport function fromAsyncIterable(asyncIterable) {\n return new Observable((subscriber) => {\n process(asyncIterable, subscriber).catch((err) => subscriber.error(err));\n });\n}\nexport function fromReadableStreamLike(readableStream) {\n return fromAsyncIterable(readableStreamLikeToAsyncGenerator(readableStream));\n}\nfunction process(asyncIterable, subscriber) {\n var asyncIterable_1, asyncIterable_1_1;\n var e_1, _a;\n return __awaiter(this, void 0, void 0, function* () {\n try {\n for (asyncIterable_1 = __asyncValues(asyncIterable); asyncIterable_1_1 = yield asyncIterable_1.next(), !asyncIterable_1_1.done;) {\n const value = asyncIterable_1_1.value;\n subscriber.next(value);\n if (subscriber.closed) {\n return;\n }\n }\n }\n catch (e_1_1) { e_1 = { error: e_1_1 }; }\n finally {\n try {\n if (asyncIterable_1_1 && !asyncIterable_1_1.done && (_a = asyncIterable_1.return)) yield _a.call(asyncIterable_1);\n }\n finally { if (e_1) throw e_1.error; }\n }\n subscriber.complete();\n });\n}\n","import { popScheduler } from '../util/args';\nimport { from } from './from';\nexport function of(...args) {\n const scheduler = popScheduler(args);\n return from(args, scheduler);\n}\n","import { Observable } from '../Observable';\nimport { isFunction } from '../util/isFunction';\nexport function throwError(errorOrErrorFactory, scheduler) {\n const errorFactory = isFunction(errorOrErrorFactory) ? errorOrErrorFactory : () => errorOrErrorFactory;\n const init = (subscriber) => subscriber.error(errorFactory());\n return new Observable(scheduler ? (subscriber) => scheduler.schedule(init, 0, subscriber) : init);\n}\n","import { Subscriber } from '../Subscriber';\nexport function createOperatorSubscriber(destination, onNext, onComplete, onError, onFinalize) {\n return new OperatorSubscriber(destination, onNext, onComplete, onError, onFinalize);\n}\nexport class OperatorSubscriber extends Subscriber {\n constructor(destination, onNext, onComplete, onError, onFinalize, shouldUnsubscribe) {\n super(destination);\n this.onFinalize = onFinalize;\n this.shouldUnsubscribe = shouldUnsubscribe;\n this._next = onNext\n ? function (value) {\n try {\n onNext(value);\n }\n catch (err) {\n destination.error(err);\n }\n }\n : super._next;\n this._error = onError\n ? function (err) {\n try {\n onError(err);\n }\n catch (err) {\n destination.error(err);\n }\n finally {\n this.unsubscribe();\n }\n }\n : super._error;\n this._complete = onComplete\n ? function () {\n try {\n onComplete();\n }\n catch (err) {\n destination.error(err);\n }\n finally {\n this.unsubscribe();\n }\n }\n : super._complete;\n }\n unsubscribe() {\n var _a;\n if (!this.shouldUnsubscribe || this.shouldUnsubscribe()) {\n const { closed } = this;\n super.unsubscribe();\n !closed && ((_a = this.onFinalize) === null || _a === void 0 ? void 0 : _a.call(this));\n }\n }\n}\n","import { innerFrom } from '../observable/innerFrom';\nimport { createOperatorSubscriber } from './OperatorSubscriber';\nimport { operate } from '../util/lift';\nexport function catchError(selector) {\n return operate((source, subscriber) => {\n let innerSub = null;\n let syncUnsub = false;\n let handledResult;\n innerSub = source.subscribe(createOperatorSubscriber(subscriber, undefined, undefined, (err) => {\n handledResult = innerFrom(selector(err, catchError(selector)(source)));\n if (innerSub) {\n innerSub.unsubscribe();\n innerSub = null;\n handledResult.subscribe(subscriber);\n }\n else {\n syncUnsub = true;\n }\n }));\n if (syncUnsub) {\n innerSub.unsubscribe();\n innerSub = null;\n handledResult.subscribe(subscriber);\n }\n });\n}\n","import { mergeMap } from './mergeMap';\nimport { isFunction } from '../util/isFunction';\nexport function concatMap(project, resultSelector) {\n return isFunction(resultSelector) ? mergeMap(project, resultSelector, 1) : mergeMap(project, 1);\n}\n","import { asyncScheduler } from '../scheduler/async';\nimport { operate } from '../util/lift';\nimport { createOperatorSubscriber } from './OperatorSubscriber';\nexport function debounceTime(dueTime, scheduler = asyncScheduler) {\n return operate((source, subscriber) => {\n let activeTask = null;\n let lastValue = null;\n let lastTime = null;\n const emit = () => {\n if (activeTask) {\n activeTask.unsubscribe();\n activeTask = null;\n const value = lastValue;\n lastValue = null;\n subscriber.next(value);\n }\n };\n function emitWhenIdle() {\n const targetTime = lastTime + dueTime;\n const now = scheduler.now();\n if (now < targetTime) {\n activeTask = this.schedule(undefined, targetTime - now);\n subscriber.add(activeTask);\n return;\n }\n emit();\n }\n source.subscribe(createOperatorSubscriber(subscriber, (value) => {\n lastValue = value;\n lastTime = scheduler.now();\n if (!activeTask) {\n activeTask = scheduler.schedule(emitWhenIdle, dueTime);\n subscriber.add(activeTask);\n }\n }, () => {\n emit();\n subscriber.complete();\n }, undefined, () => {\n lastValue = activeTask = null;\n }));\n });\n}\n","import { identity } from '../util/identity';\nimport { operate } from '../util/lift';\nimport { createOperatorSubscriber } from './OperatorSubscriber';\nexport function distinctUntilChanged(comparator, keySelector = identity) {\n comparator = comparator !== null && comparator !== void 0 ? comparator : defaultCompare;\n return operate((source, subscriber) => {\n let previousKey;\n let first = true;\n source.subscribe(createOperatorSubscriber(subscriber, (value) => {\n const currentKey = keySelector(value);\n if (first || !comparator(previousKey, currentKey)) {\n first = false;\n previousKey = currentKey;\n subscriber.next(value);\n }\n }));\n });\n}\nfunction defaultCompare(a, b) {\n return a === b;\n}\n","import { operate } from '../util/lift';\nimport { createOperatorSubscriber } from './OperatorSubscriber';\nexport function filter(predicate, thisArg) {\n return operate((source, subscriber) => {\n let index = 0;\n source.subscribe(createOperatorSubscriber(subscriber, (value) => predicate.call(thisArg, value, index++) && subscriber.next(value)));\n });\n}\n","import { operate } from '../util/lift';\nexport function finalize(callback) {\n return operate((source, subscriber) => {\n try {\n source.subscribe(subscriber);\n }\n finally {\n subscriber.add(callback);\n }\n });\n}\n","import { operate } from '../util/lift';\nimport { createOperatorSubscriber } from './OperatorSubscriber';\nexport function map(project, thisArg) {\n return operate((source, subscriber) => {\n let index = 0;\n source.subscribe(createOperatorSubscriber(subscriber, (value) => {\n subscriber.next(project.call(thisArg, value, index++));\n }));\n });\n}\n","import { map } from './map';\nexport function mapTo(value) {\n return map(() => value);\n}\n","import { mergeMap } from './mergeMap';\nimport { identity } from '../util/identity';\nexport function mergeAll(concurrent = Infinity) {\n return mergeMap(identity, concurrent);\n}\n","import { map } from './map';\nimport { innerFrom } from '../observable/innerFrom';\nimport { operate } from '../util/lift';\nimport { mergeInternals } from './mergeInternals';\nimport { isFunction } from '../util/isFunction';\nexport function mergeMap(project, resultSelector, concurrent = Infinity) {\n if (isFunction(resultSelector)) {\n return mergeMap((a, i) => map((b, ii) => resultSelector(a, b, i, ii))(innerFrom(project(a, i))), concurrent);\n }\n else if (typeof resultSelector === 'number') {\n concurrent = resultSelector;\n }\n return operate((source, subscriber) => mergeInternals(source, subscriber, project, concurrent));\n}\n","import { innerFrom } from '../observable/innerFrom';\nimport { executeSchedule } from '../util/executeSchedule';\nimport { createOperatorSubscriber } from './OperatorSubscriber';\nexport function mergeInternals(source, subscriber, project, concurrent, onBeforeNext, expand, innerSubScheduler, additionalFinalizer) {\n const buffer = [];\n let active = 0;\n let index = 0;\n let isComplete = false;\n const checkComplete = () => {\n if (isComplete && !buffer.length && !active) {\n subscriber.complete();\n }\n };\n const outerNext = (value) => (active < concurrent ? doInnerSub(value) : buffer.push(value));\n const doInnerSub = (value) => {\n expand && subscriber.next(value);\n active++;\n let innerComplete = false;\n innerFrom(project(value, index++)).subscribe(createOperatorSubscriber(subscriber, (innerValue) => {\n onBeforeNext === null || onBeforeNext === void 0 ? void 0 : onBeforeNext(innerValue);\n if (expand) {\n outerNext(innerValue);\n }\n else {\n subscriber.next(innerValue);\n }\n }, () => {\n innerComplete = true;\n }, undefined, () => {\n if (innerComplete) {\n try {\n active--;\n while (buffer.length && active < concurrent) {\n const bufferedValue = buffer.shift();\n if (innerSubScheduler) {\n executeSchedule(subscriber, innerSubScheduler, () => doInnerSub(bufferedValue));\n }\n else {\n doInnerSub(bufferedValue);\n }\n }\n checkComplete();\n }\n catch (err) {\n subscriber.error(err);\n }\n }\n }));\n };\n source.subscribe(createOperatorSubscriber(subscriber, outerNext, () => {\n isComplete = true;\n checkComplete();\n }));\n return () => {\n additionalFinalizer === null || additionalFinalizer === void 0 ? void 0 : additionalFinalizer();\n };\n}\n","import { innerFrom } from '../observable/innerFrom';\nimport { Subject } from '../Subject';\nimport { SafeSubscriber } from '../Subscriber';\nimport { operate } from '../util/lift';\nexport function share(options = {}) {\n const { connector = () => new Subject(), resetOnError = true, resetOnComplete = true, resetOnRefCountZero = true } = options;\n return (wrapperSource) => {\n let connection;\n let resetConnection;\n let subject;\n let refCount = 0;\n let hasCompleted = false;\n let hasErrored = false;\n const cancelReset = () => {\n resetConnection === null || resetConnection === void 0 ? void 0 : resetConnection.unsubscribe();\n resetConnection = undefined;\n };\n const reset = () => {\n cancelReset();\n connection = subject = undefined;\n hasCompleted = hasErrored = false;\n };\n const resetAndUnsubscribe = () => {\n const conn = connection;\n reset();\n conn === null || conn === void 0 ? void 0 : conn.unsubscribe();\n };\n return operate((source, subscriber) => {\n refCount++;\n if (!hasErrored && !hasCompleted) {\n cancelReset();\n }\n const dest = (subject = subject !== null && subject !== void 0 ? subject : connector());\n subscriber.add(() => {\n refCount--;\n if (refCount === 0 && !hasErrored && !hasCompleted) {\n resetConnection = handleReset(resetAndUnsubscribe, resetOnRefCountZero);\n }\n });\n dest.subscribe(subscriber);\n if (!connection &&\n refCount > 0) {\n connection = new SafeSubscriber({\n next: (value) => dest.next(value),\n error: (err) => {\n hasErrored = true;\n cancelReset();\n resetConnection = handleReset(reset, resetOnError, err);\n dest.error(err);\n },\n complete: () => {\n hasCompleted = true;\n cancelReset();\n resetConnection = handleReset(reset, resetOnComplete);\n dest.complete();\n },\n });\n innerFrom(source).subscribe(connection);\n }\n })(wrapperSource);\n };\n}\nfunction handleReset(reset, on, ...args) {\n if (on === true) {\n reset();\n return;\n }\n if (on === false) {\n return;\n }\n const onSubscriber = new SafeSubscriber({\n next: () => {\n onSubscriber.unsubscribe();\n reset();\n },\n });\n return innerFrom(on(...args)).subscribe(onSubscriber);\n}\n","import { filter } from './filter';\nexport function skip(count) {\n return filter((_, index) => count <= index);\n}\n","import { concat } from '../observable/concat';\nimport { popScheduler } from '../util/args';\nimport { operate } from '../util/lift';\nexport function startWith(...values) {\n const scheduler = popScheduler(values);\n return operate((source, subscriber) => {\n (scheduler ? concat(values, source, scheduler) : concat(values, source)).subscribe(subscriber);\n });\n}\n","import { innerFrom } from '../observable/innerFrom';\nimport { operate } from '../util/lift';\nimport { createOperatorSubscriber } from './OperatorSubscriber';\nexport function switchMap(project, resultSelector) {\n return operate((source, subscriber) => {\n let innerSubscriber = null;\n let index = 0;\n let isComplete = false;\n const checkComplete = () => isComplete && !innerSubscriber && subscriber.complete();\n source.subscribe(createOperatorSubscriber(subscriber, (value) => {\n innerSubscriber === null || innerSubscriber === void 0 ? void 0 : innerSubscriber.unsubscribe();\n let innerIndex = 0;\n const outerIndex = index++;\n innerFrom(project(value, outerIndex)).subscribe((innerSubscriber = createOperatorSubscriber(subscriber, (innerValue) => subscriber.next(resultSelector ? resultSelector(value, innerValue, outerIndex, innerIndex++) : innerValue), () => {\n innerSubscriber = null;\n checkComplete();\n })));\n }, () => {\n isComplete = true;\n checkComplete();\n }));\n });\n}\n","import { EMPTY } from '../observable/empty';\nimport { operate } from '../util/lift';\nimport { createOperatorSubscriber } from './OperatorSubscriber';\nexport function take(count) {\n return count <= 0\n ?\n () => EMPTY\n : operate((source, subscriber) => {\n let seen = 0;\n source.subscribe(createOperatorSubscriber(subscriber, (value) => {\n if (++seen <= count) {\n subscriber.next(value);\n if (count <= seen) {\n subscriber.complete();\n }\n }\n }));\n });\n}\n","import { operate } from '../util/lift';\nimport { createOperatorSubscriber } from './OperatorSubscriber';\nimport { innerFrom } from '../observable/innerFrom';\nimport { noop } from '../util/noop';\nexport function takeUntil(notifier) {\n return operate((source, subscriber) => {\n innerFrom(notifier).subscribe(createOperatorSubscriber(subscriber, () => subscriber.complete(), noop));\n !subscriber.closed && source.subscribe(subscriber);\n });\n}\n","import { isFunction } from '../util/isFunction';\nimport { operate } from '../util/lift';\nimport { createOperatorSubscriber } from './OperatorSubscriber';\nimport { identity } from '../util/identity';\nexport function tap(observerOrNext, error, complete) {\n const tapObserver = isFunction(observerOrNext) || error || complete\n ?\n { next: observerOrNext, error, complete }\n : observerOrNext;\n return tapObserver\n ? operate((source, subscriber) => {\n var _a;\n (_a = tapObserver.subscribe) === null || _a === void 0 ? void 0 : _a.call(tapObserver);\n let isUnsub = true;\n source.subscribe(createOperatorSubscriber(subscriber, (value) => {\n var _a;\n (_a = tapObserver.next) === null || _a === void 0 ? void 0 : _a.call(tapObserver, value);\n subscriber.next(value);\n }, () => {\n var _a;\n isUnsub = false;\n (_a = tapObserver.complete) === null || _a === void 0 ? void 0 : _a.call(tapObserver);\n subscriber.complete();\n }, (err) => {\n var _a;\n isUnsub = false;\n (_a = tapObserver.error) === null || _a === void 0 ? void 0 : _a.call(tapObserver, err);\n subscriber.error(err);\n }, () => {\n var _a, _b;\n if (isUnsub) {\n (_a = tapObserver.unsubscribe) === null || _a === void 0 ? void 0 : _a.call(tapObserver);\n }\n (_b = tapObserver.finalize) === null || _b === void 0 ? void 0 : _b.call(tapObserver);\n }));\n })\n :\n identity;\n}\n","import { Subscription } from '../Subscription';\nexport class Action extends Subscription {\n constructor(scheduler, work) {\n super();\n }\n schedule(state, delay = 0) {\n return this;\n }\n}\n","export const intervalProvider = {\n setInterval(handler, timeout, ...args) {\n const { delegate } = intervalProvider;\n if (delegate === null || delegate === void 0 ? void 0 : delegate.setInterval) {\n return delegate.setInterval(handler, timeout, ...args);\n }\n return setInterval(handler, timeout, ...args);\n },\n clearInterval(handle) {\n const { delegate } = intervalProvider;\n return ((delegate === null || delegate === void 0 ? void 0 : delegate.clearInterval) || clearInterval)(handle);\n },\n delegate: undefined,\n};\n","import { Action } from './Action';\nimport { intervalProvider } from './intervalProvider';\nimport { arrRemove } from '../util/arrRemove';\nexport class AsyncAction extends Action {\n constructor(scheduler, work) {\n super(scheduler, work);\n this.scheduler = scheduler;\n this.work = work;\n this.pending = false;\n }\n schedule(state, delay = 0) {\n var _a;\n if (this.closed) {\n return this;\n }\n this.state = state;\n const id = this.id;\n const scheduler = this.scheduler;\n if (id != null) {\n this.id = this.recycleAsyncId(scheduler, id, delay);\n }\n this.pending = true;\n this.delay = delay;\n this.id = (_a = this.id) !== null && _a !== void 0 ? _a : this.requestAsyncId(scheduler, this.id, delay);\n return this;\n }\n requestAsyncId(scheduler, _id, delay = 0) {\n return intervalProvider.setInterval(scheduler.flush.bind(scheduler, this), delay);\n }\n recycleAsyncId(_scheduler, id, delay = 0) {\n if (delay != null && this.delay === delay && this.pending === false) {\n return id;\n }\n if (id != null) {\n intervalProvider.clearInterval(id);\n }\n return undefined;\n }\n execute(state, delay) {\n if (this.closed) {\n return new Error('executing a cancelled action');\n }\n this.pending = false;\n const error = this._execute(state, delay);\n if (error) {\n return error;\n }\n else if (this.pending === false && this.id != null) {\n this.id = this.recycleAsyncId(this.scheduler, this.id, null);\n }\n }\n _execute(state, _delay) {\n let errored = false;\n let errorValue;\n try {\n this.work(state);\n }\n catch (e) {\n errored = true;\n errorValue = e ? e : new Error('Scheduled action threw falsy error');\n }\n if (errored) {\n this.unsubscribe();\n return errorValue;\n }\n }\n unsubscribe() {\n if (!this.closed) {\n const { id, scheduler } = this;\n const { actions } = scheduler;\n this.work = this.state = this.scheduler = null;\n this.pending = false;\n arrRemove(actions, this);\n if (id != null) {\n this.id = this.recycleAsyncId(scheduler, id, null);\n }\n this.delay = null;\n super.unsubscribe();\n }\n }\n}\n","import { dateTimestampProvider } from './scheduler/dateTimestampProvider';\nexport class Scheduler {\n constructor(schedulerActionCtor, now = Scheduler.now) {\n this.schedulerActionCtor = schedulerActionCtor;\n this.now = now;\n }\n schedule(work, delay = 0, state) {\n return new this.schedulerActionCtor(this, work).schedule(state, delay);\n }\n}\nScheduler.now = dateTimestampProvider.now;\n","import { Scheduler } from '../Scheduler';\nexport class AsyncScheduler extends Scheduler {\n constructor(SchedulerAction, now = Scheduler.now) {\n super(SchedulerAction, now);\n this.actions = [];\n this._active = false;\n }\n flush(action) {\n const { actions } = this;\n if (this._active) {\n actions.push(action);\n return;\n }\n let error;\n this._active = true;\n do {\n if ((error = action.execute(action.state, action.delay))) {\n break;\n }\n } while ((action = actions.shift()));\n this._active = false;\n if (error) {\n while ((action = actions.shift())) {\n action.unsubscribe();\n }\n throw error;\n }\n }\n}\n","import { AsyncAction } from './AsyncAction';\nimport { AsyncScheduler } from './AsyncScheduler';\nexport const asyncScheduler = new AsyncScheduler(AsyncAction);\nexport const async = asyncScheduler;\n","export const dateTimestampProvider = {\n now() {\n return (dateTimestampProvider.delegate || Date).now();\n },\n delegate: undefined,\n};\n","export const timeoutProvider = {\n setTimeout(handler, timeout, ...args) {\n const { delegate } = timeoutProvider;\n if (delegate === null || delegate === void 0 ? void 0 : delegate.setTimeout) {\n return delegate.setTimeout(handler, timeout, ...args);\n }\n return setTimeout(handler, timeout, ...args);\n },\n clearTimeout(handle) {\n const { delegate } = timeoutProvider;\n return ((delegate === null || delegate === void 0 ? void 0 : delegate.clearTimeout) || clearTimeout)(handle);\n },\n delegate: undefined,\n};\n","export function getSymbolIterator() {\n if (typeof Symbol !== 'function' || !Symbol.iterator) {\n return '@@iterator';\n }\n return Symbol.iterator;\n}\nexport const iterator = getSymbolIterator();\n","export const observable = (() => (typeof Symbol === 'function' && Symbol.observable) || '@@observable')();\n","import { isFunction } from './isFunction';\nimport { isScheduler } from './isScheduler';\nfunction last(arr) {\n return arr[arr.length - 1];\n}\nexport function popResultSelector(args) {\n return isFunction(last(args)) ? args.pop() : undefined;\n}\nexport function popScheduler(args) {\n return isScheduler(last(args)) ? args.pop() : undefined;\n}\nexport function popNumber(args, defaultValue) {\n return typeof last(args) === 'number' ? args.pop() : defaultValue;\n}\n","const { isArray } = Array;\nconst { getPrototypeOf, prototype: objectProto, keys: getKeys } = Object;\nexport function argsArgArrayOrObject(args) {\n if (args.length === 1) {\n const first = args[0];\n if (isArray(first)) {\n return { args: first, keys: null };\n }\n if (isPOJO(first)) {\n const keys = getKeys(first);\n return {\n args: keys.map((key) => first[key]),\n keys,\n };\n }\n }\n return { args: args, keys: null };\n}\nfunction isPOJO(obj) {\n return obj && typeof obj === 'object' && getPrototypeOf(obj) === objectProto;\n}\n","export function arrRemove(arr, item) {\n if (arr) {\n const index = arr.indexOf(item);\n 0 <= index && arr.splice(index, 1);\n }\n}\n","export function createErrorClass(createImpl) {\n const _super = (instance) => {\n Error.call(instance);\n instance.stack = new Error().stack;\n };\n const ctorFunc = createImpl(_super);\n ctorFunc.prototype = Object.create(Error.prototype);\n ctorFunc.prototype.constructor = ctorFunc;\n return ctorFunc;\n}\n","export function createObject(keys, values) {\n return keys.reduce((result, key, i) => ((result[key] = values[i]), result), {});\n}\n","import { config } from '../config';\nlet context = null;\nexport function errorContext(cb) {\n if (config.useDeprecatedSynchronousErrorHandling) {\n const isRoot = !context;\n if (isRoot) {\n context = { errorThrown: false, error: null };\n }\n cb();\n if (isRoot) {\n const { errorThrown, error } = context;\n context = null;\n if (errorThrown) {\n throw error;\n }\n }\n }\n else {\n cb();\n }\n}\nexport function captureError(err) {\n if (config.useDeprecatedSynchronousErrorHandling && context) {\n context.errorThrown = true;\n context.error = err;\n }\n}\n","export function executeSchedule(parentSubscription, scheduler, work, delay = 0, repeat = false) {\n const scheduleSubscription = scheduler.schedule(function () {\n work();\n if (repeat) {\n parentSubscription.add(this.schedule(null, delay));\n }\n else {\n this.unsubscribe();\n }\n }, delay);\n parentSubscription.add(scheduleSubscription);\n if (!repeat) {\n return scheduleSubscription;\n }\n}\n","export function identity(x) {\n return x;\n}\n","export const isArrayLike = ((x) => x && typeof x.length === 'number' && typeof x !== 'function');\n","import { isFunction } from './isFunction';\nexport function isAsyncIterable(obj) {\n return Symbol.asyncIterator && isFunction(obj === null || obj === void 0 ? void 0 : obj[Symbol.asyncIterator]);\n}\n","export function isFunction(value) {\n return typeof value === 'function';\n}\n","import { observable as Symbol_observable } from '../symbol/observable';\nimport { isFunction } from './isFunction';\nexport function isInteropObservable(input) {\n return isFunction(input[Symbol_observable]);\n}\n","import { iterator as Symbol_iterator } from '../symbol/iterator';\nimport { isFunction } from './isFunction';\nexport function isIterable(input) {\n return isFunction(input === null || input === void 0 ? void 0 : input[Symbol_iterator]);\n}\n","import { Observable } from '../Observable';\nimport { isFunction } from './isFunction';\nexport function isObservable(obj) {\n return !!obj && (obj instanceof Observable || (isFunction(obj.lift) && isFunction(obj.subscribe)));\n}\n","import { isFunction } from \"./isFunction\";\nexport function isPromise(value) {\n return isFunction(value === null || value === void 0 ? void 0 : value.then);\n}\n","import { __asyncGenerator, __await } from \"tslib\";\nimport { isFunction } from './isFunction';\nexport function readableStreamLikeToAsyncGenerator(readableStream) {\n return __asyncGenerator(this, arguments, function* readableStreamLikeToAsyncGenerator_1() {\n const reader = readableStream.getReader();\n try {\n while (true) {\n const { value, done } = yield __await(reader.read());\n if (done) {\n return yield __await(void 0);\n }\n yield yield __await(value);\n }\n }\n finally {\n reader.releaseLock();\n }\n });\n}\nexport function isReadableStreamLike(obj) {\n return isFunction(obj === null || obj === void 0 ? void 0 : obj.getReader);\n}\n","import { isFunction } from './isFunction';\nexport function isScheduler(value) {\n return value && isFunction(value.schedule);\n}\n","import { isFunction } from './isFunction';\nexport function hasLift(source) {\n return isFunction(source === null || source === void 0 ? void 0 : source.lift);\n}\nexport function operate(init) {\n return (source) => {\n if (hasLift(source)) {\n return source.lift(function (liftedSource) {\n try {\n return init(liftedSource, this);\n }\n catch (err) {\n this.error(err);\n }\n });\n }\n throw new TypeError('Unable to lift unknown Observable type');\n };\n}\n","import { map } from \"../operators/map\";\nconst { isArray } = Array;\nfunction callOrApply(fn, args) {\n return isArray(args) ? fn(...args) : fn(args);\n}\nexport function mapOneOrManyArgs(fn) {\n return map(args => callOrApply(fn, args));\n}\n","export function noop() { }\n","import { identity } from './identity';\nexport function pipe(...fns) {\n return pipeFromArray(fns);\n}\nexport function pipeFromArray(fns) {\n if (fns.length === 0) {\n return identity;\n }\n if (fns.length === 1) {\n return fns[0];\n }\n return function piped(input) {\n return fns.reduce((prev, fn) => fn(prev), input);\n };\n}\n","import { config } from '../config';\nimport { timeoutProvider } from '../scheduler/timeoutProvider';\nexport function reportUnhandledError(err) {\n timeoutProvider.setTimeout(() => {\n const { onUnhandledError } = config;\n if (onUnhandledError) {\n onUnhandledError(err);\n }\n else {\n throw err;\n }\n });\n}\n","export function createInvalidObservableTypeError(input) {\n return new TypeError(`You provided ${input !== null && typeof input === 'object' ? 'an invalid object' : `'${input}'`} where a stream was expected. You can provide an Observable, Promise, ReadableStream, Array, AsyncIterable, or Iterable.`);\n}\n","import { DOCUMENT } from '@angular/common';\nimport * as i0 from '@angular/core';\nimport { inject, APP_ID, Injectable, Inject, QueryList, isSignal, effect, InjectionToken, afterNextRender, Injector, booleanAttribute, Directive, Input, 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, isObservable, of, BehaviorSubject } from 'rxjs';\nimport { A, Z, ZERO, NINE, hasModifierKey, 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 { coerceObservable } from '@angular/cdk/coercion/private';\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 }\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 */\nclass 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, { messageElement: message, 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), { messageElement, referenceCount: 0 });\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 { this.ɵfac = i0.ɵɵngDeclareFactory({ minVersion: \"12.0.0\", version: \"18.2.0-next.2\", ngImport: i0, type: AriaDescriber, deps: [{ token: DOCUMENT }, { token: i1.Platform }], target: i0.ɵɵFactoryTarget.Injectable }); }\n static { this.ɵprov = i0.ɵɵngDeclareInjectable({ minVersion: \"12.0.0\", version: \"18.2.0-next.2\", ngImport: i0, type: AriaDescriber, providedIn: 'root' }); }\n}\ni0.ɵɵngDeclareClassMetadata({ minVersion: \"12.0.0\", version: \"18.2.0-next.2\", ngImport: i0, type: AriaDescriber, decorators: [{\n type: Injectable,\n args: [{ providedIn: 'root' }]\n }], ctorParameters: () => [{ type: undefined, decorators: [{\n type: Inject,\n args: [DOCUMENT]\n }] }, { type: i1.Platform }] });\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\nconst DEFAULT_TYPEAHEAD_DEBOUNCE_INTERVAL_MS = 200;\n/**\n * Selects items based on keyboard inputs. Implements the typeahead functionality of\n * `role=\"listbox\"` or `role=\"tree\"` and other related roles.\n */\nclass Typeahead {\n constructor(initialItems, config) {\n this._letterKeyStream = new Subject();\n this._items = [];\n this._selectedItemIndex = -1;\n /** Buffer for the letters that the user has pressed */\n this._pressedLetters = [];\n this._selectedItem = new Subject();\n this.selectedItem = this._selectedItem;\n const typeAheadInterval = typeof config?.debounceInterval === 'number'\n ? config.debounceInterval\n : DEFAULT_TYPEAHEAD_DEBOUNCE_INTERVAL_MS;\n if (config?.skipPredicate) {\n this._skipPredicateFn = config.skipPredicate;\n }\n if ((typeof ngDevMode === 'undefined' || ngDevMode) &&\n initialItems.length &&\n initialItems.some(item => typeof item.getLabel !== 'function')) {\n throw new Error('KeyManager items in typeahead mode must implement the `getLabel` method.');\n }\n this.setItems(initialItems);\n this._setupKeyHandler(typeAheadInterval);\n }\n destroy() {\n this._pressedLetters = [];\n this._letterKeyStream.complete();\n this._selectedItem.complete();\n }\n setCurrentSelectedItemIndex(index) {\n this._selectedItemIndex = index;\n }\n setItems(items) {\n this._items = items;\n }\n handleKey(event) {\n const keyCode = event.keyCode;\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 }\n else if ((keyCode >= A && keyCode <= Z) || (keyCode >= ZERO && keyCode <= NINE)) {\n this._letterKeyStream.next(String.fromCharCode(keyCode));\n }\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 /** Resets the currently stored sequence of typed letters. */\n reset() {\n this._pressedLetters = [];\n }\n _setupKeyHandler(typeAheadInterval) {\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._letterKeyStream\n .pipe(tap(letter => this._pressedLetters.push(letter)), debounceTime(typeAheadInterval), filter(() => this._pressedLetters.length > 0), map(() => this._pressedLetters.join('').toLocaleUpperCase()))\n .subscribe(inputString => {\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 < this._items.length + 1; i++) {\n const index = (this._selectedItemIndex + i) % this._items.length;\n const item = this._items[index];\n if (!this._skipPredicateFn?.(item) &&\n item.getLabel?.().toLocaleUpperCase().trim().indexOf(inputString) === 0) {\n this._selectedItem.next(item);\n break;\n }\n }\n this._pressedLetters = [];\n });\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, injector) {\n this._items = _items;\n this._activeItemIndex = -1;\n this._activeItem = null;\n this._wrap = false;\n this._typeaheadSubscription = Subscription.EMPTY;\n this._vertical = true;\n this._allowedModifierKeys = [];\n this._homeAndEnd = false;\n this._pageUpAndDown = { enabled: false, delta: 10 };\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 /**\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) => this._itemsChanged(newItems.toArray()));\n }\n else if (isSignal(_items)) {\n if (!injector && (typeof ngDevMode === 'undefined' || ngDevMode)) {\n throw new Error('ListKeyManager constructed with a signal must receive an injector');\n }\n this._effectRef = effect(() => this._itemsChanged(_items()), { injector });\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) {\n const items = this._getItemsArray();\n if (items.length > 0 && items.some(item => typeof item.getLabel !== 'function')) {\n throw Error('ListKeyManager items in typeahead mode must implement the `getLabel` method.');\n }\n }\n this._typeaheadSubscription.unsubscribe();\n const items = this._getItemsArray();\n this._typeahead = new Typeahead(items, {\n debounceInterval: typeof debounceInterval === 'number' ? debounceInterval : undefined,\n skipPredicate: item => this._skipPredicateFn(item),\n });\n this._typeaheadSubscription = this._typeahead.selectedItem.subscribe(item => {\n this.setActiveItem(item);\n });\n return this;\n }\n /** Cancels the current typeahead sequence. */\n cancelTypeahead() {\n this._typeahead?.reset();\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 = { enabled, delta };\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 }\n else {\n return;\n }\n case UP_ARROW:\n if (this._vertical && isModifierAllowed) {\n this.setPreviousItemActive();\n break;\n }\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 }\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 }\n else {\n return;\n }\n case HOME:\n if (this._homeAndEnd && isModifierAllowed) {\n this.setFirstItemActive();\n break;\n }\n else {\n return;\n }\n case END:\n if (this._homeAndEnd && isModifierAllowed) {\n this.setLastItemActive();\n break;\n }\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 }\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 }\n else {\n return;\n }\n default:\n if (isModifierAllowed || hasModifierKey(event, 'shiftKey')) {\n this._typeahead?.handleKey(event);\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._typeahead?.reset();\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._typeahead && this._typeahead.isTyping();\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._getItemsArray().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\n ? this.setLastItemActive()\n : 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 this._typeahead?.setCurrentSelectedItemIndex(index);\n }\n /** Cleans up the key manager. */\n destroy() {\n this._typeaheadSubscription.unsubscribe();\n this._itemChangesSubscription?.unsubscribe();\n this._effectRef?.destroy();\n this._typeahead?.destroy();\n this.tabOut.complete();\n this.change.complete();\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 if (isSignal(this._items)) {\n return this._items();\n }\n return this._items instanceof QueryList ? this._items.toArray() : this._items;\n }\n /** Callback for when the items have changed. */\n _itemsChanged(newItems) {\n this._typeahead?.setItems(newItems);\n if (this._activeItem) {\n const newIndex = newItems.indexOf(this._activeItem);\n if (newIndex > -1 && newIndex !== this._activeItemIndex) {\n this._activeItemIndex = newIndex;\n this._typeahead?.setCurrentSelectedItemIndex(newIndex);\n }\n }\n }\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}\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 * This class manages keyboard events for trees. If you pass it a QueryList or other list of tree\n * items, it will set the active item, focus, handle expansion and typeahead correctly when\n * keyboard events occur.\n */\nclass TreeKeyManager {\n _initialFocus() {\n if (this._hasInitialFocused) {\n return;\n }\n if (!this._items.length) {\n return;\n }\n let focusIndex = 0;\n for (let i = 0; i < this._items.length; i++) {\n if (!this._skipPredicateFn(this._items[i]) && !this._isItemDisabled(this._items[i])) {\n focusIndex = i;\n break;\n }\n }\n this.focusItem(focusIndex);\n this._hasInitialFocused = true;\n }\n /**\n *\n * @param items List of TreeKeyManager options. Can be synchronous or asynchronous.\n * @param config Optional configuration options. By default, use 'ltr' horizontal orientation. By\n * default, do not skip any nodes. By default, key manager only calls `focus` method when items\n * are focused and does not call `activate`. If `typeaheadDefaultInterval` is `true`, use a\n * default interval of 200ms.\n */\n constructor(items, config) {\n /** The index of the currently active (focused) item. */\n this._activeItemIndex = -1;\n /** The currently active (focused) item. */\n this._activeItem = null;\n /** Whether or not we activate the item when it's focused. */\n this._shouldActivationFollowFocus = false;\n /**\n * The orientation that the tree is laid out in. In `rtl` mode, the behavior of Left and\n * Right arrow are switched.\n */\n this._horizontalOrientation = 'ltr';\n /**\n * Predicate function that can be used to check whether an item should be skipped\n * by the key manager.\n *\n * The default value for this doesn't skip any elements in order to keep tree items focusable\n * when disabled. This aligns with ARIA guidelines:\n * https://www.w3.org/WAI/ARIA/apg/practices/keyboard-interface/#focusabilityofdisabledcontrols.\n */\n this._skipPredicateFn = (_item) => false;\n /** Function to determine equivalent items. */\n this._trackByFn = (item) => item;\n /** Synchronous cache of the items to manage. */\n this._items = [];\n this._typeaheadSubscription = Subscription.EMPTY;\n this._hasInitialFocused = false;\n /** Stream that emits any time the focused item changes. */\n this.change = new Subject();\n // We allow for the items to be an array or Observable 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._items = items.toArray();\n items.changes.subscribe((newItems) => {\n this._items = newItems.toArray();\n this._typeahead?.setItems(this._items);\n this._updateActiveItemIndex(this._items);\n this._initialFocus();\n });\n }\n else if (isObservable(items)) {\n items.subscribe(newItems => {\n this._items = newItems;\n this._typeahead?.setItems(newItems);\n this._updateActiveItemIndex(newItems);\n this._initialFocus();\n });\n }\n else {\n this._items = items;\n this._initialFocus();\n }\n if (typeof config.shouldActivationFollowFocus === 'boolean') {\n this._shouldActivationFollowFocus = config.shouldActivationFollowFocus;\n }\n if (config.horizontalOrientation) {\n this._horizontalOrientation = config.horizontalOrientation;\n }\n if (config.skipPredicate) {\n this._skipPredicateFn = config.skipPredicate;\n }\n if (config.trackBy) {\n this._trackByFn = config.trackBy;\n }\n if (typeof config.typeAheadDebounceInterval !== 'undefined') {\n this._setTypeAhead(config.typeAheadDebounceInterval);\n }\n }\n /** Cleans up the key manager. */\n destroy() {\n this._typeaheadSubscription.unsubscribe();\n this._typeahead?.destroy();\n this.change.complete();\n }\n /**\n * Handles a keyboard event on the tree.\n * @param event Keyboard event that represents the user interaction with the tree.\n */\n onKeydown(event) {\n const key = event.key;\n switch (key) {\n case 'Tab':\n // Return early here, in order to allow Tab to actually tab out of the tree\n return;\n case 'ArrowDown':\n this._focusNextItem();\n break;\n case 'ArrowUp':\n this._focusPreviousItem();\n break;\n case 'ArrowRight':\n this._horizontalOrientation === 'rtl'\n ? this._collapseCurrentItem()\n : this._expandCurrentItem();\n break;\n case 'ArrowLeft':\n this._horizontalOrientation === 'rtl'\n ? this._expandCurrentItem()\n : this._collapseCurrentItem();\n break;\n case 'Home':\n this._focusFirstItem();\n break;\n case 'End':\n this._focusLastItem();\n break;\n case 'Enter':\n case ' ':\n this._activateCurrentItem();\n break;\n default:\n if (event.key === '*') {\n this._expandAllItemsAtCurrentItemLevel();\n break;\n }\n this._typeahead?.handleKey(event);\n // Return here, in order to avoid preventing the default action of non-navigational\n // keys or resetting the buffer of pressed letters.\n return;\n }\n // Reset the typeahead since the user has used a navigational key.\n this._typeahead?.reset();\n event.preventDefault();\n }\n /** Index of the currently active item. */\n getActiveItemIndex() {\n return this._activeItemIndex;\n }\n /** The currently active item. */\n getActiveItem() {\n return this._activeItem;\n }\n /** Focus the first available item. */\n _focusFirstItem() {\n this.focusItem(this._findNextAvailableItemIndex(-1));\n }\n /** Focus the last available item. */\n _focusLastItem() {\n this.focusItem(this._findPreviousAvailableItemIndex(this._items.length));\n }\n /** Focus the next available item. */\n _focusNextItem() {\n this.focusItem(this._findNextAvailableItemIndex(this._activeItemIndex));\n }\n /** Focus the previous available item. */\n _focusPreviousItem() {\n this.focusItem(this._findPreviousAvailableItemIndex(this._activeItemIndex));\n }\n focusItem(itemOrIndex, options = {}) {\n // Set default options\n options.emitChangeEvent ??= true;\n let index = typeof itemOrIndex === 'number'\n ? itemOrIndex\n : this._items.findIndex(item => this._trackByFn(item) === this._trackByFn(itemOrIndex));\n if (index < 0 || index >= this._items.length) {\n return;\n }\n const activeItem = this._items[index];\n // If we're just setting the same item, don't re-call activate or focus\n if (this._activeItem !== null &&\n this._trackByFn(activeItem) === this._trackByFn(this._activeItem)) {\n return;\n }\n const previousActiveItem = this._activeItem;\n this._activeItem = activeItem ?? null;\n this._activeItemIndex = index;\n this._typeahead?.setCurrentSelectedItemIndex(index);\n this._activeItem?.focus();\n previousActiveItem?.unfocus();\n if (options.emitChangeEvent) {\n this.change.next(this._activeItem);\n }\n if (this._shouldActivationFollowFocus) {\n this._activateCurrentItem();\n }\n }\n _updateActiveItemIndex(newItems) {\n const activeItem = this._activeItem;\n if (!activeItem) {\n return;\n }\n const newIndex = newItems.findIndex(item => this._trackByFn(item) === this._trackByFn(activeItem));\n if (newIndex > -1 && newIndex !== this._activeItemIndex) {\n this._activeItemIndex = newIndex;\n this._typeahead?.setCurrentSelectedItemIndex(newIndex);\n }\n }\n _setTypeAhead(debounceInterval) {\n this._typeahead = new Typeahead(this._items, {\n debounceInterval: typeof debounceInterval === 'number' ? debounceInterval : undefined,\n skipPredicate: item => this._skipPredicateFn(item),\n });\n this._typeaheadSubscription = this._typeahead.selectedItem.subscribe(item => {\n this.focusItem(item);\n });\n }\n _findNextAvailableItemIndex(startingIndex) {\n for (let i = startingIndex + 1; i < this._items.length; i++) {\n if (!this._skipPredicateFn(this._items[i])) {\n return i;\n }\n }\n return startingIndex;\n }\n _findPreviousAvailableItemIndex(startingIndex) {\n for (let i = startingIndex - 1; i >= 0; i--) {\n if (!this._skipPredicateFn(this._items[i])) {\n return i;\n }\n }\n return startingIndex;\n }\n /**\n * If the item is already expanded, we collapse the item. Otherwise, we will focus the parent.\n */\n _collapseCurrentItem() {\n if (!this._activeItem) {\n return;\n }\n if (this._isCurrentItemExpanded()) {\n this._activeItem.collapse();\n }\n else {\n const parent = this._activeItem.getParent();\n if (!parent || this._skipPredicateFn(parent)) {\n return;\n }\n this.focusItem(parent);\n }\n }\n /**\n * If the item is already collapsed, we expand the item. Otherwise, we will focus the first child.\n */\n _expandCurrentItem() {\n if (!this._activeItem) {\n return;\n }\n if (!this._isCurrentItemExpanded()) {\n this._activeItem.expand();\n }\n else {\n coerceObservable(this._activeItem.getChildren())\n .pipe(take(1))\n .subscribe(children => {\n const firstChild = children.find(child => !this._skipPredicateFn(child));\n if (!firstChild) {\n return;\n }\n this.focusItem(firstChild);\n });\n }\n }\n _isCurrentItemExpanded() {\n if (!this._activeItem) {\n return false;\n }\n return typeof this._activeItem.isExpanded === 'boolean'\n ? this._activeItem.isExpanded\n : this._activeItem.isExpanded();\n }\n _isItemDisabled(item) {\n return typeof item.isDisabled === 'boolean' ? item.isDisabled : item.isDisabled?.();\n }\n /** For all items that are the same level as the current item, we expand those items. */\n _expandAllItemsAtCurrentItemLevel() {\n if (!this._activeItem) {\n return;\n }\n const parent = this._activeItem.getParent();\n let itemsToExpand;\n if (!parent) {\n itemsToExpand = of(this._items.filter(item => item.getParent() === null));\n }\n else {\n itemsToExpand = coerceObservable(parent.getChildren());\n }\n itemsToExpand.pipe(take(1)).subscribe(items => {\n for (const item of items) {\n item.expand();\n }\n });\n }\n _activateCurrentItem() {\n this._activeItem?.activate();\n }\n}\n/** @docs-private */\nfunction TREE_KEY_MANAGER_FACTORY() {\n return (items, options) => new TreeKeyManager(items, options);\n}\n/** Injection token that determines the key manager to use. */\nconst TREE_KEY_MANAGER = new InjectionToken('tree-key-manager', {\n providedIn: 'root',\n factory: TREE_KEY_MANAGER_FACTORY,\n});\n/** @docs-private */\nconst TREE_KEY_MANAGER_FACTORY_PROVIDER = {\n provide: TREE_KEY_MANAGER,\n useFactory: TREE_KEY_MANAGER_FACTORY,\n};\n\n// NoopTreeKeyManager is a \"noop\" implementation of TreeKeyMangerStrategy. Methods are noops. Does\n// not emit to streams.\n//\n// Used for applications built before TreeKeyManager to opt-out of TreeKeyManager and revert to\n// legacy behavior.\n/**\n * @docs-private\n *\n * Opt-out of Tree of key manager behavior.\n *\n * When provided, Tree has same focus management behavior as before TreeKeyManager was introduced.\n * - Tree does not respond to keyboard interaction\n * - Tree node allows tabindex to be set by Input binding\n * - Tree node allows tabindex to be set by attribute binding\n *\n * @deprecated NoopTreeKeyManager deprecated. Use TreeKeyManager or inject a\n * TreeKeyManagerStrategy instead. To be removed in a future version.\n *\n * @breaking-change 21.0.0\n */\nclass NoopTreeKeyManager {\n constructor() {\n this._isNoopTreeKeyManager = true;\n // Provide change as required by TreeKeyManagerStrategy. NoopTreeKeyManager is a \"noop\"\n // implementation that does not emit to streams.\n this.change = new Subject();\n }\n destroy() {\n this.change.complete();\n }\n onKeydown() {\n // noop\n }\n getActiveItemIndex() {\n // Always return null. NoopTreeKeyManager is a \"noop\" implementation that does not maintain\n // the active item.\n return null;\n }\n getActiveItem() {\n // Always return null. NoopTreeKeyManager is a \"noop\" implementation that does not maintain\n // the active item.\n return null;\n }\n focusItem() {\n // noop\n }\n}\n/**\n * @docs-private\n *\n * Opt-out of Tree of key manager behavior.\n *\n * When provided, Tree has same focus management behavior as before TreeKeyManager was introduced.\n * - Tree does not respond to keyboard interaction\n * - Tree node allows tabindex to be set by Input binding\n * - Tree node allows tabindex to be set by attribute binding\n *\n * @deprecated NoopTreeKeyManager deprecated. Use TreeKeyManager or inject a\n * TreeKeyManagerStrategy instead. To be removed in a future version.\n *\n * @breaking-change 21.0.0\n */\nfunction NOOP_TREE_KEY_MANAGER_FACTORY() {\n return () => new NoopTreeKeyManager();\n}\n/**\n * @docs-private\n *\n * Opt-out of Tree of key manager behavior.\n *\n * When provided, Tree has same focus management behavior as before TreeKeyManager was introduced.\n * - Tree does not respond to keyboard interaction\n * - Tree node allows tabindex to be set by Input binding\n * - Tree node allows tabindex to be set by attribute binding\n *\n * @deprecated NoopTreeKeyManager deprecated. Use TreeKeyManager or inject a\n * TreeKeyManagerStrategy instead. To be removed in a future version.\n *\n * @breaking-change 21.0.0\n */\nconst NOOP_TREE_KEY_MANAGER_FACTORY_PROVIDER = {\n provide: TREE_KEY_MANAGER,\n useFactory: NOOP_TREE_KEY_MANAGER_FACTORY,\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 */\nclass 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) &&\n !this.isDisabled(element) &&\n (config?.ignoreVisibility || this.isVisible(element)));\n }\n static { this.ɵfac = i0.ɵɵngDeclareFactory({ minVersion: \"12.0.0\", version: \"18.2.0-next.2\", ngImport: i0, type: InteractivityChecker, deps: [{ token: i1.Platform }], target: i0.ɵɵFactoryTarget.Injectable }); }\n static { this.ɵprov = i0.ɵɵngDeclareInjectable({ minVersion: \"12.0.0\", version: \"18.2.0-next.2\", ngImport: i0, type: InteractivityChecker, providedIn: 'root' }); }\n}\ni0.ɵɵngDeclareClassMetadata({ minVersion: \"12.0.0\", version: \"18.2.0-next.2\", ngImport: i0, type: InteractivityChecker, decorators: [{\n type: Injectable,\n args: [{ providedIn: 'root' }]\n }], ctorParameters: () => [{ type: i1.Platform }] });\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 }\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 ||\n element.offsetHeight ||\n (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' ||\n nodeName === 'select' ||\n nodeName === 'button' ||\n nodeName === 'textarea');\n}\n/** Gets whether an element is an ``. */\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' ||\n inputType === 'password' ||\n nodeName === 'select' ||\n 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) ||\n isAnchorWithHref(element) ||\n element.hasAttribute('contenteditable') ||\n 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 */\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 /** @breaking-change 20.0.0 param to become required */\n _injector) {\n this._element = _element;\n this._checker = _checker;\n this._ngZone = _ngZone;\n this._document = _document;\n this._injector = _injector;\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}', ` +\n `use 'cdkFocusRegion${bound}' instead. The deprecated ` +\n `attribute will be removed in 8.0.0.`, markers[i]);\n }\n else if (markers[i].hasAttribute(`cdk-focus-region-${bound}`)) {\n console.warn(`Found use of deprecated attribute 'cdk-focus-region-${bound}', ` +\n `use 'cdkFocusRegion${bound}' instead. The deprecated attribute ` +\n `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\n ? markers[markers.length - 1]\n : 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) &&\n redirectToElement.hasAttribute(`cdk-focus-initial`)) {\n console.warn(`Found use of deprecated attribute 'cdk-focus-initial', ` +\n `use 'cdkFocusInitial' instead. The deprecated attribute ` +\n `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) &&\n !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\n ? this._getFirstTabbableElement(children[i])\n : 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\n ? this._getLastTabbableElement(children[i])\n : 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 // TODO: remove this conditional when injector is required in the constructor.\n if (this._injector) {\n afterNextRender(fn, { injector: this._injector });\n }\n else {\n setTimeout(fn);\n }\n }\n}\n/**\n * Factory that allows easy instantiation of focus traps.\n */\nclass FocusTrapFactory {\n constructor(_checker, _ngZone, _document) {\n this._checker = _checker;\n this._ngZone = _ngZone;\n this._injector = inject(Injector);\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, this._injector);\n }\n static { this.ɵfac = i0.ɵɵngDeclareFactory({ minVersion: \"12.0.0\", version: \"18.2.0-next.2\", ngImport: i0, type: FocusTrapFactory, deps: [{ token: InteractivityChecker }, { token: i0.NgZone }, { token: DOCUMENT }], target: i0.ɵɵFactoryTarget.Injectable }); }\n static { this.ɵprov = i0.ɵɵngDeclareInjectable({ minVersion: \"12.0.0\", version: \"18.2.0-next.2\", ngImport: i0, type: FocusTrapFactory, providedIn: 'root' }); }\n}\ni0.ɵɵngDeclareClassMetadata({ minVersion: \"12.0.0\", version: \"18.2.0-next.2\", ngImport: i0, type: FocusTrapFactory, decorators: [{\n type: Injectable,\n args: [{ providedIn: 'root' }]\n }], ctorParameters: () => [{ type: InteractivityChecker }, { type: i0.NgZone }, { type: undefined, decorators: [{\n type: Inject,\n args: [DOCUMENT]\n }] }] });\n/** Directive for trapping focus within a region. */\nclass 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 &&\n !autoCaptureChange.firstChange &&\n this.autoCapture &&\n this.focusTrap?.hasAttached()) {\n this._captureFocus();\n }\n }\n _captureFocus() {\n this._previouslyFocusedElement = _getFocusedElementPierceShadowDom();\n this.focusTrap?.focusInitialElementWhenReady();\n }\n static { this.ɵfac = i0.ɵɵngDeclareFactory({ minVersion: \"12.0.0\", version: \"18.2.0-next.2\", ngImport: i0, type: CdkTrapFocus, deps: [{ token: i0.ElementRef }, { token: FocusTrapFactory }, { token: DOCUMENT }], target: i0.ɵɵFactoryTarget.Directive }); }\n static { this.ɵdir = i0.ɵɵngDeclareDirective({ minVersion: \"16.1.0\", version: \"18.2.0-next.2\", type: CdkTrapFocus, isStandalone: true, selector: \"[cdkTrapFocus]\", inputs: { enabled: [\"cdkTrapFocus\", \"enabled\", booleanAttribute], autoCapture: [\"cdkTrapFocusAutoCapture\", \"autoCapture\", booleanAttribute] }, exportAs: [\"cdkTrapFocus\"], usesOnChanges: true, ngImport: i0 }); }\n}\ni0.ɵɵngDeclareClassMetadata({ minVersion: \"12.0.0\", version: \"18.2.0-next.2\", ngImport: i0, type: CdkTrapFocus, decorators: [{\n type: Directive,\n args: [{\n selector: '[cdkTrapFocus]',\n exportAs: 'cdkTrapFocus',\n standalone: true,\n }]\n }], ctorParameters: () => [{ type: i0.ElementRef }, { type: FocusTrapFactory }, { type: undefined, decorators: [{\n type: Inject,\n args: [DOCUMENT]\n }] }], propDecorators: { enabled: [{\n type: Input,\n args: [{ alias: 'cdkTrapFocus', transform: booleanAttribute }]\n }], autoCapture: [{\n type: Input,\n args: [{ alias: 'cdkTrapFocusAutoCapture', transform: booleanAttribute }]\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 }\n else {\n this._focusTrapManager.deregister(this);\n }\n }\n constructor(_element, _checker, _ngZone, _document, _focusTrapManager, _inertStrategy, config, injector) {\n super(_element, _checker, _ngZone, _document, config.defer, injector);\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/**\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/** The injection token used to specify the inert strategy. */\nconst FOCUS_TRAP_INERT_STRATEGY = new InjectionToken('FOCUS_TRAP_INERT_STRATEGY');\n\n/** Injectable that ensures only the most recently enabled FocusTrap is active. */\nclass 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 { this.ɵfac = i0.ɵɵngDeclareFactory({ minVersion: \"12.0.0\", version: \"18.2.0-next.2\", ngImport: i0, type: FocusTrapManager, deps: [], target: i0.ɵɵFactoryTarget.Injectable }); }\n static { this.ɵprov = i0.ɵɵngDeclareInjectable({ minVersion: \"12.0.0\", version: \"18.2.0-next.2\", ngImport: i0, type: FocusTrapManager, providedIn: 'root' }); }\n}\ni0.ɵɵngDeclareClassMetadata({ minVersion: \"12.0.0\", version: \"18.2.0-next.2\", ngImport: i0, type: FocusTrapManager, decorators: [{\n type: Injectable,\n args: [{ providedIn: 'root' }]\n }] });\n\n/** Factory that allows easy instantiation of configurable focus traps. */\nclass ConfigurableFocusTrapFactory {\n constructor(_checker, _ngZone, _focusTrapManager, _document, _inertStrategy) {\n this._checker = _checker;\n this._ngZone = _ngZone;\n this._focusTrapManager = _focusTrapManager;\n this._injector = inject(Injector);\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 = { defer: false }) {\n let configObject;\n if (typeof config === 'boolean') {\n configObject = { 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, this._injector);\n }\n static { this.ɵfac = i0.ɵɵngDeclareFactory({ minVersion: \"12.0.0\", version: \"18.2.0-next.2\", ngImport: i0, type: ConfigurableFocusTrapFactory, deps: [{ token: InteractivityChecker }, { token: i0.NgZone }, { token: FocusTrapManager }, { token: DOCUMENT }, { token: FOCUS_TRAP_INERT_STRATEGY, optional: true }], target: i0.ɵɵFactoryTarget.Injectable }); }\n static { this.ɵprov = i0.ɵɵngDeclareInjectable({ minVersion: \"12.0.0\", version: \"18.2.0-next.2\", ngImport: i0, type: ConfigurableFocusTrapFactory, providedIn: 'root' }); }\n}\ni0.ɵɵngDeclareClassMetadata({ minVersion: \"12.0.0\", version: \"18.2.0-next.2\", ngImport: i0, type: ConfigurableFocusTrapFactory, decorators: [{\n type: Injectable,\n args: [{ providedIn: 'root' }]\n }], ctorParameters: () => [{ type: InteractivityChecker }, { type: i0.NgZone }, { type: FocusTrapManager }, { type: undefined, decorators: [{\n type: Inject,\n args: [DOCUMENT]\n }] }, { type: undefined, decorators: [{\n type: Optional\n }, {\n type: Inject,\n args: [FOCUS_TRAP_INERT_STRATEGY]\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 &&\n touch.identifier === -1 &&\n (touch.radiusX == null || touch.radiusX === 1) &&\n (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 = 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 = 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 */\nclass 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 { this.ɵfac = i0.ɵɵngDeclareFactory({ minVersion: \"12.0.0\", version: \"18.2.0-next.2\", ngImport: i0, type: InputModalityDetector, deps: [{ token: i1.Platform }, { token: i0.NgZone }, { token: DOCUMENT }, { token: INPUT_MODALITY_DETECTOR_OPTIONS, optional: true }], target: i0.ɵɵFactoryTarget.Injectable }); }\n static { this.ɵprov = i0.ɵɵngDeclareInjectable({ minVersion: \"12.0.0\", version: \"18.2.0-next.2\", ngImport: i0, type: InputModalityDetector, providedIn: 'root' }); }\n}\ni0.ɵɵngDeclareClassMetadata({ minVersion: \"12.0.0\", version: \"18.2.0-next.2\", ngImport: i0, type: InputModalityDetector, decorators: [{\n type: Injectable,\n args: [{ providedIn: 'root' }]\n }], ctorParameters: () => [{ type: i1.Platform }, { type: i0.NgZone }, { type: Document, decorators: [{\n type: Inject,\n args: [DOCUMENT]\n }] }, { type: undefined, decorators: [{\n type: Optional\n }, {\n type: Inject,\n args: [INPUT_MODALITY_DETECTOR_OPTIONS]\n }] }] });\n\nconst LIVE_ANNOUNCER_ELEMENT_TOKEN = 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 = new InjectionToken('LIVE_ANNOUNCER_DEFAULT_OPTIONS');\n\nlet uniqueIds = 0;\nclass 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 }\n else {\n [politeness, duration] = args;\n }\n this.clear();\n clearTimeout(this._previousTimeout);\n if (!politeness) {\n politeness =\n 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 }\n else if (ariaOwns.indexOf(id) === -1) {\n modal.setAttribute('aria-owns', ariaOwns + ' ' + id);\n }\n }\n }\n static { this.ɵfac = i0.ɵɵngDeclareFactory({ minVersion: \"12.0.0\", version: \"18.2.0-next.2\", ngImport: i0, type: LiveAnnouncer, deps: [{ token: LIVE_ANNOUNCER_ELEMENT_TOKEN, optional: true }, { token: i0.NgZone }, { token: DOCUMENT }, { token: LIVE_ANNOUNCER_DEFAULT_OPTIONS, optional: true }], target: i0.ɵɵFactoryTarget.Injectable }); }\n static { this.ɵprov = i0.ɵɵngDeclareInjectable({ minVersion: \"12.0.0\", version: \"18.2.0-next.2\", ngImport: i0, type: LiveAnnouncer, providedIn: 'root' }); }\n}\ni0.ɵɵngDeclareClassMetadata({ minVersion: \"12.0.0\", version: \"18.2.0-next.2\", ngImport: i0, type: LiveAnnouncer, decorators: [{\n type: Injectable,\n args: [{ providedIn: 'root' }]\n }], ctorParameters: () => [{ type: undefined, decorators: [{\n type: Optional\n }, {\n type: Inject,\n args: [LIVE_ANNOUNCER_ELEMENT_TOKEN]\n }] }, { type: i0.NgZone }, { type: undefined, decorators: [{\n type: Inject,\n args: [DOCUMENT]\n }] }, { type: undefined, decorators: [{\n type: Optional\n }, {\n type: Inject,\n args: [LIVE_ANNOUNCER_DEFAULT_OPTIONS]\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 */\nclass 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 }\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 { this.ɵfac = i0.ɵɵngDeclareFactory({ minVersion: \"12.0.0\", version: \"18.2.0-next.2\", ngImport: i0, type: CdkAriaLive, deps: [{ token: i0.ElementRef }, { token: LiveAnnouncer }, { token: i1$1.ContentObserver }, { token: i0.NgZone }], target: i0.ɵɵFactoryTarget.Directive }); }\n static { this.ɵdir = i0.ɵɵngDeclareDirective({ minVersion: \"14.0.0\", version: \"18.2.0-next.2\", type: CdkAriaLive, isStandalone: true, selector: \"[cdkAriaLive]\", inputs: { politeness: [\"cdkAriaLive\", \"politeness\"], duration: [\"cdkAriaLiveDuration\", \"duration\"] }, exportAs: [\"cdkAriaLive\"], ngImport: i0 }); }\n}\ni0.ɵɵngDeclareClassMetadata({ minVersion: \"12.0.0\", version: \"18.2.0-next.2\", ngImport: i0, type: CdkAriaLive, decorators: [{\n type: Directive,\n args: [{\n selector: '[cdkAriaLive]',\n exportAs: 'cdkAriaLive',\n standalone: true,\n }]\n }], ctorParameters: () => [{ type: i0.ElementRef }, { type: LiveAnnouncer }, { type: i1$1.ContentObserver }, { type: i0.NgZone }], propDecorators: { politeness: [{\n type: Input,\n args: ['cdkAriaLive']\n }], duration: [{\n type: Input,\n args: ['cdkAriaLiveDuration']\n }] } });\n\n/** Detection mode used for attributing the origin of a focus event. */\nvar FocusMonitorDetectionMode;\n(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})(FocusMonitorDetectionMode || (FocusMonitorDetectionMode = {}));\n/** InjectionToken for FocusMonitorOptions. */\nconst FOCUS_MONITOR_DEFAULT_OPTIONS = 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 = normalizePassiveListenerOptions({\n passive: true,\n capture: true,\n});\n/** Monitors mouse and keyboard events to determine the cause of focus events. */\nclass FocusMonitor {\n constructor(_ngZone, _platform, _inputModalityDetector, \n /** @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 }\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 }\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 }\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 //
\n //
\n //
\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 ||\n !!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 ||\n (elementInfo.checkChildren &&\n event.relatedTarget instanceof Node &&\n 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\n .pipe(takeUntil(this._stopInputModalityDetector))\n .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 }\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 { _mostRecentTarget: mostRecentTarget, mostRecentModality } = 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' ||\n !mostRecentTarget ||\n mostRecentTarget === focusEventTarget ||\n (focusEventTarget.nodeName !== 'INPUT' && focusEventTarget.nodeName !== 'TEXTAREA') ||\n 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 { this.ɵfac = i0.ɵɵngDeclareFactory({ minVersion: \"12.0.0\", version: \"18.2.0-next.2\", ngImport: i0, type: FocusMonitor, deps: [{ token: i0.NgZone }, { token: i1.Platform }, { token: InputModalityDetector }, { token: DOCUMENT, optional: true }, { token: FOCUS_MONITOR_DEFAULT_OPTIONS, optional: true }], target: i0.ɵɵFactoryTarget.Injectable }); }\n static { this.ɵprov = i0.ɵɵngDeclareInjectable({ minVersion: \"12.0.0\", version: \"18.2.0-next.2\", ngImport: i0, type: FocusMonitor, providedIn: 'root' }); }\n}\ni0.ɵɵngDeclareClassMetadata({ minVersion: \"12.0.0\", version: \"18.2.0-next.2\", ngImport: i0, type: FocusMonitor, decorators: [{\n type: Injectable,\n args: [{ providedIn: 'root' }]\n }], ctorParameters: () => [{ type: i0.NgZone }, { type: i1.Platform }, { type: InputModalityDetector }, { type: undefined, decorators: [{\n type: Optional\n }, {\n type: Inject,\n args: [DOCUMENT]\n }] }, { type: undefined, decorators: [{\n type: Optional\n }, {\n type: Inject,\n args: [FOCUS_MONITOR_DEFAULT_OPTIONS]\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 */\nclass 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\n .monitor(element, element.nodeType === 1 && element.hasAttribute('cdkMonitorSubtreeFocus'))\n .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 { this.ɵfac = i0.ɵɵngDeclareFactory({ minVersion: \"12.0.0\", version: \"18.2.0-next.2\", ngImport: i0, type: CdkMonitorFocus, deps: [{ token: i0.ElementRef }, { token: FocusMonitor }], target: i0.ɵɵFactoryTarget.Directive }); }\n static { this.ɵdir = i0.ɵɵngDeclareDirective({ minVersion: \"14.0.0\", version: \"18.2.0-next.2\", type: CdkMonitorFocus, isStandalone: true, selector: \"[cdkMonitorElementFocus], [cdkMonitorSubtreeFocus]\", outputs: { cdkFocusChange: \"cdkFocusChange\" }, exportAs: [\"cdkMonitorFocus\"], ngImport: i0 }); }\n}\ni0.ɵɵngDeclareClassMetadata({ minVersion: \"12.0.0\", version: \"18.2.0-next.2\", ngImport: i0, type: CdkMonitorFocus, decorators: [{\n type: Directive,\n args: [{\n selector: '[cdkMonitorElementFocus], [cdkMonitorSubtreeFocus]',\n exportAs: 'cdkMonitorFocus',\n standalone: true,\n }]\n }], ctorParameters: () => [{ type: i0.ElementRef }, { type: FocusMonitor }], propDecorators: { cdkFocusChange: [{\n type: Output\n }] } });\n\n/** Set of possible high-contrast mode backgrounds. */\nvar HighContrastMode;\n(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})(HighContrastMode || (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 */\nclass HighContrastModeDetector {\n constructor(_platform, document) {\n this._platform = _platform;\n this._document = document;\n this._breakpointSubscription = inject(BreakpointObserver)\n .observe('(forced-colors: active)')\n .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\n ? documentWindow.getComputedStyle(testElement)\n : 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 }\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 { this.ɵfac = i0.ɵɵngDeclareFactory({ minVersion: \"12.0.0\", version: \"18.2.0-next.2\", ngImport: i0, type: HighContrastModeDetector, deps: [{ token: i1.Platform }, { token: DOCUMENT }], target: i0.ɵɵFactoryTarget.Injectable }); }\n static { this.ɵprov = i0.ɵɵngDeclareInjectable({ minVersion: \"12.0.0\", version: \"18.2.0-next.2\", ngImport: i0, type: HighContrastModeDetector, providedIn: 'root' }); }\n}\ni0.ɵɵngDeclareClassMetadata({ minVersion: \"12.0.0\", version: \"18.2.0-next.2\", ngImport: i0, type: HighContrastModeDetector, decorators: [{\n type: Injectable,\n args: [{ providedIn: 'root' }]\n }], ctorParameters: () => [{ type: i1.Platform }, { type: undefined, decorators: [{\n type: Inject,\n args: [DOCUMENT]\n }] }] });\n\nclass A11yModule {\n constructor(highContrastModeDetector) {\n highContrastModeDetector._applyBodyHighContrastModeCssClasses();\n }\n static { this.ɵfac = i0.ɵɵngDeclareFactory({ minVersion: \"12.0.0\", version: \"18.2.0-next.2\", ngImport: i0, type: A11yModule, deps: [{ token: HighContrastModeDetector }], target: i0.ɵɵFactoryTarget.NgModule }); }\n static { this.ɵmod = i0.ɵɵngDeclareNgModule({ minVersion: \"14.0.0\", version: \"18.2.0-next.2\", ngImport: i0, type: A11yModule, imports: [ObserversModule, CdkAriaLive, CdkTrapFocus, CdkMonitorFocus], exports: [CdkAriaLive, CdkTrapFocus, CdkMonitorFocus] }); }\n static { this.ɵinj = i0.ɵɵngDeclareInjector({ minVersion: \"12.0.0\", version: \"18.2.0-next.2\", ngImport: i0, type: A11yModule, imports: [ObserversModule] }); }\n}\ni0.ɵɵngDeclareClassMetadata({ minVersion: \"12.0.0\", version: \"18.2.0-next.2\", ngImport: i0, type: A11yModule, decorators: [{\n type: NgModule,\n args: [{\n imports: [ObserversModule, CdkAriaLive, CdkTrapFocus, CdkMonitorFocus],\n exports: [CdkAriaLive, CdkTrapFocus, CdkMonitorFocus],\n }]\n }], ctorParameters: () => [{ type: HighContrastModeDetector }] });\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, NOOP_TREE_KEY_MANAGER_FACTORY, NOOP_TREE_KEY_MANAGER_FACTORY_PROVIDER, NoopTreeKeyManager, TREE_KEY_MANAGER, TREE_KEY_MANAGER_FACTORY, TREE_KEY_MANAGER_FACTORY_PROVIDER, TreeKeyManager, 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 = 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 */\nclass 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 { this.ɵfac = i0.ɵɵngDeclareFactory({ minVersion: \"12.0.0\", version: \"18.2.0-next.2\", ngImport: i0, type: Directionality, deps: [{ token: DIR_DOCUMENT, optional: true }], target: i0.ɵɵFactoryTarget.Injectable }); }\n static { this.ɵprov = i0.ɵɵngDeclareInjectable({ minVersion: \"12.0.0\", version: \"18.2.0-next.2\", ngImport: i0, type: Directionality, providedIn: 'root' }); }\n}\ni0.ɵɵngDeclareClassMetadata({ minVersion: \"12.0.0\", version: \"18.2.0-next.2\", ngImport: i0, type: Directionality, decorators: [{\n type: Injectable,\n args: [{ providedIn: 'root' }]\n }], ctorParameters: () => [{ type: undefined, decorators: [{\n type: Optional\n }, {\n type: Inject,\n args: [DIR_DOCUMENT]\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 */\nclass 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 { this.ɵfac = i0.ɵɵngDeclareFactory({ minVersion: \"12.0.0\", version: \"18.2.0-next.2\", ngImport: i0, type: Dir, deps: [], target: i0.ɵɵFactoryTarget.Directive }); }\n static { this.ɵdir = i0.ɵɵngDeclareDirective({ minVersion: \"14.0.0\", version: \"18.2.0-next.2\", type: Dir, isStandalone: true, selector: \"[dir]\", inputs: { dir: \"dir\" }, outputs: { change: \"dirChange\" }, host: { properties: { \"attr.dir\": \"_rawDir\" } }, providers: [{ provide: Directionality, useExisting: Dir }], exportAs: [\"dir\"], ngImport: i0 }); }\n}\ni0.ɵɵngDeclareClassMetadata({ minVersion: \"12.0.0\", version: \"18.2.0-next.2\", ngImport: i0, type: Dir, decorators: [{\n type: Directive,\n args: [{\n selector: '[dir]',\n providers: [{ provide: Directionality, useExisting: Dir }],\n host: { '[attr.dir]': '_rawDir' },\n exportAs: 'dir',\n standalone: true,\n }]\n }], propDecorators: { change: [{\n type: Output,\n args: ['dirChange']\n }], dir: [{\n type: Input\n }] } });\n\nclass BidiModule {\n static { this.ɵfac = i0.ɵɵngDeclareFactory({ minVersion: \"12.0.0\", version: \"18.2.0-next.2\", ngImport: i0, type: BidiModule, deps: [], target: i0.ɵɵFactoryTarget.NgModule }); }\n static { this.ɵmod = i0.ɵɵngDeclareNgModule({ minVersion: \"14.0.0\", version: \"18.2.0-next.2\", ngImport: i0, type: BidiModule, imports: [Dir], exports: [Dir] }); }\n static { this.ɵinj = i0.ɵɵngDeclareInjector({ minVersion: \"12.0.0\", version: \"18.2.0-next.2\", ngImport: i0, type: BidiModule }); }\n}\ni0.ɵɵngDeclareClassMetadata({ minVersion: \"12.0.0\", version: \"18.2.0-next.2\", ngImport: i0, type: BidiModule, decorators: [{\n type: NgModule,\n args: [{\n imports: [Dir],\n exports: [Dir],\n }]\n }] });\n\n/**\n * Generated bundle index. Do not edit.\n */\n\nexport { BidiModule, DIR_DOCUMENT, Dir, Directionality };\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}\n\nfunction coerceNumberProperty(value, fallbackValue = 0) {\n if (_isNumberValue(value)) {\n return Number(value);\n }\n return arguments.length === 2 ? fallbackValue : 0;\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}\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 : `${value}px`;\n}\n\n/**\n * Coerces an ElementRef or an Element into an element.\n * Useful for APIs that can accept either a ref or the native element itself.\n */\nfunction coerceElement(elementOrRef) {\n return elementOrRef instanceof ElementRef ? elementOrRef.nativeElement : elementOrRef;\n}\n\n/**\n * Coerces a value to an array of trimmed non-empty strings.\n * Any input that is not an array, `null` or `undefined` will be turned into a string\n * via `toString()` and subsequently split with the given separator.\n * `null` and `undefined` will result in an empty array.\n * This results in the following outcomes:\n * - `null` -> `[]`\n * - `[null]` -> `[\"null\"]`\n * - `[\"a\", \"b \", \" \"]` -> `[\"a\", \"b\"]`\n * - `[1, [2, 3]]` -> `[\"1\", \"2,3\"]`\n * - `[{ a: 0 }]` -> `[\"[object Object]\"]`\n * - `{ a: 0 }` -> `[\"[object\", \"Object]\"]`\n *\n * Useful for defining CSS classes or table columns.\n * @param value the value to coerce into an array of strings\n * @param separator split-separator if value isn't an array\n */\nfunction coerceStringArray(value, separator = /\\s+/) {\n const result = [];\n if (value != null) {\n const sourceValues = Array.isArray(value) ? value : `${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}\n\nexport { _isNumberValue, coerceArray, coerceBooleanProperty, coerceCssPixelValue, coerceElement, coerceNumberProperty, coerceStringArray };\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 * 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';\n\nclass LayoutModule {\n static { this.ɵfac = i0.ɵɵngDeclareFactory({ minVersion: \"12.0.0\", version: \"18.2.0-next.2\", ngImport: i0, type: LayoutModule, deps: [], target: i0.ɵɵFactoryTarget.NgModule }); }\n static { this.ɵmod = i0.ɵɵngDeclareNgModule({ minVersion: \"14.0.0\", version: \"18.2.0-next.2\", ngImport: i0, type: LayoutModule }); }\n static { this.ɵinj = i0.ɵɵngDeclareInjector({ minVersion: \"12.0.0\", version: \"18.2.0-next.2\", ngImport: i0, type: LayoutModule }); }\n}\ni0.ɵɵngDeclareClassMetadata({ minVersion: \"12.0.0\", version: \"18.2.0-next.2\", ngImport: i0, type: LayoutModule, decorators: [{\n type: NgModule,\n args: [{}]\n }] });\n\n/** Global registry for all dynamically-created, injected media queries. */\nconst mediaQueriesForWebkitCompatibility = new Set();\n/** Style tag that holds all of the dynamically-created media queries. */\nlet mediaQueryStyleNode;\n/** A utility for calling matchMedia queries. */\nclass MediaMatcher {\n constructor(_platform, _nonce) {\n this._platform = _platform;\n this._nonce = _nonce;\n this._matchMedia =\n 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)\n : 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 { this.ɵfac = i0.ɵɵngDeclareFactory({ minVersion: \"12.0.0\", version: \"18.2.0-next.2\", ngImport: i0, type: MediaMatcher, deps: [{ token: i1.Platform }, { token: CSP_NONCE, optional: true }], target: i0.ɵɵFactoryTarget.Injectable }); }\n static { this.ɵprov = i0.ɵɵngDeclareInjectable({ minVersion: \"12.0.0\", version: \"18.2.0-next.2\", ngImport: i0, type: MediaMatcher, providedIn: 'root' }); }\n}\ni0.ɵɵngDeclareClassMetadata({ minVersion: \"12.0.0\", version: \"18.2.0-next.2\", ngImport: i0, type: MediaMatcher, decorators: [{\n type: Injectable,\n args: [{ providedIn: 'root' }]\n }], ctorParameters: () => [{ type: i1.Platform }, { type: undefined, decorators: [{\n type: Optional\n }, {\n type: Inject,\n args: [CSP_NONCE]\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.setAttribute('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 }\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. */\nclass 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(({ matches, query }) => {\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(({ matches }) => ({ query, matches })), takeUntil(this._destroySubject));\n // Add the MediaQueryList to the set of queries.\n const output = { observable: queryObservable, mql };\n this._queries.set(query, output);\n return output;\n }\n static { this.ɵfac = i0.ɵɵngDeclareFactory({ minVersion: \"12.0.0\", version: \"18.2.0-next.2\", ngImport: i0, type: BreakpointObserver, deps: [{ token: MediaMatcher }, { token: i0.NgZone }], target: i0.ɵɵFactoryTarget.Injectable }); }\n static { this.ɵprov = i0.ɵɵngDeclareInjectable({ minVersion: \"12.0.0\", version: \"18.2.0-next.2\", ngImport: i0, type: BreakpointObserver, providedIn: 'root' }); }\n}\ni0.ɵɵngDeclareClassMetadata({ minVersion: \"12.0.0\", version: \"18.2.0-next.2\", ngImport: i0, type: BreakpointObserver, decorators: [{\n type: Injectable,\n args: [{ providedIn: 'root' }]\n }], ctorParameters: () => [{ type: MediaMatcher }, { type: i0.NgZone }] });\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\n .map(query => query.split(','))\n .reduce((a1, a2) => a1.concat(a2))\n .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), ' +\n '(max-width: 959.98px) and (orientation: landscape)',\n Tablet: '(min-width: 600px) and (max-width: 839.98px) and (orientation: portrait), ' +\n '(min-width: 960px) and (max-width: 1279.98px) and (orientation: landscape)',\n Web: '(min-width: 840px) and (orientation: portrait), ' +\n '(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 * 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}\ncatch {\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 */\nclass 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\n ? isPlatformBrowser(this._platformId)\n : 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 &&\n !!(window.chrome || hasV8BreakIterator) &&\n typeof CSS !== 'undefined' &&\n !this.EDGE &&\n !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 &&\n /AppleWebKit/i.test(navigator.userAgent) &&\n !this.BLINK &&\n !this.EDGE &&\n !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 { this.ɵfac = i0.ɵɵngDeclareFactory({ minVersion: \"12.0.0\", version: \"18.2.0-next.2\", ngImport: i0, type: Platform, deps: [{ token: PLATFORM_ID }], target: i0.ɵɵFactoryTarget.Injectable }); }\n static { this.ɵprov = i0.ɵɵngDeclareInjectable({ minVersion: \"12.0.0\", version: \"18.2.0-next.2\", ngImport: i0, type: Platform, providedIn: 'root' }); }\n}\ni0.ɵɵngDeclareClassMetadata({ minVersion: \"12.0.0\", version: \"18.2.0-next.2\", ngImport: i0, type: Platform, decorators: [{\n type: Injectable,\n args: [{ providedIn: 'root' }]\n }], ctorParameters: () => [{ type: Object, decorators: [{\n type: Inject,\n args: [PLATFORM_ID]\n }] }] });\n\nclass PlatformModule {\n static { this.ɵfac = i0.ɵɵngDeclareFactory({ minVersion: \"12.0.0\", version: \"18.2.0-next.2\", ngImport: i0, type: PlatformModule, deps: [], target: i0.ɵɵFactoryTarget.NgModule }); }\n static { this.ɵmod = i0.ɵɵngDeclareNgModule({ minVersion: \"14.0.0\", version: \"18.2.0-next.2\", ngImport: i0, type: PlatformModule }); }\n static { this.ɵinj = i0.ɵɵngDeclareInjector({ minVersion: \"12.0.0\", version: \"18.2.0-next.2\", ngImport: i0, type: PlatformModule }); }\n}\ni0.ɵɵngDeclareClassMetadata({ minVersion: \"12.0.0\", version: \"18.2.0-next.2\", ngImport: i0, type: PlatformModule, decorators: [{\n type: NgModule,\n args: [{}]\n }] });\n\n/** Cached result Set of input types support by the current browser. */\nlet supportedInputTypes;\n/** Types of `` 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',\n 'button',\n 'checkbox',\n 'date',\n 'datetime-local',\n 'email',\n 'file',\n 'hidden',\n 'image',\n 'month',\n 'number',\n 'password',\n 'radio',\n 'range',\n 'reset',\n 'search',\n 'submit',\n 'tel',\n 'text',\n 'time',\n 'url',\n 'week',\n];\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 }\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;\n(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})(RtlScrollAxisType || (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 }\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 }\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 =\n scrollContainer.scrollLeft === 0 ? RtlScrollAxisType.NEGATED : RtlScrollAxisType.INVERTED;\n }\n scrollContainer.remove();\n }\n return rtlScrollAxisType;\n}\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\n ? document.activeElement\n : null;\n while (activeElement && activeElement.shadowRoot) {\n const newActiveElement = activeElement.shadowRoot.activeElement;\n if (newActiveElement === activeElement) {\n break;\n }\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 * Generated bundle index. Do not edit.\n */\n\nexport { Platform, PlatformModule, RtlScrollAxisType, _getEventTarget, _getFocusedElementPierceShadowDom, _getShadowRoot, _isTestEnvironment, _supportsShadowDom, getRtlScrollAxisType, getSupportedInputTypes, normalizePassiveListenerOptions, supportsPassiveEventListeners, supportsScrollBehavior };\n","/**\n * @license Angular v18.2.1\n * (c) 2010-2024 Google LLC. https://angular.io/\n * License: MIT\n */\n\nimport * as i0 from '@angular/core';\nimport { Injectable, InjectionToken, inject, Optional, Inject, EventEmitter, ɵɵinject, ɵfindLocaleData, ɵLocaleDataIndex, ɵgetLocaleCurrencyCode, ɵgetLocalePluralCase, LOCALE_ID, ɵregisterLocaleData, ɵstringify, Directive, Input, createNgModule, NgModuleRef, ɵRuntimeError, Host, Attribute, RendererStyleFlags2, untracked, ɵisPromise, ɵisSubscribable, Pipe, DEFAULT_CURRENCY_CODE, NgModule, Version, ɵɵdefineInjectable, PLATFORM_ID, ɵformatRuntimeError, ɵIMAGE_CONFIG, Renderer2, ElementRef, Injector, ɵperformanceMarkFeature, NgZone, ApplicationRef, ChangeDetectorRef, numberAttribute, booleanAttribute, ɵIMAGE_CONFIG_DEFAULTS, ɵwhenStable, ɵunwrapSafeValue } from '@angular/core';\nexport { ɵIMAGE_CONFIG as IMAGE_CONFIG } from '@angular/core';\n\nlet _DOM = null;\nfunction getDOM() {\n return _DOM;\n}\nfunction setRootDomAdapter(adapter) {\n _DOM ??= adapter;\n}\n/* tslint:disable:requireParameterType */\n/**\n * Provides DOM operations in an environment-agnostic way.\n *\n * @security Tread carefully! Interacting with the DOM directly is dangerous and\n * can introduce XSS risks.\n */\nclass DomAdapter {\n}\n\n/**\n * This class wraps the platform Navigation API which allows server-specific and test\n * implementations.\n */\nclass PlatformNavigation {\n static { this.ɵfac = i0.ɵɵngDeclareFactory({ minVersion: \"12.0.0\", version: \"18.2.1\", ngImport: i0, type: PlatformNavigation, deps: [], target: i0.ɵɵFactoryTarget.Injectable }); }\n static { this.ɵprov = i0.ɵɵngDeclareInjectable({ minVersion: \"12.0.0\", version: \"18.2.1\", ngImport: i0, type: PlatformNavigation, providedIn: 'platform', useFactory: () => window.navigation }); }\n}\ni0.ɵɵngDeclareClassMetadata({ minVersion: \"12.0.0\", version: \"18.2.1\", ngImport: i0, type: PlatformNavigation, decorators: [{\n type: Injectable,\n args: [{ providedIn: 'platform', useFactory: () => window.navigation }]\n }] });\n\n/**\n * A DI Token representing the main rendering context.\n * In a browser and SSR this is the DOM Document.\n * When using SSR, that document is created by [Domino](https://github.com/angular/domino).\n *\n * @publicApi\n */\nconst DOCUMENT = new InjectionToken(ngDevMode ? 'DocumentToken' : '');\n\n/**\n * This class should not be used directly by an application developer. Instead, use\n * {@link Location}.\n *\n * `PlatformLocation` encapsulates all calls to DOM APIs, which allows the Router to be\n * platform-agnostic.\n * This means that we can have different implementation of `PlatformLocation` for the different\n * platforms that Angular supports. For example, `@angular/platform-browser` provides an\n * implementation specific to the browser environment, while `@angular/platform-server` provides\n * one suitable for use with server-side rendering.\n *\n * The `PlatformLocation` class is used directly by all implementations of {@link LocationStrategy}\n * when they need to interact with the DOM APIs like pushState, popState, etc.\n *\n * {@link LocationStrategy} in turn is used by the {@link Location} service which is used directly\n * by the {@link Router} in order to navigate between routes. Since all interactions between {@link\n * Router} /\n * {@link Location} / {@link LocationStrategy} and DOM APIs flow through the `PlatformLocation`\n * class, they are all platform-agnostic.\n *\n * @publicApi\n */\nclass PlatformLocation {\n historyGo(relativePosition) {\n throw new Error(ngDevMode ? 'Not implemented' : '');\n }\n static { this.ɵfac = i0.ɵɵngDeclareFactory({ minVersion: \"12.0.0\", version: \"18.2.1\", ngImport: i0, type: PlatformLocation, deps: [], target: i0.ɵɵFactoryTarget.Injectable }); }\n static { this.ɵprov = i0.ɵɵngDeclareInjectable({ minVersion: \"12.0.0\", version: \"18.2.1\", ngImport: i0, type: PlatformLocation, providedIn: 'platform', useFactory: () => inject(BrowserPlatformLocation) }); }\n}\ni0.ɵɵngDeclareClassMetadata({ minVersion: \"12.0.0\", version: \"18.2.1\", ngImport: i0, type: PlatformLocation, decorators: [{\n type: Injectable,\n args: [{ providedIn: 'platform', useFactory: () => inject(BrowserPlatformLocation) }]\n }] });\n/**\n * @description\n * Indicates when a location is initialized.\n *\n * @publicApi\n */\nconst LOCATION_INITIALIZED = new InjectionToken(ngDevMode ? 'Location Initialized' : '');\n/**\n * `PlatformLocation` encapsulates all of the direct calls to platform APIs.\n * This class should not be used directly by an application developer. Instead, use\n * {@link Location}.\n *\n * @publicApi\n */\nclass BrowserPlatformLocation extends PlatformLocation {\n constructor() {\n super();\n this._doc = inject(DOCUMENT);\n this._location = window.location;\n this._history = window.history;\n }\n getBaseHrefFromDOM() {\n return getDOM().getBaseHref(this._doc);\n }\n onPopState(fn) {\n const window = getDOM().getGlobalEventTarget(this._doc, 'window');\n window.addEventListener('popstate', fn, false);\n return () => window.removeEventListener('popstate', fn);\n }\n onHashChange(fn) {\n const window = getDOM().getGlobalEventTarget(this._doc, 'window');\n window.addEventListener('hashchange', fn, false);\n return () => window.removeEventListener('hashchange', fn);\n }\n get href() {\n return this._location.href;\n }\n get protocol() {\n return this._location.protocol;\n }\n get hostname() {\n return this._location.hostname;\n }\n get port() {\n return this._location.port;\n }\n get pathname() {\n return this._location.pathname;\n }\n get search() {\n return this._location.search;\n }\n get hash() {\n return this._location.hash;\n }\n set pathname(newPath) {\n this._location.pathname = newPath;\n }\n pushState(state, title, url) {\n this._history.pushState(state, title, url);\n }\n replaceState(state, title, url) {\n this._history.replaceState(state, title, url);\n }\n forward() {\n this._history.forward();\n }\n back() {\n this._history.back();\n }\n historyGo(relativePosition = 0) {\n this._history.go(relativePosition);\n }\n getState() {\n return this._history.state;\n }\n static { this.ɵfac = i0.ɵɵngDeclareFactory({ minVersion: \"12.0.0\", version: \"18.2.1\", ngImport: i0, type: BrowserPlatformLocation, deps: [], target: i0.ɵɵFactoryTarget.Injectable }); }\n static { this.ɵprov = i0.ɵɵngDeclareInjectable({ minVersion: \"12.0.0\", version: \"18.2.1\", ngImport: i0, type: BrowserPlatformLocation, providedIn: 'platform', useFactory: () => new BrowserPlatformLocation() }); }\n}\ni0.ɵɵngDeclareClassMetadata({ minVersion: \"12.0.0\", version: \"18.2.1\", ngImport: i0, type: BrowserPlatformLocation, decorators: [{\n type: Injectable,\n args: [{\n providedIn: 'platform',\n useFactory: () => new BrowserPlatformLocation(),\n }]\n }], ctorParameters: () => [] });\n\n/**\n * Joins two parts of a URL with a slash if needed.\n *\n * @param start URL string\n * @param end URL string\n *\n *\n * @returns The joined URL string.\n */\nfunction joinWithSlash(start, end) {\n if (start.length == 0) {\n return end;\n }\n if (end.length == 0) {\n return start;\n }\n let slashes = 0;\n if (start.endsWith('/')) {\n slashes++;\n }\n if (end.startsWith('/')) {\n slashes++;\n }\n if (slashes == 2) {\n return start + end.substring(1);\n }\n if (slashes == 1) {\n return start + end;\n }\n return start + '/' + end;\n}\n/**\n * Removes a trailing slash from a URL string if needed.\n * Looks for the first occurrence of either `#`, `?`, or the end of the\n * line as `/` characters and removes the trailing slash if one exists.\n *\n * @param url URL string.\n *\n * @returns The URL string, modified if needed.\n */\nfunction stripTrailingSlash(url) {\n const match = url.match(/#|\\?|$/);\n const pathEndIdx = (match && match.index) || url.length;\n const droppedSlashIdx = pathEndIdx - (url[pathEndIdx - 1] === '/' ? 1 : 0);\n return url.slice(0, droppedSlashIdx) + url.slice(pathEndIdx);\n}\n/**\n * Normalizes URL parameters by prepending with `?` if needed.\n *\n * @param params String of URL parameters.\n *\n * @returns The normalized URL parameters string.\n */\nfunction normalizeQueryParams(params) {\n return params && params[0] !== '?' ? '?' + params : params;\n}\n\n/**\n * Enables the `Location` service to read route state from the browser's URL.\n * Angular provides two strategies:\n * `HashLocationStrategy` and `PathLocationStrategy`.\n *\n * Applications should use the `Router` or `Location` services to\n * interact with application route state.\n *\n * For instance, `HashLocationStrategy` produces URLs like\n * http://example.com#/foo,\n * and `PathLocationStrategy` produces\n * http://example.com/foo as an equivalent URL.\n *\n * See these two classes for more.\n *\n * @publicApi\n */\nclass LocationStrategy {\n historyGo(relativePosition) {\n throw new Error(ngDevMode ? 'Not implemented' : '');\n }\n static { this.ɵfac = i0.ɵɵngDeclareFactory({ minVersion: \"12.0.0\", version: \"18.2.1\", ngImport: i0, type: LocationStrategy, deps: [], target: i0.ɵɵFactoryTarget.Injectable }); }\n static { this.ɵprov = i0.ɵɵngDeclareInjectable({ minVersion: \"12.0.0\", version: \"18.2.1\", ngImport: i0, type: LocationStrategy, providedIn: 'root', useFactory: () => inject(PathLocationStrategy) }); }\n}\ni0.ɵɵngDeclareClassMetadata({ minVersion: \"12.0.0\", version: \"18.2.1\", ngImport: i0, type: LocationStrategy, decorators: [{\n type: Injectable,\n args: [{ providedIn: 'root', useFactory: () => inject(PathLocationStrategy) }]\n }] });\n/**\n * A predefined DI token for the base href\n * to be used with the `PathLocationStrategy`.\n * The base href is the URL prefix that should be preserved when generating\n * and recognizing URLs.\n *\n * @usageNotes\n *\n * The following example shows how to use this token to configure the root app injector\n * with a base href value, so that the DI framework can supply the dependency anywhere in the app.\n *\n * ```typescript\n * import {NgModule} from '@angular/core';\n * import {APP_BASE_HREF} from '@angular/common';\n *\n * @NgModule({\n * providers: [{provide: APP_BASE_HREF, useValue: '/my/app'}]\n * })\n * class AppModule {}\n * ```\n *\n * @publicApi\n */\nconst APP_BASE_HREF = new InjectionToken(ngDevMode ? 'appBaseHref' : '');\n/**\n * @description\n * A {@link LocationStrategy} used to configure the {@link Location} service to\n * represent its state in the\n * [path](https://en.wikipedia.org/wiki/Uniform_Resource_Locator#Syntax) of the\n * browser's URL.\n *\n * If you're using `PathLocationStrategy`, you may provide a {@link APP_BASE_HREF}\n * or add a `` element to the document to override the default.\n *\n * For instance, if you provide an `APP_BASE_HREF` of `'/my/app/'` and call\n * `location.go('/foo')`, the browser's URL will become\n * `example.com/my/app/foo`. To ensure all relative URIs resolve correctly,\n * the `` and/or `APP_BASE_HREF` should end with a `/`.\n *\n * Similarly, if you add `` to the document and call\n * `location.go('/foo')`, the browser's URL will become\n * `example.com/my/app/foo`.\n *\n * Note that when using `PathLocationStrategy`, neither the query nor\n * the fragment in the `` will be preserved, as outlined\n * by the [RFC](https://tools.ietf.org/html/rfc3986#section-5.2.2).\n *\n * @usageNotes\n *\n * ### Example\n *\n * {@example common/location/ts/path_location_component.ts region='LocationComponent'}\n *\n * @publicApi\n */\nclass PathLocationStrategy extends LocationStrategy {\n constructor(_platformLocation, href) {\n super();\n this._platformLocation = _platformLocation;\n this._removeListenerFns = [];\n this._baseHref =\n href ??\n this._platformLocation.getBaseHrefFromDOM() ??\n inject(DOCUMENT).location?.origin ??\n '';\n }\n /** @nodoc */\n ngOnDestroy() {\n while (this._removeListenerFns.length) {\n this._removeListenerFns.pop()();\n }\n }\n onPopState(fn) {\n this._removeListenerFns.push(this._platformLocation.onPopState(fn), this._platformLocation.onHashChange(fn));\n }\n getBaseHref() {\n return this._baseHref;\n }\n prepareExternalUrl(internal) {\n return joinWithSlash(this._baseHref, internal);\n }\n path(includeHash = false) {\n const pathname = this._platformLocation.pathname + normalizeQueryParams(this._platformLocation.search);\n const hash = this._platformLocation.hash;\n return hash && includeHash ? `${pathname}${hash}` : pathname;\n }\n pushState(state, title, url, queryParams) {\n const externalUrl = this.prepareExternalUrl(url + normalizeQueryParams(queryParams));\n this._platformLocation.pushState(state, title, externalUrl);\n }\n replaceState(state, title, url, queryParams) {\n const externalUrl = this.prepareExternalUrl(url + normalizeQueryParams(queryParams));\n this._platformLocation.replaceState(state, title, externalUrl);\n }\n forward() {\n this._platformLocation.forward();\n }\n back() {\n this._platformLocation.back();\n }\n getState() {\n return this._platformLocation.getState();\n }\n historyGo(relativePosition = 0) {\n this._platformLocation.historyGo?.(relativePosition);\n }\n static { this.ɵfac = i0.ɵɵngDeclareFactory({ minVersion: \"12.0.0\", version: \"18.2.1\", ngImport: i0, type: PathLocationStrategy, deps: [{ token: PlatformLocation }, { token: APP_BASE_HREF, optional: true }], target: i0.ɵɵFactoryTarget.Injectable }); }\n static { this.ɵprov = i0.ɵɵngDeclareInjectable({ minVersion: \"12.0.0\", version: \"18.2.1\", ngImport: i0, type: PathLocationStrategy, providedIn: 'root' }); }\n}\ni0.ɵɵngDeclareClassMetadata({ minVersion: \"12.0.0\", version: \"18.2.1\", ngImport: i0, type: PathLocationStrategy, decorators: [{\n type: Injectable,\n args: [{ providedIn: 'root' }]\n }], ctorParameters: () => [{ type: PlatformLocation }, { type: undefined, decorators: [{\n type: Optional\n }, {\n type: Inject,\n args: [APP_BASE_HREF]\n }] }] });\n\n/**\n * @description\n * A {@link LocationStrategy} used to configure the {@link Location} service to\n * represent its state in the\n * [hash fragment](https://en.wikipedia.org/wiki/Uniform_Resource_Locator#Syntax)\n * of the browser's URL.\n *\n * For instance, if you call `location.go('/foo')`, the browser's URL will become\n * `example.com#/foo`.\n *\n * @usageNotes\n *\n * ### Example\n *\n * {@example common/location/ts/hash_location_component.ts region='LocationComponent'}\n *\n * @publicApi\n */\nclass HashLocationStrategy extends LocationStrategy {\n constructor(_platformLocation, _baseHref) {\n super();\n this._platformLocation = _platformLocation;\n this._baseHref = '';\n this._removeListenerFns = [];\n if (_baseHref != null) {\n this._baseHref = _baseHref;\n }\n }\n /** @nodoc */\n ngOnDestroy() {\n while (this._removeListenerFns.length) {\n this._removeListenerFns.pop()();\n }\n }\n onPopState(fn) {\n this._removeListenerFns.push(this._platformLocation.onPopState(fn), this._platformLocation.onHashChange(fn));\n }\n getBaseHref() {\n return this._baseHref;\n }\n path(includeHash = false) {\n // the hash value is always prefixed with a `#`\n // and if it is empty then it will stay empty\n const path = this._platformLocation.hash ?? '#';\n return path.length > 0 ? path.substring(1) : path;\n }\n prepareExternalUrl(internal) {\n const url = joinWithSlash(this._baseHref, internal);\n return url.length > 0 ? '#' + url : url;\n }\n pushState(state, title, path, queryParams) {\n let url = this.prepareExternalUrl(path + normalizeQueryParams(queryParams));\n if (url.length == 0) {\n url = this._platformLocation.pathname;\n }\n this._platformLocation.pushState(state, title, url);\n }\n replaceState(state, title, path, queryParams) {\n let url = this.prepareExternalUrl(path + normalizeQueryParams(queryParams));\n if (url.length == 0) {\n url = this._platformLocation.pathname;\n }\n this._platformLocation.replaceState(state, title, url);\n }\n forward() {\n this._platformLocation.forward();\n }\n back() {\n this._platformLocation.back();\n }\n getState() {\n return this._platformLocation.getState();\n }\n historyGo(relativePosition = 0) {\n this._platformLocation.historyGo?.(relativePosition);\n }\n static { this.ɵfac = i0.ɵɵngDeclareFactory({ minVersion: \"12.0.0\", version: \"18.2.1\", ngImport: i0, type: HashLocationStrategy, deps: [{ token: PlatformLocation }, { token: APP_BASE_HREF, optional: true }], target: i0.ɵɵFactoryTarget.Injectable }); }\n static { this.ɵprov = i0.ɵɵngDeclareInjectable({ minVersion: \"12.0.0\", version: \"18.2.1\", ngImport: i0, type: HashLocationStrategy }); }\n}\ni0.ɵɵngDeclareClassMetadata({ minVersion: \"12.0.0\", version: \"18.2.1\", ngImport: i0, type: HashLocationStrategy, decorators: [{\n type: Injectable\n }], ctorParameters: () => [{ type: PlatformLocation }, { type: undefined, decorators: [{\n type: Optional\n }, {\n type: Inject,\n args: [APP_BASE_HREF]\n }] }] });\n\n/**\n * @description\n *\n * A service that applications can use to interact with a browser's URL.\n *\n * Depending on the `LocationStrategy` used, `Location` persists\n * to the URL's path or the URL's hash segment.\n *\n * @usageNotes\n *\n * It's better to use the `Router.navigate()` service to trigger route changes. Use\n * `Location` only if you need to interact with or create normalized URLs outside of\n * routing.\n *\n * `Location` is responsible for normalizing the URL against the application's base href.\n * A normalized URL is absolute from the URL host, includes the application's base href, and has no\n * trailing slash:\n * - `/my/app/user/123` is normalized\n * - `my/app/user/123` **is not** normalized\n * - `/my/app/user/123/` **is not** normalized\n *\n * ### Example\n *\n * \n *\n * @publicApi\n */\nclass Location {\n constructor(locationStrategy) {\n /** @internal */\n this._subject = new EventEmitter();\n /** @internal */\n this._urlChangeListeners = [];\n /** @internal */\n this._urlChangeSubscription = null;\n this._locationStrategy = locationStrategy;\n const baseHref = this._locationStrategy.getBaseHref();\n // Note: This class's interaction with base HREF does not fully follow the rules\n // outlined in the spec https://www.freesoft.org/CIE/RFC/1808/18.htm.\n // Instead of trying to fix individual bugs with more and more code, we should\n // investigate using the URL constructor and providing the base as a second\n // argument.\n // https://developer.mozilla.org/en-US/docs/Web/API/URL/URL#parameters\n this._basePath = _stripOrigin(stripTrailingSlash(_stripIndexHtml(baseHref)));\n this._locationStrategy.onPopState((ev) => {\n this._subject.emit({\n 'url': this.path(true),\n 'pop': true,\n 'state': ev.state,\n 'type': ev.type,\n });\n });\n }\n /** @nodoc */\n ngOnDestroy() {\n this._urlChangeSubscription?.unsubscribe();\n this._urlChangeListeners = [];\n }\n /**\n * Normalizes the URL path for this location.\n *\n * @param includeHash True to include an anchor fragment in the path.\n *\n * @returns The normalized URL path.\n */\n // TODO: vsavkin. Remove the boolean flag and always include hash once the deprecated router is\n // removed.\n path(includeHash = false) {\n return this.normalize(this._locationStrategy.path(includeHash));\n }\n /**\n * Reports the current state of the location history.\n * @returns The current value of the `history.state` object.\n */\n getState() {\n return this._locationStrategy.getState();\n }\n /**\n * Normalizes the given path and compares to the current normalized path.\n *\n * @param path The given URL path.\n * @param query Query parameters.\n *\n * @returns True if the given URL path is equal to the current normalized path, false\n * otherwise.\n */\n isCurrentPathEqualTo(path, query = '') {\n return this.path() == this.normalize(path + normalizeQueryParams(query));\n }\n /**\n * Normalizes a URL path by stripping any trailing slashes.\n *\n * @param url String representing a URL.\n *\n * @returns The normalized URL string.\n */\n normalize(url) {\n return Location.stripTrailingSlash(_stripBasePath(this._basePath, _stripIndexHtml(url)));\n }\n /**\n * Normalizes an external URL path.\n * If the given URL doesn't begin with a leading slash (`'/'`), adds one\n * before normalizing. Adds a hash if `HashLocationStrategy` is\n * in use, or the `APP_BASE_HREF` if the `PathLocationStrategy` is in use.\n *\n * @param url String representing a URL.\n *\n * @returns A normalized platform-specific URL.\n */\n prepareExternalUrl(url) {\n if (url && url[0] !== '/') {\n url = '/' + url;\n }\n return this._locationStrategy.prepareExternalUrl(url);\n }\n // TODO: rename this method to pushState\n /**\n * Changes the browser's URL to a normalized version of a given URL, and pushes a\n * new item onto the platform's history.\n *\n * @param path URL path to normalize.\n * @param query Query parameters.\n * @param state Location history state.\n *\n */\n go(path, query = '', state = null) {\n this._locationStrategy.pushState(state, '', path, query);\n this._notifyUrlChangeListeners(this.prepareExternalUrl(path + normalizeQueryParams(query)), state);\n }\n /**\n * Changes the browser's URL to a normalized version of the given URL, and replaces\n * the top item on the platform's history stack.\n *\n * @param path URL path to normalize.\n * @param query Query parameters.\n * @param state Location history state.\n */\n replaceState(path, query = '', state = null) {\n this._locationStrategy.replaceState(state, '', path, query);\n this._notifyUrlChangeListeners(this.prepareExternalUrl(path + normalizeQueryParams(query)), state);\n }\n /**\n * Navigates forward in the platform's history.\n */\n forward() {\n this._locationStrategy.forward();\n }\n /**\n * Navigates back in the platform's history.\n */\n back() {\n this._locationStrategy.back();\n }\n /**\n * Navigate to a specific page from session history, identified by its relative position to the\n * current page.\n *\n * @param relativePosition Position of the target page in the history relative to the current\n * page.\n * A negative value moves backwards, a positive value moves forwards, e.g. `location.historyGo(2)`\n * moves forward two pages and `location.historyGo(-2)` moves back two pages. When we try to go\n * beyond what's stored in the history session, we stay in the current page. Same behaviour occurs\n * when `relativePosition` equals 0.\n * @see https://developer.mozilla.org/en-US/docs/Web/API/History_API#Moving_to_a_specific_point_in_history\n */\n historyGo(relativePosition = 0) {\n this._locationStrategy.historyGo?.(relativePosition);\n }\n /**\n * Registers a URL change listener. Use to catch updates performed by the Angular\n * framework that are not detectible through \"popstate\" or \"hashchange\" events.\n *\n * @param fn The change handler function, which take a URL and a location history state.\n * @returns A function that, when executed, unregisters a URL change listener.\n */\n onUrlChange(fn) {\n this._urlChangeListeners.push(fn);\n this._urlChangeSubscription ??= this.subscribe((v) => {\n this._notifyUrlChangeListeners(v.url, v.state);\n });\n return () => {\n const fnIndex = this._urlChangeListeners.indexOf(fn);\n this._urlChangeListeners.splice(fnIndex, 1);\n if (this._urlChangeListeners.length === 0) {\n this._urlChangeSubscription?.unsubscribe();\n this._urlChangeSubscription = null;\n }\n };\n }\n /** @internal */\n _notifyUrlChangeListeners(url = '', state) {\n this._urlChangeListeners.forEach((fn) => fn(url, state));\n }\n /**\n * Subscribes to the platform's `popState` events.\n *\n * Note: `Location.go()` does not trigger the `popState` event in the browser. Use\n * `Location.onUrlChange()` to subscribe to URL changes instead.\n *\n * @param value Event that is triggered when the state history changes.\n * @param exception The exception to throw.\n *\n * @see [onpopstate](https://developer.mozilla.org/en-US/docs/Web/API/WindowEventHandlers/onpopstate)\n *\n * @returns Subscribed events.\n */\n subscribe(onNext, onThrow, onReturn) {\n return this._subject.subscribe({ next: onNext, error: onThrow, complete: onReturn });\n }\n /**\n * Normalizes URL parameters by prepending with `?` if needed.\n *\n * @param params String of URL parameters.\n *\n * @returns The normalized URL parameters string.\n */\n static { this.normalizeQueryParams = normalizeQueryParams; }\n /**\n * Joins two parts of a URL with a slash if needed.\n *\n * @param start URL string\n * @param end URL string\n *\n *\n * @returns The joined URL string.\n */\n static { this.joinWithSlash = joinWithSlash; }\n /**\n * Removes a trailing slash from a URL string if needed.\n * Looks for the first occurrence of either `#`, `?`, or the end of the\n * line as `/` characters and removes the trailing slash if one exists.\n *\n * @param url URL string.\n *\n * @returns The URL string, modified if needed.\n */\n static { this.stripTrailingSlash = stripTrailingSlash; }\n static { this.ɵfac = i0.ɵɵngDeclareFactory({ minVersion: \"12.0.0\", version: \"18.2.1\", ngImport: i0, type: Location, deps: [{ token: LocationStrategy }], target: i0.ɵɵFactoryTarget.Injectable }); }\n static { this.ɵprov = i0.ɵɵngDeclareInjectable({ minVersion: \"12.0.0\", version: \"18.2.1\", ngImport: i0, type: Location, providedIn: 'root', useFactory: createLocation }); }\n}\ni0.ɵɵngDeclareClassMetadata({ minVersion: \"12.0.0\", version: \"18.2.1\", ngImport: i0, type: Location, decorators: [{\n type: Injectable,\n args: [{\n providedIn: 'root',\n // See #23917\n useFactory: createLocation,\n }]\n }], ctorParameters: () => [{ type: LocationStrategy }] });\nfunction createLocation() {\n return new Location(ɵɵinject(LocationStrategy));\n}\nfunction _stripBasePath(basePath, url) {\n if (!basePath || !url.startsWith(basePath)) {\n return url;\n }\n const strippedUrl = url.substring(basePath.length);\n if (strippedUrl === '' || ['/', ';', '?', '#'].includes(strippedUrl[0])) {\n return strippedUrl;\n }\n return url;\n}\nfunction _stripIndexHtml(url) {\n return url.replace(/\\/index.html$/, '');\n}\nfunction _stripOrigin(baseHref) {\n // DO NOT REFACTOR! Previously, this check looked like this:\n // `/^(https?:)?\\/\\//.test(baseHref)`, but that resulted in\n // syntactically incorrect code after Closure Compiler minification.\n // This was likely caused by a bug in Closure Compiler, but\n // for now, the check is rewritten to use `new RegExp` instead.\n const isAbsoluteUrl = new RegExp('^(https?:)?//').test(baseHref);\n if (isAbsoluteUrl) {\n const [, pathname] = baseHref.split(/\\/\\/[^\\/]+/);\n return pathname;\n }\n return baseHref;\n}\n\n/** @internal */\nconst CURRENCIES_EN = { \"ADP\": [undefined, undefined, 0], \"AFN\": [undefined, \"؋\", 0], \"ALL\": [undefined, undefined, 0], \"AMD\": [undefined, \"֏\", 2], \"AOA\": [undefined, \"Kz\"], \"ARS\": [undefined, \"$\"], \"AUD\": [\"A$\", \"$\"], \"AZN\": [undefined, \"₼\"], \"BAM\": [undefined, \"KM\"], \"BBD\": [undefined, \"$\"], \"BDT\": [undefined, \"৳\"], \"BHD\": [undefined, undefined, 3], \"BIF\": [undefined, undefined, 0], \"BMD\": [undefined, \"$\"], \"BND\": [undefined, \"$\"], \"BOB\": [undefined, \"Bs\"], \"BRL\": [\"R$\"], \"BSD\": [undefined, \"$\"], \"BWP\": [undefined, \"P\"], \"BYN\": [undefined, undefined, 2], \"BYR\": [undefined, undefined, 0], \"BZD\": [undefined, \"$\"], \"CAD\": [\"CA$\", \"$\", 2], \"CHF\": [undefined, undefined, 2], \"CLF\": [undefined, undefined, 4], \"CLP\": [undefined, \"$\", 0], \"CNY\": [\"CN¥\", \"¥\"], \"COP\": [undefined, \"$\", 2], \"CRC\": [undefined, \"₡\", 2], \"CUC\": [undefined, \"$\"], \"CUP\": [undefined, \"$\"], \"CZK\": [undefined, \"Kč\", 2], \"DJF\": [undefined, undefined, 0], \"DKK\": [undefined, \"kr\", 2], \"DOP\": [undefined, \"$\"], \"EGP\": [undefined, \"E£\"], \"ESP\": [undefined, \"₧\", 0], \"EUR\": [\"€\"], \"FJD\": [undefined, \"$\"], \"FKP\": [undefined, \"£\"], \"GBP\": [\"£\"], \"GEL\": [undefined, \"₾\"], \"GHS\": [undefined, \"GH₵\"], \"GIP\": [undefined, \"£\"], \"GNF\": [undefined, \"FG\", 0], \"GTQ\": [undefined, \"Q\"], \"GYD\": [undefined, \"$\", 2], \"HKD\": [\"HK$\", \"$\"], \"HNL\": [undefined, \"L\"], \"HRK\": [undefined, \"kn\"], \"HUF\": [undefined, \"Ft\", 2], \"IDR\": [undefined, \"Rp\", 2], \"ILS\": [\"₪\"], \"INR\": [\"₹\"], \"IQD\": [undefined, undefined, 0], \"IRR\": [undefined, undefined, 0], \"ISK\": [undefined, \"kr\", 0], \"ITL\": [undefined, undefined, 0], \"JMD\": [undefined, \"$\"], \"JOD\": [undefined, undefined, 3], \"JPY\": [\"¥\", undefined, 0], \"KHR\": [undefined, \"៛\"], \"KMF\": [undefined, \"CF\", 0], \"KPW\": [undefined, \"₩\", 0], \"KRW\": [\"₩\", undefined, 0], \"KWD\": [undefined, undefined, 3], \"KYD\": [undefined, \"$\"], \"KZT\": [undefined, \"₸\"], \"LAK\": [undefined, \"₭\", 0], \"LBP\": [undefined, \"L£\", 0], \"LKR\": [undefined, \"Rs\"], \"LRD\": [undefined, \"$\"], \"LTL\": [undefined, \"Lt\"], \"LUF\": [undefined, undefined, 0], \"LVL\": [undefined, \"Ls\"], \"LYD\": [undefined, undefined, 3], \"MGA\": [undefined, \"Ar\", 0], \"MGF\": [undefined, undefined, 0], \"MMK\": [undefined, \"K\", 0], \"MNT\": [undefined, \"₮\", 2], \"MRO\": [undefined, undefined, 0], \"MUR\": [undefined, \"Rs\", 2], \"MXN\": [\"MX$\", \"$\"], \"MYR\": [undefined, \"RM\"], \"NAD\": [undefined, \"$\"], \"NGN\": [undefined, \"₦\"], \"NIO\": [undefined, \"C$\"], \"NOK\": [undefined, \"kr\", 2], \"NPR\": [undefined, \"Rs\"], \"NZD\": [\"NZ$\", \"$\"], \"OMR\": [undefined, undefined, 3], \"PHP\": [\"₱\"], \"PKR\": [undefined, \"Rs\", 2], \"PLN\": [undefined, \"zł\"], \"PYG\": [undefined, \"₲\", 0], \"RON\": [undefined, \"lei\"], \"RSD\": [undefined, undefined, 0], \"RUB\": [undefined, \"₽\"], \"RWF\": [undefined, \"RF\", 0], \"SBD\": [undefined, \"$\"], \"SEK\": [undefined, \"kr\", 2], \"SGD\": [undefined, \"$\"], \"SHP\": [undefined, \"£\"], \"SLE\": [undefined, undefined, 2], \"SLL\": [undefined, undefined, 0], \"SOS\": [undefined, undefined, 0], \"SRD\": [undefined, \"$\"], \"SSP\": [undefined, \"£\"], \"STD\": [undefined, undefined, 0], \"STN\": [undefined, \"Db\"], \"SYP\": [undefined, \"£\", 0], \"THB\": [undefined, \"฿\"], \"TMM\": [undefined, undefined, 0], \"TND\": [undefined, undefined, 3], \"TOP\": [undefined, \"T$\"], \"TRL\": [undefined, undefined, 0], \"TRY\": [undefined, \"₺\"], \"TTD\": [undefined, \"$\"], \"TWD\": [\"NT$\", \"$\", 2], \"TZS\": [undefined, undefined, 2], \"UAH\": [undefined, \"₴\"], \"UGX\": [undefined, undefined, 0], \"USD\": [\"$\"], \"UYI\": [undefined, undefined, 0], \"UYU\": [undefined, \"$\"], \"UYW\": [undefined, undefined, 4], \"UZS\": [undefined, undefined, 2], \"VEF\": [undefined, \"Bs\", 2], \"VND\": [\"₫\", undefined, 0], \"VUV\": [undefined, undefined, 0], \"XAF\": [\"FCFA\", undefined, 0], \"XCD\": [\"EC$\", \"$\"], \"XOF\": [\"F CFA\", undefined, 0], \"XPF\": [\"CFPF\", undefined, 0], \"XXX\": [\"¤\"], \"YER\": [undefined, undefined, 0], \"ZAR\": [undefined, \"R\"], \"ZMK\": [undefined, undefined, 0], \"ZMW\": [undefined, \"ZK\"], \"ZWD\": [undefined, undefined, 0] };\n\n/**\n * Format styles that can be used to represent numbers.\n * @see {@link getLocaleNumberFormat}\n * @see [Internationalization (i18n) Guide](guide/i18n)\n *\n * @publicApi\n *\n * @deprecated `getLocaleNumberFormat` is deprecated\n */\nvar NumberFormatStyle;\n(function (NumberFormatStyle) {\n NumberFormatStyle[NumberFormatStyle[\"Decimal\"] = 0] = \"Decimal\";\n NumberFormatStyle[NumberFormatStyle[\"Percent\"] = 1] = \"Percent\";\n NumberFormatStyle[NumberFormatStyle[\"Currency\"] = 2] = \"Currency\";\n NumberFormatStyle[NumberFormatStyle[\"Scientific\"] = 3] = \"Scientific\";\n})(NumberFormatStyle || (NumberFormatStyle = {}));\n/**\n * Plurality cases used for translating plurals to different languages.\n *\n * @see {@link NgPlural}\n * @see {@link NgPluralCase}\n * @see [Internationalization (i18n) Guide](guide/i18n)\n *\n * @publicApi\n *\n * @deprecated `getLocalePluralCase` is deprecated\n */\nvar Plural;\n(function (Plural) {\n Plural[Plural[\"Zero\"] = 0] = \"Zero\";\n Plural[Plural[\"One\"] = 1] = \"One\";\n Plural[Plural[\"Two\"] = 2] = \"Two\";\n Plural[Plural[\"Few\"] = 3] = \"Few\";\n Plural[Plural[\"Many\"] = 4] = \"Many\";\n Plural[Plural[\"Other\"] = 5] = \"Other\";\n})(Plural || (Plural = {}));\n/**\n * Context-dependant translation forms for strings.\n * Typically the standalone version is for the nominative form of the word,\n * and the format version is used for the genitive case.\n * @see [CLDR website](http://cldr.unicode.org/translation/date-time-1/date-time#TOC-Standalone-vs.-Format-Styles)\n * @see [Internationalization (i18n) Guide](guide/i18n)\n *\n * @publicApi\n *\n * @deprecated locale data getters are deprecated\n */\nvar FormStyle;\n(function (FormStyle) {\n FormStyle[FormStyle[\"Format\"] = 0] = \"Format\";\n FormStyle[FormStyle[\"Standalone\"] = 1] = \"Standalone\";\n})(FormStyle || (FormStyle = {}));\n/**\n * String widths available for translations.\n * The specific character widths are locale-specific.\n * Examples are given for the word \"Sunday\" in English.\n *\n * @publicApi\n *\n * @deprecated locale data getters are deprecated\n */\nvar TranslationWidth;\n(function (TranslationWidth) {\n /** 1 character for `en-US`. For example: 'S' */\n TranslationWidth[TranslationWidth[\"Narrow\"] = 0] = \"Narrow\";\n /** 3 characters for `en-US`. For example: 'Sun' */\n TranslationWidth[TranslationWidth[\"Abbreviated\"] = 1] = \"Abbreviated\";\n /** Full length for `en-US`. For example: \"Sunday\" */\n TranslationWidth[TranslationWidth[\"Wide\"] = 2] = \"Wide\";\n /** 2 characters for `en-US`, For example: \"Su\" */\n TranslationWidth[TranslationWidth[\"Short\"] = 3] = \"Short\";\n})(TranslationWidth || (TranslationWidth = {}));\n/**\n * String widths available for date-time formats.\n * The specific character widths are locale-specific.\n * Examples are given for `en-US`.\n *\n * @see {@link getLocaleDateFormat}\n * @see {@link getLocaleTimeFormat}\n * @see {@link getLocaleDateTimeFormat}\n * @see [Internationalization (i18n) Guide](guide/i18n)\n * @publicApi\n *\n * @deprecated Date locale data getters are deprecated\n */\nvar FormatWidth;\n(function (FormatWidth) {\n /**\n * For `en-US`, `'M/d/yy, h:mm a'`\n * (Example: `6/15/15, 9:03 AM`)\n */\n FormatWidth[FormatWidth[\"Short\"] = 0] = \"Short\";\n /**\n * For `en-US`, `'MMM d, y, h:mm:ss a'`\n * (Example: `Jun 15, 2015, 9:03:01 AM`)\n */\n FormatWidth[FormatWidth[\"Medium\"] = 1] = \"Medium\";\n /**\n * For `en-US`, `'MMMM d, y, h:mm:ss a z'`\n * (Example: `June 15, 2015 at 9:03:01 AM GMT+1`)\n */\n FormatWidth[FormatWidth[\"Long\"] = 2] = \"Long\";\n /**\n * For `en-US`, `'EEEE, MMMM d, y, h:mm:ss a zzzz'`\n * (Example: `Monday, June 15, 2015 at 9:03:01 AM GMT+01:00`)\n */\n FormatWidth[FormatWidth[\"Full\"] = 3] = \"Full\";\n})(FormatWidth || (FormatWidth = {}));\n// This needs to be an object literal, rather than an enum, because TypeScript 5.4+\n// doesn't allow numeric keys and we have `Infinity` and `NaN`.\n/**\n * Symbols that can be used to replace placeholders in number patterns.\n * Examples are based on `en-US` values.\n *\n * @see {@link getLocaleNumberSymbol}\n * @see [Internationalization (i18n) Guide](guide/i18n)\n *\n * @publicApi\n *\n * @deprecated `getLocaleNumberSymbol` is deprecated\n *\n * @object-literal-as-enum\n */\nconst NumberSymbol = {\n /**\n * Decimal separator.\n * For `en-US`, the dot character.\n * Example: 2,345`.`67\n */\n Decimal: 0,\n /**\n * Grouping separator, typically for thousands.\n * For `en-US`, the comma character.\n * Example: 2`,`345.67\n */\n Group: 1,\n /**\n * List-item separator.\n * Example: \"one, two, and three\"\n */\n List: 2,\n /**\n * Sign for percentage (out of 100).\n * Example: 23.4%\n */\n PercentSign: 3,\n /**\n * Sign for positive numbers.\n * Example: +23\n */\n PlusSign: 4,\n /**\n * Sign for negative numbers.\n * Example: -23\n */\n MinusSign: 5,\n /**\n * Computer notation for exponential value (n times a power of 10).\n * Example: 1.2E3\n */\n Exponential: 6,\n /**\n * Human-readable format of exponential.\n * Example: 1.2x103\n */\n SuperscriptingExponent: 7,\n /**\n * Sign for permille (out of 1000).\n * Example: 23.4‰\n */\n PerMille: 8,\n /**\n * Infinity, can be used with plus and minus.\n * Example: ∞, +∞, -∞\n */\n Infinity: 9,\n /**\n * Not a number.\n * Example: NaN\n */\n NaN: 10,\n /**\n * Symbol used between time units.\n * Example: 10:52\n */\n TimeSeparator: 11,\n /**\n * Decimal separator for currency values (fallback to `Decimal`).\n * Example: $2,345.67\n */\n CurrencyDecimal: 12,\n /**\n * Group separator for currency values (fallback to `Group`).\n * Example: $2,345.67\n */\n CurrencyGroup: 13,\n};\n/**\n * The value for each day of the week, based on the `en-US` locale\n *\n * @publicApi\n *\n * @deprecated Week locale getters are deprecated\n */\nvar WeekDay;\n(function (WeekDay) {\n WeekDay[WeekDay[\"Sunday\"] = 0] = \"Sunday\";\n WeekDay[WeekDay[\"Monday\"] = 1] = \"Monday\";\n WeekDay[WeekDay[\"Tuesday\"] = 2] = \"Tuesday\";\n WeekDay[WeekDay[\"Wednesday\"] = 3] = \"Wednesday\";\n WeekDay[WeekDay[\"Thursday\"] = 4] = \"Thursday\";\n WeekDay[WeekDay[\"Friday\"] = 5] = \"Friday\";\n WeekDay[WeekDay[\"Saturday\"] = 6] = \"Saturday\";\n})(WeekDay || (WeekDay = {}));\n/**\n * Retrieves the locale ID from the currently loaded locale.\n * The loaded locale could be, for example, a global one rather than a regional one.\n * @param locale A locale code, such as `fr-FR`.\n * @returns The locale code. For example, `fr`.\n * @see [Internationalization (i18n) Guide](guide/i18n)\n *\n * @publicApi\n *\n * @deprecated Angular recommends relying on the `Intl` API for i18n.\n * This function serves no purpose when relying on the `Intl` API.\n */\nfunction getLocaleId(locale) {\n return ɵfindLocaleData(locale)[ɵLocaleDataIndex.LocaleId];\n}\n/**\n * Retrieves day period strings for the given locale.\n *\n * @param locale A locale code for the locale format rules to use.\n * @param formStyle The required grammatical form.\n * @param width The required character width.\n * @returns An array of localized period strings. For example, `[AM, PM]` for `en-US`.\n * @see [Internationalization (i18n) Guide](guide/i18n)\n *\n * @publicApi\n *\n * @deprecated Angular recommends relying on the `Intl` API for i18n.\n * Use `Intl.DateTimeFormat` for date formating instead.\n */\nfunction getLocaleDayPeriods(locale, formStyle, width) {\n const data = ɵfindLocaleData(locale);\n const amPmData = [\n data[ɵLocaleDataIndex.DayPeriodsFormat],\n data[ɵLocaleDataIndex.DayPeriodsStandalone],\n ];\n const amPm = getLastDefinedValue(amPmData, formStyle);\n return getLastDefinedValue(amPm, width);\n}\n/**\n * Retrieves days of the week for the given locale, using the Gregorian calendar.\n *\n * @param locale A locale code for the locale format rules to use.\n * @param formStyle The required grammatical form.\n * @param width The required character width.\n * @returns An array of localized name strings.\n * For example,`[Sunday, Monday, ... Saturday]` for `en-US`.\n * @see [Internationalization (i18n) Guide](guide/i18n)\n *\n * @publicApi\n *\n * @deprecated Angular recommends relying on the `Intl` API for i18n.\n * Use `Intl.DateTimeFormat` for date formating instead.\n */\nfunction getLocaleDayNames(locale, formStyle, width) {\n const data = ɵfindLocaleData(locale);\n const daysData = [\n data[ɵLocaleDataIndex.DaysFormat],\n data[ɵLocaleDataIndex.DaysStandalone],\n ];\n const days = getLastDefinedValue(daysData, formStyle);\n return getLastDefinedValue(days, width);\n}\n/**\n * Retrieves months of the year for the given locale, using the Gregorian calendar.\n *\n * @param locale A locale code for the locale format rules to use.\n * @param formStyle The required grammatical form.\n * @param width The required character width.\n * @returns An array of localized name strings.\n * For example, `[January, February, ...]` for `en-US`.\n * @see [Internationalization (i18n) Guide](guide/i18n)\n *\n * @publicApi\n *\n * @deprecated Angular recommends relying on the `Intl` API for i18n.\n * Use `Intl.DateTimeFormat` for date formating instead.\n */\nfunction getLocaleMonthNames(locale, formStyle, width) {\n const data = ɵfindLocaleData(locale);\n const monthsData = [\n data[ɵLocaleDataIndex.MonthsFormat],\n data[ɵLocaleDataIndex.MonthsStandalone],\n ];\n const months = getLastDefinedValue(monthsData, formStyle);\n return getLastDefinedValue(months, width);\n}\n/**\n * Retrieves Gregorian-calendar eras for the given locale.\n * @param locale A locale code for the locale format rules to use.\n * @param width The required character width.\n\n * @returns An array of localized era strings.\n * For example, `[AD, BC]` for `en-US`.\n * @see [Internationalization (i18n) Guide](guide/i18n)\n *\n * @publicApi\n *\n * @deprecated Angular recommends relying on the `Intl` API for i18n.\n * Use `Intl.DateTimeFormat` for date formating instead.\n */\nfunction getLocaleEraNames(locale, width) {\n const data = ɵfindLocaleData(locale);\n const erasData = data[ɵLocaleDataIndex.Eras];\n return getLastDefinedValue(erasData, width);\n}\n/**\n * Retrieves the first day of the week for the given locale.\n *\n * @param locale A locale code for the locale format rules to use.\n * @returns A day index number, using the 0-based week-day index for `en-US`\n * (Sunday = 0, Monday = 1, ...).\n * For example, for `fr-FR`, returns 1 to indicate that the first day is Monday.\n * @see [Internationalization (i18n) Guide](guide/i18n)\n *\n * @publicApi\n *\n * @deprecated Angular recommends relying on the `Intl` API for i18n.\n * Intl's [`getWeekInfo`](https://developer.mozilla.org/en-US/docs/Web/JavaScript/Reference/Global_Objects/Intl/Locale/getWeekInfo) has partial support (Chromium M99 & Safari 17).\n * You may want to rely on the following alternatives:\n * - Libraries like [`Luxon`](https://moment.github.io/luxon/#/) rely on `Intl` but fallback on the ISO 8601 definition (monday) if `getWeekInfo` is not supported.\n * - Other librairies like [`date-fns`](https://date-fns.org/), [`day.js`](https://day.js.org/en/) or [`weekstart`](https://www.npmjs.com/package/weekstart) library provide their own locale based data for the first day of the week.\n */\nfunction getLocaleFirstDayOfWeek(locale) {\n const data = ɵfindLocaleData(locale);\n return data[ɵLocaleDataIndex.FirstDayOfWeek];\n}\n/**\n * Range of week days that are considered the week-end for the given locale.\n *\n * @param locale A locale code for the locale format rules to use.\n * @returns The range of day values, `[startDay, endDay]`.\n * @see [Internationalization (i18n) Guide](guide/i18n)\n *\n * @publicApi\n *\n * @deprecated Angular recommends relying on the `Intl` API for i18n.\n * Intl's [`getWeekInfo`](https://developer.mozilla.org/en-US/docs/Web/JavaScript/Reference/Global_Objects/Intl/Locale/getWeekInfo) has partial support (Chromium M99 & Safari 17).\n * Libraries like [`Luxon`](https://moment.github.io/luxon/#/) rely on `Intl` but fallback on the ISO 8601 definition (Saturday+Sunday) if `getWeekInfo` is not supported .\n */\nfunction getLocaleWeekEndRange(locale) {\n const data = ɵfindLocaleData(locale);\n return data[ɵLocaleDataIndex.WeekendRange];\n}\n/**\n * Retrieves a localized date-value formatting string.\n *\n * @param locale A locale code for the locale format rules to use.\n * @param width The format type.\n * @returns The localized formatting string.\n * @see {@link FormatWidth}\n * @see [Internationalization (i18n) Guide](guide/i18n)\n *\n * @publicApi\n *\n * @deprecated Angular recommends relying on the `Intl` API for i18n.\n * Use `Intl.DateTimeFormat` for date formating instead.\n */\nfunction getLocaleDateFormat(locale, width) {\n const data = ɵfindLocaleData(locale);\n return getLastDefinedValue(data[ɵLocaleDataIndex.DateFormat], width);\n}\n/**\n * Retrieves a localized time-value formatting string.\n *\n * @param locale A locale code for the locale format rules to use.\n * @param width The format type.\n * @returns The localized formatting string.\n * @see {@link FormatWidth}\n * @see [Internationalization (i18n) Guide](guide/i18n)\n\n * @publicApi\n * @deprecated Angular recommends relying on the `Intl` API for i18n.\n * Use `Intl.DateTimeFormat` for date formating instead.\n */\nfunction getLocaleTimeFormat(locale, width) {\n const data = ɵfindLocaleData(locale);\n return getLastDefinedValue(data[ɵLocaleDataIndex.TimeFormat], width);\n}\n/**\n * Retrieves a localized date-time formatting string.\n *\n * @param locale A locale code for the locale format rules to use.\n * @param width The format type.\n * @returns The localized formatting string.\n * @see {@link FormatWidth}\n * @see [Internationalization (i18n) Guide](guide/i18n)\n *\n * @publicApi\n *\n * @deprecated Angular recommends relying on the `Intl` API for i18n.\n * Use `Intl.DateTimeFormat` for date formating instead.\n */\nfunction getLocaleDateTimeFormat(locale, width) {\n const data = ɵfindLocaleData(locale);\n const dateTimeFormatData = data[ɵLocaleDataIndex.DateTimeFormat];\n return getLastDefinedValue(dateTimeFormatData, width);\n}\n/**\n * Retrieves a localized number symbol that can be used to replace placeholders in number formats.\n * @param locale The locale code.\n * @param symbol The symbol to localize. Must be one of `NumberSymbol`.\n * @returns The character for the localized symbol.\n * @see {@link NumberSymbol}\n * @see [Internationalization (i18n) Guide](guide/i18n)\n *\n * @publicApi\n *\n * @deprecated Angular recommends relying on the `Intl` API for i18n.\n * Use `Intl.NumberFormat` to format numbers instead.\n */\nfunction getLocaleNumberSymbol(locale, symbol) {\n const data = ɵfindLocaleData(locale);\n const res = data[ɵLocaleDataIndex.NumberSymbols][symbol];\n if (typeof res === 'undefined') {\n if (symbol === NumberSymbol.CurrencyDecimal) {\n return data[ɵLocaleDataIndex.NumberSymbols][NumberSymbol.Decimal];\n }\n else if (symbol === NumberSymbol.CurrencyGroup) {\n return data[ɵLocaleDataIndex.NumberSymbols][NumberSymbol.Group];\n }\n }\n return res;\n}\n/**\n * Retrieves a number format for a given locale.\n *\n * Numbers are formatted using patterns, like `#,###.00`. For example, the pattern `#,###.00`\n * when used to format the number 12345.678 could result in \"12'345,678\". That would happen if the\n * grouping separator for your language is an apostrophe, and the decimal separator is a comma.\n *\n * Important: The characters `.` `,` `0` `#` (and others below) are special placeholders\n * that stand for the decimal separator, and so on, and are NOT real characters.\n * You must NOT \"translate\" the placeholders. For example, don't change `.` to `,` even though in\n * your language the decimal point is written with a comma. The symbols should be replaced by the\n * local equivalents, using the appropriate `NumberSymbol` for your language.\n *\n * Here are the special characters used in number patterns:\n *\n * | Symbol | Meaning |\n * |--------|---------|\n * | . | Replaced automatically by the character used for the decimal point. |\n * | , | Replaced by the \"grouping\" (thousands) separator. |\n * | 0 | Replaced by a digit (or zero if there aren't enough digits). |\n * | # | Replaced by a digit (or nothing if there aren't enough). |\n * | ¤ | Replaced by a currency symbol, such as $ or USD. |\n * | % | Marks a percent format. The % symbol may change position, but must be retained. |\n * | E | Marks a scientific format. The E symbol may change position, but must be retained. |\n * | ' | Special characters used as literal characters are quoted with ASCII single quotes. |\n *\n * @param locale A locale code for the locale format rules to use.\n * @param type The type of numeric value to be formatted (such as `Decimal` or `Currency`.)\n * @returns The localized format string.\n * @see {@link NumberFormatStyle}\n * @see [CLDR website](http://cldr.unicode.org/translation/number-patterns)\n * @see [Internationalization (i18n) Guide](guide/i18n)\n *\n * @publicApi\n *\n * @deprecated Angular recommends relying on the `Intl` API for i18n.\n * Let `Intl.NumberFormat` determine the number format instead\n */\nfunction getLocaleNumberFormat(locale, type) {\n const data = ɵfindLocaleData(locale);\n return data[ɵLocaleDataIndex.NumberFormats][type];\n}\n/**\n * Retrieves the symbol used to represent the currency for the main country\n * corresponding to a given locale. For example, '$' for `en-US`.\n *\n * @param locale A locale code for the locale format rules to use.\n * @returns The localized symbol character,\n * or `null` if the main country cannot be determined.\n * @see [Internationalization (i18n) Guide](guide/i18n)\n *\n * @publicApi\n *\n * @deprecated Use the `Intl` API to format a currency with from currency code\n */\nfunction getLocaleCurrencySymbol(locale) {\n const data = ɵfindLocaleData(locale);\n return data[ɵLocaleDataIndex.CurrencySymbol] || null;\n}\n/**\n * Retrieves the name of the currency for the main country corresponding\n * to a given locale. For example, 'US Dollar' for `en-US`.\n * @param locale A locale code for the locale format rules to use.\n * @returns The currency name,\n * or `null` if the main country cannot be determined.\n * @see [Internationalization (i18n) Guide](guide/i18n)\n *\n * @publicApi\n *\n * @deprecated Use the `Intl` API to format a currency with from currency code\n */\nfunction getLocaleCurrencyName(locale) {\n const data = ɵfindLocaleData(locale);\n return data[ɵLocaleDataIndex.CurrencyName] || null;\n}\n/**\n * Retrieves the default currency code for the given locale.\n *\n * The default is defined as the first currency which is still in use.\n *\n * @param locale The code of the locale whose currency code we want.\n * @returns The code of the default currency for the given locale.\n *\n * @publicApi\n *\n * @deprecated We recommend you create a map of locale to ISO 4217 currency codes.\n * Time relative currency data is provided by the CLDR project. See https://www.unicode.org/cldr/charts/44/supplemental/detailed_territory_currency_information.html\n */\nfunction getLocaleCurrencyCode(locale) {\n return ɵgetLocaleCurrencyCode(locale);\n}\n/**\n * Retrieves the currency values for a given locale.\n * @param locale A locale code for the locale format rules to use.\n * @returns The currency values.\n * @see [Internationalization (i18n) Guide](guide/i18n)\n */\nfunction getLocaleCurrencies(locale) {\n const data = ɵfindLocaleData(locale);\n return data[ɵLocaleDataIndex.Currencies];\n}\n/**\n * @publicApi\n *\n * @deprecated Angular recommends relying on the `Intl` API for i18n.\n * Use `Intl.PluralRules` instead\n */\nconst getLocalePluralCase = ɵgetLocalePluralCase;\nfunction checkFullData(data) {\n if (!data[ɵLocaleDataIndex.ExtraData]) {\n throw new Error(`Missing extra locale data for the locale \"${data[ɵLocaleDataIndex.LocaleId]}\". Use \"registerLocaleData\" to load new data. See the \"I18n guide\" on angular.io to know more.`);\n }\n}\n/**\n * Retrieves locale-specific rules used to determine which day period to use\n * when more than one period is defined for a locale.\n *\n * There is a rule for each defined day period. The\n * first rule is applied to the first day period and so on.\n * Fall back to AM/PM when no rules are available.\n *\n * A rule can specify a period as time range, or as a single time value.\n *\n * This functionality is only available when you have loaded the full locale data.\n * See the [\"I18n guide\"](guide/i18n/format-data-locale).\n *\n * @param locale A locale code for the locale format rules to use.\n * @returns The rules for the locale, a single time value or array of *from-time, to-time*,\n * or null if no periods are available.\n *\n * @see {@link getLocaleExtraDayPeriods}\n * @see [Internationalization (i18n) Guide](guide/i18n)\n *\n * @publicApi\n *\n * @deprecated Angular recommends relying on the `Intl` API for i18n.\n * Let `Intl.DateTimeFormat` determine the day period instead.\n */\nfunction getLocaleExtraDayPeriodRules(locale) {\n const data = ɵfindLocaleData(locale);\n checkFullData(data);\n const rules = data[ɵLocaleDataIndex.ExtraData][2 /* ɵExtraLocaleDataIndex.ExtraDayPeriodsRules */] || [];\n return rules.map((rule) => {\n if (typeof rule === 'string') {\n return extractTime(rule);\n }\n return [extractTime(rule[0]), extractTime(rule[1])];\n });\n}\n/**\n * Retrieves locale-specific day periods, which indicate roughly how a day is broken up\n * in different languages.\n * For example, for `en-US`, periods are morning, noon, afternoon, evening, and midnight.\n *\n * This functionality is only available when you have loaded the full locale data.\n * See the [\"I18n guide\"](guide/i18n/format-data-locale).\n *\n * @param locale A locale code for the locale format rules to use.\n * @param formStyle The required grammatical form.\n * @param width The required character width.\n * @returns The translated day-period strings.\n * @see {@link getLocaleExtraDayPeriodRules}\n * @see [Internationalization (i18n) Guide](guide/i18n)\n *\n * @publicApi\n *\n * @deprecated Angular recommends relying on the `Intl` API for i18n.\n * To extract a day period use `Intl.DateTimeFormat` with the `dayPeriod` option instead.\n */\nfunction getLocaleExtraDayPeriods(locale, formStyle, width) {\n const data = ɵfindLocaleData(locale);\n checkFullData(data);\n const dayPeriodsData = [\n data[ɵLocaleDataIndex.ExtraData][0 /* ɵExtraLocaleDataIndex.ExtraDayPeriodFormats */],\n data[ɵLocaleDataIndex.ExtraData][1 /* ɵExtraLocaleDataIndex.ExtraDayPeriodStandalone */],\n ];\n const dayPeriods = getLastDefinedValue(dayPeriodsData, formStyle) || [];\n return getLastDefinedValue(dayPeriods, width) || [];\n}\n/**\n * Retrieves the writing direction of a specified locale\n * @param locale A locale code for the locale format rules to use.\n * @publicApi\n * @returns 'rtl' or 'ltr'\n * @see [Internationalization (i18n) Guide](guide/i18n)\n *\n * @deprecated Angular recommends relying on the `Intl` API for i18n.\n * For dates and numbers, let `Intl.DateTimeFormat()` and `Intl.NumberFormat()` determine the writing direction.\n * The `Intl` alternative [`getTextInfo`](https://developer.mozilla.org/en-US/docs/Web/JavaScript/Reference/Global_Objects/Intl/Locale/getTextInfo).\n * has only partial support (Chromium M99 & Safari 17).\n * 3rd party alternatives like [`rtl-detect`](https://www.npmjs.com/package/rtl-detect) can work around this issue.\n */\nfunction getLocaleDirection(locale) {\n const data = ɵfindLocaleData(locale);\n return data[ɵLocaleDataIndex.Directionality];\n}\n/**\n * Retrieves the first value that is defined in an array, going backwards from an index position.\n *\n * To avoid repeating the same data (as when the \"format\" and \"standalone\" forms are the same)\n * add the first value to the locale data arrays, and add other values only if they are different.\n *\n * @param data The data array to retrieve from.\n * @param index A 0-based index into the array to start from.\n * @returns The value immediately before the given index position.\n * @see [Internationalization (i18n) Guide](guide/i18n)\n *\n */\nfunction getLastDefinedValue(data, index) {\n for (let i = index; i > -1; i--) {\n if (typeof data[i] !== 'undefined') {\n return data[i];\n }\n }\n throw new Error('Locale data API: locale data undefined');\n}\n/**\n * Extracts the hours and minutes from a string like \"15:45\"\n */\nfunction extractTime(time) {\n const [h, m] = time.split(':');\n return { hours: +h, minutes: +m };\n}\n/**\n * Retrieves the currency symbol for a given currency code.\n *\n * For example, for the default `en-US` locale, the code `USD` can\n * be represented by the narrow symbol `$` or the wide symbol `US$`.\n *\n * @param code The currency code.\n * @param format The format, `wide` or `narrow`.\n * @param locale A locale code for the locale format rules to use.\n *\n * @returns The symbol, or the currency code if no symbol is available.\n * @see [Internationalization (i18n) Guide](guide/i18n)\n *\n * @publicApi\n *\n * @deprecated Angular recommends relying on the `Intl` API for i18n.\n * You can use `Intl.NumberFormat().formatToParts()` to extract the currency symbol.\n * For example: `Intl.NumberFormat('en', {style:'currency', currency: 'USD'}).formatToParts().find(part => part.type === 'currency').value`\n * returns `$` for USD currency code in the `en` locale.\n * Note: `US$` is a currency symbol for the `en-ca` locale but not the `en-us` locale.\n */\nfunction getCurrencySymbol(code, format, locale = 'en') {\n const currency = getLocaleCurrencies(locale)[code] || CURRENCIES_EN[code] || [];\n const symbolNarrow = currency[1 /* ɵCurrencyIndex.SymbolNarrow */];\n if (format === 'narrow' && typeof symbolNarrow === 'string') {\n return symbolNarrow;\n }\n return currency[0 /* ɵCurrencyIndex.Symbol */] || code;\n}\n// Most currencies have cents, that's why the default is 2\nconst DEFAULT_NB_OF_CURRENCY_DIGITS = 2;\n/**\n * Reports the number of decimal digits for a given currency.\n * The value depends upon the presence of cents in that particular currency.\n *\n * @param code The currency code.\n * @returns The number of decimal digits, typically 0 or 2.\n * @see [Internationalization (i18n) Guide](guide/i18n)\n *\n * @publicApi\n *\n * @deprecated Angular recommends relying on the `Intl` API for i18n.\n * This function should not be used anymore. Let `Intl.NumberFormat` determine the number of digits to display for the currency\n */\nfunction getNumberOfCurrencyDigits(code) {\n let digits;\n const currency = CURRENCIES_EN[code];\n if (currency) {\n digits = currency[2 /* ɵCurrencyIndex.NbOfDigits */];\n }\n return typeof digits === 'number' ? digits : DEFAULT_NB_OF_CURRENCY_DIGITS;\n}\n\nconst ISO8601_DATE_REGEX = /^(\\d{4,})-?(\\d\\d)-?(\\d\\d)(?:T(\\d\\d)(?::?(\\d\\d)(?::?(\\d\\d)(?:\\.(\\d+))?)?)?(Z|([+-])(\\d\\d):?(\\d\\d))?)?$/;\n// 1 2 3 4 5 6 7 8 9 10 11\nconst NAMED_FORMATS = {};\nconst DATE_FORMATS_SPLIT = /((?:[^BEGHLMOSWYZabcdhmswyz']+)|(?:'(?:[^']|'')*')|(?:G{1,5}|y{1,4}|Y{1,4}|M{1,5}|L{1,5}|w{1,2}|W{1}|d{1,2}|E{1,6}|c{1,6}|a{1,5}|b{1,5}|B{1,5}|h{1,2}|H{1,2}|m{1,2}|s{1,2}|S{1,3}|z{1,4}|Z{1,5}|O{1,4}))([\\s\\S]*)/;\nvar ZoneWidth;\n(function (ZoneWidth) {\n ZoneWidth[ZoneWidth[\"Short\"] = 0] = \"Short\";\n ZoneWidth[ZoneWidth[\"ShortGMT\"] = 1] = \"ShortGMT\";\n ZoneWidth[ZoneWidth[\"Long\"] = 2] = \"Long\";\n ZoneWidth[ZoneWidth[\"Extended\"] = 3] = \"Extended\";\n})(ZoneWidth || (ZoneWidth = {}));\nvar DateType;\n(function (DateType) {\n DateType[DateType[\"FullYear\"] = 0] = \"FullYear\";\n DateType[DateType[\"Month\"] = 1] = \"Month\";\n DateType[DateType[\"Date\"] = 2] = \"Date\";\n DateType[DateType[\"Hours\"] = 3] = \"Hours\";\n DateType[DateType[\"Minutes\"] = 4] = \"Minutes\";\n DateType[DateType[\"Seconds\"] = 5] = \"Seconds\";\n DateType[DateType[\"FractionalSeconds\"] = 6] = \"FractionalSeconds\";\n DateType[DateType[\"Day\"] = 7] = \"Day\";\n})(DateType || (DateType = {}));\nvar TranslationType;\n(function (TranslationType) {\n TranslationType[TranslationType[\"DayPeriods\"] = 0] = \"DayPeriods\";\n TranslationType[TranslationType[\"Days\"] = 1] = \"Days\";\n TranslationType[TranslationType[\"Months\"] = 2] = \"Months\";\n TranslationType[TranslationType[\"Eras\"] = 3] = \"Eras\";\n})(TranslationType || (TranslationType = {}));\n/**\n * @ngModule CommonModule\n * @description\n *\n * Formats a date according to locale rules.\n *\n * @param value The date to format, as a Date, or a number (milliseconds since UTC epoch)\n * or an [ISO date-time string](https://www.w3.org/TR/NOTE-datetime).\n * @param format The date-time components to include. See `DatePipe` for details.\n * @param locale A locale code for the locale format rules to use.\n * @param timezone The time zone. A time zone offset from GMT (such as `'+0430'`).\n * If not specified, uses host system settings.\n *\n * @returns The formatted date string.\n *\n * @see {@link DatePipe}\n * @see [Internationalization (i18n) Guide](guide/i18n)\n *\n * @publicApi\n */\nfunction formatDate(value, format, locale, timezone) {\n let date = toDate(value);\n const namedFormat = getNamedFormat(locale, format);\n format = namedFormat || format;\n let parts = [];\n let match;\n while (format) {\n match = DATE_FORMATS_SPLIT.exec(format);\n if (match) {\n parts = parts.concat(match.slice(1));\n const part = parts.pop();\n if (!part) {\n break;\n }\n format = part;\n }\n else {\n parts.push(format);\n break;\n }\n }\n let dateTimezoneOffset = date.getTimezoneOffset();\n if (timezone) {\n dateTimezoneOffset = timezoneToOffset(timezone, dateTimezoneOffset);\n date = convertTimezoneToLocal(date, timezone, true);\n }\n let text = '';\n parts.forEach((value) => {\n const dateFormatter = getDateFormatter(value);\n text += dateFormatter\n ? dateFormatter(date, locale, dateTimezoneOffset)\n : value === \"''\"\n ? \"'\"\n : value.replace(/(^'|'$)/g, '').replace(/''/g, \"'\");\n });\n return text;\n}\n/**\n * Create a new Date object with the given date value, and the time set to midnight.\n *\n * We cannot use `new Date(year, month, date)` because it maps years between 0 and 99 to 1900-1999.\n * See: https://github.com/angular/angular/issues/40377\n *\n * Note that this function returns a Date object whose time is midnight in the current locale's\n * timezone. In the future we might want to change this to be midnight in UTC, but this would be a\n * considerable breaking change.\n */\nfunction createDate(year, month, date) {\n // The `newDate` is set to midnight (UTC) on January 1st 1970.\n // - In PST this will be December 31st 1969 at 4pm.\n // - In GMT this will be January 1st 1970 at 1am.\n // Note that they even have different years, dates and months!\n const newDate = new Date(0);\n // `setFullYear()` allows years like 0001 to be set correctly. This function does not\n // change the internal time of the date.\n // Consider calling `setFullYear(2019, 8, 20)` (September 20, 2019).\n // - In PST this will now be September 20, 2019 at 4pm\n // - In GMT this will now be September 20, 2019 at 1am\n newDate.setFullYear(year, month, date);\n // We want the final date to be at local midnight, so we reset the time.\n // - In PST this will now be September 20, 2019 at 12am\n // - In GMT this will now be September 20, 2019 at 12am\n newDate.setHours(0, 0, 0);\n return newDate;\n}\nfunction getNamedFormat(locale, format) {\n const localeId = getLocaleId(locale);\n NAMED_FORMATS[localeId] ??= {};\n if (NAMED_FORMATS[localeId][format]) {\n return NAMED_FORMATS[localeId][format];\n }\n let formatValue = '';\n switch (format) {\n case 'shortDate':\n formatValue = getLocaleDateFormat(locale, FormatWidth.Short);\n break;\n case 'mediumDate':\n formatValue = getLocaleDateFormat(locale, FormatWidth.Medium);\n break;\n case 'longDate':\n formatValue = getLocaleDateFormat(locale, FormatWidth.Long);\n break;\n case 'fullDate':\n formatValue = getLocaleDateFormat(locale, FormatWidth.Full);\n break;\n case 'shortTime':\n formatValue = getLocaleTimeFormat(locale, FormatWidth.Short);\n break;\n case 'mediumTime':\n formatValue = getLocaleTimeFormat(locale, FormatWidth.Medium);\n break;\n case 'longTime':\n formatValue = getLocaleTimeFormat(locale, FormatWidth.Long);\n break;\n case 'fullTime':\n formatValue = getLocaleTimeFormat(locale, FormatWidth.Full);\n break;\n case 'short':\n const shortTime = getNamedFormat(locale, 'shortTime');\n const shortDate = getNamedFormat(locale, 'shortDate');\n formatValue = formatDateTime(getLocaleDateTimeFormat(locale, FormatWidth.Short), [\n shortTime,\n shortDate,\n ]);\n break;\n case 'medium':\n const mediumTime = getNamedFormat(locale, 'mediumTime');\n const mediumDate = getNamedFormat(locale, 'mediumDate');\n formatValue = formatDateTime(getLocaleDateTimeFormat(locale, FormatWidth.Medium), [\n mediumTime,\n mediumDate,\n ]);\n break;\n case 'long':\n const longTime = getNamedFormat(locale, 'longTime');\n const longDate = getNamedFormat(locale, 'longDate');\n formatValue = formatDateTime(getLocaleDateTimeFormat(locale, FormatWidth.Long), [\n longTime,\n longDate,\n ]);\n break;\n case 'full':\n const fullTime = getNamedFormat(locale, 'fullTime');\n const fullDate = getNamedFormat(locale, 'fullDate');\n formatValue = formatDateTime(getLocaleDateTimeFormat(locale, FormatWidth.Full), [\n fullTime,\n fullDate,\n ]);\n break;\n }\n if (formatValue) {\n NAMED_FORMATS[localeId][format] = formatValue;\n }\n return formatValue;\n}\nfunction formatDateTime(str, opt_values) {\n if (opt_values) {\n str = str.replace(/\\{([^}]+)}/g, function (match, key) {\n return opt_values != null && key in opt_values ? opt_values[key] : match;\n });\n }\n return str;\n}\nfunction padNumber(num, digits, minusSign = '-', trim, negWrap) {\n let neg = '';\n if (num < 0 || (negWrap && num <= 0)) {\n if (negWrap) {\n num = -num + 1;\n }\n else {\n num = -num;\n neg = minusSign;\n }\n }\n let strNum = String(num);\n while (strNum.length < digits) {\n strNum = '0' + strNum;\n }\n if (trim) {\n strNum = strNum.slice(strNum.length - digits);\n }\n return neg + strNum;\n}\nfunction formatFractionalSeconds(milliseconds, digits) {\n const strMs = padNumber(milliseconds, 3);\n return strMs.substring(0, digits);\n}\n/**\n * Returns a date formatter that transforms a date into its locale digit representation\n */\nfunction dateGetter(name, size, offset = 0, trim = false, negWrap = false) {\n return function (date, locale) {\n let part = getDatePart(name, date);\n if (offset > 0 || part > -offset) {\n part += offset;\n }\n if (name === DateType.Hours) {\n if (part === 0 && offset === -12) {\n part = 12;\n }\n }\n else if (name === DateType.FractionalSeconds) {\n return formatFractionalSeconds(part, size);\n }\n const localeMinus = getLocaleNumberSymbol(locale, NumberSymbol.MinusSign);\n return padNumber(part, size, localeMinus, trim, negWrap);\n };\n}\nfunction getDatePart(part, date) {\n switch (part) {\n case DateType.FullYear:\n return date.getFullYear();\n case DateType.Month:\n return date.getMonth();\n case DateType.Date:\n return date.getDate();\n case DateType.Hours:\n return date.getHours();\n case DateType.Minutes:\n return date.getMinutes();\n case DateType.Seconds:\n return date.getSeconds();\n case DateType.FractionalSeconds:\n return date.getMilliseconds();\n case DateType.Day:\n return date.getDay();\n default:\n throw new Error(`Unknown DateType value \"${part}\".`);\n }\n}\n/**\n * Returns a date formatter that transforms a date into its locale string representation\n */\nfunction dateStrGetter(name, width, form = FormStyle.Format, extended = false) {\n return function (date, locale) {\n return getDateTranslation(date, locale, name, width, form, extended);\n };\n}\n/**\n * Returns the locale translation of a date for a given form, type and width\n */\nfunction getDateTranslation(date, locale, name, width, form, extended) {\n switch (name) {\n case TranslationType.Months:\n return getLocaleMonthNames(locale, form, width)[date.getMonth()];\n case TranslationType.Days:\n return getLocaleDayNames(locale, form, width)[date.getDay()];\n case TranslationType.DayPeriods:\n const currentHours = date.getHours();\n const currentMinutes = date.getMinutes();\n if (extended) {\n const rules = getLocaleExtraDayPeriodRules(locale);\n const dayPeriods = getLocaleExtraDayPeriods(locale, form, width);\n const index = rules.findIndex((rule) => {\n if (Array.isArray(rule)) {\n // morning, afternoon, evening, night\n const [from, to] = rule;\n const afterFrom = currentHours >= from.hours && currentMinutes >= from.minutes;\n const beforeTo = currentHours < to.hours || (currentHours === to.hours && currentMinutes < to.minutes);\n // We must account for normal rules that span a period during the day (e.g. 6am-9am)\n // where `from` is less (earlier) than `to`. But also rules that span midnight (e.g.\n // 10pm - 5am) where `from` is greater (later!) than `to`.\n //\n // In the first case the current time must be BOTH after `from` AND before `to`\n // (e.g. 8am is after 6am AND before 10am).\n //\n // In the second case the current time must be EITHER after `from` OR before `to`\n // (e.g. 4am is before 5am but not after 10pm; and 11pm is not before 5am but it is\n // after 10pm).\n if (from.hours < to.hours) {\n if (afterFrom && beforeTo) {\n return true;\n }\n }\n else if (afterFrom || beforeTo) {\n return true;\n }\n }\n else {\n // noon or midnight\n if (rule.hours === currentHours && rule.minutes === currentMinutes) {\n return true;\n }\n }\n return false;\n });\n if (index !== -1) {\n return dayPeriods[index];\n }\n }\n // if no rules for the day periods, we use am/pm by default\n return getLocaleDayPeriods(locale, form, width)[currentHours < 12 ? 0 : 1];\n case TranslationType.Eras:\n return getLocaleEraNames(locale, width)[date.getFullYear() <= 0 ? 0 : 1];\n default:\n // This default case is not needed by TypeScript compiler, as the switch is exhaustive.\n // However Closure Compiler does not understand that and reports an error in typed mode.\n // The `throw new Error` below works around the problem, and the unexpected: never variable\n // makes sure tsc still checks this code is unreachable.\n const unexpected = name;\n throw new Error(`unexpected translation type ${unexpected}`);\n }\n}\n/**\n * Returns a date formatter that transforms a date and an offset into a timezone with ISO8601 or\n * GMT format depending on the width (eg: short = +0430, short:GMT = GMT+4, long = GMT+04:30,\n * extended = +04:30)\n */\nfunction timeZoneGetter(width) {\n return function (date, locale, offset) {\n const zone = -1 * offset;\n const minusSign = getLocaleNumberSymbol(locale, NumberSymbol.MinusSign);\n const hours = zone > 0 ? Math.floor(zone / 60) : Math.ceil(zone / 60);\n switch (width) {\n case ZoneWidth.Short:\n return ((zone >= 0 ? '+' : '') +\n padNumber(hours, 2, minusSign) +\n padNumber(Math.abs(zone % 60), 2, minusSign));\n case ZoneWidth.ShortGMT:\n return 'GMT' + (zone >= 0 ? '+' : '') + padNumber(hours, 1, minusSign);\n case ZoneWidth.Long:\n return ('GMT' +\n (zone >= 0 ? '+' : '') +\n padNumber(hours, 2, minusSign) +\n ':' +\n padNumber(Math.abs(zone % 60), 2, minusSign));\n case ZoneWidth.Extended:\n if (offset === 0) {\n return 'Z';\n }\n else {\n return ((zone >= 0 ? '+' : '') +\n padNumber(hours, 2, minusSign) +\n ':' +\n padNumber(Math.abs(zone % 60), 2, minusSign));\n }\n default:\n throw new Error(`Unknown zone width \"${width}\"`);\n }\n };\n}\nconst JANUARY = 0;\nconst THURSDAY = 4;\nfunction getFirstThursdayOfYear(year) {\n const firstDayOfYear = createDate(year, JANUARY, 1).getDay();\n return createDate(year, 0, 1 + (firstDayOfYear <= THURSDAY ? THURSDAY : THURSDAY + 7) - firstDayOfYear);\n}\n/**\n * ISO Week starts on day 1 (Monday) and ends with day 0 (Sunday)\n */\nfunction getThursdayThisIsoWeek(datetime) {\n // getDay returns 0-6 range with sunday as 0.\n const currentDay = datetime.getDay();\n // On a Sunday, read the previous Thursday since ISO weeks start on Monday.\n const deltaToThursday = currentDay === 0 ? -3 : THURSDAY - currentDay;\n return createDate(datetime.getFullYear(), datetime.getMonth(), datetime.getDate() + deltaToThursday);\n}\nfunction weekGetter(size, monthBased = false) {\n return function (date, locale) {\n let result;\n if (monthBased) {\n const nbDaysBefore1stDayOfMonth = new Date(date.getFullYear(), date.getMonth(), 1).getDay() - 1;\n const today = date.getDate();\n result = 1 + Math.floor((today + nbDaysBefore1stDayOfMonth) / 7);\n }\n else {\n const thisThurs = getThursdayThisIsoWeek(date);\n // Some days of a year are part of next year according to ISO 8601.\n // Compute the firstThurs from the year of this week's Thursday\n const firstThurs = getFirstThursdayOfYear(thisThurs.getFullYear());\n const diff = thisThurs.getTime() - firstThurs.getTime();\n result = 1 + Math.round(diff / 6.048e8); // 6.048e8 ms per week\n }\n return padNumber(result, size, getLocaleNumberSymbol(locale, NumberSymbol.MinusSign));\n };\n}\n/**\n * Returns a date formatter that provides the week-numbering year for the input date.\n */\nfunction weekNumberingYearGetter(size, trim = false) {\n return function (date, locale) {\n const thisThurs = getThursdayThisIsoWeek(date);\n const weekNumberingYear = thisThurs.getFullYear();\n return padNumber(weekNumberingYear, size, getLocaleNumberSymbol(locale, NumberSymbol.MinusSign), trim);\n };\n}\nconst DATE_FORMATS = {};\n// Based on CLDR formats:\n// See complete list: http://www.unicode.org/reports/tr35/tr35-dates.html#Date_Field_Symbol_Table\n// See also explanations: http://cldr.unicode.org/translation/date-time\n// TODO(ocombe): support all missing cldr formats: U, Q, D, F, e, j, J, C, A, v, V, X, x\nfunction getDateFormatter(format) {\n if (DATE_FORMATS[format]) {\n return DATE_FORMATS[format];\n }\n let formatter;\n switch (format) {\n // Era name (AD/BC)\n case 'G':\n case 'GG':\n case 'GGG':\n formatter = dateStrGetter(TranslationType.Eras, TranslationWidth.Abbreviated);\n break;\n case 'GGGG':\n formatter = dateStrGetter(TranslationType.Eras, TranslationWidth.Wide);\n break;\n case 'GGGGG':\n formatter = dateStrGetter(TranslationType.Eras, TranslationWidth.Narrow);\n break;\n // 1 digit representation of the year, e.g. (AD 1 => 1, AD 199 => 199)\n case 'y':\n formatter = dateGetter(DateType.FullYear, 1, 0, false, true);\n break;\n // 2 digit representation of the year, padded (00-99). (e.g. AD 2001 => 01, AD 2010 => 10)\n case 'yy':\n formatter = dateGetter(DateType.FullYear, 2, 0, true, true);\n break;\n // 3 digit representation of the year, padded (000-999). (e.g. AD 2001 => 01, AD 2010 => 10)\n case 'yyy':\n formatter = dateGetter(DateType.FullYear, 3, 0, false, true);\n break;\n // 4 digit representation of the year (e.g. AD 1 => 0001, AD 2010 => 2010)\n case 'yyyy':\n formatter = dateGetter(DateType.FullYear, 4, 0, false, true);\n break;\n // 1 digit representation of the week-numbering year, e.g. (AD 1 => 1, AD 199 => 199)\n case 'Y':\n formatter = weekNumberingYearGetter(1);\n break;\n // 2 digit representation of the week-numbering year, padded (00-99). (e.g. AD 2001 => 01, AD\n // 2010 => 10)\n case 'YY':\n formatter = weekNumberingYearGetter(2, true);\n break;\n // 3 digit representation of the week-numbering year, padded (000-999). (e.g. AD 1 => 001, AD\n // 2010 => 2010)\n case 'YYY':\n formatter = weekNumberingYearGetter(3);\n break;\n // 4 digit representation of the week-numbering year (e.g. AD 1 => 0001, AD 2010 => 2010)\n case 'YYYY':\n formatter = weekNumberingYearGetter(4);\n break;\n // Month of the year (1-12), numeric\n case 'M':\n case 'L':\n formatter = dateGetter(DateType.Month, 1, 1);\n break;\n case 'MM':\n case 'LL':\n formatter = dateGetter(DateType.Month, 2, 1);\n break;\n // Month of the year (January, ...), string, format\n case 'MMM':\n formatter = dateStrGetter(TranslationType.Months, TranslationWidth.Abbreviated);\n break;\n case 'MMMM':\n formatter = dateStrGetter(TranslationType.Months, TranslationWidth.Wide);\n break;\n case 'MMMMM':\n formatter = dateStrGetter(TranslationType.Months, TranslationWidth.Narrow);\n break;\n // Month of the year (January, ...), string, standalone\n case 'LLL':\n formatter = dateStrGetter(TranslationType.Months, TranslationWidth.Abbreviated, FormStyle.Standalone);\n break;\n case 'LLLL':\n formatter = dateStrGetter(TranslationType.Months, TranslationWidth.Wide, FormStyle.Standalone);\n break;\n case 'LLLLL':\n formatter = dateStrGetter(TranslationType.Months, TranslationWidth.Narrow, FormStyle.Standalone);\n break;\n // Week of the year (1, ... 52)\n case 'w':\n formatter = weekGetter(1);\n break;\n case 'ww':\n formatter = weekGetter(2);\n break;\n // Week of the month (1, ...)\n case 'W':\n formatter = weekGetter(1, true);\n break;\n // Day of the month (1-31)\n case 'd':\n formatter = dateGetter(DateType.Date, 1);\n break;\n case 'dd':\n formatter = dateGetter(DateType.Date, 2);\n break;\n // Day of the Week StandAlone (1, 1, Mon, Monday, M, Mo)\n case 'c':\n case 'cc':\n formatter = dateGetter(DateType.Day, 1);\n break;\n case 'ccc':\n formatter = dateStrGetter(TranslationType.Days, TranslationWidth.Abbreviated, FormStyle.Standalone);\n break;\n case 'cccc':\n formatter = dateStrGetter(TranslationType.Days, TranslationWidth.Wide, FormStyle.Standalone);\n break;\n case 'ccccc':\n formatter = dateStrGetter(TranslationType.Days, TranslationWidth.Narrow, FormStyle.Standalone);\n break;\n case 'cccccc':\n formatter = dateStrGetter(TranslationType.Days, TranslationWidth.Short, FormStyle.Standalone);\n break;\n // Day of the Week\n case 'E':\n case 'EE':\n case 'EEE':\n formatter = dateStrGetter(TranslationType.Days, TranslationWidth.Abbreviated);\n break;\n case 'EEEE':\n formatter = dateStrGetter(TranslationType.Days, TranslationWidth.Wide);\n break;\n case 'EEEEE':\n formatter = dateStrGetter(TranslationType.Days, TranslationWidth.Narrow);\n break;\n case 'EEEEEE':\n formatter = dateStrGetter(TranslationType.Days, TranslationWidth.Short);\n break;\n // Generic period of the day (am-pm)\n case 'a':\n case 'aa':\n case 'aaa':\n formatter = dateStrGetter(TranslationType.DayPeriods, TranslationWidth.Abbreviated);\n break;\n case 'aaaa':\n formatter = dateStrGetter(TranslationType.DayPeriods, TranslationWidth.Wide);\n break;\n case 'aaaaa':\n formatter = dateStrGetter(TranslationType.DayPeriods, TranslationWidth.Narrow);\n break;\n // Extended period of the day (midnight, at night, ...), standalone\n case 'b':\n case 'bb':\n case 'bbb':\n formatter = dateStrGetter(TranslationType.DayPeriods, TranslationWidth.Abbreviated, FormStyle.Standalone, true);\n break;\n case 'bbbb':\n formatter = dateStrGetter(TranslationType.DayPeriods, TranslationWidth.Wide, FormStyle.Standalone, true);\n break;\n case 'bbbbb':\n formatter = dateStrGetter(TranslationType.DayPeriods, TranslationWidth.Narrow, FormStyle.Standalone, true);\n break;\n // Extended period of the day (midnight, night, ...), standalone\n case 'B':\n case 'BB':\n case 'BBB':\n formatter = dateStrGetter(TranslationType.DayPeriods, TranslationWidth.Abbreviated, FormStyle.Format, true);\n break;\n case 'BBBB':\n formatter = dateStrGetter(TranslationType.DayPeriods, TranslationWidth.Wide, FormStyle.Format, true);\n break;\n case 'BBBBB':\n formatter = dateStrGetter(TranslationType.DayPeriods, TranslationWidth.Narrow, FormStyle.Format, true);\n break;\n // Hour in AM/PM, (1-12)\n case 'h':\n formatter = dateGetter(DateType.Hours, 1, -12);\n break;\n case 'hh':\n formatter = dateGetter(DateType.Hours, 2, -12);\n break;\n // Hour of the day (0-23)\n case 'H':\n formatter = dateGetter(DateType.Hours, 1);\n break;\n // Hour in day, padded (00-23)\n case 'HH':\n formatter = dateGetter(DateType.Hours, 2);\n break;\n // Minute of the hour (0-59)\n case 'm':\n formatter = dateGetter(DateType.Minutes, 1);\n break;\n case 'mm':\n formatter = dateGetter(DateType.Minutes, 2);\n break;\n // Second of the minute (0-59)\n case 's':\n formatter = dateGetter(DateType.Seconds, 1);\n break;\n case 'ss':\n formatter = dateGetter(DateType.Seconds, 2);\n break;\n // Fractional second\n case 'S':\n formatter = dateGetter(DateType.FractionalSeconds, 1);\n break;\n case 'SS':\n formatter = dateGetter(DateType.FractionalSeconds, 2);\n break;\n case 'SSS':\n formatter = dateGetter(DateType.FractionalSeconds, 3);\n break;\n // Timezone ISO8601 short format (-0430)\n case 'Z':\n case 'ZZ':\n case 'ZZZ':\n formatter = timeZoneGetter(ZoneWidth.Short);\n break;\n // Timezone ISO8601 extended format (-04:30)\n case 'ZZZZZ':\n formatter = timeZoneGetter(ZoneWidth.Extended);\n break;\n // Timezone GMT short format (GMT+4)\n case 'O':\n case 'OO':\n case 'OOO':\n // Should be location, but fallback to format O instead because we don't have the data yet\n case 'z':\n case 'zz':\n case 'zzz':\n formatter = timeZoneGetter(ZoneWidth.ShortGMT);\n break;\n // Timezone GMT long format (GMT+0430)\n case 'OOOO':\n case 'ZZZZ':\n // Should be location, but fallback to format O instead because we don't have the data yet\n case 'zzzz':\n formatter = timeZoneGetter(ZoneWidth.Long);\n break;\n default:\n return null;\n }\n DATE_FORMATS[format] = formatter;\n return formatter;\n}\nfunction timezoneToOffset(timezone, fallback) {\n // Support: IE 11 only, Edge 13-15+\n // IE/Edge do not \"understand\" colon (`:`) in timezone\n timezone = timezone.replace(/:/g, '');\n const requestedTimezoneOffset = Date.parse('Jan 01, 1970 00:00:00 ' + timezone) / 60000;\n return isNaN(requestedTimezoneOffset) ? fallback : requestedTimezoneOffset;\n}\nfunction addDateMinutes(date, minutes) {\n date = new Date(date.getTime());\n date.setMinutes(date.getMinutes() + minutes);\n return date;\n}\nfunction convertTimezoneToLocal(date, timezone, reverse) {\n const reverseValue = reverse ? -1 : 1;\n const dateTimezoneOffset = date.getTimezoneOffset();\n const timezoneOffset = timezoneToOffset(timezone, dateTimezoneOffset);\n return addDateMinutes(date, reverseValue * (timezoneOffset - dateTimezoneOffset));\n}\n/**\n * Converts a value to date.\n *\n * Supported input formats:\n * - `Date`\n * - number: timestamp\n * - string: numeric (e.g. \"1234\"), ISO and date strings in a format supported by\n * [Date.parse()](https://developer.mozilla.org/en-US/docs/Web/JavaScript/Reference/Global_Objects/Date/parse).\n * Note: ISO strings without time return a date without timeoffset.\n *\n * Throws if unable to convert to a date.\n */\nfunction toDate(value) {\n if (isDate(value)) {\n return value;\n }\n if (typeof value === 'number' && !isNaN(value)) {\n return new Date(value);\n }\n if (typeof value === 'string') {\n value = value.trim();\n if (/^(\\d{4}(-\\d{1,2}(-\\d{1,2})?)?)$/.test(value)) {\n /* For ISO Strings without time the day, month and year must be extracted from the ISO String\n before Date creation to avoid time offset and errors in the new Date.\n If we only replace '-' with ',' in the ISO String (\"2015,01,01\"), and try to create a new\n date, some browsers (e.g. IE 9) will throw an invalid Date error.\n If we leave the '-' (\"2015-01-01\") and try to create a new Date(\"2015-01-01\") the timeoffset\n is applied.\n Note: ISO months are 0 for January, 1 for February, ... */\n const [y, m = 1, d = 1] = value.split('-').map((val) => +val);\n return createDate(y, m - 1, d);\n }\n const parsedNb = parseFloat(value);\n // any string that only contains numbers, like \"1234\" but not like \"1234hello\"\n if (!isNaN(value - parsedNb)) {\n return new Date(parsedNb);\n }\n let match;\n if ((match = value.match(ISO8601_DATE_REGEX))) {\n return isoStringToDate(match);\n }\n }\n const date = new Date(value);\n if (!isDate(date)) {\n throw new Error(`Unable to convert \"${value}\" into a date`);\n }\n return date;\n}\n/**\n * Converts a date in ISO8601 to a Date.\n * Used instead of `Date.parse` because of browser discrepancies.\n */\nfunction isoStringToDate(match) {\n const date = new Date(0);\n let tzHour = 0;\n let tzMin = 0;\n // match[8] means that the string contains \"Z\" (UTC) or a timezone like \"+01:00\" or \"+0100\"\n const dateSetter = match[8] ? date.setUTCFullYear : date.setFullYear;\n const timeSetter = match[8] ? date.setUTCHours : date.setHours;\n // if there is a timezone defined like \"+01:00\" or \"+0100\"\n if (match[9]) {\n tzHour = Number(match[9] + match[10]);\n tzMin = Number(match[9] + match[11]);\n }\n dateSetter.call(date, Number(match[1]), Number(match[2]) - 1, Number(match[3]));\n const h = Number(match[4] || 0) - tzHour;\n const m = Number(match[5] || 0) - tzMin;\n const s = Number(match[6] || 0);\n // The ECMAScript specification (https://www.ecma-international.org/ecma-262/5.1/#sec-15.9.1.11)\n // defines that `DateTime` milliseconds should always be rounded down, so that `999.9ms`\n // becomes `999ms`.\n const ms = Math.floor(parseFloat('0.' + (match[7] || 0)) * 1000);\n timeSetter.call(date, h, m, s, ms);\n return date;\n}\nfunction isDate(value) {\n return value instanceof Date && !isNaN(value.valueOf());\n}\n\nconst NUMBER_FORMAT_REGEXP = /^(\\d+)?\\.((\\d+)(-(\\d+))?)?$/;\nconst MAX_DIGITS = 22;\nconst DECIMAL_SEP = '.';\nconst ZERO_CHAR = '0';\nconst PATTERN_SEP = ';';\nconst GROUP_SEP = ',';\nconst DIGIT_CHAR = '#';\nconst CURRENCY_CHAR = '¤';\nconst PERCENT_CHAR = '%';\n/**\n * Transforms a number to a locale string based on a style and a format.\n */\nfunction formatNumberToLocaleString(value, pattern, locale, groupSymbol, decimalSymbol, digitsInfo, isPercent = false) {\n let formattedText = '';\n let isZero = false;\n if (!isFinite(value)) {\n formattedText = getLocaleNumberSymbol(locale, NumberSymbol.Infinity);\n }\n else {\n let parsedNumber = parseNumber(value);\n if (isPercent) {\n parsedNumber = toPercent(parsedNumber);\n }\n let minInt = pattern.minInt;\n let minFraction = pattern.minFrac;\n let maxFraction = pattern.maxFrac;\n if (digitsInfo) {\n const parts = digitsInfo.match(NUMBER_FORMAT_REGEXP);\n if (parts === null) {\n throw new Error(`${digitsInfo} is not a valid digit info`);\n }\n const minIntPart = parts[1];\n const minFractionPart = parts[3];\n const maxFractionPart = parts[5];\n if (minIntPart != null) {\n minInt = parseIntAutoRadix(minIntPart);\n }\n if (minFractionPart != null) {\n minFraction = parseIntAutoRadix(minFractionPart);\n }\n if (maxFractionPart != null) {\n maxFraction = parseIntAutoRadix(maxFractionPart);\n }\n else if (minFractionPart != null && minFraction > maxFraction) {\n maxFraction = minFraction;\n }\n }\n roundNumber(parsedNumber, minFraction, maxFraction);\n let digits = parsedNumber.digits;\n let integerLen = parsedNumber.integerLen;\n const exponent = parsedNumber.exponent;\n let decimals = [];\n isZero = digits.every((d) => !d);\n // pad zeros for small numbers\n for (; integerLen < minInt; integerLen++) {\n digits.unshift(0);\n }\n // pad zeros for small numbers\n for (; integerLen < 0; integerLen++) {\n digits.unshift(0);\n }\n // extract decimals digits\n if (integerLen > 0) {\n decimals = digits.splice(integerLen, digits.length);\n }\n else {\n decimals = digits;\n digits = [0];\n }\n // format the integer digits with grouping separators\n const groups = [];\n if (digits.length >= pattern.lgSize) {\n groups.unshift(digits.splice(-pattern.lgSize, digits.length).join(''));\n }\n while (digits.length > pattern.gSize) {\n groups.unshift(digits.splice(-pattern.gSize, digits.length).join(''));\n }\n if (digits.length) {\n groups.unshift(digits.join(''));\n }\n formattedText = groups.join(getLocaleNumberSymbol(locale, groupSymbol));\n // append the decimal digits\n if (decimals.length) {\n formattedText += getLocaleNumberSymbol(locale, decimalSymbol) + decimals.join('');\n }\n if (exponent) {\n formattedText += getLocaleNumberSymbol(locale, NumberSymbol.Exponential) + '+' + exponent;\n }\n }\n if (value < 0 && !isZero) {\n formattedText = pattern.negPre + formattedText + pattern.negSuf;\n }\n else {\n formattedText = pattern.posPre + formattedText + pattern.posSuf;\n }\n return formattedText;\n}\n/**\n * @ngModule CommonModule\n * @description\n *\n * Formats a number as currency using locale rules.\n *\n * @param value The number to format.\n * @param locale A locale code for the locale format rules to use.\n * @param currency A string containing the currency symbol or its name,\n * such as \"$\" or \"Canadian Dollar\". Used in output string, but does not affect the operation\n * of the function.\n * @param currencyCode The [ISO 4217](https://en.wikipedia.org/wiki/ISO_4217)\n * currency code, such as `USD` for the US dollar and `EUR` for the euro.\n * Used to determine the number of digits in the decimal part.\n * @param digitsInfo Decimal representation options, specified by a string in the following format:\n * `{minIntegerDigits}.{minFractionDigits}-{maxFractionDigits}`. See `DecimalPipe` for more details.\n *\n * @returns The formatted currency value.\n *\n * @see {@link formatNumber}\n * @see {@link DecimalPipe}\n * @see [Internationalization (i18n) Guide](guide/i18n)\n *\n * @publicApi\n */\nfunction formatCurrency(value, locale, currency, currencyCode, digitsInfo) {\n const format = getLocaleNumberFormat(locale, NumberFormatStyle.Currency);\n const pattern = parseNumberFormat(format, getLocaleNumberSymbol(locale, NumberSymbol.MinusSign));\n pattern.minFrac = getNumberOfCurrencyDigits(currencyCode);\n pattern.maxFrac = pattern.minFrac;\n const res = formatNumberToLocaleString(value, pattern, locale, NumberSymbol.CurrencyGroup, NumberSymbol.CurrencyDecimal, digitsInfo);\n return (res\n .replace(CURRENCY_CHAR, currency)\n // if we have 2 time the currency character, the second one is ignored\n .replace(CURRENCY_CHAR, '')\n // If there is a spacing between currency character and the value and\n // the currency character is suppressed by passing an empty string, the\n // spacing character would remain as part of the string. Then we\n // should remove it.\n .trim());\n}\n/**\n * @ngModule CommonModule\n * @description\n *\n * Formats a number as a percentage according to locale rules.\n *\n * @param value The number to format.\n * @param locale A locale code for the locale format rules to use.\n * @param digitsInfo Decimal representation options, specified by a string in the following format:\n * `{minIntegerDigits}.{minFractionDigits}-{maxFractionDigits}`. See `DecimalPipe` for more details.\n *\n * @returns The formatted percentage value.\n *\n * @see {@link formatNumber}\n * @see {@link DecimalPipe}\n * @see [Internationalization (i18n) Guide](guide/i18n)\n * @publicApi\n *\n */\nfunction formatPercent(value, locale, digitsInfo) {\n const format = getLocaleNumberFormat(locale, NumberFormatStyle.Percent);\n const pattern = parseNumberFormat(format, getLocaleNumberSymbol(locale, NumberSymbol.MinusSign));\n const res = formatNumberToLocaleString(value, pattern, locale, NumberSymbol.Group, NumberSymbol.Decimal, digitsInfo, true);\n return res.replace(new RegExp(PERCENT_CHAR, 'g'), getLocaleNumberSymbol(locale, NumberSymbol.PercentSign));\n}\n/**\n * @ngModule CommonModule\n * @description\n *\n * Formats a number as text, with group sizing, separator, and other\n * parameters based on the locale.\n *\n * @param value The number to format.\n * @param locale A locale code for the locale format rules to use.\n * @param digitsInfo Decimal representation options, specified by a string in the following format:\n * `{minIntegerDigits}.{minFractionDigits}-{maxFractionDigits}`. See `DecimalPipe` for more details.\n *\n * @returns The formatted text string.\n * @see [Internationalization (i18n) Guide](guide/i18n)\n *\n * @publicApi\n */\nfunction formatNumber(value, locale, digitsInfo) {\n const format = getLocaleNumberFormat(locale, NumberFormatStyle.Decimal);\n const pattern = parseNumberFormat(format, getLocaleNumberSymbol(locale, NumberSymbol.MinusSign));\n return formatNumberToLocaleString(value, pattern, locale, NumberSymbol.Group, NumberSymbol.Decimal, digitsInfo);\n}\nfunction parseNumberFormat(format, minusSign = '-') {\n const p = {\n minInt: 1,\n minFrac: 0,\n maxFrac: 0,\n posPre: '',\n posSuf: '',\n negPre: '',\n negSuf: '',\n gSize: 0,\n lgSize: 0,\n };\n const patternParts = format.split(PATTERN_SEP);\n const positive = patternParts[0];\n const negative = patternParts[1];\n const positiveParts = positive.indexOf(DECIMAL_SEP) !== -1\n ? positive.split(DECIMAL_SEP)\n : [\n positive.substring(0, positive.lastIndexOf(ZERO_CHAR) + 1),\n positive.substring(positive.lastIndexOf(ZERO_CHAR) + 1),\n ], integer = positiveParts[0], fraction = positiveParts[1] || '';\n p.posPre = integer.substring(0, integer.indexOf(DIGIT_CHAR));\n for (let i = 0; i < fraction.length; i++) {\n const ch = fraction.charAt(i);\n if (ch === ZERO_CHAR) {\n p.minFrac = p.maxFrac = i + 1;\n }\n else if (ch === DIGIT_CHAR) {\n p.maxFrac = i + 1;\n }\n else {\n p.posSuf += ch;\n }\n }\n const groups = integer.split(GROUP_SEP);\n p.gSize = groups[1] ? groups[1].length : 0;\n p.lgSize = groups[2] || groups[1] ? (groups[2] || groups[1]).length : 0;\n if (negative) {\n const trunkLen = positive.length - p.posPre.length - p.posSuf.length, pos = negative.indexOf(DIGIT_CHAR);\n p.negPre = negative.substring(0, pos).replace(/'/g, '');\n p.negSuf = negative.slice(pos + trunkLen).replace(/'/g, '');\n }\n else {\n p.negPre = minusSign + p.posPre;\n p.negSuf = p.posSuf;\n }\n return p;\n}\n// Transforms a parsed number into a percentage by multiplying it by 100\nfunction toPercent(parsedNumber) {\n // if the number is 0, don't do anything\n if (parsedNumber.digits[0] === 0) {\n return parsedNumber;\n }\n // Getting the current number of decimals\n const fractionLen = parsedNumber.digits.length - parsedNumber.integerLen;\n if (parsedNumber.exponent) {\n parsedNumber.exponent += 2;\n }\n else {\n if (fractionLen === 0) {\n parsedNumber.digits.push(0, 0);\n }\n else if (fractionLen === 1) {\n parsedNumber.digits.push(0);\n }\n parsedNumber.integerLen += 2;\n }\n return parsedNumber;\n}\n/**\n * Parses a number.\n * Significant bits of this parse algorithm came from https://github.com/MikeMcl/big.js/\n */\nfunction parseNumber(num) {\n let numStr = Math.abs(num) + '';\n let exponent = 0, digits, integerLen;\n let i, j, zeros;\n // Decimal point?\n if ((integerLen = numStr.indexOf(DECIMAL_SEP)) > -1) {\n numStr = numStr.replace(DECIMAL_SEP, '');\n }\n // Exponential form?\n if ((i = numStr.search(/e/i)) > 0) {\n // Work out the exponent.\n if (integerLen < 0)\n integerLen = i;\n integerLen += +numStr.slice(i + 1);\n numStr = numStr.substring(0, i);\n }\n else if (integerLen < 0) {\n // There was no decimal point or exponent so it is an integer.\n integerLen = numStr.length;\n }\n // Count the number of leading zeros.\n for (i = 0; numStr.charAt(i) === ZERO_CHAR; i++) {\n /* empty */\n }\n if (i === (zeros = numStr.length)) {\n // The digits are all zero.\n digits = [0];\n integerLen = 1;\n }\n else {\n // Count the number of trailing zeros\n zeros--;\n while (numStr.charAt(zeros) === ZERO_CHAR)\n zeros--;\n // Trailing zeros are insignificant so ignore them\n integerLen -= i;\n digits = [];\n // Convert string to array of digits without leading/trailing zeros.\n for (j = 0; i <= zeros; i++, j++) {\n digits[j] = Number(numStr.charAt(i));\n }\n }\n // If the number overflows the maximum allowed digits then use an exponent.\n if (integerLen > MAX_DIGITS) {\n digits = digits.splice(0, MAX_DIGITS - 1);\n exponent = integerLen - 1;\n integerLen = 1;\n }\n return { digits, exponent, integerLen };\n}\n/**\n * Round the parsed number to the specified number of decimal places\n * This function changes the parsedNumber in-place\n */\nfunction roundNumber(parsedNumber, minFrac, maxFrac) {\n if (minFrac > maxFrac) {\n throw new Error(`The minimum number of digits after fraction (${minFrac}) is higher than the maximum (${maxFrac}).`);\n }\n let digits = parsedNumber.digits;\n let fractionLen = digits.length - parsedNumber.integerLen;\n const fractionSize = Math.min(Math.max(minFrac, fractionLen), maxFrac);\n // The index of the digit to where rounding is to occur\n let roundAt = fractionSize + parsedNumber.integerLen;\n let digit = digits[roundAt];\n if (roundAt > 0) {\n // Drop fractional digits beyond `roundAt`\n digits.splice(Math.max(parsedNumber.integerLen, roundAt));\n // Set non-fractional digits beyond `roundAt` to 0\n for (let j = roundAt; j < digits.length; j++) {\n digits[j] = 0;\n }\n }\n else {\n // We rounded to zero so reset the parsedNumber\n fractionLen = Math.max(0, fractionLen);\n parsedNumber.integerLen = 1;\n digits.length = Math.max(1, (roundAt = fractionSize + 1));\n digits[0] = 0;\n for (let i = 1; i < roundAt; i++)\n digits[i] = 0;\n }\n if (digit >= 5) {\n if (roundAt - 1 < 0) {\n for (let k = 0; k > roundAt; k--) {\n digits.unshift(0);\n parsedNumber.integerLen++;\n }\n digits.unshift(1);\n parsedNumber.integerLen++;\n }\n else {\n digits[roundAt - 1]++;\n }\n }\n // Pad out with zeros to get the required fraction length\n for (; fractionLen < Math.max(0, fractionSize); fractionLen++)\n digits.push(0);\n let dropTrailingZeros = fractionSize !== 0;\n // Minimal length = nb of decimals required + current nb of integers\n // Any number besides that is optional and can be removed if it's a trailing 0\n const minLen = minFrac + parsedNumber.integerLen;\n // Do any carrying, e.g. a digit was rounded up to 10\n const carry = digits.reduceRight(function (carry, d, i, digits) {\n d = d + carry;\n digits[i] = d < 10 ? d : d - 10; // d % 10\n if (dropTrailingZeros) {\n // Do not keep meaningless fractional trailing zeros (e.g. 15.52000 --> 15.52)\n if (digits[i] === 0 && i >= minLen) {\n digits.pop();\n }\n else {\n dropTrailingZeros = false;\n }\n }\n return d >= 10 ? 1 : 0; // Math.floor(d / 10);\n }, 0);\n if (carry) {\n digits.unshift(carry);\n parsedNumber.integerLen++;\n }\n}\nfunction parseIntAutoRadix(text) {\n const result = parseInt(text);\n if (isNaN(result)) {\n throw new Error('Invalid integer literal when parsing ' + text);\n }\n return result;\n}\n\n/**\n * @publicApi\n */\nclass NgLocalization {\n static { this.ɵfac = i0.ɵɵngDeclareFactory({ minVersion: \"12.0.0\", version: \"18.2.1\", ngImport: i0, type: NgLocalization, deps: [], target: i0.ɵɵFactoryTarget.Injectable }); }\n static { this.ɵprov = i0.ɵɵngDeclareInjectable({ minVersion: \"12.0.0\", version: \"18.2.1\", ngImport: i0, type: NgLocalization, providedIn: 'root', useFactory: (locale) => new NgLocaleLocalization(locale), deps: [{ token: LOCALE_ID }] }); }\n}\ni0.ɵɵngDeclareClassMetadata({ minVersion: \"12.0.0\", version: \"18.2.1\", ngImport: i0, type: NgLocalization, decorators: [{\n type: Injectable,\n args: [{\n providedIn: 'root',\n useFactory: (locale) => new NgLocaleLocalization(locale),\n deps: [LOCALE_ID],\n }]\n }] });\n/**\n * Returns the plural category for a given value.\n * - \"=value\" when the case exists,\n * - the plural category otherwise\n */\nfunction getPluralCategory(value, cases, ngLocalization, locale) {\n let key = `=${value}`;\n if (cases.indexOf(key) > -1) {\n return key;\n }\n key = ngLocalization.getPluralCategory(value, locale);\n if (cases.indexOf(key) > -1) {\n return key;\n }\n if (cases.indexOf('other') > -1) {\n return 'other';\n }\n throw new Error(`No plural message found for value \"${value}\"`);\n}\n/**\n * Returns the plural case based on the locale\n *\n * @publicApi\n */\nclass NgLocaleLocalization extends NgLocalization {\n constructor(locale) {\n super();\n this.locale = locale;\n }\n getPluralCategory(value, locale) {\n const plural = getLocalePluralCase(locale || this.locale)(value);\n switch (plural) {\n case Plural.Zero:\n return 'zero';\n case Plural.One:\n return 'one';\n case Plural.Two:\n return 'two';\n case Plural.Few:\n return 'few';\n case Plural.Many:\n return 'many';\n default:\n return 'other';\n }\n }\n static { this.ɵfac = i0.ɵɵngDeclareFactory({ minVersion: \"12.0.0\", version: \"18.2.1\", ngImport: i0, type: NgLocaleLocalization, deps: [{ token: LOCALE_ID }], target: i0.ɵɵFactoryTarget.Injectable }); }\n static { this.ɵprov = i0.ɵɵngDeclareInjectable({ minVersion: \"12.0.0\", version: \"18.2.1\", ngImport: i0, type: NgLocaleLocalization }); }\n}\ni0.ɵɵngDeclareClassMetadata({ minVersion: \"12.0.0\", version: \"18.2.1\", ngImport: i0, type: NgLocaleLocalization, decorators: [{\n type: Injectable\n }], ctorParameters: () => [{ type: undefined, decorators: [{\n type: Inject,\n args: [LOCALE_ID]\n }] }] });\n\n/**\n * Register global data to be used internally by Angular. See the\n * [\"I18n guide\"](guide/i18n/format-data-locale) to know how to import additional locale\n * data.\n *\n * The signature registerLocaleData(data: any, extraData?: any) is deprecated since v5.1\n *\n * @publicApi\n */\nfunction registerLocaleData(data, localeId, extraData) {\n return ɵregisterLocaleData(data, localeId, extraData);\n}\n\nfunction parseCookieValue(cookieStr, name) {\n name = encodeURIComponent(name);\n for (const cookie of cookieStr.split(';')) {\n const eqIndex = cookie.indexOf('=');\n const [cookieName, cookieValue] = eqIndex == -1 ? [cookie, ''] : [cookie.slice(0, eqIndex), cookie.slice(eqIndex + 1)];\n if (cookieName.trim() === name) {\n return decodeURIComponent(cookieValue);\n }\n }\n return null;\n}\n\nconst WS_REGEXP = /\\s+/;\nconst EMPTY_ARRAY = [];\n/**\n * @ngModule CommonModule\n *\n * @usageNotes\n * ```\n * ...\n *\n * ...\n *\n * ...\n *\n * ...\n *\n * ...\n * ```\n *\n * @description\n *\n * Adds and removes CSS classes on an HTML element.\n *\n * The CSS classes are updated as follows, depending on the type of the expression evaluation:\n * - `string` - the CSS classes listed in the string (space delimited) are added,\n * - `Array` - the CSS classes declared as Array elements are added,\n * - `Object` - keys are CSS classes that get added when the expression given in the value\n * evaluates to a truthy value, otherwise they are removed.\n *\n * @publicApi\n */\nclass NgClass {\n constructor(_ngEl, _renderer) {\n this._ngEl = _ngEl;\n this._renderer = _renderer;\n this.initialClasses = EMPTY_ARRAY;\n this.stateMap = new Map();\n }\n set klass(value) {\n this.initialClasses = value != null ? value.trim().split(WS_REGEXP) : EMPTY_ARRAY;\n }\n set ngClass(value) {\n this.rawClass = typeof value === 'string' ? value.trim().split(WS_REGEXP) : value;\n }\n /*\n The NgClass directive uses the custom change detection algorithm for its inputs. The custom\n algorithm is necessary since inputs are represented as complex object or arrays that need to be\n deeply-compared.\n \n This algorithm is perf-sensitive since NgClass is used very frequently and its poor performance\n might negatively impact runtime performance of the entire change detection cycle. The design of\n this algorithm is making sure that:\n - there is no unnecessary DOM manipulation (CSS classes are added / removed from the DOM only when\n needed), even if references to bound objects change;\n - there is no memory allocation if nothing changes (even relatively modest memory allocation\n during the change detection cycle can result in GC pauses for some of the CD cycles).\n \n The algorithm works by iterating over the set of bound classes, staring with [class] binding and\n then going over [ngClass] binding. For each CSS class name:\n - check if it was seen before (this information is tracked in the state map) and if its value\n changed;\n - mark it as \"touched\" - names that are not marked are not present in the latest set of binding\n and we can remove such class name from the internal data structures;\n \n After iteration over all the CSS class names we've got data structure with all the information\n necessary to synchronize changes to the DOM - it is enough to iterate over the state map, flush\n changes to the DOM and reset internal data structures so those are ready for the next change\n detection cycle.\n */\n ngDoCheck() {\n // classes from the [class] binding\n for (const klass of this.initialClasses) {\n this._updateState(klass, true);\n }\n // classes from the [ngClass] binding\n const rawClass = this.rawClass;\n if (Array.isArray(rawClass) || rawClass instanceof Set) {\n for (const klass of rawClass) {\n this._updateState(klass, true);\n }\n }\n else if (rawClass != null) {\n for (const klass of Object.keys(rawClass)) {\n this._updateState(klass, Boolean(rawClass[klass]));\n }\n }\n this._applyStateDiff();\n }\n _updateState(klass, nextEnabled) {\n const state = this.stateMap.get(klass);\n if (state !== undefined) {\n if (state.enabled !== nextEnabled) {\n state.changed = true;\n state.enabled = nextEnabled;\n }\n state.touched = true;\n }\n else {\n this.stateMap.set(klass, { enabled: nextEnabled, changed: true, touched: true });\n }\n }\n _applyStateDiff() {\n for (const stateEntry of this.stateMap) {\n const klass = stateEntry[0];\n const state = stateEntry[1];\n if (state.changed) {\n this._toggleClass(klass, state.enabled);\n state.changed = false;\n }\n else if (!state.touched) {\n // A class that was previously active got removed from the new collection of classes -\n // remove from the DOM as well.\n if (state.enabled) {\n this._toggleClass(klass, false);\n }\n this.stateMap.delete(klass);\n }\n state.touched = false;\n }\n }\n _toggleClass(klass, enabled) {\n if (ngDevMode) {\n if (typeof klass !== 'string') {\n throw new Error(`NgClass can only toggle CSS classes expressed as strings, got ${ɵstringify(klass)}`);\n }\n }\n klass = klass.trim();\n if (klass.length > 0) {\n klass.split(WS_REGEXP).forEach((klass) => {\n if (enabled) {\n this._renderer.addClass(this._ngEl.nativeElement, klass);\n }\n else {\n this._renderer.removeClass(this._ngEl.nativeElement, klass);\n }\n });\n }\n }\n static { this.ɵfac = i0.ɵɵngDeclareFactory({ minVersion: \"12.0.0\", version: \"18.2.1\", ngImport: i0, type: NgClass, deps: [{ token: i0.ElementRef }, { token: i0.Renderer2 }], target: i0.ɵɵFactoryTarget.Directive }); }\n static { this.ɵdir = i0.ɵɵngDeclareDirective({ minVersion: \"14.0.0\", version: \"18.2.1\", type: NgClass, isStandalone: true, selector: \"[ngClass]\", inputs: { klass: [\"class\", \"klass\"], ngClass: \"ngClass\" }, ngImport: i0 }); }\n}\ni0.ɵɵngDeclareClassMetadata({ minVersion: \"12.0.0\", version: \"18.2.1\", ngImport: i0, type: NgClass, decorators: [{\n type: Directive,\n args: [{\n selector: '[ngClass]',\n standalone: true,\n }]\n }], ctorParameters: () => [{ type: i0.ElementRef }, { type: i0.Renderer2 }], propDecorators: { klass: [{\n type: Input,\n args: ['class']\n }], ngClass: [{\n type: Input,\n args: ['ngClass']\n }] } });\n\n/**\n * Instantiates a {@link Component} type and inserts its Host View into the current View.\n * `NgComponentOutlet` provides a declarative approach for dynamic component creation.\n *\n * `NgComponentOutlet` requires a component type, if a falsy value is set the view will clear and\n * any existing component will be destroyed.\n *\n * @usageNotes\n *\n * ### Fine tune control\n *\n * You can control the component creation process by using the following optional attributes:\n *\n * * `ngComponentOutletInputs`: Optional component inputs object, which will be bind to the\n * component.\n *\n * * `ngComponentOutletInjector`: Optional custom {@link Injector} that will be used as parent for\n * the Component. Defaults to the injector of the current view container.\n *\n * * `ngComponentOutletContent`: Optional list of projectable nodes to insert into the content\n * section of the component, if it exists.\n *\n * * `ngComponentOutletNgModule`: Optional NgModule class reference to allow loading another\n * module dynamically, then loading a component from that module.\n *\n * * `ngComponentOutletNgModuleFactory`: Deprecated config option that allows providing optional\n * NgModule factory to allow loading another module dynamically, then loading a component from that\n * module. Use `ngComponentOutletNgModule` instead.\n *\n * ### Syntax\n *\n * Simple\n * ```\n * \n * ```\n *\n * With inputs\n * ```\n * \n * \n * ```\n *\n * Customized injector/content\n * ```\n * \n * \n * ```\n *\n * Customized NgModule reference\n * ```\n * \n * \n * ```\n *\n * ### A simple example\n *\n * {@example common/ngComponentOutlet/ts/module.ts region='SimpleExample'}\n *\n * A more complete example with additional options:\n *\n * {@example common/ngComponentOutlet/ts/module.ts region='CompleteExample'}\n *\n * @publicApi\n * @ngModule CommonModule\n */\nclass NgComponentOutlet {\n constructor(_viewContainerRef) {\n this._viewContainerRef = _viewContainerRef;\n this.ngComponentOutlet = null;\n /**\n * A helper data structure that allows us to track inputs that were part of the\n * ngComponentOutletInputs expression. Tracking inputs is necessary for proper removal of ones\n * that are no longer referenced.\n */\n this._inputsUsed = new Map();\n }\n _needToReCreateNgModuleInstance(changes) {\n // Note: square brackets property accessor is safe for Closure compiler optimizations (the\n // `changes` argument of the `ngOnChanges` lifecycle hook retains the names of the fields that\n // were changed).\n return (changes['ngComponentOutletNgModule'] !== undefined ||\n changes['ngComponentOutletNgModuleFactory'] !== undefined);\n }\n _needToReCreateComponentInstance(changes) {\n // Note: square brackets property accessor is safe for Closure compiler optimizations (the\n // `changes` argument of the `ngOnChanges` lifecycle hook retains the names of the fields that\n // were changed).\n return (changes['ngComponentOutlet'] !== undefined ||\n changes['ngComponentOutletContent'] !== undefined ||\n changes['ngComponentOutletInjector'] !== undefined ||\n this._needToReCreateNgModuleInstance(changes));\n }\n /** @nodoc */\n ngOnChanges(changes) {\n if (this._needToReCreateComponentInstance(changes)) {\n this._viewContainerRef.clear();\n this._inputsUsed.clear();\n this._componentRef = undefined;\n if (this.ngComponentOutlet) {\n const injector = this.ngComponentOutletInjector || this._viewContainerRef.parentInjector;\n if (this._needToReCreateNgModuleInstance(changes)) {\n this._moduleRef?.destroy();\n if (this.ngComponentOutletNgModule) {\n this._moduleRef = createNgModule(this.ngComponentOutletNgModule, getParentInjector(injector));\n }\n else if (this.ngComponentOutletNgModuleFactory) {\n this._moduleRef = this.ngComponentOutletNgModuleFactory.create(getParentInjector(injector));\n }\n else {\n this._moduleRef = undefined;\n }\n }\n this._componentRef = this._viewContainerRef.createComponent(this.ngComponentOutlet, {\n injector,\n ngModuleRef: this._moduleRef,\n projectableNodes: this.ngComponentOutletContent,\n });\n }\n }\n }\n /** @nodoc */\n ngDoCheck() {\n if (this._componentRef) {\n if (this.ngComponentOutletInputs) {\n for (const inputName of Object.keys(this.ngComponentOutletInputs)) {\n this._inputsUsed.set(inputName, true);\n }\n }\n this._applyInputStateDiff(this._componentRef);\n }\n }\n /** @nodoc */\n ngOnDestroy() {\n this._moduleRef?.destroy();\n }\n _applyInputStateDiff(componentRef) {\n for (const [inputName, touched] of this._inputsUsed) {\n if (!touched) {\n // The input that was previously active no longer exists and needs to be set to undefined.\n componentRef.setInput(inputName, undefined);\n this._inputsUsed.delete(inputName);\n }\n else {\n // Since touched is true, it can be asserted that the inputs object is not empty.\n componentRef.setInput(inputName, this.ngComponentOutletInputs[inputName]);\n this._inputsUsed.set(inputName, false);\n }\n }\n }\n static { this.ɵfac = i0.ɵɵngDeclareFactory({ minVersion: \"12.0.0\", version: \"18.2.1\", ngImport: i0, type: NgComponentOutlet, deps: [{ token: i0.ViewContainerRef }], target: i0.ɵɵFactoryTarget.Directive }); }\n static { this.ɵdir = i0.ɵɵngDeclareDirective({ minVersion: \"14.0.0\", version: \"18.2.1\", type: NgComponentOutlet, isStandalone: true, selector: \"[ngComponentOutlet]\", inputs: { ngComponentOutlet: \"ngComponentOutlet\", ngComponentOutletInputs: \"ngComponentOutletInputs\", ngComponentOutletInjector: \"ngComponentOutletInjector\", ngComponentOutletContent: \"ngComponentOutletContent\", ngComponentOutletNgModule: \"ngComponentOutletNgModule\", ngComponentOutletNgModuleFactory: \"ngComponentOutletNgModuleFactory\" }, usesOnChanges: true, ngImport: i0 }); }\n}\ni0.ɵɵngDeclareClassMetadata({ minVersion: \"12.0.0\", version: \"18.2.1\", ngImport: i0, type: NgComponentOutlet, decorators: [{\n type: Directive,\n args: [{\n selector: '[ngComponentOutlet]',\n standalone: true,\n }]\n }], ctorParameters: () => [{ type: i0.ViewContainerRef }], propDecorators: { ngComponentOutlet: [{\n type: Input\n }], ngComponentOutletInputs: [{\n type: Input\n }], ngComponentOutletInjector: [{\n type: Input\n }], ngComponentOutletContent: [{\n type: Input\n }], ngComponentOutletNgModule: [{\n type: Input\n }], ngComponentOutletNgModuleFactory: [{\n type: Input\n }] } });\n// Helper function that returns an Injector instance of a parent NgModule.\nfunction getParentInjector(injector) {\n const parentNgModule = injector.get(NgModuleRef);\n return parentNgModule.injector;\n}\n\n/**\n * @publicApi\n */\nclass NgForOfContext {\n constructor($implicit, ngForOf, index, count) {\n this.$implicit = $implicit;\n this.ngForOf = ngForOf;\n this.index = index;\n this.count = count;\n }\n get first() {\n return this.index === 0;\n }\n get last() {\n return this.index === this.count - 1;\n }\n get even() {\n return this.index % 2 === 0;\n }\n get odd() {\n return !this.even;\n }\n}\n/**\n * A [structural directive](guide/directives/structural-directives) that renders\n * a template for each item in a collection.\n * The directive is placed on an element, which becomes the parent\n * of the cloned templates.\n *\n * The `ngForOf` directive is generally used in the\n * [shorthand form](guide/directives/structural-directives#asterisk) `*ngFor`.\n * In this form, the template to be rendered for each iteration is the content\n * of an anchor element containing the directive.\n *\n * The following example shows the shorthand syntax with some options,\n * contained in an `
  • ` element.\n *\n * ```\n *
  • ...
    • \n * ```\n *\n * The shorthand form expands into a long form that uses the `ngForOf` selector\n * on an `` element.\n * The content of the `` element is the `
  • ` element that held the\n * short-form directive.\n *\n * Here is the expanded version of the short-form example.\n *\n * ```\n * \n *
  • ...
    • \n *     \n * ```\n *\n * Angular automatically expands the shorthand syntax as it compiles the template.\n * The context for each embedded view is logically merged to the current component\n * context according to its lexical position.\n *\n * When using the shorthand syntax, Angular allows only [one structural directive\n * on an element](guide/directives/structural-directives#one-per-element).\n * If you want to iterate conditionally, for example,\n * put the `*ngIf` on a container element that wraps the `*ngFor` element.\n * For further discussion, see\n * [Structural Directives](guide/directives/structural-directives#one-per-element).\n *\n * @usageNotes\n *\n * ### Local variables\n *\n * `NgForOf` provides exported values that can be aliased to local variables.\n * For example:\n *\n * ```\n *
  • \n * {{i}}/{{users.length}}. {{user}} default\n *
    • \n * ```\n *\n * The following exported values can be aliased to local variables:\n *\n * - `$implicit: T`: The value of the individual items in the iterable (`ngForOf`).\n * - `ngForOf: NgIterable`: The value of the iterable expression. Useful when the expression is\n * more complex then a property access, for example when using the async pipe (`userStreams |\n * async`).\n * - `index: number`: The index of the current item in the iterable.\n * - `count: number`: The length of the iterable.\n * - `first: boolean`: True when the item is the first item in the iterable.\n * - `last: boolean`: True when the item is the last item in the iterable.\n * - `even: boolean`: True when the item has an even index in the iterable.\n * - `odd: boolean`: True when the item has an odd index in the iterable.\n *\n * ### Change propagation\n *\n * When the contents of the iterator changes, `NgForOf` makes the corresponding changes to the DOM:\n *\n * * When an item is added, a new instance of the template is added to the DOM.\n * * When an item is removed, its template instance is removed from the DOM.\n * * When items are reordered, their respective templates are reordered in the DOM.\n *\n * Angular uses object identity to track insertions and deletions within the iterator and reproduce\n * those changes in the DOM. This has important implications for animations and any stateful\n * controls that are present, such as `` elements that accept user input. Inserted rows can\n * be animated in, deleted rows can be animated out, and unchanged rows retain any unsaved state\n * such as user input.\n * For more on animations, see [Transitions and Triggers](guide/animations/transition-and-triggers).\n *\n * The identities of elements in the iterator can change while the data does not.\n * This can happen, for example, if the iterator is produced from an RPC to the server, and that\n * RPC is re-run. Even if the data hasn't changed, the second response produces objects with\n * different identities, and Angular must tear down the entire DOM and rebuild it (as if all old\n * elements were deleted and all new elements inserted).\n *\n * To avoid this expensive operation, you can customize the default tracking algorithm.\n * by supplying the `trackBy` option to `NgForOf`.\n * `trackBy` takes a function that has two arguments: `index` and `item`.\n * If `trackBy` is given, Angular tracks changes by the return value of the function.\n *\n * @see [Structural Directives](guide/directives/structural-directives)\n * @ngModule CommonModule\n * @publicApi\n */\nclass NgForOf {\n /**\n * The value of the iterable expression, which can be used as a\n * [template input variable](guide/directives/structural-directives#shorthand).\n */\n set ngForOf(ngForOf) {\n this._ngForOf = ngForOf;\n this._ngForOfDirty = true;\n }\n /**\n * Specifies a custom `TrackByFunction` to compute the identity of items in an iterable.\n *\n * If a custom `TrackByFunction` is not provided, `NgForOf` will use the item's [object\n * identity](https://developer.mozilla.org/en-US/docs/Web/JavaScript/Reference/Global_Objects/Object/is)\n * as the key.\n *\n * `NgForOf` uses the computed key to associate items in an iterable with DOM elements\n * it produces for these items.\n *\n * A custom `TrackByFunction` is useful to provide good user experience in cases when items in an\n * iterable rendered using `NgForOf` have a natural identifier (for example, custom ID or a\n * primary key), and this iterable could be updated with new object instances that still\n * represent the same underlying entity (for example, when data is re-fetched from the server,\n * and the iterable is recreated and re-rendered, but most of the data is still the same).\n *\n * @see {@link TrackByFunction}\n */\n set ngForTrackBy(fn) {\n if ((typeof ngDevMode === 'undefined' || ngDevMode) && fn != null && typeof fn !== 'function') {\n console.warn(`trackBy must be a function, but received ${JSON.stringify(fn)}. ` +\n `See https://angular.io/api/common/NgForOf#change-propagation for more information.`);\n }\n this._trackByFn = fn;\n }\n get ngForTrackBy() {\n return this._trackByFn;\n }\n constructor(_viewContainer, _template, _differs) {\n this._viewContainer = _viewContainer;\n this._template = _template;\n this._differs = _differs;\n this._ngForOf = null;\n this._ngForOfDirty = true;\n this._differ = null;\n }\n /**\n * A reference to the template that is stamped out for each item in the iterable.\n * @see [template reference variable](guide/templates/reference-variables)\n */\n set ngForTemplate(value) {\n // TODO(TS2.1): make TemplateRef>> once we move to TS v2.1\n // The current type is too restrictive; a template that just uses index, for example,\n // should be acceptable.\n if (value) {\n this._template = value;\n }\n }\n /**\n * Applies the changes when needed.\n * @nodoc\n */\n ngDoCheck() {\n if (this._ngForOfDirty) {\n this._ngForOfDirty = false;\n // React on ngForOf changes only once all inputs have been initialized\n const value = this._ngForOf;\n if (!this._differ && value) {\n if (typeof ngDevMode === 'undefined' || ngDevMode) {\n try {\n // CAUTION: this logic is duplicated for production mode below, as the try-catch\n // is only present in development builds.\n this._differ = this._differs.find(value).create(this.ngForTrackBy);\n }\n catch {\n let errorMessage = `Cannot find a differ supporting object '${value}' of type '` +\n `${getTypeName(value)}'. NgFor only supports binding to Iterables, such as Arrays.`;\n if (typeof value === 'object') {\n errorMessage += ' Did you mean to use the keyvalue pipe?';\n }\n throw new ɵRuntimeError(-2200 /* RuntimeErrorCode.NG_FOR_MISSING_DIFFER */, errorMessage);\n }\n }\n else {\n // CAUTION: this logic is duplicated for development mode above, as the try-catch\n // is only present in development builds.\n this._differ = this._differs.find(value).create(this.ngForTrackBy);\n }\n }\n }\n if (this._differ) {\n const changes = this._differ.diff(this._ngForOf);\n if (changes)\n this._applyChanges(changes);\n }\n }\n _applyChanges(changes) {\n const viewContainer = this._viewContainer;\n changes.forEachOperation((item, adjustedPreviousIndex, currentIndex) => {\n if (item.previousIndex == null) {\n // NgForOf is never \"null\" or \"undefined\" here because the differ detected\n // that a new item needs to be inserted from the iterable. This implies that\n // there is an iterable value for \"_ngForOf\".\n viewContainer.createEmbeddedView(this._template, new NgForOfContext(item.item, this._ngForOf, -1, -1), currentIndex === null ? undefined : currentIndex);\n }\n else if (currentIndex == null) {\n viewContainer.remove(adjustedPreviousIndex === null ? undefined : adjustedPreviousIndex);\n }\n else if (adjustedPreviousIndex !== null) {\n const view = viewContainer.get(adjustedPreviousIndex);\n viewContainer.move(view, currentIndex);\n applyViewChange(view, item);\n }\n });\n for (let i = 0, ilen = viewContainer.length; i < ilen; i++) {\n const viewRef = viewContainer.get(i);\n const context = viewRef.context;\n context.index = i;\n context.count = ilen;\n context.ngForOf = this._ngForOf;\n }\n changes.forEachIdentityChange((record) => {\n const viewRef = viewContainer.get(record.currentIndex);\n applyViewChange(viewRef, record);\n });\n }\n /**\n * Asserts the correct type of the context for the template that `NgForOf` will render.\n *\n * The presence of this method is a signal to the Ivy template type-check compiler that the\n * `NgForOf` structural directive renders its template with a specific context type.\n */\n static ngTemplateContextGuard(dir, ctx) {\n return true;\n }\n static { this.ɵfac = i0.ɵɵngDeclareFactory({ minVersion: \"12.0.0\", version: \"18.2.1\", ngImport: i0, type: NgForOf, deps: [{ token: i0.ViewContainerRef }, { token: i0.TemplateRef }, { token: i0.IterableDiffers }], target: i0.ɵɵFactoryTarget.Directive }); }\n static { this.ɵdir = i0.ɵɵngDeclareDirective({ minVersion: \"14.0.0\", version: \"18.2.1\", type: NgForOf, isStandalone: true, selector: \"[ngFor][ngForOf]\", inputs: { ngForOf: \"ngForOf\", ngForTrackBy: \"ngForTrackBy\", ngForTemplate: \"ngForTemplate\" }, ngImport: i0 }); }\n}\ni0.ɵɵngDeclareClassMetadata({ minVersion: \"12.0.0\", version: \"18.2.1\", ngImport: i0, type: NgForOf, decorators: [{\n type: Directive,\n args: [{\n selector: '[ngFor][ngForOf]',\n standalone: true,\n }]\n }], ctorParameters: () => [{ type: i0.ViewContainerRef }, { type: i0.TemplateRef }, { type: i0.IterableDiffers }], propDecorators: { ngForOf: [{\n type: Input\n }], ngForTrackBy: [{\n type: Input\n }], ngForTemplate: [{\n type: Input\n }] } });\nfunction applyViewChange(view, record) {\n view.context.$implicit = record.item;\n}\nfunction getTypeName(type) {\n return type['name'] || typeof type;\n}\n\n/**\n * A structural directive that conditionally includes a template based on the value of\n * an expression coerced to Boolean.\n * When the expression evaluates to true, Angular renders the template\n * provided in a `then` clause, and when false or null,\n * Angular renders the template provided in an optional `else` clause. The default\n * template for the `else` clause is blank.\n *\n * A [shorthand form](guide/directives/structural-directives#asterisk) of the directive,\n * `*ngIf=\"condition\"`, is generally used, provided\n * as an attribute of the anchor element for the inserted template.\n * Angular expands this into a more explicit version, in which the anchor element\n * is contained in an `` element.\n *\n * Simple form with shorthand syntax:\n *\n * ```\n *
    Content to render when condition is true.
    \n * ```\n *\n * Simple form with expanded syntax:\n *\n * ```\n *
    Content to render when condition is\n * true.
    \n * ```\n *\n * Form with an \"else\" block:\n *\n * ```\n *
    Content to render when condition is true.
    \n * Content to render when condition is false.\n * ```\n *\n * Shorthand form with \"then\" and \"else\" blocks:\n *\n * ```\n *
    \n * Content to render when condition is true.\n * Content to render when condition is false.\n * ```\n *\n * Form with storing the value locally:\n *\n * ```\n *
    {{value}}
    \n * Content to render when value is null.\n * ```\n *\n * @usageNotes\n *\n * The `*ngIf` directive is most commonly used to conditionally show an inline template,\n * as seen in the following example.\n * The default `else` template is blank.\n *\n * {@example common/ngIf/ts/module.ts region='NgIfSimple'}\n *\n * ### Showing an alternative template using `else`\n *\n * To display a template when `expression` evaluates to false, use an `else` template\n * binding as shown in the following example.\n * The `else` binding points to an `` element labeled `#elseBlock`.\n * The template can be defined anywhere in the component view, but is typically placed right after\n * `ngIf` for readability.\n *\n * {@example common/ngIf/ts/module.ts region='NgIfElse'}\n *\n * ### Using an external `then` template\n *\n * In the previous example, the then-clause template is specified inline, as the content of the\n * tag that contains the `ngIf` directive. You can also specify a template that is defined\n * externally, by referencing a labeled `` element. When you do this, you can\n * change which template to use at runtime, as shown in the following example.\n *\n * {@example common/ngIf/ts/module.ts region='NgIfThenElse'}\n *\n * ### Storing a conditional result in a variable\n *\n * You might want to show a set of properties from the same object. If you are waiting\n * for asynchronous data, the object can be undefined.\n * In this case, you can use `ngIf` and store the result of the condition in a local\n * variable as shown in the following example.\n *\n * {@example common/ngIf/ts/module.ts region='NgIfAs'}\n *\n * This code uses only one `AsyncPipe`, so only one subscription is created.\n * The conditional statement stores the result of `userStream|async` in the local variable `user`.\n * You can then bind the local `user` repeatedly.\n *\n * The conditional displays the data only if `userStream` returns a value,\n * so you don't need to use the\n * safe-navigation-operator (`?.`)\n * to guard against null values when accessing properties.\n * You can display an alternative template while waiting for the data.\n *\n * ### Shorthand syntax\n *\n * The shorthand syntax `*ngIf` expands into two separate template specifications\n * for the \"then\" and \"else\" clauses. For example, consider the following shorthand statement,\n * that is meant to show a loading page while waiting for data to be loaded.\n *\n * ```\n *
    \n * ...\n *
    \n *\n * \n *
    Loading...
    \n *     \n * ```\n *\n * You can see that the \"else\" clause references the ``\n * with the `#loading` label, and the template for the \"then\" clause\n * is provided as the content of the anchor element.\n *\n * However, when Angular expands the shorthand syntax, it creates\n * another `` tag, with `ngIf` and `ngIfElse` directives.\n * The anchor element containing the template for the \"then\" clause becomes\n * the content of this unlabeled `` tag.\n *\n * ```\n * \n *
    \n * ...\n *
    \n *     \n *\n * \n *
    Loading...
    \n *     \n * ```\n *\n * The presence of the implicit template object has implications for the nesting of\n * structural directives. For more on this subject, see\n * [Structural Directives](guide/directives/structural-directives#one-per-element).\n *\n * @ngModule CommonModule\n * @publicApi\n */\nclass NgIf {\n constructor(_viewContainer, templateRef) {\n this._viewContainer = _viewContainer;\n this._context = new NgIfContext();\n this._thenTemplateRef = null;\n this._elseTemplateRef = null;\n this._thenViewRef = null;\n this._elseViewRef = null;\n this._thenTemplateRef = templateRef;\n }\n /**\n * The Boolean expression to evaluate as the condition for showing a template.\n */\n set ngIf(condition) {\n this._context.$implicit = this._context.ngIf = condition;\n this._updateView();\n }\n /**\n * A template to show if the condition expression evaluates to true.\n */\n set ngIfThen(templateRef) {\n assertTemplate('ngIfThen', templateRef);\n this._thenTemplateRef = templateRef;\n this._thenViewRef = null; // clear previous view if any.\n this._updateView();\n }\n /**\n * A template to show if the condition expression evaluates to false.\n */\n set ngIfElse(templateRef) {\n assertTemplate('ngIfElse', templateRef);\n this._elseTemplateRef = templateRef;\n this._elseViewRef = null; // clear previous view if any.\n this._updateView();\n }\n _updateView() {\n if (this._context.$implicit) {\n if (!this._thenViewRef) {\n this._viewContainer.clear();\n this._elseViewRef = null;\n if (this._thenTemplateRef) {\n this._thenViewRef = this._viewContainer.createEmbeddedView(this._thenTemplateRef, this._context);\n }\n }\n }\n else {\n if (!this._elseViewRef) {\n this._viewContainer.clear();\n this._thenViewRef = null;\n if (this._elseTemplateRef) {\n this._elseViewRef = this._viewContainer.createEmbeddedView(this._elseTemplateRef, this._context);\n }\n }\n }\n }\n /**\n * Asserts the correct type of the context for the template that `NgIf` will render.\n *\n * The presence of this method is a signal to the Ivy template type-check compiler that the\n * `NgIf` structural directive renders its template with a specific context type.\n */\n static ngTemplateContextGuard(dir, ctx) {\n return true;\n }\n static { this.ɵfac = i0.ɵɵngDeclareFactory({ minVersion: \"12.0.0\", version: \"18.2.1\", ngImport: i0, type: NgIf, deps: [{ token: i0.ViewContainerRef }, { token: i0.TemplateRef }], target: i0.ɵɵFactoryTarget.Directive }); }\n static { this.ɵdir = i0.ɵɵngDeclareDirective({ minVersion: \"14.0.0\", version: \"18.2.1\", type: NgIf, isStandalone: true, selector: \"[ngIf]\", inputs: { ngIf: \"ngIf\", ngIfThen: \"ngIfThen\", ngIfElse: \"ngIfElse\" }, ngImport: i0 }); }\n}\ni0.ɵɵngDeclareClassMetadata({ minVersion: \"12.0.0\", version: \"18.2.1\", ngImport: i0, type: NgIf, decorators: [{\n type: Directive,\n args: [{\n selector: '[ngIf]',\n standalone: true,\n }]\n }], ctorParameters: () => [{ type: i0.ViewContainerRef }, { type: i0.TemplateRef }], propDecorators: { ngIf: [{\n type: Input\n }], ngIfThen: [{\n type: Input\n }], ngIfElse: [{\n type: Input\n }] } });\n/**\n * @publicApi\n */\nclass NgIfContext {\n constructor() {\n this.$implicit = null;\n this.ngIf = null;\n }\n}\nfunction assertTemplate(property, templateRef) {\n const isTemplateRefOrNull = !!(!templateRef || templateRef.createEmbeddedView);\n if (!isTemplateRefOrNull) {\n throw new Error(`${property} must be a TemplateRef, but received '${ɵstringify(templateRef)}'.`);\n }\n}\n\nclass SwitchView {\n constructor(_viewContainerRef, _templateRef) {\n this._viewContainerRef = _viewContainerRef;\n this._templateRef = _templateRef;\n this._created = false;\n }\n create() {\n this._created = true;\n this._viewContainerRef.createEmbeddedView(this._templateRef);\n }\n destroy() {\n this._created = false;\n this._viewContainerRef.clear();\n }\n enforceState(created) {\n if (created && !this._created) {\n this.create();\n }\n else if (!created && this._created) {\n this.destroy();\n }\n }\n}\n/**\n * @ngModule CommonModule\n *\n * @description\n * The `[ngSwitch]` directive on a container specifies an expression to match against.\n * The expressions to match are provided by `ngSwitchCase` directives on views within the container.\n * - Every view that matches is rendered.\n * - If there are no matches, a view with the `ngSwitchDefault` directive is rendered.\n * - Elements within the `[NgSwitch]` statement but outside of any `NgSwitchCase`\n * or `ngSwitchDefault` directive are preserved at the location.\n *\n * @usageNotes\n * Define a container element for the directive, and specify the switch expression\n * to match against as an attribute:\n *\n * ```\n * \n * ```\n *\n * Within the container, `*ngSwitchCase` statements specify the match expressions\n * as attributes. Include `*ngSwitchDefault` as the final case.\n *\n * ```\n * \n * ...\n * ...\n * ...\n * \n * ```\n *\n * ### Usage Examples\n *\n * The following example shows how to use more than one case to display the same view:\n *\n * ```\n * \n * \n * ...\n * ...\n * ...\n * \n * ...\n * \n * ```\n *\n * The following example shows how cases can be nested:\n * ```\n * \n * ...\n * ...\n * ...\n * \n * \n * \n * \n * \n * ...\n * \n * ```\n *\n * @publicApi\n * @see {@link NgSwitchCase}\n * @see {@link NgSwitchDefault}\n * @see [Structural Directives](guide/directives/structural-directives)\n *\n */\nclass NgSwitch {\n constructor() {\n this._defaultViews = [];\n this._defaultUsed = false;\n this._caseCount = 0;\n this._lastCaseCheckIndex = 0;\n this._lastCasesMatched = false;\n }\n set ngSwitch(newValue) {\n this._ngSwitch = newValue;\n if (this._caseCount === 0) {\n this._updateDefaultCases(true);\n }\n }\n /** @internal */\n _addCase() {\n return this._caseCount++;\n }\n /** @internal */\n _addDefault(view) {\n this._defaultViews.push(view);\n }\n /** @internal */\n _matchCase(value) {\n const matched = value === this._ngSwitch;\n this._lastCasesMatched ||= matched;\n this._lastCaseCheckIndex++;\n if (this._lastCaseCheckIndex === this._caseCount) {\n this._updateDefaultCases(!this._lastCasesMatched);\n this._lastCaseCheckIndex = 0;\n this._lastCasesMatched = false;\n }\n return matched;\n }\n _updateDefaultCases(useDefault) {\n if (this._defaultViews.length > 0 && useDefault !== this._defaultUsed) {\n this._defaultUsed = useDefault;\n for (const defaultView of this._defaultViews) {\n defaultView.enforceState(useDefault);\n }\n }\n }\n static { this.ɵfac = i0.ɵɵngDeclareFactory({ minVersion: \"12.0.0\", version: \"18.2.1\", ngImport: i0, type: NgSwitch, deps: [], target: i0.ɵɵFactoryTarget.Directive }); }\n static { this.ɵdir = i0.ɵɵngDeclareDirective({ minVersion: \"14.0.0\", version: \"18.2.1\", type: NgSwitch, isStandalone: true, selector: \"[ngSwitch]\", inputs: { ngSwitch: \"ngSwitch\" }, ngImport: i0 }); }\n}\ni0.ɵɵngDeclareClassMetadata({ minVersion: \"12.0.0\", version: \"18.2.1\", ngImport: i0, type: NgSwitch, decorators: [{\n type: Directive,\n args: [{\n selector: '[ngSwitch]',\n standalone: true,\n }]\n }], propDecorators: { ngSwitch: [{\n type: Input\n }] } });\n/**\n * @ngModule CommonModule\n *\n * @description\n * Provides a switch case expression to match against an enclosing `ngSwitch` expression.\n * When the expressions match, the given `NgSwitchCase` template is rendered.\n * If multiple match expressions match the switch expression value, all of them are displayed.\n *\n * @usageNotes\n *\n * Within a switch container, `*ngSwitchCase` statements specify the match expressions\n * as attributes. Include `*ngSwitchDefault` as the final case.\n *\n * ```\n * \n * ...\n * ...\n * ...\n * \n * ```\n *\n * Each switch-case statement contains an in-line HTML template or template reference\n * that defines the subtree to be selected if the value of the match expression\n * matches the value of the switch expression.\n *\n * As of Angular v17 the NgSwitch directive uses strict equality comparison (`===`) instead of\n * loose equality (`==`) to match different cases.\n *\n * @publicApi\n * @see {@link NgSwitch}\n * @see {@link NgSwitchDefault}\n *\n */\nclass NgSwitchCase {\n constructor(viewContainer, templateRef, ngSwitch) {\n this.ngSwitch = ngSwitch;\n if ((typeof ngDevMode === 'undefined' || ngDevMode) && !ngSwitch) {\n throwNgSwitchProviderNotFoundError('ngSwitchCase', 'NgSwitchCase');\n }\n ngSwitch._addCase();\n this._view = new SwitchView(viewContainer, templateRef);\n }\n /**\n * Performs case matching. For internal use only.\n * @nodoc\n */\n ngDoCheck() {\n this._view.enforceState(this.ngSwitch._matchCase(this.ngSwitchCase));\n }\n static { this.ɵfac = i0.ɵɵngDeclareFactory({ minVersion: \"12.0.0\", version: \"18.2.1\", ngImport: i0, type: NgSwitchCase, deps: [{ token: i0.ViewContainerRef }, { token: i0.TemplateRef }, { token: NgSwitch, host: true, optional: true }], target: i0.ɵɵFactoryTarget.Directive }); }\n static { this.ɵdir = i0.ɵɵngDeclareDirective({ minVersion: \"14.0.0\", version: \"18.2.1\", type: NgSwitchCase, isStandalone: true, selector: \"[ngSwitchCase]\", inputs: { ngSwitchCase: \"ngSwitchCase\" }, ngImport: i0 }); }\n}\ni0.ɵɵngDeclareClassMetadata({ minVersion: \"12.0.0\", version: \"18.2.1\", ngImport: i0, type: NgSwitchCase, decorators: [{\n type: Directive,\n args: [{\n selector: '[ngSwitchCase]',\n standalone: true,\n }]\n }], ctorParameters: () => [{ type: i0.ViewContainerRef }, { type: i0.TemplateRef }, { type: NgSwitch, decorators: [{\n type: Optional\n }, {\n type: Host\n }] }], propDecorators: { ngSwitchCase: [{\n type: Input\n }] } });\n/**\n * @ngModule CommonModule\n *\n * @description\n *\n * Creates a view that is rendered when no `NgSwitchCase` expressions\n * match the `NgSwitch` expression.\n * This statement should be the final case in an `NgSwitch`.\n *\n * @publicApi\n * @see {@link NgSwitch}\n * @see {@link NgSwitchCase}\n *\n */\nclass NgSwitchDefault {\n constructor(viewContainer, templateRef, ngSwitch) {\n if ((typeof ngDevMode === 'undefined' || ngDevMode) && !ngSwitch) {\n throwNgSwitchProviderNotFoundError('ngSwitchDefault', 'NgSwitchDefault');\n }\n ngSwitch._addDefault(new SwitchView(viewContainer, templateRef));\n }\n static { this.ɵfac = i0.ɵɵngDeclareFactory({ minVersion: \"12.0.0\", version: \"18.2.1\", ngImport: i0, type: NgSwitchDefault, deps: [{ token: i0.ViewContainerRef }, { token: i0.TemplateRef }, { token: NgSwitch, host: true, optional: true }], target: i0.ɵɵFactoryTarget.Directive }); }\n static { this.ɵdir = i0.ɵɵngDeclareDirective({ minVersion: \"14.0.0\", version: \"18.2.1\", type: NgSwitchDefault, isStandalone: true, selector: \"[ngSwitchDefault]\", ngImport: i0 }); }\n}\ni0.ɵɵngDeclareClassMetadata({ minVersion: \"12.0.0\", version: \"18.2.1\", ngImport: i0, type: NgSwitchDefault, decorators: [{\n type: Directive,\n args: [{\n selector: '[ngSwitchDefault]',\n standalone: true,\n }]\n }], ctorParameters: () => [{ type: i0.ViewContainerRef }, { type: i0.TemplateRef }, { type: NgSwitch, decorators: [{\n type: Optional\n }, {\n type: Host\n }] }] });\nfunction throwNgSwitchProviderNotFoundError(attrName, directiveName) {\n throw new ɵRuntimeError(2000 /* RuntimeErrorCode.PARENT_NG_SWITCH_NOT_FOUND */, `An element with the \"${attrName}\" attribute ` +\n `(matching the \"${directiveName}\" directive) must be located inside an element with the \"ngSwitch\" attribute ` +\n `(matching \"NgSwitch\" directive)`);\n}\nfunction stringifyValue(value) {\n return typeof value === 'string' ? `'${value}'` : String(value);\n}\n\n/**\n * @ngModule CommonModule\n *\n * @usageNotes\n * ```\n * \n * there is nothing\n * there is one\n * there are a few\n * \n * ```\n *\n * @description\n *\n * Adds / removes DOM sub-trees based on a numeric value. Tailored for pluralization.\n *\n * Displays DOM sub-trees that match the switch expression value, or failing that, DOM sub-trees\n * that match the switch expression's pluralization category.\n *\n * To use this directive you must provide a container element that sets the `[ngPlural]` attribute\n * to a switch expression. Inner elements with a `[ngPluralCase]` will display based on their\n * expression:\n * - if `[ngPluralCase]` is set to a value starting with `=`, it will only display if the value\n * matches the switch expression exactly,\n * - otherwise, the view will be treated as a \"category match\", and will only display if exact\n * value matches aren't found and the value maps to its category for the defined locale.\n *\n * See http://cldr.unicode.org/index/cldr-spec/plural-rules\n *\n * @publicApi\n */\nclass NgPlural {\n constructor(_localization) {\n this._localization = _localization;\n this._caseViews = {};\n }\n set ngPlural(value) {\n this._updateView(value);\n }\n addCase(value, switchView) {\n this._caseViews[value] = switchView;\n }\n _updateView(switchValue) {\n this._clearViews();\n const cases = Object.keys(this._caseViews);\n const key = getPluralCategory(switchValue, cases, this._localization);\n this._activateView(this._caseViews[key]);\n }\n _clearViews() {\n if (this._activeView)\n this._activeView.destroy();\n }\n _activateView(view) {\n if (view) {\n this._activeView = view;\n this._activeView.create();\n }\n }\n static { this.ɵfac = i0.ɵɵngDeclareFactory({ minVersion: \"12.0.0\", version: \"18.2.1\", ngImport: i0, type: NgPlural, deps: [{ token: NgLocalization }], target: i0.ɵɵFactoryTarget.Directive }); }\n static { this.ɵdir = i0.ɵɵngDeclareDirective({ minVersion: \"14.0.0\", version: \"18.2.1\", type: NgPlural, isStandalone: true, selector: \"[ngPlural]\", inputs: { ngPlural: \"ngPlural\" }, ngImport: i0 }); }\n}\ni0.ɵɵngDeclareClassMetadata({ minVersion: \"12.0.0\", version: \"18.2.1\", ngImport: i0, type: NgPlural, decorators: [{\n type: Directive,\n args: [{\n selector: '[ngPlural]',\n standalone: true,\n }]\n }], ctorParameters: () => [{ type: NgLocalization }], propDecorators: { ngPlural: [{\n type: Input\n }] } });\n/**\n * @ngModule CommonModule\n *\n * @description\n *\n * Creates a view that will be added/removed from the parent {@link NgPlural} when the\n * given expression matches the plural expression according to CLDR rules.\n *\n * @usageNotes\n * ```\n * \n * ...\n * ...\n * \n *```\n *\n * See {@link NgPlural} for more details and example.\n *\n * @publicApi\n */\nclass NgPluralCase {\n constructor(value, template, viewContainer, ngPlural) {\n this.value = value;\n const isANumber = !isNaN(Number(value));\n ngPlural.addCase(isANumber ? `=${value}` : value, new SwitchView(viewContainer, template));\n }\n static { this.ɵfac = i0.ɵɵngDeclareFactory({ minVersion: \"12.0.0\", version: \"18.2.1\", ngImport: i0, type: NgPluralCase, deps: [{ token: 'ngPluralCase', attribute: true }, { token: i0.TemplateRef }, { token: i0.ViewContainerRef }, { token: NgPlural, host: true }], target: i0.ɵɵFactoryTarget.Directive }); }\n static { this.ɵdir = i0.ɵɵngDeclareDirective({ minVersion: \"14.0.0\", version: \"18.2.1\", type: NgPluralCase, isStandalone: true, selector: \"[ngPluralCase]\", ngImport: i0 }); }\n}\ni0.ɵɵngDeclareClassMetadata({ minVersion: \"12.0.0\", version: \"18.2.1\", ngImport: i0, type: NgPluralCase, decorators: [{\n type: Directive,\n args: [{\n selector: '[ngPluralCase]',\n standalone: true,\n }]\n }], ctorParameters: () => [{ type: undefined, decorators: [{\n type: Attribute,\n args: ['ngPluralCase']\n }] }, { type: i0.TemplateRef }, { type: i0.ViewContainerRef }, { type: NgPlural, decorators: [{\n type: Host\n }] }] });\n\n/**\n * @ngModule CommonModule\n *\n * @usageNotes\n *\n * Set the font of the containing element to the result of an expression.\n *\n * ```\n * ...\n * ```\n *\n * Set the width of the containing element to a pixel value returned by an expression.\n *\n * ```\n * ...\n * ```\n *\n * Set a collection of style values using an expression that returns key-value pairs.\n *\n * ```\n * ...\n * ```\n *\n * @description\n *\n * An attribute directive that updates styles for the containing HTML element.\n * Sets one or more style properties, specified as colon-separated key-value pairs.\n * The key is a style name, with an optional `.` suffix\n * (such as 'top.px', 'font-style.em').\n * The value is an expression to be evaluated.\n * The resulting non-null value, expressed in the given unit,\n * is assigned to the given style property.\n * If the result of evaluation is null, the corresponding style is removed.\n *\n * @publicApi\n */\nclass NgStyle {\n constructor(_ngEl, _differs, _renderer) {\n this._ngEl = _ngEl;\n this._differs = _differs;\n this._renderer = _renderer;\n this._ngStyle = null;\n this._differ = null;\n }\n set ngStyle(values) {\n this._ngStyle = values;\n if (!this._differ && values) {\n this._differ = this._differs.find(values).create();\n }\n }\n ngDoCheck() {\n if (this._differ) {\n const changes = this._differ.diff(this._ngStyle);\n if (changes) {\n this._applyChanges(changes);\n }\n }\n }\n _setStyle(nameAndUnit, value) {\n const [name, unit] = nameAndUnit.split('.');\n const flags = name.indexOf('-') === -1 ? undefined : RendererStyleFlags2.DashCase;\n if (value != null) {\n this._renderer.setStyle(this._ngEl.nativeElement, name, unit ? `${value}${unit}` : value, flags);\n }\n else {\n this._renderer.removeStyle(this._ngEl.nativeElement, name, flags);\n }\n }\n _applyChanges(changes) {\n changes.forEachRemovedItem((record) => this._setStyle(record.key, null));\n changes.forEachAddedItem((record) => this._setStyle(record.key, record.currentValue));\n changes.forEachChangedItem((record) => this._setStyle(record.key, record.currentValue));\n }\n static { this.ɵfac = i0.ɵɵngDeclareFactory({ minVersion: \"12.0.0\", version: \"18.2.1\", ngImport: i0, type: NgStyle, deps: [{ token: i0.ElementRef }, { token: i0.KeyValueDiffers }, { token: i0.Renderer2 }], target: i0.ɵɵFactoryTarget.Directive }); }\n static { this.ɵdir = i0.ɵɵngDeclareDirective({ minVersion: \"14.0.0\", version: \"18.2.1\", type: NgStyle, isStandalone: true, selector: \"[ngStyle]\", inputs: { ngStyle: \"ngStyle\" }, ngImport: i0 }); }\n}\ni0.ɵɵngDeclareClassMetadata({ minVersion: \"12.0.0\", version: \"18.2.1\", ngImport: i0, type: NgStyle, decorators: [{\n type: Directive,\n args: [{\n selector: '[ngStyle]',\n standalone: true,\n }]\n }], ctorParameters: () => [{ type: i0.ElementRef }, { type: i0.KeyValueDiffers }, { type: i0.Renderer2 }], propDecorators: { ngStyle: [{\n type: Input,\n args: ['ngStyle']\n }] } });\n\n/**\n * @ngModule CommonModule\n *\n * @description\n *\n * Inserts an embedded view from a prepared `TemplateRef`.\n *\n * You can attach a context object to the `EmbeddedViewRef` by setting `[ngTemplateOutletContext]`.\n * `[ngTemplateOutletContext]` should be an object, the object's keys will be available for binding\n * by the local template `let` declarations.\n *\n * @usageNotes\n * ```\n * \n * ```\n *\n * Using the key `$implicit` in the context object will set its value as default.\n *\n * ### Example\n *\n * {@example common/ngTemplateOutlet/ts/module.ts region='NgTemplateOutlet'}\n *\n * @publicApi\n */\nclass NgTemplateOutlet {\n constructor(_viewContainerRef) {\n this._viewContainerRef = _viewContainerRef;\n this._viewRef = null;\n /**\n * A context object to attach to the {@link EmbeddedViewRef}. This should be an\n * object, the object's keys will be available for binding by the local template `let`\n * declarations.\n * Using the key `$implicit` in the context object will set its value as default.\n */\n this.ngTemplateOutletContext = null;\n /**\n * A string defining the template reference and optionally the context object for the template.\n */\n this.ngTemplateOutlet = null;\n /** Injector to be used within the embedded view. */\n this.ngTemplateOutletInjector = null;\n }\n ngOnChanges(changes) {\n if (this._shouldRecreateView(changes)) {\n const viewContainerRef = this._viewContainerRef;\n if (this._viewRef) {\n viewContainerRef.remove(viewContainerRef.indexOf(this._viewRef));\n }\n // If there is no outlet, clear the destroyed view ref.\n if (!this.ngTemplateOutlet) {\n this._viewRef = null;\n return;\n }\n // Create a context forward `Proxy` that will always bind to the user-specified context,\n // without having to destroy and re-create views whenever the context changes.\n const viewContext = this._createContextForwardProxy();\n this._viewRef = viewContainerRef.createEmbeddedView(this.ngTemplateOutlet, viewContext, {\n injector: this.ngTemplateOutletInjector ?? undefined,\n });\n }\n }\n /**\n * We need to re-create existing embedded view if either is true:\n * - the outlet changed.\n * - the injector changed.\n */\n _shouldRecreateView(changes) {\n return !!changes['ngTemplateOutlet'] || !!changes['ngTemplateOutletInjector'];\n }\n /**\n * For a given outlet instance, we create a proxy object that delegates\n * to the user-specified context. This allows changing, or swapping out\n * the context object completely without having to destroy/re-create the view.\n */\n _createContextForwardProxy() {\n return new Proxy({}, {\n set: (_target, prop, newValue) => {\n if (!this.ngTemplateOutletContext) {\n return false;\n }\n return Reflect.set(this.ngTemplateOutletContext, prop, newValue);\n },\n get: (_target, prop, receiver) => {\n if (!this.ngTemplateOutletContext) {\n return undefined;\n }\n return Reflect.get(this.ngTemplateOutletContext, prop, receiver);\n },\n });\n }\n static { this.ɵfac = i0.ɵɵngDeclareFactory({ minVersion: \"12.0.0\", version: \"18.2.1\", ngImport: i0, type: NgTemplateOutlet, deps: [{ token: i0.ViewContainerRef }], target: i0.ɵɵFactoryTarget.Directive }); }\n static { this.ɵdir = i0.ɵɵngDeclareDirective({ minVersion: \"14.0.0\", version: \"18.2.1\", type: NgTemplateOutlet, isStandalone: true, selector: \"[ngTemplateOutlet]\", inputs: { ngTemplateOutletContext: \"ngTemplateOutletContext\", ngTemplateOutlet: \"ngTemplateOutlet\", ngTemplateOutletInjector: \"ngTemplateOutletInjector\" }, usesOnChanges: true, ngImport: i0 }); }\n}\ni0.ɵɵngDeclareClassMetadata({ minVersion: \"12.0.0\", version: \"18.2.1\", ngImport: i0, type: NgTemplateOutlet, decorators: [{\n type: Directive,\n args: [{\n selector: '[ngTemplateOutlet]',\n standalone: true,\n }]\n }], ctorParameters: () => [{ type: i0.ViewContainerRef }], propDecorators: { ngTemplateOutletContext: [{\n type: Input\n }], ngTemplateOutlet: [{\n type: Input\n }], ngTemplateOutletInjector: [{\n type: Input\n }] } });\n\n/**\n * A collection of Angular directives that are likely to be used in each and every Angular\n * application.\n */\nconst COMMON_DIRECTIVES = [\n NgClass,\n NgComponentOutlet,\n NgForOf,\n NgIf,\n NgTemplateOutlet,\n NgStyle,\n NgSwitch,\n NgSwitchCase,\n NgSwitchDefault,\n NgPlural,\n NgPluralCase,\n];\n\nfunction invalidPipeArgumentError(type, value) {\n return new ɵRuntimeError(2100 /* RuntimeErrorCode.INVALID_PIPE_ARGUMENT */, ngDevMode && `InvalidPipeArgument: '${value}' for pipe '${ɵstringify(type)}'`);\n}\n\nclass SubscribableStrategy {\n createSubscription(async, updateLatestValue) {\n // Subscription can be side-effectful, and we don't want any signal reads which happen in the\n // side effect of the subscription to be tracked by a component's template when that\n // subscription is triggered via the async pipe. So we wrap the subscription in `untracked` to\n // decouple from the current reactive context.\n //\n // `untracked` also prevents signal _writes_ which happen in the subscription side effect from\n // being treated as signal writes during the template evaluation (which throws errors).\n return untracked(() => async.subscribe({\n next: updateLatestValue,\n error: (e) => {\n throw e;\n },\n }));\n }\n dispose(subscription) {\n // See the comment in `createSubscription` above on the use of `untracked`.\n untracked(() => subscription.unsubscribe());\n }\n}\nclass PromiseStrategy {\n createSubscription(async, updateLatestValue) {\n return async.then(updateLatestValue, (e) => {\n throw e;\n });\n }\n dispose(subscription) { }\n}\nconst _promiseStrategy = new PromiseStrategy();\nconst _subscribableStrategy = new SubscribableStrategy();\n/**\n * @ngModule CommonModule\n * @description\n *\n * Unwraps a value from an asynchronous primitive.\n *\n * The `async` pipe subscribes to an `Observable` or `Promise` and returns the latest value it has\n * emitted. When a new value is emitted, the `async` pipe marks the component to be checked for\n * changes. When the component gets destroyed, the `async` pipe unsubscribes automatically to avoid\n * potential memory leaks. When the reference of the expression changes, the `async` pipe\n * automatically unsubscribes from the old `Observable` or `Promise` and subscribes to the new one.\n *\n * @usageNotes\n *\n * ### Examples\n *\n * This example binds a `Promise` to the view. Clicking the `Resolve` button resolves the\n * promise.\n *\n * {@example common/pipes/ts/async_pipe.ts region='AsyncPipePromise'}\n *\n * It's also possible to use `async` with Observables. The example below binds the `time` Observable\n * to the view. The Observable continuously updates the view with the current time.\n *\n * {@example common/pipes/ts/async_pipe.ts region='AsyncPipeObservable'}\n *\n * @publicApi\n */\nclass AsyncPipe {\n constructor(ref) {\n this._latestValue = null;\n this.markForCheckOnValueUpdate = true;\n this._subscription = null;\n this._obj = null;\n this._strategy = null;\n // Assign `ref` into `this._ref` manually instead of declaring `_ref` in the constructor\n // parameter list, as the type of `this._ref` includes `null` unlike the type of `ref`.\n this._ref = ref;\n }\n ngOnDestroy() {\n if (this._subscription) {\n this._dispose();\n }\n // Clear the `ChangeDetectorRef` and its association with the view data, to mitigate\n // potential memory leaks in Observables that could otherwise cause the view data to\n // be retained.\n // https://github.com/angular/angular/issues/17624\n this._ref = null;\n }\n transform(obj) {\n if (!this._obj) {\n if (obj) {\n try {\n // Only call `markForCheck` if the value is updated asynchronously.\n // Synchronous updates _during_ subscription should not wastefully mark for check -\n // this value is already going to be returned from the transform function.\n this.markForCheckOnValueUpdate = false;\n this._subscribe(obj);\n }\n finally {\n this.markForCheckOnValueUpdate = true;\n }\n }\n return this._latestValue;\n }\n if (obj !== this._obj) {\n this._dispose();\n return this.transform(obj);\n }\n return this._latestValue;\n }\n _subscribe(obj) {\n this._obj = obj;\n this._strategy = this._selectStrategy(obj);\n this._subscription = this._strategy.createSubscription(obj, (value) => this._updateLatestValue(obj, value));\n }\n _selectStrategy(obj) {\n if (ɵisPromise(obj)) {\n return _promiseStrategy;\n }\n if (ɵisSubscribable(obj)) {\n return _subscribableStrategy;\n }\n throw invalidPipeArgumentError(AsyncPipe, obj);\n }\n _dispose() {\n // Note: `dispose` is only called if a subscription has been initialized before, indicating\n // that `this._strategy` is also available.\n this._strategy.dispose(this._subscription);\n this._latestValue = null;\n this._subscription = null;\n this._obj = null;\n }\n _updateLatestValue(async, value) {\n if (async === this._obj) {\n this._latestValue = value;\n if (this.markForCheckOnValueUpdate) {\n this._ref?.markForCheck();\n }\n }\n }\n static { this.ɵfac = i0.ɵɵngDeclareFactory({ minVersion: \"12.0.0\", version: \"18.2.1\", ngImport: i0, type: AsyncPipe, deps: [{ token: i0.ChangeDetectorRef }], target: i0.ɵɵFactoryTarget.Pipe }); }\n static { this.ɵpipe = i0.ɵɵngDeclarePipe({ minVersion: \"14.0.0\", version: \"18.2.1\", ngImport: i0, type: AsyncPipe, isStandalone: true, name: \"async\", pure: false }); }\n}\ni0.ɵɵngDeclareClassMetadata({ minVersion: \"12.0.0\", version: \"18.2.1\", ngImport: i0, type: AsyncPipe, decorators: [{\n type: Pipe,\n args: [{\n name: 'async',\n pure: false,\n standalone: true,\n }]\n }], ctorParameters: () => [{ type: i0.ChangeDetectorRef }] });\n\n/**\n * Transforms text to all lower case.\n *\n * @see {@link UpperCasePipe}\n * @see {@link TitleCasePipe}\n * @usageNotes\n *\n * The following example defines a view that allows the user to enter\n * text, and then uses the pipe to convert the input text to all lower case.\n *\n * \n *\n * @ngModule CommonModule\n * @publicApi\n */\nclass LowerCasePipe {\n transform(value) {\n if (value == null)\n return null;\n if (typeof value !== 'string') {\n throw invalidPipeArgumentError(LowerCasePipe, value);\n }\n return value.toLowerCase();\n }\n static { this.ɵfac = i0.ɵɵngDeclareFactory({ minVersion: \"12.0.0\", version: \"18.2.1\", ngImport: i0, type: LowerCasePipe, deps: [], target: i0.ɵɵFactoryTarget.Pipe }); }\n static { this.ɵpipe = i0.ɵɵngDeclarePipe({ minVersion: \"14.0.0\", version: \"18.2.1\", ngImport: i0, type: LowerCasePipe, isStandalone: true, name: \"lowercase\" }); }\n}\ni0.ɵɵngDeclareClassMetadata({ minVersion: \"12.0.0\", version: \"18.2.1\", ngImport: i0, type: LowerCasePipe, decorators: [{\n type: Pipe,\n args: [{\n name: 'lowercase',\n standalone: true,\n }]\n }] });\n//\n// Regex below matches any Unicode word and number compatible with ES5. In ES2018 the same result\n// can be achieved by using /[0-9\\p{L}]\\S*/gu and also known as Unicode Property Escapes\n// (https://2ality.com/2017/07/regexp-unicode-property-escapes.html). Since there is no\n// transpilation of this functionality down to ES5 without external tool, the only solution is\n// to use already transpiled form. Example can be found here -\n// https://mothereff.in/regexpu#input=var+regex+%3D+%2F%5B0-9%5Cp%7BL%7D%5D%5CS*%2Fgu%3B%0A%0A&unicodePropertyEscape=1\n//\nconst unicodeWordMatch = /(?:[0-9A-Za-z\\xAA\\xB5\\xBA\\xC0-\\xD6\\xD8-\\xF6\\xF8-\\u02C1\\u02C6-\\u02D1\\u02E0-\\u02E4\\u02EC\\u02EE\\u0370-\\u0374\\u0376\\u0377\\u037A-\\u037D\\u037F\\u0386\\u0388-\\u038A\\u038C\\u038E-\\u03A1\\u03A3-\\u03F5\\u03F7-\\u0481\\u048A-\\u052F\\u0531-\\u0556\\u0559\\u0560-\\u0588\\u05D0-\\u05EA\\u05EF-\\u05F2\\u0620-\\u064A\\u066E\\u066F\\u0671-\\u06D3\\u06D5\\u06E5\\u06E6\\u06EE\\u06EF\\u06FA-\\u06FC\\u06FF\\u0710\\u0712-\\u072F\\u074D-\\u07A5\\u07B1\\u07CA-\\u07EA\\u07F4\\u07F5\\u07FA\\u0800-\\u0815\\u081A\\u0824\\u0828\\u0840-\\u0858\\u0860-\\u086A\\u0870-\\u0887\\u0889-\\u088E\\u08A0-\\u08C9\\u0904-\\u0939\\u093D\\u0950\\u0958-\\u0961\\u0971-\\u0980\\u0985-\\u098C\\u098F\\u0990\\u0993-\\u09A8\\u09AA-\\u09B0\\u09B2\\u09B6-\\u09B9\\u09BD\\u09CE\\u09DC\\u09DD\\u09DF-\\u09E1\\u09F0\\u09F1\\u09FC\\u0A05-\\u0A0A\\u0A0F\\u0A10\\u0A13-\\u0A28\\u0A2A-\\u0A30\\u0A32\\u0A33\\u0A35\\u0A36\\u0A38\\u0A39\\u0A59-\\u0A5C\\u0A5E\\u0A72-\\u0A74\\u0A85-\\u0A8D\\u0A8F-\\u0A91\\u0A93-\\u0AA8\\u0AAA-\\u0AB0\\u0AB2\\u0AB3\\u0AB5-\\u0AB9\\u0ABD\\u0AD0\\u0AE0\\u0AE1\\u0AF9\\u0B05-\\u0B0C\\u0B0F\\u0B10\\u0B13-\\u0B28\\u0B2A-\\u0B30\\u0B32\\u0B33\\u0B35-\\u0B39\\u0B3D\\u0B5C\\u0B5D\\u0B5F-\\u0B61\\u0B71\\u0B83\\u0B85-\\u0B8A\\u0B8E-\\u0B90\\u0B92-\\u0B95\\u0B99\\u0B9A\\u0B9C\\u0B9E\\u0B9F\\u0BA3\\u0BA4\\u0BA8-\\u0BAA\\u0BAE-\\u0BB9\\u0BD0\\u0C05-\\u0C0C\\u0C0E-\\u0C10\\u0C12-\\u0C28\\u0C2A-\\u0C39\\u0C3D\\u0C58-\\u0C5A\\u0C5D\\u0C60\\u0C61\\u0C80\\u0C85-\\u0C8C\\u0C8E-\\u0C90\\u0C92-\\u0CA8\\u0CAA-\\u0CB3\\u0CB5-\\u0CB9\\u0CBD\\u0CDD\\u0CDE\\u0CE0\\u0CE1\\u0CF1\\u0CF2\\u0D04-\\u0D0C\\u0D0E-\\u0D10\\u0D12-\\u0D3A\\u0D3D\\u0D4E\\u0D54-\\u0D56\\u0D5F-\\u0D61\\u0D7A-\\u0D7F\\u0D85-\\u0D96\\u0D9A-\\u0DB1\\u0DB3-\\u0DBB\\u0DBD\\u0DC0-\\u0DC6\\u0E01-\\u0E30\\u0E32\\u0E33\\u0E40-\\u0E46\\u0E81\\u0E82\\u0E84\\u0E86-\\u0E8A\\u0E8C-\\u0EA3\\u0EA5\\u0EA7-\\u0EB0\\u0EB2\\u0EB3\\u0EBD\\u0EC0-\\u0EC4\\u0EC6\\u0EDC-\\u0EDF\\u0F00\\u0F40-\\u0F47\\u0F49-\\u0F6C\\u0F88-\\u0F8C\\u1000-\\u102A\\u103F\\u1050-\\u1055\\u105A-\\u105D\\u1061\\u1065\\u1066\\u106E-\\u1070\\u1075-\\u1081\\u108E\\u10A0-\\u10C5\\u10C7\\u10CD\\u10D0-\\u10FA\\u10FC-\\u1248\\u124A-\\u124D\\u1250-\\u1256\\u1258\\u125A-\\u125D\\u1260-\\u1288\\u128A-\\u128D\\u1290-\\u12B0\\u12B2-\\u12B5\\u12B8-\\u12BE\\u12C0\\u12C2-\\u12C5\\u12C8-\\u12D6\\u12D8-\\u1310\\u1312-\\u1315\\u1318-\\u135A\\u1380-\\u138F\\u13A0-\\u13F5\\u13F8-\\u13FD\\u1401-\\u166C\\u166F-\\u167F\\u1681-\\u169A\\u16A0-\\u16EA\\u16F1-\\u16F8\\u1700-\\u1711\\u171F-\\u1731\\u1740-\\u1751\\u1760-\\u176C\\u176E-\\u1770\\u1780-\\u17B3\\u17D7\\u17DC\\u1820-\\u1878\\u1880-\\u1884\\u1887-\\u18A8\\u18AA\\u18B0-\\u18F5\\u1900-\\u191E\\u1950-\\u196D\\u1970-\\u1974\\u1980-\\u19AB\\u19B0-\\u19C9\\u1A00-\\u1A16\\u1A20-\\u1A54\\u1AA7\\u1B05-\\u1B33\\u1B45-\\u1B4C\\u1B83-\\u1BA0\\u1BAE\\u1BAF\\u1BBA-\\u1BE5\\u1C00-\\u1C23\\u1C4D-\\u1C4F\\u1C5A-\\u1C7D\\u1C80-\\u1C88\\u1C90-\\u1CBA\\u1CBD-\\u1CBF\\u1CE9-\\u1CEC\\u1CEE-\\u1CF3\\u1CF5\\u1CF6\\u1CFA\\u1D00-\\u1DBF\\u1E00-\\u1F15\\u1F18-\\u1F1D\\u1F20-\\u1F45\\u1F48-\\u1F4D\\u1F50-\\u1F57\\u1F59\\u1F5B\\u1F5D\\u1F5F-\\u1F7D\\u1F80-\\u1FB4\\u1FB6-\\u1FBC\\u1FBE\\u1FC2-\\u1FC4\\u1FC6-\\u1FCC\\u1FD0-\\u1FD3\\u1FD6-\\u1FDB\\u1FE0-\\u1FEC\\u1FF2-\\u1FF4\\u1FF6-\\u1FFC\\u2071\\u207F\\u2090-\\u209C\\u2102\\u2107\\u210A-\\u2113\\u2115\\u2119-\\u211D\\u2124\\u2126\\u2128\\u212A-\\u212D\\u212F-\\u2139\\u213C-\\u213F\\u2145-\\u2149\\u214E\\u2183\\u2184\\u2C00-\\u2CE4\\u2CEB-\\u2CEE\\u2CF2\\u2CF3\\u2D00-\\u2D25\\u2D27\\u2D2D\\u2D30-\\u2D67\\u2D6F\\u2D80-\\u2D96\\u2DA0-\\u2DA6\\u2DA8-\\u2DAE\\u2DB0-\\u2DB6\\u2DB8-\\u2DBE\\u2DC0-\\u2DC6\\u2DC8-\\u2DCE\\u2DD0-\\u2DD6\\u2DD8-\\u2DDE\\u2E2F\\u3005\\u3006\\u3031-\\u3035\\u303B\\u303C\\u3041-\\u3096\\u309D-\\u309F\\u30A1-\\u30FA\\u30FC-\\u30FF\\u3105-\\u312F\\u3131-\\u318E\\u31A0-\\u31BF\\u31F0-\\u31FF\\u3400-\\u4DBF\\u4E00-\\uA48C\\uA4D0-\\uA4FD\\uA500-\\uA60C\\uA610-\\uA61F\\uA62A\\uA62B\\uA640-\\uA66E\\uA67F-\\uA69D\\uA6A0-\\uA6E5\\uA717-\\uA71F\\uA722-\\uA788\\uA78B-\\uA7CA\\uA7D0\\uA7D1\\uA7D3\\uA7D5-\\uA7D9\\uA7F2-\\uA801\\uA803-\\uA805\\uA807-\\uA80A\\uA80C-\\uA822\\uA840-\\uA873\\uA882-\\uA8B3\\uA8F2-\\uA8F7\\uA8FB\\uA8FD\\uA8FE\\uA90A-\\uA925\\uA930-\\uA946\\uA960-\\uA97C\\uA984-\\uA9B2\\uA9CF\\uA9E0-\\uA9E4\\uA9E6-\\uA9EF\\uA9FA-\\uA9FE\\uAA00-\\uAA28\\uAA40-\\uAA42\\uAA44-\\uAA4B\\uAA60-\\uAA76\\uAA7A\\uAA7E-\\uAAAF\\uAAB1\\uAAB5\\uAAB6\\uAAB9-\\uAABD\\uAAC0\\uAAC2\\uAADB-\\uAADD\\uAAE0-\\uAAEA\\uAAF2-\\uAAF4\\uAB01-\\uAB06\\uAB09-\\uAB0E\\uAB11-\\uAB16\\uAB20-\\uAB26\\uAB28-\\uAB2E\\uAB30-\\uAB5A\\uAB5C-\\uAB69\\uAB70-\\uABE2\\uAC00-\\uD7A3\\uD7B0-\\uD7C6\\uD7CB-\\uD7FB\\uF900-\\uFA6D\\uFA70-\\uFAD9\\uFB00-\\uFB06\\uFB13-\\uFB17\\uFB1D\\uFB1F-\\uFB28\\uFB2A-\\uFB36\\uFB38-\\uFB3C\\uFB3E\\uFB40\\uFB41\\uFB43\\uFB44\\uFB46-\\uFBB1\\uFBD3-\\uFD3D\\uFD50-\\uFD8F\\uFD92-\\uFDC7\\uFDF0-\\uFDFB\\uFE70-\\uFE74\\uFE76-\\uFEFC\\uFF21-\\uFF3A\\uFF41-\\uFF5A\\uFF66-\\uFFBE\\uFFC2-\\uFFC7\\uFFCA-\\uFFCF\\uFFD2-\\uFFD7\\uFFDA-\\uFFDC]|\\uD800[\\uDC00-\\uDC0B\\u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* Transforms text to title case.\n * Capitalizes the first letter of each word and transforms the\n * rest of the word to lower case.\n * Words are delimited by any whitespace character, such as a space, tab, or line-feed character.\n *\n * @see {@link LowerCasePipe}\n * @see {@link UpperCasePipe}\n *\n * @usageNotes\n * The following example shows the result of transforming various strings into title case.\n *\n * \n *\n * @ngModule CommonModule\n * @publicApi\n */\nclass TitleCasePipe {\n transform(value) {\n if (value == null)\n return null;\n if (typeof value !== 'string') {\n throw invalidPipeArgumentError(TitleCasePipe, value);\n }\n return value.replace(unicodeWordMatch, (txt) => txt[0].toUpperCase() + txt.slice(1).toLowerCase());\n }\n static { this.ɵfac = i0.ɵɵngDeclareFactory({ minVersion: \"12.0.0\", version: \"18.2.1\", ngImport: i0, type: TitleCasePipe, deps: [], target: i0.ɵɵFactoryTarget.Pipe }); }\n static { this.ɵpipe = i0.ɵɵngDeclarePipe({ minVersion: \"14.0.0\", version: \"18.2.1\", ngImport: i0, type: TitleCasePipe, isStandalone: true, name: \"titlecase\" }); }\n}\ni0.ɵɵngDeclareClassMetadata({ minVersion: \"12.0.0\", version: \"18.2.1\", ngImport: i0, type: TitleCasePipe, decorators: [{\n type: Pipe,\n args: [{\n name: 'titlecase',\n standalone: true,\n }]\n }] });\n/**\n * Transforms text to all upper case.\n * @see {@link LowerCasePipe}\n * @see {@link TitleCasePipe}\n *\n * @ngModule CommonModule\n * @publicApi\n */\nclass UpperCasePipe {\n transform(value) {\n if (value == null)\n return null;\n if (typeof value !== 'string') {\n throw invalidPipeArgumentError(UpperCasePipe, value);\n }\n return value.toUpperCase();\n }\n static { this.ɵfac = i0.ɵɵngDeclareFactory({ minVersion: \"12.0.0\", version: \"18.2.1\", ngImport: i0, type: UpperCasePipe, deps: [], target: i0.ɵɵFactoryTarget.Pipe }); }\n static { this.ɵpipe = i0.ɵɵngDeclarePipe({ minVersion: \"14.0.0\", version: \"18.2.1\", ngImport: i0, type: UpperCasePipe, isStandalone: true, name: \"uppercase\" }); }\n}\ni0.ɵɵngDeclareClassMetadata({ minVersion: \"12.0.0\", version: \"18.2.1\", ngImport: i0, type: UpperCasePipe, decorators: [{\n type: Pipe,\n args: [{\n name: 'uppercase',\n standalone: true,\n }]\n }] });\n\n/**\n * The default date format of Angular date pipe, which corresponds to the following format:\n * `'MMM d,y'` (e.g. `Jun 15, 2015`)\n */\nconst DEFAULT_DATE_FORMAT = 'mediumDate';\n\n/**\n * Optionally-provided default timezone to use for all instances of `DatePipe` (such as `'+0430'`).\n * If the value isn't provided, the `DatePipe` will use the end-user's local system timezone.\n *\n * @deprecated use DATE_PIPE_DEFAULT_OPTIONS token to configure DatePipe\n */\nconst DATE_PIPE_DEFAULT_TIMEZONE = new InjectionToken(ngDevMode ? 'DATE_PIPE_DEFAULT_TIMEZONE' : '');\n/**\n * DI token that allows to provide default configuration for the `DatePipe` instances in an\n * application. The value is an object which can include the following fields:\n * - `dateFormat`: configures the default date format. If not provided, the `DatePipe`\n * will use the 'mediumDate' as a value.\n * - `timezone`: configures the default timezone. If not provided, the `DatePipe` will\n * use the end-user's local system timezone.\n *\n * @see {@link DatePipeConfig}\n *\n * @usageNotes\n *\n * Various date pipe default values can be overwritten by providing this token with\n * the value that has this interface.\n *\n * For example:\n *\n * Override the default date format by providing a value using the token:\n * ```typescript\n * providers: [\n * {provide: DATE_PIPE_DEFAULT_OPTIONS, useValue: {dateFormat: 'shortDate'}}\n * ]\n * ```\n *\n * Override the default timezone by providing a value using the token:\n * ```typescript\n * providers: [\n * {provide: DATE_PIPE_DEFAULT_OPTIONS, useValue: {timezone: '-1200'}}\n * ]\n * ```\n */\nconst DATE_PIPE_DEFAULT_OPTIONS = new InjectionToken(ngDevMode ? 'DATE_PIPE_DEFAULT_OPTIONS' : '');\n/**\n * @ngModule CommonModule\n * @description\n *\n * Formats a date value according to locale rules.\n *\n * `DatePipe` is executed only when it detects a pure change to the input value.\n * A pure change is either a change to a primitive input value\n * (such as `String`, `Number`, `Boolean`, or `Symbol`),\n * or a changed object reference (such as `Date`, `Array`, `Function`, or `Object`).\n *\n * Note that mutating a `Date` object does not cause the pipe to be rendered again.\n * To ensure that the pipe is executed, you must create a new `Date` object.\n *\n * Only the `en-US` locale data comes with Angular. To localize dates\n * in another language, you must import the corresponding locale data.\n * See the [I18n guide](guide/i18n/format-data-locale) for more information.\n *\n * The time zone of the formatted value can be specified either by passing it in as the second\n * parameter of the pipe, or by setting the default through the `DATE_PIPE_DEFAULT_OPTIONS`\n * injection token. The value that is passed in as the second parameter takes precedence over\n * the one defined using the injection token.\n *\n * @see {@link formatDate}\n *\n *\n * @usageNotes\n *\n * The result of this pipe is not reevaluated when the input is mutated. To avoid the need to\n * reformat the date on every change-detection cycle, treat the date as an immutable object\n * and change the reference when the pipe needs to run again.\n *\n * ### Pre-defined format options\n *\n * | Option | Equivalent to | Examples (given in `en-US` locale) |\n * |---------------|-------------------------------------|-------------------------------------------------|\n * | `'short'` | `'M/d/yy, h:mm a'` | `6/15/15, 9:03 AM` |\n * | `'medium'` | `'MMM d, y, h:mm:ss a'` | `Jun 15, 2015, 9:03:01 AM` |\n * | `'long'` | `'MMMM d, y, h:mm:ss a z'` | `June 15, 2015 at 9:03:01 AM GMT+1` |\n * | `'full'` | `'EEEE, MMMM d, y, h:mm:ss a zzzz'` | `Monday, June 15, 2015 at 9:03:01 AM GMT+01:00` |\n * | `'shortDate'` | `'M/d/yy'` | `6/15/15` |\n * | `'mediumDate'`| `'MMM d, y'` | `Jun 15, 2015` |\n * | `'longDate'` | `'MMMM d, y'` | `June 15, 2015` |\n * | `'fullDate'` | `'EEEE, MMMM d, y'` | `Monday, June 15, 2015` |\n * | `'shortTime'` | `'h:mm a'` | `9:03 AM` |\n * | `'mediumTime'`| `'h:mm:ss a'` | `9:03:01 AM` |\n * | `'longTime'` | `'h:mm:ss a z'` | `9:03:01 AM GMT+1` |\n * | `'fullTime'` | `'h:mm:ss a zzzz'` | `9:03:01 AM GMT+01:00` |\n *\n * ### Custom format options\n *\n * You can construct a format string using symbols to specify the components\n * of a date-time value, as described in the following table.\n * Format details depend on the locale.\n * Fields marked with (*) are only available in the extra data set for the given locale.\n *\n * | Field type | Format | Description | Example Value |\n * |-------------------------|-------------|---------------------------------------------------------------|------------------------------------------------------------|\n * | Era | G, GG & GGG | Abbreviated | AD |\n * | | GGGG | Wide | Anno Domini |\n * | | GGGGG | Narrow | A |\n * | Year | y | Numeric: minimum digits | 2, 20, 201, 2017, 20173 |\n * | | yy | Numeric: 2 digits + zero padded | 02, 20, 01, 17, 73 |\n * | | yyy | Numeric: 3 digits + zero padded | 002, 020, 201, 2017, 20173 |\n * | | yyyy | Numeric: 4 digits or more + zero padded | 0002, 0020, 0201, 2017, 20173 |\n * | ISO Week-numbering year | Y | Numeric: minimum digits | 2, 20, 201, 2017, 20173 |\n * | | YY | Numeric: 2 digits + zero padded | 02, 20, 01, 17, 73 |\n * | | YYY | Numeric: 3 digits + zero padded | 002, 020, 201, 2017, 20173 |\n * | | YYYY | Numeric: 4 digits or more + zero padded | 0002, 0020, 0201, 2017, 20173 |\n * | Month | M | Numeric: 1 digit | 9, 12 |\n * | | MM | Numeric: 2 digits + zero padded | 09, 12 |\n * | | MMM | Abbreviated | Sep |\n * | | MMMM | Wide | September |\n * | | MMMMM | Narrow | S |\n * | Month standalone | L | Numeric: 1 digit | 9, 12 |\n * | | LL | Numeric: 2 digits + zero padded | 09, 12 |\n * | | LLL | Abbreviated | Sep |\n * | | LLLL | Wide | September |\n * | | LLLLL | Narrow | S |\n * | ISO Week of year | w | Numeric: minimum digits | 1... 53 |\n * | | ww | Numeric: 2 digits + zero padded | 01... 53 |\n * | Week of month | W | Numeric: 1 digit | 1... 5 |\n * | Day of month | d | Numeric: minimum digits | 1 |\n * | | dd | Numeric: 2 digits + zero padded | 01 |\n * | Week day | E, EE & EEE | Abbreviated | Tue |\n * | | EEEE | Wide | Tuesday |\n * | | EEEEE | Narrow | T |\n * | | EEEEEE | Short | Tu |\n * | Week day standalone | c, cc | Numeric: 1 digit | 2 |\n * | | ccc | Abbreviated | Tue |\n * | | cccc | Wide | Tuesday |\n * | | ccccc | Narrow | T |\n * | | cccccc | Short | Tu |\n * | Period | a, aa & aaa | Abbreviated | am/pm or AM/PM |\n * | | aaaa | Wide (fallback to `a` when missing) | ante meridiem/post meridiem |\n * | | aaaaa | Narrow | a/p |\n * | Period* | B, BB & BBB | Abbreviated | mid. |\n * | | BBBB | Wide | am, pm, midnight, noon, morning, afternoon, evening, night |\n * | | BBBBB | Narrow | md |\n * | Period standalone* | b, bb & bbb | Abbreviated | mid. |\n * | | bbbb | Wide | am, pm, midnight, noon, morning, afternoon, evening, night |\n * | | bbbbb | Narrow | md |\n * | Hour 1-12 | h | Numeric: minimum digits | 1, 12 |\n * | | hh | Numeric: 2 digits + zero padded | 01, 12 |\n * | Hour 0-23 | H | Numeric: minimum digits | 0, 23 |\n * | | HH | Numeric: 2 digits + zero padded | 00, 23 |\n * | Minute | m | Numeric: minimum digits | 8, 59 |\n * | | mm | Numeric: 2 digits + zero padded | 08, 59 |\n * | Second | s | Numeric: minimum digits | 0... 59 |\n * | | ss | Numeric: 2 digits + zero padded | 00... 59 |\n * | Fractional seconds | S | Numeric: 1 digit | 0... 9 |\n * | | SS | Numeric: 2 digits + zero padded | 00... 99 |\n * | | SSS | Numeric: 3 digits + zero padded (= milliseconds) | 000... 999 |\n * | Zone | z, zz & zzz | Short specific non location format (fallback to O) | GMT-8 |\n * | | zzzz | Long specific non location format (fallback to OOOO) | GMT-08:00 |\n * | | Z, ZZ & ZZZ | ISO8601 basic format | -0800 |\n * | | ZZZZ | Long localized GMT format | GMT-8:00 |\n * | | ZZZZZ | ISO8601 extended format + Z indicator for offset 0 (= XXXXX) | -08:00 |\n * | | O, OO & OOO | Short localized GMT format | GMT-8 |\n * | | OOOO | Long localized GMT format | GMT-08:00 |\n *\n *\n * ### Format examples\n *\n * These examples transform a date into various formats,\n * assuming that `dateObj` is a JavaScript `Date` object for\n * year: 2015, month: 6, day: 15, hour: 21, minute: 43, second: 11,\n * given in the local time for the `en-US` locale.\n *\n * ```\n * {{ dateObj | date }} // output is 'Jun 15, 2015'\n * {{ dateObj | date:'medium' }} // output is 'Jun 15, 2015, 9:43:11 PM'\n * {{ dateObj | date:'shortTime' }} // output is '9:43 PM'\n * {{ dateObj | date:'mm:ss' }} // output is '43:11'\n * {{ dateObj | date:\"MMM dd, yyyy 'at' hh:mm a\" }} // output is 'Jun 15, 2015 at 09:43 PM'\n * ```\n *\n * ### Usage example\n *\n * The following component uses a date pipe to display the current date in different formats.\n *\n * ```\n * @Component({\n * selector: 'date-pipe',\n * template: `
    \n *

    Today is {{today | date}}

    \n *

    Or if you prefer, {{today | date:'fullDate'}}

    \n *

    The time is {{today | date:'h:mm a z'}}

    \n *
    `\n * })\n * // Get the current date and time as a date-time value.\n * export class DatePipeComponent {\n * today: number = Date.now();\n * }\n * ```\n *\n * @publicApi\n */\nclass DatePipe {\n constructor(locale, defaultTimezone, defaultOptions) {\n this.locale = locale;\n this.defaultTimezone = defaultTimezone;\n this.defaultOptions = defaultOptions;\n }\n transform(value, format, timezone, locale) {\n if (value == null || value === '' || value !== value)\n return null;\n try {\n const _format = format ?? this.defaultOptions?.dateFormat ?? DEFAULT_DATE_FORMAT;\n const _timezone = timezone ?? this.defaultOptions?.timezone ?? this.defaultTimezone ?? undefined;\n return formatDate(value, _format, locale || this.locale, _timezone);\n }\n catch (error) {\n throw invalidPipeArgumentError(DatePipe, error.message);\n }\n }\n static { this.ɵfac = i0.ɵɵngDeclareFactory({ minVersion: \"12.0.0\", version: \"18.2.1\", ngImport: i0, type: DatePipe, deps: [{ token: LOCALE_ID }, { token: DATE_PIPE_DEFAULT_TIMEZONE, optional: true }, { token: DATE_PIPE_DEFAULT_OPTIONS, optional: true }], target: i0.ɵɵFactoryTarget.Pipe }); }\n static { this.ɵpipe = i0.ɵɵngDeclarePipe({ minVersion: \"14.0.0\", version: \"18.2.1\", ngImport: i0, type: DatePipe, isStandalone: true, name: \"date\" }); }\n}\ni0.ɵɵngDeclareClassMetadata({ minVersion: \"12.0.0\", version: \"18.2.1\", ngImport: i0, type: DatePipe, decorators: [{\n type: Pipe,\n args: [{\n name: 'date',\n standalone: true,\n }]\n }], ctorParameters: () => [{ type: undefined, decorators: [{\n type: Inject,\n args: [LOCALE_ID]\n }] }, { type: undefined, decorators: [{\n type: Inject,\n args: [DATE_PIPE_DEFAULT_TIMEZONE]\n }, {\n type: Optional\n }] }, { type: undefined, decorators: [{\n type: Inject,\n args: [DATE_PIPE_DEFAULT_OPTIONS]\n }, {\n type: Optional\n }] }] });\n\nconst _INTERPOLATION_REGEXP = /#/g;\n/**\n * @ngModule CommonModule\n * @description\n *\n * Maps a value to a string that pluralizes the value according to locale rules.\n *\n * @usageNotes\n *\n * ### Example\n *\n * {@example common/pipes/ts/i18n_pipe.ts region='I18nPluralPipeComponent'}\n *\n * @publicApi\n */\nclass I18nPluralPipe {\n constructor(_localization) {\n this._localization = _localization;\n }\n /**\n * @param value the number to be formatted\n * @param pluralMap an object that mimics the ICU format, see\n * https://unicode-org.github.io/icu/userguide/format_parse/messages/.\n * @param locale a `string` defining the locale to use (uses the current {@link LOCALE_ID} by\n * default).\n */\n transform(value, pluralMap, locale) {\n if (value == null)\n return '';\n if (typeof pluralMap !== 'object' || pluralMap === null) {\n throw invalidPipeArgumentError(I18nPluralPipe, pluralMap);\n }\n const key = getPluralCategory(value, Object.keys(pluralMap), this._localization, locale);\n return pluralMap[key].replace(_INTERPOLATION_REGEXP, value.toString());\n }\n static { this.ɵfac = i0.ɵɵngDeclareFactory({ minVersion: \"12.0.0\", version: \"18.2.1\", ngImport: i0, type: I18nPluralPipe, deps: [{ token: NgLocalization }], target: i0.ɵɵFactoryTarget.Pipe }); }\n static { this.ɵpipe = i0.ɵɵngDeclarePipe({ minVersion: \"14.0.0\", version: \"18.2.1\", ngImport: i0, type: I18nPluralPipe, isStandalone: true, name: \"i18nPlural\" }); }\n}\ni0.ɵɵngDeclareClassMetadata({ minVersion: \"12.0.0\", version: \"18.2.1\", ngImport: i0, type: I18nPluralPipe, decorators: [{\n type: Pipe,\n args: [{\n name: 'i18nPlural',\n standalone: true,\n }]\n }], ctorParameters: () => [{ type: NgLocalization }] });\n\n/**\n * @ngModule CommonModule\n * @description\n *\n * Generic selector that displays the string that matches the current value.\n *\n * If none of the keys of the `mapping` match the `value`, then the content\n * of the `other` key is returned when present, otherwise an empty string is returned.\n *\n * @usageNotes\n *\n * ### Example\n *\n * {@example common/pipes/ts/i18n_pipe.ts region='I18nSelectPipeComponent'}\n *\n * @publicApi\n */\nclass I18nSelectPipe {\n /**\n * @param value a string to be internationalized.\n * @param mapping an object that indicates the text that should be displayed\n * for different values of the provided `value`.\n */\n transform(value, mapping) {\n if (value == null)\n return '';\n if (typeof mapping !== 'object' || typeof value !== 'string') {\n throw invalidPipeArgumentError(I18nSelectPipe, mapping);\n }\n if (mapping.hasOwnProperty(value)) {\n return mapping[value];\n }\n if (mapping.hasOwnProperty('other')) {\n return mapping['other'];\n }\n return '';\n }\n static { this.ɵfac = i0.ɵɵngDeclareFactory({ minVersion: \"12.0.0\", version: \"18.2.1\", ngImport: i0, type: I18nSelectPipe, deps: [], target: i0.ɵɵFactoryTarget.Pipe }); }\n static { this.ɵpipe = i0.ɵɵngDeclarePipe({ minVersion: \"14.0.0\", version: \"18.2.1\", ngImport: i0, type: I18nSelectPipe, isStandalone: true, name: \"i18nSelect\" }); }\n}\ni0.ɵɵngDeclareClassMetadata({ minVersion: \"12.0.0\", version: \"18.2.1\", ngImport: i0, type: I18nSelectPipe, decorators: [{\n type: Pipe,\n args: [{\n name: 'i18nSelect',\n standalone: true,\n }]\n }] });\n\n/**\n * @ngModule CommonModule\n * @description\n *\n * Converts a value into its JSON-format representation. Useful for debugging.\n *\n * @usageNotes\n *\n * The following component uses a JSON pipe to convert an object\n * to JSON format, and displays the string in both formats for comparison.\n *\n * {@example common/pipes/ts/json_pipe.ts region='JsonPipe'}\n *\n * @publicApi\n */\nclass JsonPipe {\n /**\n * @param value A value of any type to convert into a JSON-format string.\n */\n transform(value) {\n return JSON.stringify(value, null, 2);\n }\n static { this.ɵfac = i0.ɵɵngDeclareFactory({ minVersion: \"12.0.0\", version: \"18.2.1\", ngImport: i0, type: JsonPipe, deps: [], target: i0.ɵɵFactoryTarget.Pipe }); }\n static { this.ɵpipe = i0.ɵɵngDeclarePipe({ minVersion: \"14.0.0\", version: \"18.2.1\", ngImport: i0, type: JsonPipe, isStandalone: true, name: \"json\", pure: false }); }\n}\ni0.ɵɵngDeclareClassMetadata({ minVersion: \"12.0.0\", version: \"18.2.1\", ngImport: i0, type: JsonPipe, decorators: [{\n type: Pipe,\n args: [{\n name: 'json',\n pure: false,\n standalone: true,\n }]\n }] });\n\nfunction makeKeyValuePair(key, value) {\n return { key: key, value: value };\n}\n/**\n * @ngModule CommonModule\n * @description\n *\n * Transforms Object or Map into an array of key value pairs.\n *\n * The output array will be ordered by keys.\n * By default the comparator will be by Unicode point value.\n * You can optionally pass a compareFn if your keys are complex types.\n *\n * @usageNotes\n * ### Examples\n *\n * This examples show how an Object or a Map can be iterated by ngFor with the use of this\n * keyvalue pipe.\n *\n * {@example common/pipes/ts/keyvalue_pipe.ts region='KeyValuePipe'}\n *\n * @publicApi\n */\nclass KeyValuePipe {\n constructor(differs) {\n this.differs = differs;\n this.keyValues = [];\n this.compareFn = defaultComparator;\n }\n transform(input, compareFn = defaultComparator) {\n if (!input || (!(input instanceof Map) && typeof input !== 'object')) {\n return null;\n }\n // make a differ for whatever type we've been passed in\n this.differ ??= this.differs.find(input).create();\n const differChanges = this.differ.diff(input);\n const compareFnChanged = compareFn !== this.compareFn;\n if (differChanges) {\n this.keyValues = [];\n differChanges.forEachItem((r) => {\n this.keyValues.push(makeKeyValuePair(r.key, r.currentValue));\n });\n }\n if (differChanges || compareFnChanged) {\n this.keyValues.sort(compareFn);\n this.compareFn = compareFn;\n }\n return this.keyValues;\n }\n static { this.ɵfac = i0.ɵɵngDeclareFactory({ minVersion: \"12.0.0\", version: \"18.2.1\", ngImport: i0, type: KeyValuePipe, deps: [{ token: i0.KeyValueDiffers }], target: i0.ɵɵFactoryTarget.Pipe }); }\n static { this.ɵpipe = i0.ɵɵngDeclarePipe({ minVersion: \"14.0.0\", version: \"18.2.1\", ngImport: i0, type: KeyValuePipe, isStandalone: true, name: \"keyvalue\", pure: false }); }\n}\ni0.ɵɵngDeclareClassMetadata({ minVersion: \"12.0.0\", version: \"18.2.1\", ngImport: i0, type: KeyValuePipe, decorators: [{\n type: Pipe,\n args: [{\n name: 'keyvalue',\n pure: false,\n standalone: true,\n }]\n }], ctorParameters: () => [{ type: i0.KeyValueDiffers }] });\nfunction defaultComparator(keyValueA, keyValueB) {\n const a = keyValueA.key;\n const b = keyValueB.key;\n // if same exit with 0;\n if (a === b)\n return 0;\n // make sure that undefined are at the end of the sort.\n if (a === undefined)\n return 1;\n if (b === undefined)\n return -1;\n // make sure that nulls are at the end of the sort.\n if (a === null)\n return 1;\n if (b === null)\n return -1;\n if (typeof a == 'string' && typeof b == 'string') {\n return a < b ? -1 : 1;\n }\n if (typeof a == 'number' && typeof b == 'number') {\n return a - b;\n }\n if (typeof a == 'boolean' && typeof b == 'boolean') {\n return a < b ? -1 : 1;\n }\n // `a` and `b` are of different types. Compare their string values.\n const aString = String(a);\n const bString = String(b);\n return aString == bString ? 0 : aString < bString ? -1 : 1;\n}\n\n/**\n * @ngModule CommonModule\n * @description\n *\n * Formats a value according to digit options and locale rules.\n * Locale determines group sizing and separator,\n * decimal point character, and other locale-specific configurations.\n *\n * @see {@link formatNumber}\n *\n * @usageNotes\n *\n * ### digitsInfo\n *\n * The value's decimal representation is specified by the `digitsInfo`\n * parameter, written in the following format:
    \n *\n * ```\n * {minIntegerDigits}.{minFractionDigits}-{maxFractionDigits}\n * ```\n *\n * - `minIntegerDigits`:\n * The minimum number of integer digits before the decimal point.\n * Default is 1.\n *\n * - `minFractionDigits`:\n * The minimum number of digits after the decimal point.\n * Default is 0.\n *\n * - `maxFractionDigits`:\n * The maximum number of digits after the decimal point.\n * Default is 3.\n *\n * If the formatted value is truncated it will be rounded using the \"to-nearest\" method:\n *\n * ```\n * {{3.6 | number: '1.0-0'}}\n * \n *\n * {{-3.6 | number:'1.0-0'}}\n * \n * ```\n *\n * ### locale\n *\n * `locale` will format a value according to locale rules.\n * Locale determines group sizing and separator,\n * decimal point character, and other locale-specific configurations.\n *\n * When not supplied, uses the value of `LOCALE_ID`, which is `en-US` by default.\n *\n * See [Setting your app locale](guide/i18n/locale-id).\n *\n * ### Example\n *\n * The following code shows how the pipe transforms values\n * according to various format specifications,\n * where the caller's default locale is `en-US`.\n *\n * \n *\n * @publicApi\n */\nclass DecimalPipe {\n constructor(_locale) {\n this._locale = _locale;\n }\n /**\n * @param value The value to be formatted.\n * @param digitsInfo Sets digit and decimal representation.\n * [See more](#digitsinfo).\n * @param locale Specifies what locale format rules to use.\n * [See more](#locale).\n */\n transform(value, digitsInfo, locale) {\n if (!isValue(value))\n return null;\n locale ||= this._locale;\n try {\n const num = strToNumber(value);\n return formatNumber(num, locale, digitsInfo);\n }\n catch (error) {\n throw invalidPipeArgumentError(DecimalPipe, error.message);\n }\n }\n static { this.ɵfac = i0.ɵɵngDeclareFactory({ minVersion: \"12.0.0\", version: \"18.2.1\", ngImport: i0, type: DecimalPipe, deps: [{ token: LOCALE_ID }], target: i0.ɵɵFactoryTarget.Pipe }); }\n static { this.ɵpipe = i0.ɵɵngDeclarePipe({ minVersion: \"14.0.0\", version: \"18.2.1\", ngImport: i0, type: DecimalPipe, isStandalone: true, name: \"number\" }); }\n}\ni0.ɵɵngDeclareClassMetadata({ minVersion: \"12.0.0\", version: \"18.2.1\", ngImport: i0, type: DecimalPipe, decorators: [{\n type: Pipe,\n args: [{\n name: 'number',\n standalone: true,\n }]\n }], ctorParameters: () => [{ type: undefined, decorators: [{\n type: Inject,\n args: [LOCALE_ID]\n }] }] });\n/**\n * @ngModule CommonModule\n * @description\n *\n * Transforms a number to a percentage\n * string, formatted according to locale rules that determine group sizing and\n * separator, decimal-point character, and other locale-specific\n * configurations.\n *\n * @see {@link formatPercent}\n *\n * @usageNotes\n * The following code shows how the pipe transforms numbers\n * into text strings, according to various format specifications,\n * where the caller's default locale is `en-US`.\n *\n * \n *\n * @publicApi\n */\nclass PercentPipe {\n constructor(_locale) {\n this._locale = _locale;\n }\n /**\n *\n * @param value The number to be formatted as a percentage.\n * @param digitsInfo Decimal representation options, specified by a string\n * in the following format:
    \n * {minIntegerDigits}.{minFractionDigits}-{maxFractionDigits}.\n * - `minIntegerDigits`: The minimum number of integer digits before the decimal point.\n * Default is `1`.\n * - `minFractionDigits`: The minimum number of digits after the decimal point.\n * Default is `0`.\n * - `maxFractionDigits`: The maximum number of digits after the decimal point.\n * Default is `0`.\n * @param locale A locale code for the locale format rules to use.\n * When not supplied, uses the value of `LOCALE_ID`, which is `en-US` by default.\n * See [Setting your app locale](guide/i18n/locale-id).\n */\n transform(value, digitsInfo, locale) {\n if (!isValue(value))\n return null;\n locale ||= this._locale;\n try {\n const num = strToNumber(value);\n return formatPercent(num, locale, digitsInfo);\n }\n catch (error) {\n throw invalidPipeArgumentError(PercentPipe, error.message);\n }\n }\n static { this.ɵfac = i0.ɵɵngDeclareFactory({ minVersion: \"12.0.0\", version: \"18.2.1\", ngImport: i0, type: PercentPipe, deps: [{ token: LOCALE_ID }], target: i0.ɵɵFactoryTarget.Pipe }); }\n static { this.ɵpipe = i0.ɵɵngDeclarePipe({ minVersion: \"14.0.0\", version: \"18.2.1\", ngImport: i0, type: PercentPipe, isStandalone: true, name: \"percent\" }); }\n}\ni0.ɵɵngDeclareClassMetadata({ minVersion: \"12.0.0\", version: \"18.2.1\", ngImport: i0, type: PercentPipe, decorators: [{\n type: Pipe,\n args: [{\n name: 'percent',\n standalone: true,\n }]\n }], ctorParameters: () => [{ type: undefined, decorators: [{\n type: Inject,\n args: [LOCALE_ID]\n }] }] });\n/**\n * @ngModule CommonModule\n * @description\n *\n * Transforms a number to a currency string, formatted according to locale rules\n * that determine group sizing and separator, decimal-point character,\n * and other locale-specific configurations.\n *\n *\n * @see {@link getCurrencySymbol}\n * @see {@link formatCurrency}\n *\n * @usageNotes\n * The following code shows how the pipe transforms numbers\n * into text strings, according to various format specifications,\n * where the caller's default locale is `en-US`.\n *\n * \n *\n * @publicApi\n */\nclass CurrencyPipe {\n constructor(_locale, _defaultCurrencyCode = 'USD') {\n this._locale = _locale;\n this._defaultCurrencyCode = _defaultCurrencyCode;\n }\n /**\n *\n * @param value The number to be formatted as currency.\n * @param currencyCode The [ISO 4217](https://en.wikipedia.org/wiki/ISO_4217) currency code,\n * such as `USD` for the US dollar and `EUR` for the euro. The default currency code can be\n * configured using the `DEFAULT_CURRENCY_CODE` injection token.\n * @param display The format for the currency indicator. One of the following:\n * - `code`: Show the code (such as `USD`).\n * - `symbol`(default): Show the symbol (such as `$`).\n * - `symbol-narrow`: Use the narrow symbol for locales that have two symbols for their\n * currency.\n * For example, the Canadian dollar CAD has the symbol `CA$` and the symbol-narrow `$`. If the\n * locale has no narrow symbol, uses the standard symbol for the locale.\n * - String: Use the given string value instead of a code or a symbol.\n * For example, an empty string will suppress the currency & symbol.\n * - Boolean (marked deprecated in v5): `true` for symbol and false for `code`.\n *\n * @param digitsInfo Decimal representation options, specified by a string\n * in the following format:
    \n * {minIntegerDigits}.{minFractionDigits}-{maxFractionDigits}.\n * - `minIntegerDigits`: The minimum number of integer digits before the decimal point.\n * Default is `1`.\n * - `minFractionDigits`: The minimum number of digits after the decimal point.\n * Default is `2`.\n * - `maxFractionDigits`: The maximum number of digits after the decimal point.\n * Default is `2`.\n * If not provided, the number will be formatted with the proper amount of digits,\n * depending on what the [ISO 4217](https://en.wikipedia.org/wiki/ISO_4217) specifies.\n * For example, the Canadian dollar has 2 digits, whereas the Chilean peso has none.\n * @param locale A locale code for the locale format rules to use.\n * When not supplied, uses the value of `LOCALE_ID`, which is `en-US` by default.\n * See [Setting your app locale](guide/i18n/locale-id).\n */\n transform(value, currencyCode = this._defaultCurrencyCode, display = 'symbol', digitsInfo, locale) {\n if (!isValue(value))\n return null;\n locale ||= this._locale;\n if (typeof display === 'boolean') {\n if ((typeof ngDevMode === 'undefined' || ngDevMode) && console && console.warn) {\n console.warn(`Warning: the currency pipe has been changed in Angular v5. The symbolDisplay option (third parameter) is now a string instead of a boolean. The accepted values are \"code\", \"symbol\" or \"symbol-narrow\".`);\n }\n display = display ? 'symbol' : 'code';\n }\n let currency = currencyCode || this._defaultCurrencyCode;\n if (display !== 'code') {\n if (display === 'symbol' || display === 'symbol-narrow') {\n currency = getCurrencySymbol(currency, display === 'symbol' ? 'wide' : 'narrow', locale);\n }\n else {\n currency = display;\n }\n }\n try {\n const num = strToNumber(value);\n return formatCurrency(num, locale, currency, currencyCode, digitsInfo);\n }\n catch (error) {\n throw invalidPipeArgumentError(CurrencyPipe, error.message);\n }\n }\n static { this.ɵfac = i0.ɵɵngDeclareFactory({ minVersion: \"12.0.0\", version: \"18.2.1\", ngImport: i0, type: CurrencyPipe, deps: [{ token: LOCALE_ID }, { token: DEFAULT_CURRENCY_CODE }], target: i0.ɵɵFactoryTarget.Pipe }); }\n static { this.ɵpipe = i0.ɵɵngDeclarePipe({ minVersion: \"14.0.0\", version: \"18.2.1\", ngImport: i0, type: CurrencyPipe, isStandalone: true, name: \"currency\" }); }\n}\ni0.ɵɵngDeclareClassMetadata({ minVersion: \"12.0.0\", version: \"18.2.1\", ngImport: i0, type: CurrencyPipe, decorators: [{\n type: Pipe,\n args: [{\n name: 'currency',\n standalone: true,\n }]\n }], ctorParameters: () => [{ type: undefined, decorators: [{\n type: Inject,\n args: [LOCALE_ID]\n }] }, { type: undefined, decorators: [{\n type: Inject,\n args: [DEFAULT_CURRENCY_CODE]\n }] }] });\nfunction isValue(value) {\n return !(value == null || value === '' || value !== value);\n}\n/**\n * Transforms a string into a number (if needed).\n */\nfunction strToNumber(value) {\n // Convert strings to numbers\n if (typeof value === 'string' && !isNaN(Number(value) - parseFloat(value))) {\n return Number(value);\n }\n if (typeof value !== 'number') {\n throw new Error(`${value} is not a number`);\n }\n return value;\n}\n\n/**\n * @ngModule CommonModule\n * @description\n *\n * Creates a new `Array` or `String` containing a subset (slice) of the elements.\n *\n * @usageNotes\n *\n * All behavior is based on the expected behavior of the JavaScript API `Array.prototype.slice()`\n * and `String.prototype.slice()`.\n *\n * When operating on an `Array`, the returned `Array` is always a copy even when all\n * the elements are being returned.\n *\n * When operating on a blank value, the pipe returns the blank value.\n *\n * ### List Example\n *\n * This `ngFor` example:\n *\n * {@example common/pipes/ts/slice_pipe.ts region='SlicePipe_list'}\n *\n * produces the following:\n *\n * ```html\n *
  • b
    • \n *
  • c
    • \n * ```\n *\n * ### String Examples\n *\n * {@example common/pipes/ts/slice_pipe.ts region='SlicePipe_string'}\n *\n * @publicApi\n */\nclass SlicePipe {\n transform(value, start, end) {\n if (value == null)\n return null;\n if (!this.supports(value)) {\n throw invalidPipeArgumentError(SlicePipe, value);\n }\n return value.slice(start, end);\n }\n supports(obj) {\n return typeof obj === 'string' || Array.isArray(obj);\n }\n static { this.ɵfac = i0.ɵɵngDeclareFactory({ minVersion: \"12.0.0\", version: \"18.2.1\", ngImport: i0, type: SlicePipe, deps: [], target: i0.ɵɵFactoryTarget.Pipe }); }\n static { this.ɵpipe = i0.ɵɵngDeclarePipe({ minVersion: \"14.0.0\", version: \"18.2.1\", ngImport: i0, type: SlicePipe, isStandalone: true, name: \"slice\", pure: false }); }\n}\ni0.ɵɵngDeclareClassMetadata({ minVersion: \"12.0.0\", version: \"18.2.1\", ngImport: i0, type: SlicePipe, decorators: [{\n type: Pipe,\n args: [{\n name: 'slice',\n pure: false,\n standalone: true,\n }]\n }] });\n\n/**\n * @module\n * @description\n * This module provides a set of common Pipes.\n */\n/**\n * A collection of Angular pipes that are likely to be used in each and every application.\n */\nconst COMMON_PIPES = [\n AsyncPipe,\n UpperCasePipe,\n LowerCasePipe,\n JsonPipe,\n SlicePipe,\n DecimalPipe,\n PercentPipe,\n TitleCasePipe,\n CurrencyPipe,\n DatePipe,\n I18nPluralPipe,\n I18nSelectPipe,\n KeyValuePipe,\n];\n\n// Note: This does not contain the location providers,\n// as they need some platform specific implementations to work.\n/**\n * Exports all the basic Angular directives and pipes,\n * such as `NgIf`, `NgForOf`, `DecimalPipe`, and so on.\n * Re-exported by `BrowserModule`, which is included automatically in the root\n * `AppModule` when you create a new app with the CLI `new` command.\n *\n * @publicApi\n */\nclass CommonModule {\n static { this.ɵfac = i0.ɵɵngDeclareFactory({ minVersion: \"12.0.0\", version: \"18.2.1\", ngImport: i0, type: CommonModule, deps: [], target: i0.ɵɵFactoryTarget.NgModule }); }\n static { this.ɵmod = i0.ɵɵngDeclareNgModule({ minVersion: \"14.0.0\", version: \"18.2.1\", ngImport: i0, type: CommonModule, imports: [NgClass, NgComponentOutlet, NgForOf, NgIf, NgTemplateOutlet, NgStyle, NgSwitch, NgSwitchCase, NgSwitchDefault, NgPlural, NgPluralCase, AsyncPipe, UpperCasePipe, LowerCasePipe, JsonPipe, SlicePipe, DecimalPipe, PercentPipe, TitleCasePipe, CurrencyPipe, DatePipe, I18nPluralPipe, I18nSelectPipe, KeyValuePipe], exports: [NgClass, NgComponentOutlet, NgForOf, NgIf, NgTemplateOutlet, NgStyle, NgSwitch, NgSwitchCase, NgSwitchDefault, NgPlural, NgPluralCase, AsyncPipe, UpperCasePipe, LowerCasePipe, JsonPipe, SlicePipe, DecimalPipe, PercentPipe, TitleCasePipe, CurrencyPipe, DatePipe, I18nPluralPipe, I18nSelectPipe, KeyValuePipe] }); }\n static { this.ɵinj = i0.ɵɵngDeclareInjector({ minVersion: \"12.0.0\", version: \"18.2.1\", ngImport: i0, type: CommonModule }); }\n}\ni0.ɵɵngDeclareClassMetadata({ minVersion: \"12.0.0\", version: \"18.2.1\", ngImport: i0, type: CommonModule, decorators: [{\n type: NgModule,\n args: [{\n imports: [COMMON_DIRECTIVES, COMMON_PIPES],\n exports: [COMMON_DIRECTIVES, COMMON_PIPES],\n }]\n }] });\n\nconst PLATFORM_BROWSER_ID = 'browser';\nconst PLATFORM_SERVER_ID = 'server';\n/**\n * Returns whether a platform id represents a browser platform.\n * @publicApi\n */\nfunction isPlatformBrowser(platformId) {\n return platformId === PLATFORM_BROWSER_ID;\n}\n/**\n * Returns whether a platform id represents a server platform.\n * @publicApi\n */\nfunction isPlatformServer(platformId) {\n return platformId === PLATFORM_SERVER_ID;\n}\n\n/**\n * @module\n * @description\n * Entry point for all public APIs of the common package.\n */\n/**\n * @publicApi\n */\nconst VERSION = new Version('18.2.1');\n\n/**\n * Defines a scroll position manager. Implemented by `BrowserViewportScroller`.\n *\n * @publicApi\n */\nclass ViewportScroller {\n // De-sugared tree-shakable injection\n // See #23917\n /** @nocollapse */\n static { this.ɵprov = ɵɵdefineInjectable({\n token: ViewportScroller,\n providedIn: 'root',\n factory: () => isPlatformBrowser(inject(PLATFORM_ID))\n ? new BrowserViewportScroller(inject(DOCUMENT), window)\n : new NullViewportScroller(),\n }); }\n}\n/**\n * Manages the scroll position for a browser window.\n */\nclass BrowserViewportScroller {\n constructor(document, window) {\n this.document = document;\n this.window = window;\n this.offset = () => [0, 0];\n }\n /**\n * Configures the top offset used when scrolling to an anchor.\n * @param offset A position in screen coordinates (a tuple with x and y values)\n * or a function that returns the top offset position.\n *\n */\n setOffset(offset) {\n if (Array.isArray(offset)) {\n this.offset = () => offset;\n }\n else {\n this.offset = offset;\n }\n }\n /**\n * Retrieves the current scroll position.\n * @returns The position in screen coordinates.\n */\n getScrollPosition() {\n return [this.window.scrollX, this.window.scrollY];\n }\n /**\n * Sets the scroll position.\n * @param position The new position in screen coordinates.\n */\n scrollToPosition(position) {\n this.window.scrollTo(position[0], position[1]);\n }\n /**\n * Scrolls to an element and attempts to focus the element.\n *\n * Note that the function name here is misleading in that the target string may be an ID for a\n * non-anchor element.\n *\n * @param target The ID of an element or name of the anchor.\n *\n * @see https://html.spec.whatwg.org/#the-indicated-part-of-the-document\n * @see https://html.spec.whatwg.org/#scroll-to-fragid\n */\n scrollToAnchor(target) {\n const elSelected = findAnchorFromDocument(this.document, target);\n if (elSelected) {\n this.scrollToElement(elSelected);\n // After scrolling to the element, the spec dictates that we follow the focus steps for the\n // target. Rather than following the robust steps, simply attempt focus.\n //\n // @see https://html.spec.whatwg.org/#get-the-focusable-area\n // @see https://developer.mozilla.org/en-US/docs/Web/API/HTMLOrForeignElement/focus\n // @see https://html.spec.whatwg.org/#focusable-area\n elSelected.focus();\n }\n }\n /**\n * Disables automatic scroll restoration provided by the browser.\n */\n setHistoryScrollRestoration(scrollRestoration) {\n this.window.history.scrollRestoration = scrollRestoration;\n }\n /**\n * Scrolls to an element using the native offset and the specified offset set on this scroller.\n *\n * The offset can be used when we know that there is a floating header and scrolling naively to an\n * element (ex: `scrollIntoView`) leaves the element hidden behind the floating header.\n */\n scrollToElement(el) {\n const rect = el.getBoundingClientRect();\n const left = rect.left + this.window.pageXOffset;\n const top = rect.top + this.window.pageYOffset;\n const offset = this.offset();\n this.window.scrollTo(left - offset[0], top - offset[1]);\n }\n}\nfunction findAnchorFromDocument(document, target) {\n const documentResult = document.getElementById(target) || document.getElementsByName(target)[0];\n if (documentResult) {\n return documentResult;\n }\n // `getElementById` and `getElementsByName` won't pierce through the shadow DOM so we\n // have to traverse the DOM manually and do the lookup through the shadow roots.\n if (typeof document.createTreeWalker === 'function' &&\n document.body &&\n typeof document.body.attachShadow === 'function') {\n const treeWalker = document.createTreeWalker(document.body, NodeFilter.SHOW_ELEMENT);\n let currentNode = treeWalker.currentNode;\n while (currentNode) {\n const shadowRoot = currentNode.shadowRoot;\n if (shadowRoot) {\n // Note that `ShadowRoot` doesn't support `getElementsByName`\n // so we have to fall back to `querySelector`.\n const result = shadowRoot.getElementById(target) || shadowRoot.querySelector(`[name=\"${target}\"]`);\n if (result) {\n return result;\n }\n }\n currentNode = treeWalker.nextNode();\n }\n }\n return null;\n}\n/**\n * Provides an empty implementation of the viewport scroller.\n */\nclass NullViewportScroller {\n /**\n * Empty implementation\n */\n setOffset(offset) { }\n /**\n * Empty implementation\n */\n getScrollPosition() {\n return [0, 0];\n }\n /**\n * Empty implementation\n */\n scrollToPosition(position) { }\n /**\n * Empty implementation\n */\n scrollToAnchor(anchor) { }\n /**\n * Empty implementation\n */\n setHistoryScrollRestoration(scrollRestoration) { }\n}\n\n/**\n * A wrapper around the `XMLHttpRequest` constructor.\n *\n * @publicApi\n */\nclass XhrFactory {\n}\n\n/**\n * Value (out of 100) of the requested quality for placeholder images.\n */\nconst PLACEHOLDER_QUALITY = '20';\n\n// Converts a string that represents a URL into a URL class instance.\nfunction getUrl(src, win) {\n // Don't use a base URL is the URL is absolute.\n return isAbsoluteUrl(src) ? new URL(src) : new URL(src, win.location.href);\n}\n// Checks whether a URL is absolute (i.e. starts with `http://` or `https://`).\nfunction isAbsoluteUrl(src) {\n return /^https?:\\/\\//.test(src);\n}\n// Given a URL, extract the hostname part.\n// If a URL is a relative one - the URL is returned as is.\nfunction extractHostname(url) {\n return isAbsoluteUrl(url) ? new URL(url).hostname : url;\n}\nfunction isValidPath(path) {\n const isString = typeof path === 'string';\n if (!isString || path.trim() === '') {\n return false;\n }\n // Calling new URL() will throw if the path string is malformed\n try {\n const url = new URL(path);\n return true;\n }\n catch {\n return false;\n }\n}\nfunction normalizePath(path) {\n return path.endsWith('/') ? path.slice(0, -1) : path;\n}\nfunction normalizeSrc(src) {\n return src.startsWith('/') ? src.slice(1) : src;\n}\n\n/**\n * Noop image loader that does no transformation to the original src and just returns it as is.\n * This loader is used as a default one if more specific logic is not provided in an app config.\n *\n * @see {@link ImageLoader}\n * @see {@link NgOptimizedImage}\n */\nconst noopImageLoader = (config) => config.src;\n/**\n * Injection token that configures the image loader function.\n *\n * @see {@link ImageLoader}\n * @see {@link NgOptimizedImage}\n * @publicApi\n */\nconst IMAGE_LOADER = new InjectionToken(ngDevMode ? 'ImageLoader' : '', {\n providedIn: 'root',\n factory: () => noopImageLoader,\n});\n/**\n * Internal helper function that makes it easier to introduce custom image loaders for the\n * `NgOptimizedImage` directive. It is enough to specify a URL builder function to obtain full DI\n * configuration for a given loader: a DI token corresponding to the actual loader function, plus DI\n * tokens managing preconnect check functionality.\n * @param buildUrlFn a function returning a full URL based on loader's configuration\n * @param exampleUrls example of full URLs for a given loader (used in error messages)\n * @returns a set of DI providers corresponding to the configured image loader\n */\nfunction createImageLoader(buildUrlFn, exampleUrls) {\n return function provideImageLoader(path) {\n if (!isValidPath(path)) {\n throwInvalidPathError(path, exampleUrls || []);\n }\n // The trailing / is stripped (if provided) to make URL construction (concatenation) easier in\n // the individual loader functions.\n path = normalizePath(path);\n const loaderFn = (config) => {\n if (isAbsoluteUrl(config.src)) {\n // Image loader functions expect an image file name (e.g. `my-image.png`)\n // or a relative path + a file name (e.g. `/a/b/c/my-image.png`) as an input,\n // so the final absolute URL can be constructed.\n // When an absolute URL is provided instead - the loader can not\n // build a final URL, thus the error is thrown to indicate that.\n throwUnexpectedAbsoluteUrlError(path, config.src);\n }\n return buildUrlFn(path, { ...config, src: normalizeSrc(config.src) });\n };\n const providers = [{ provide: IMAGE_LOADER, useValue: loaderFn }];\n return providers;\n };\n}\nfunction throwInvalidPathError(path, exampleUrls) {\n throw new ɵRuntimeError(2959 /* RuntimeErrorCode.INVALID_LOADER_ARGUMENTS */, ngDevMode &&\n `Image loader has detected an invalid path (\\`${path}\\`). ` +\n `To fix this, supply a path using one of the following formats: ${exampleUrls.join(' or ')}`);\n}\nfunction throwUnexpectedAbsoluteUrlError(path, url) {\n throw new ɵRuntimeError(2959 /* RuntimeErrorCode.INVALID_LOADER_ARGUMENTS */, ngDevMode &&\n `Image loader has detected a \\`\\` tag with an invalid \\`ngSrc\\` attribute: ${url}. ` +\n `This image loader expects \\`ngSrc\\` to be a relative URL - ` +\n `however the provided value is an absolute URL. ` +\n `To fix this, provide \\`ngSrc\\` as a path relative to the base URL ` +\n `configured for this loader (\\`${path}\\`).`);\n}\n\n/**\n * Function that generates an ImageLoader for [Cloudflare Image\n * Resizing](https://developers.cloudflare.com/images/image-resizing/) and turns it into an Angular\n * provider. Note: Cloudflare has multiple image products - this provider is specifically for\n * Cloudflare Image Resizing; it will not work with Cloudflare Images or Cloudflare Polish.\n *\n * @param path Your domain name, e.g. https://mysite.com\n * @returns Provider that provides an ImageLoader function\n *\n * @publicApi\n */\nconst provideCloudflareLoader = createImageLoader(createCloudflareUrl, ngDevMode ? ['https:///cdn-cgi/image//'] : undefined);\nfunction createCloudflareUrl(path, config) {\n let params = `format=auto`;\n if (config.width) {\n params += `,width=${config.width}`;\n }\n // When requesting a placeholder image we ask for a low quality image to reduce the load time.\n if (config.isPlaceholder) {\n params += `,quality=${PLACEHOLDER_QUALITY}`;\n }\n // Cloudflare image URLs format:\n // https://developers.cloudflare.com/images/image-resizing/url-format/\n return `${path}/cdn-cgi/image/${params}/${config.src}`;\n}\n\n/**\n * Name and URL tester for Cloudinary.\n */\nconst cloudinaryLoaderInfo = {\n name: 'Cloudinary',\n testUrl: isCloudinaryUrl,\n};\nconst CLOUDINARY_LOADER_REGEX = /https?\\:\\/\\/[^\\/]+\\.cloudinary\\.com\\/.+/;\n/**\n * Tests whether a URL is from Cloudinary CDN.\n */\nfunction isCloudinaryUrl(url) {\n return CLOUDINARY_LOADER_REGEX.test(url);\n}\n/**\n * Function that generates an ImageLoader for Cloudinary and turns it into an Angular provider.\n *\n * @param path Base URL of your Cloudinary images\n * This URL should match one of the following formats:\n * https://res.cloudinary.com/mysite\n * https://mysite.cloudinary.com\n * https://subdomain.mysite.com\n * @returns Set of providers to configure the Cloudinary loader.\n *\n * @publicApi\n */\nconst provideCloudinaryLoader = createImageLoader(createCloudinaryUrl, ngDevMode\n ? [\n 'https://res.cloudinary.com/mysite',\n 'https://mysite.cloudinary.com',\n 'https://subdomain.mysite.com',\n ]\n : undefined);\nfunction createCloudinaryUrl(path, config) {\n // Cloudinary image URLformat:\n // https://cloudinary.com/documentation/image_transformations#transformation_url_structure\n // Example of a Cloudinary image URL:\n // https://res.cloudinary.com/mysite/image/upload/c_scale,f_auto,q_auto,w_600/marketing/tile-topics-m.png\n // For a placeholder image, we use the lowest image setting available to reduce the load time\n // else we use the auto size\n const quality = config.isPlaceholder ? 'q_auto:low' : 'q_auto';\n let params = `f_auto,${quality}`;\n if (config.width) {\n params += `,w_${config.width}`;\n }\n return `${path}/image/upload/${params}/${config.src}`;\n}\n\n/**\n * Name and URL tester for ImageKit.\n */\nconst imageKitLoaderInfo = {\n name: 'ImageKit',\n testUrl: isImageKitUrl,\n};\nconst IMAGE_KIT_LOADER_REGEX = /https?\\:\\/\\/[^\\/]+\\.imagekit\\.io\\/.+/;\n/**\n * Tests whether a URL is from ImageKit CDN.\n */\nfunction isImageKitUrl(url) {\n return IMAGE_KIT_LOADER_REGEX.test(url);\n}\n/**\n * Function that generates an ImageLoader for ImageKit and turns it into an Angular provider.\n *\n * @param path Base URL of your ImageKit images\n * This URL should match one of the following formats:\n * https://ik.imagekit.io/myaccount\n * https://subdomain.mysite.com\n * @returns Set of providers to configure the ImageKit loader.\n *\n * @publicApi\n */\nconst provideImageKitLoader = createImageLoader(createImagekitUrl, ngDevMode ? ['https://ik.imagekit.io/mysite', 'https://subdomain.mysite.com'] : undefined);\nfunction createImagekitUrl(path, config) {\n // Example of an ImageKit image URL:\n // https://ik.imagekit.io/demo/tr:w-300,h-300/medium_cafe_B1iTdD0C.jpg\n const { src, width } = config;\n const params = [];\n if (width) {\n params.push(`w-${width}`);\n }\n // When requesting a placeholder image we ask for a low quality image to reduce the load time.\n if (config.isPlaceholder) {\n params.push(`q-${PLACEHOLDER_QUALITY}`);\n }\n const urlSegments = params.length ? [path, `tr:${params.join(',')}`, src] : [path, src];\n const url = new URL(urlSegments.join('/'));\n return url.href;\n}\n\n/**\n * Name and URL tester for Imgix.\n */\nconst imgixLoaderInfo = {\n name: 'Imgix',\n testUrl: isImgixUrl,\n};\nconst IMGIX_LOADER_REGEX = /https?\\:\\/\\/[^\\/]+\\.imgix\\.net\\/.+/;\n/**\n * Tests whether a URL is from Imgix CDN.\n */\nfunction isImgixUrl(url) {\n return IMGIX_LOADER_REGEX.test(url);\n}\n/**\n * Function that generates an ImageLoader for Imgix and turns it into an Angular provider.\n *\n * @param path path to the desired Imgix origin,\n * e.g. https://somepath.imgix.net or https://images.mysite.com\n * @returns Set of providers to configure the Imgix loader.\n *\n * @publicApi\n */\nconst provideImgixLoader = createImageLoader(createImgixUrl, ngDevMode ? ['https://somepath.imgix.net/'] : undefined);\nfunction createImgixUrl(path, config) {\n const url = new URL(`${path}/${config.src}`);\n // This setting ensures the smallest allowable format is set.\n url.searchParams.set('auto', 'format');\n if (config.width) {\n url.searchParams.set('w', config.width.toString());\n }\n // When requesting a placeholder image we ask a low quality image to reduce the load time.\n if (config.isPlaceholder) {\n url.searchParams.set('q', PLACEHOLDER_QUALITY);\n }\n return url.href;\n}\n\n/**\n * Name and URL tester for Netlify.\n */\nconst netlifyLoaderInfo = {\n name: 'Netlify',\n testUrl: isNetlifyUrl,\n};\nconst NETLIFY_LOADER_REGEX = /https?\\:\\/\\/[^\\/]+\\.netlify\\.app\\/.+/;\n/**\n * Tests whether a URL is from a Netlify site. This won't catch sites with a custom domain,\n * but it's a good start for sites in development. This is only used to warn users who haven't\n * configured an image loader.\n */\nfunction isNetlifyUrl(url) {\n return NETLIFY_LOADER_REGEX.test(url);\n}\n/**\n * Function that generates an ImageLoader for Netlify and turns it into an Angular provider.\n *\n * @param path optional URL of the desired Netlify site. Defaults to the current site.\n * @returns Set of providers to configure the Netlify loader.\n *\n * @publicApi\n */\nfunction provideNetlifyLoader(path) {\n if (path && !isValidPath(path)) {\n throw new ɵRuntimeError(2959 /* RuntimeErrorCode.INVALID_LOADER_ARGUMENTS */, ngDevMode &&\n `Image loader has detected an invalid path (\\`${path}\\`). ` +\n `To fix this, supply either the full URL to the Netlify site, or leave it empty to use the current site.`);\n }\n if (path) {\n const url = new URL(path);\n path = url.origin;\n }\n const loaderFn = (config) => {\n return createNetlifyUrl(config, path);\n };\n const providers = [{ provide: IMAGE_LOADER, useValue: loaderFn }];\n return providers;\n}\nconst validParams = new Map([\n ['height', 'h'],\n ['fit', 'fit'],\n ['quality', 'q'],\n ['q', 'q'],\n ['position', 'position'],\n]);\nfunction createNetlifyUrl(config, path) {\n // Note: `path` can be undefined, in which case we use a fake one to construct a `URL` instance.\n const url = new URL(path ?? 'https://a/');\n url.pathname = '/.netlify/images';\n if (!isAbsoluteUrl(config.src) && !config.src.startsWith('/')) {\n config.src = '/' + config.src;\n }\n url.searchParams.set('url', config.src);\n if (config.width) {\n url.searchParams.set('w', config.width.toString());\n }\n // When requesting a placeholder image we ask for a low quality image to reduce the load time.\n // If the quality is specified in the loader config - always use provided value.\n const configQuality = config.loaderParams?.['quality'] ?? config.loaderParams?.['q'];\n if (config.isPlaceholder && !configQuality) {\n url.searchParams.set('q', PLACEHOLDER_QUALITY);\n }\n for (const [param, value] of Object.entries(config.loaderParams ?? {})) {\n if (validParams.has(param)) {\n url.searchParams.set(validParams.get(param), value.toString());\n }\n else {\n if (ngDevMode) {\n console.warn(ɵformatRuntimeError(2959 /* RuntimeErrorCode.INVALID_LOADER_ARGUMENTS */, `The Netlify image loader has detected an \\`\\` tag with the unsupported attribute \"\\`${param}\\`\".`));\n }\n }\n }\n // The \"a\" hostname is used for relative URLs, so we can remove it from the final URL.\n return url.hostname === 'a' ? url.href.replace(url.origin, '') : url.href;\n}\n\n// Assembles directive details string, useful for error messages.\nfunction imgDirectiveDetails(ngSrc, includeNgSrc = true) {\n const ngSrcInfo = includeNgSrc\n ? `(activated on an element with the \\`ngSrc=\"${ngSrc}\"\\`) `\n : '';\n return `The NgOptimizedImage directive ${ngSrcInfo}has detected that`;\n}\n\n/**\n * Asserts that the application is in development mode. Throws an error if the application is in\n * production mode. This assert can be used to make sure that there is no dev-mode code invoked in\n * the prod mode accidentally.\n */\nfunction assertDevMode(checkName) {\n if (!ngDevMode) {\n throw new ɵRuntimeError(2958 /* RuntimeErrorCode.UNEXPECTED_DEV_MODE_CHECK_IN_PROD_MODE */, `Unexpected invocation of the ${checkName} in the prod mode. ` +\n `Please make sure that the prod mode is enabled for production builds.`);\n }\n}\n\n/**\n * Observer that detects whether an image with `NgOptimizedImage`\n * is treated as a Largest Contentful Paint (LCP) element. If so,\n * asserts that the image has the `priority` attribute.\n *\n * Note: this is a dev-mode only class and it does not appear in prod bundles,\n * thus there is no `ngDevMode` use in the code.\n *\n * Based on https://web.dev/lcp/#measure-lcp-in-javascript.\n */\nclass LCPImageObserver {\n constructor() {\n // Map of full image URLs -> original `ngSrc` values.\n this.images = new Map();\n this.window = null;\n this.observer = null;\n const isBrowser = isPlatformBrowser(inject(PLATFORM_ID));\n assertDevMode('LCP checker');\n const win = inject(DOCUMENT).defaultView;\n if (isBrowser && typeof PerformanceObserver !== 'undefined') {\n this.window = win;\n this.observer = this.initPerformanceObserver();\n }\n }\n /**\n * Inits PerformanceObserver and subscribes to LCP events.\n * Based on https://web.dev/lcp/#measure-lcp-in-javascript\n */\n initPerformanceObserver() {\n const observer = new PerformanceObserver((entryList) => {\n const entries = entryList.getEntries();\n if (entries.length === 0)\n return;\n // We use the latest entry produced by the `PerformanceObserver` as the best\n // signal on which element is actually an LCP one. As an example, the first image to load on\n // a page, by virtue of being the only thing on the page so far, is often a LCP candidate\n // and gets reported by PerformanceObserver, but isn't necessarily the LCP element.\n const lcpElement = entries[entries.length - 1];\n // Cast to `any` due to missing `element` on the `LargestContentfulPaint` type of entry.\n // See https://developer.mozilla.org/en-US/docs/Web/API/LargestContentfulPaint\n const imgSrc = lcpElement.element?.src ?? '';\n // Exclude `data:` and `blob:` URLs, since they are not supported by the directive.\n if (imgSrc.startsWith('data:') || imgSrc.startsWith('blob:'))\n return;\n const img = this.images.get(imgSrc);\n if (!img)\n return;\n if (!img.priority && !img.alreadyWarnedPriority) {\n img.alreadyWarnedPriority = true;\n logMissingPriorityError(imgSrc);\n }\n if (img.modified && !img.alreadyWarnedModified) {\n img.alreadyWarnedModified = true;\n logModifiedWarning(imgSrc);\n }\n });\n observer.observe({ type: 'largest-contentful-paint', buffered: true });\n return observer;\n }\n registerImage(rewrittenSrc, originalNgSrc, isPriority) {\n if (!this.observer)\n return;\n const newObservedImageState = {\n priority: isPriority,\n modified: false,\n alreadyWarnedModified: false,\n alreadyWarnedPriority: false,\n };\n this.images.set(getUrl(rewrittenSrc, this.window).href, newObservedImageState);\n }\n unregisterImage(rewrittenSrc) {\n if (!this.observer)\n return;\n this.images.delete(getUrl(rewrittenSrc, this.window).href);\n }\n updateImage(originalSrc, newSrc) {\n if (!this.observer)\n return;\n const originalUrl = getUrl(originalSrc, this.window).href;\n const img = this.images.get(originalUrl);\n if (img) {\n img.modified = true;\n this.images.set(getUrl(newSrc, this.window).href, img);\n this.images.delete(originalUrl);\n }\n }\n ngOnDestroy() {\n if (!this.observer)\n return;\n this.observer.disconnect();\n this.images.clear();\n }\n static { this.ɵfac = i0.ɵɵngDeclareFactory({ minVersion: \"12.0.0\", version: \"18.2.1\", ngImport: i0, type: LCPImageObserver, deps: [], target: i0.ɵɵFactoryTarget.Injectable }); }\n static { this.ɵprov = i0.ɵɵngDeclareInjectable({ minVersion: \"12.0.0\", version: \"18.2.1\", ngImport: i0, type: LCPImageObserver, providedIn: 'root' }); }\n}\ni0.ɵɵngDeclareClassMetadata({ minVersion: \"12.0.0\", version: \"18.2.1\", ngImport: i0, type: LCPImageObserver, decorators: [{\n type: Injectable,\n args: [{ providedIn: 'root' }]\n }], ctorParameters: () => [] });\nfunction logMissingPriorityError(ngSrc) {\n const directiveDetails = imgDirectiveDetails(ngSrc);\n console.error(ɵformatRuntimeError(2955 /* RuntimeErrorCode.LCP_IMG_MISSING_PRIORITY */, `${directiveDetails} this image is the Largest Contentful Paint (LCP) ` +\n `element but was not marked \"priority\". This image should be marked ` +\n `\"priority\" in order to prioritize its loading. ` +\n `To fix this, add the \"priority\" attribute.`));\n}\nfunction logModifiedWarning(ngSrc) {\n const directiveDetails = imgDirectiveDetails(ngSrc);\n console.warn(ɵformatRuntimeError(2964 /* RuntimeErrorCode.LCP_IMG_NGSRC_MODIFIED */, `${directiveDetails} this image is the Largest Contentful Paint (LCP) ` +\n `element and has had its \"ngSrc\" attribute modified. This can cause ` +\n `slower loading performance. It is recommended not to modify the \"ngSrc\" ` +\n `property on any image which could be the LCP element.`));\n}\n\n// Set of origins that are always excluded from the preconnect checks.\nconst INTERNAL_PRECONNECT_CHECK_BLOCKLIST = new Set(['localhost', '127.0.0.1', '0.0.0.0']);\n/**\n * Injection token to configure which origins should be excluded\n * from the preconnect checks. It can either be a single string or an array of strings\n * to represent a group of origins, for example:\n *\n * ```typescript\n * {provide: PRECONNECT_CHECK_BLOCKLIST, useValue: 'https://your-domain.com'}\n * ```\n *\n * or:\n *\n * ```typescript\n * {provide: PRECONNECT_CHECK_BLOCKLIST,\n * useValue: ['https://your-domain-1.com', 'https://your-domain-2.com']}\n * ```\n *\n * @publicApi\n */\nconst PRECONNECT_CHECK_BLOCKLIST = new InjectionToken(ngDevMode ? 'PRECONNECT_CHECK_BLOCKLIST' : '');\n/**\n * Contains the logic to detect whether an image, marked with the \"priority\" attribute\n * has a corresponding `` tag in the `document.head`.\n *\n * Note: this is a dev-mode only class, which should not appear in prod bundles,\n * thus there is no `ngDevMode` use in the code.\n */\nclass PreconnectLinkChecker {\n constructor() {\n this.document = inject(DOCUMENT);\n this.isServer = isPlatformServer(inject(PLATFORM_ID));\n /**\n * Set of tags found on this page.\n * The `null` value indicates that there was no DOM query operation performed.\n */\n this.preconnectLinks = null;\n /*\n * Keep track of all already seen origin URLs to avoid repeating the same check.\n */\n this.alreadySeen = new Set();\n this.window = null;\n this.blocklist = new Set(INTERNAL_PRECONNECT_CHECK_BLOCKLIST);\n assertDevMode('preconnect link checker');\n const win = this.document.defaultView;\n if (typeof win !== 'undefined') {\n this.window = win;\n }\n const blocklist = inject(PRECONNECT_CHECK_BLOCKLIST, { optional: true });\n if (blocklist) {\n this.populateBlocklist(blocklist);\n }\n }\n populateBlocklist(origins) {\n if (Array.isArray(origins)) {\n deepForEach(origins, (origin) => {\n this.blocklist.add(extractHostname(origin));\n });\n }\n else {\n this.blocklist.add(extractHostname(origins));\n }\n }\n /**\n * Checks that a preconnect resource hint exists in the head for the\n * given src.\n *\n * @param rewrittenSrc src formatted with loader\n * @param originalNgSrc ngSrc value\n */\n assertPreconnect(rewrittenSrc, originalNgSrc) {\n if (this.isServer)\n return;\n const imgUrl = getUrl(rewrittenSrc, this.window);\n if (this.blocklist.has(imgUrl.hostname) || this.alreadySeen.has(imgUrl.origin))\n return;\n // Register this origin as seen, so we don't check it again later.\n this.alreadySeen.add(imgUrl.origin);\n // Note: we query for preconnect links only *once* and cache the results\n // for the entire lifespan of an application, since it's unlikely that the\n // list would change frequently. This allows to make sure there are no\n // performance implications of making extra DOM lookups for each image.\n this.preconnectLinks ??= this.queryPreconnectLinks();\n if (!this.preconnectLinks.has(imgUrl.origin)) {\n console.warn(ɵformatRuntimeError(2956 /* RuntimeErrorCode.PRIORITY_IMG_MISSING_PRECONNECT_TAG */, `${imgDirectiveDetails(originalNgSrc)} there is no preconnect tag present for this ` +\n `image. Preconnecting to the origin(s) that serve priority images ensures that these ` +\n `images are delivered as soon as possible. To fix this, please add the following ` +\n `element into the of the document:\\n` +\n ` `));\n }\n }\n queryPreconnectLinks() {\n const preconnectUrls = new Set();\n const selector = 'link[rel=preconnect]';\n const links = Array.from(this.document.querySelectorAll(selector));\n for (let link of links) {\n const url = getUrl(link.href, this.window);\n preconnectUrls.add(url.origin);\n }\n return preconnectUrls;\n }\n ngOnDestroy() {\n this.preconnectLinks?.clear();\n this.alreadySeen.clear();\n }\n static { this.ɵfac = i0.ɵɵngDeclareFactory({ minVersion: \"12.0.0\", version: \"18.2.1\", ngImport: i0, type: PreconnectLinkChecker, deps: [], target: i0.ɵɵFactoryTarget.Injectable }); }\n static { this.ɵprov = i0.ɵɵngDeclareInjectable({ minVersion: \"12.0.0\", version: \"18.2.1\", ngImport: i0, type: PreconnectLinkChecker, providedIn: 'root' }); }\n}\ni0.ɵɵngDeclareClassMetadata({ minVersion: \"12.0.0\", version: \"18.2.1\", ngImport: i0, type: PreconnectLinkChecker, decorators: [{\n type: Injectable,\n args: [{ providedIn: 'root' }]\n }], ctorParameters: () => [] });\n/**\n * Invokes a callback for each element in the array. Also invokes a callback\n * recursively for each nested array.\n */\nfunction deepForEach(input, fn) {\n for (let value of input) {\n Array.isArray(value) ? deepForEach(value, fn) : fn(value);\n }\n}\n\n/**\n * In SSR scenarios, a preload `` element is generated for priority images.\n * Having a large number of preload tags may negatively affect the performance,\n * so we warn developers (by throwing an error) if the number of preloaded images\n * is above a certain threshold. This const specifies this threshold.\n */\nconst DEFAULT_PRELOADED_IMAGES_LIMIT = 5;\n/**\n * Helps to keep track of priority images that already have a corresponding\n * preload tag (to avoid generating multiple preload tags with the same URL).\n *\n * This Set tracks the original src passed into the `ngSrc` input not the src after it has been\n * run through the specified `IMAGE_LOADER`.\n */\nconst PRELOADED_IMAGES = new InjectionToken('NG_OPTIMIZED_PRELOADED_IMAGES', {\n providedIn: 'root',\n factory: () => new Set(),\n});\n\n/**\n * @description Contains the logic needed to track and add preload link tags to the `` tag. It\n * will also track what images have already had preload link tags added so as to not duplicate link\n * tags.\n *\n * In dev mode this service will validate that the number of preloaded images does not exceed the\n * configured default preloaded images limit: {@link DEFAULT_PRELOADED_IMAGES_LIMIT}.\n */\nclass PreloadLinkCreator {\n constructor() {\n this.preloadedImages = inject(PRELOADED_IMAGES);\n this.document = inject(DOCUMENT);\n }\n /**\n * @description Add a preload `` to the `` of the `index.html` that is served from the\n * server while using Angular Universal and SSR to kick off image loads for high priority images.\n *\n * The `sizes` (passed in from the user) and `srcset` (parsed and formatted from `ngSrcset`)\n * properties used to set the corresponding attributes, `imagesizes` and `imagesrcset`\n * respectively, on the preload `` tag so that the correctly sized image is preloaded from\n * the CDN.\n *\n * {@link https://web.dev/preload-responsive-images/#imagesrcset-and-imagesizes}\n *\n * @param renderer The `Renderer2` passed in from the directive\n * @param src The original src of the image that is set on the `ngSrc` input.\n * @param srcset The parsed and formatted srcset created from the `ngSrcset` input\n * @param sizes The value of the `sizes` attribute passed in to the `` tag\n */\n createPreloadLinkTag(renderer, src, srcset, sizes) {\n if (ngDevMode) {\n if (this.preloadedImages.size >= DEFAULT_PRELOADED_IMAGES_LIMIT) {\n throw new ɵRuntimeError(2961 /* RuntimeErrorCode.TOO_MANY_PRELOADED_IMAGES */, ngDevMode &&\n `The \\`NgOptimizedImage\\` directive has detected that more than ` +\n `${DEFAULT_PRELOADED_IMAGES_LIMIT} images were marked as priority. ` +\n `This might negatively affect an overall performance of the page. ` +\n `To fix this, remove the \"priority\" attribute from images with less priority.`);\n }\n }\n if (this.preloadedImages.has(src)) {\n return;\n }\n this.preloadedImages.add(src);\n const preload = renderer.createElement('link');\n renderer.setAttribute(preload, 'as', 'image');\n renderer.setAttribute(preload, 'href', src);\n renderer.setAttribute(preload, 'rel', 'preload');\n renderer.setAttribute(preload, 'fetchpriority', 'high');\n if (sizes) {\n renderer.setAttribute(preload, 'imageSizes', sizes);\n }\n if (srcset) {\n renderer.setAttribute(preload, 'imageSrcset', srcset);\n }\n renderer.appendChild(this.document.head, preload);\n }\n static { this.ɵfac = i0.ɵɵngDeclareFactory({ minVersion: \"12.0.0\", version: \"18.2.1\", ngImport: i0, type: PreloadLinkCreator, deps: [], target: i0.ɵɵFactoryTarget.Injectable }); }\n static { this.ɵprov = i0.ɵɵngDeclareInjectable({ minVersion: \"12.0.0\", version: \"18.2.1\", ngImport: i0, type: PreloadLinkCreator, providedIn: 'root' }); }\n}\ni0.ɵɵngDeclareClassMetadata({ minVersion: \"12.0.0\", version: \"18.2.1\", ngImport: i0, type: PreloadLinkCreator, decorators: [{\n type: Injectable,\n args: [{ providedIn: 'root' }]\n }] });\n\n/**\n * When a Base64-encoded image is passed as an input to the `NgOptimizedImage` directive,\n * an error is thrown. The image content (as a string) might be very long, thus making\n * it hard to read an error message if the entire string is included. This const defines\n * the number of characters that should be included into the error message. The rest\n * of the content is truncated.\n */\nconst BASE64_IMG_MAX_LENGTH_IN_ERROR = 50;\n/**\n * RegExpr to determine whether a src in a srcset is using width descriptors.\n * Should match something like: \"100w, 200w\".\n */\nconst VALID_WIDTH_DESCRIPTOR_SRCSET = /^((\\s*\\d+w\\s*(,|$)){1,})$/;\n/**\n * RegExpr to determine whether a src in a srcset is using density descriptors.\n * Should match something like: \"1x, 2x, 50x\". Also supports decimals like \"1.5x, 1.50x\".\n */\nconst VALID_DENSITY_DESCRIPTOR_SRCSET = /^((\\s*\\d+(\\.\\d+)?x\\s*(,|$)){1,})$/;\n/**\n * Srcset values with a density descriptor higher than this value will actively\n * throw an error. Such densities are not permitted as they cause image sizes\n * to be unreasonably large and slow down LCP.\n */\nconst ABSOLUTE_SRCSET_DENSITY_CAP = 3;\n/**\n * Used only in error message text to communicate best practices, as we will\n * only throw based on the slightly more conservative ABSOLUTE_SRCSET_DENSITY_CAP.\n */\nconst RECOMMENDED_SRCSET_DENSITY_CAP = 2;\n/**\n * Used in generating automatic density-based srcsets\n */\nconst DENSITY_SRCSET_MULTIPLIERS = [1, 2];\n/**\n * Used to determine which breakpoints to use on full-width images\n */\nconst VIEWPORT_BREAKPOINT_CUTOFF = 640;\n/**\n * Used to determine whether two aspect ratios are similar in value.\n */\nconst ASPECT_RATIO_TOLERANCE = 0.1;\n/**\n * Used to determine whether the image has been requested at an overly\n * large size compared to the actual rendered image size (after taking\n * into account a typical device pixel ratio). In pixels.\n */\nconst OVERSIZED_IMAGE_TOLERANCE = 1000;\n/**\n * Used to limit automatic srcset generation of very large sources for\n * fixed-size images. In pixels.\n */\nconst FIXED_SRCSET_WIDTH_LIMIT = 1920;\nconst FIXED_SRCSET_HEIGHT_LIMIT = 1080;\n/**\n * Default blur radius of the CSS filter used on placeholder images, in pixels\n */\nconst PLACEHOLDER_BLUR_AMOUNT = 15;\n/**\n * Placeholder dimension (height or width) limit in pixels. Angular produces a warning\n * when this limit is crossed.\n */\nconst PLACEHOLDER_DIMENSION_LIMIT = 1000;\n/**\n * Used to warn or error when the user provides an overly large dataURL for the placeholder\n * attribute.\n * Character count of Base64 images is 1 character per byte, and base64 encoding is approximately\n * 33% larger than base images, so 4000 characters is around 3KB on disk and 10000 characters is\n * around 7.7KB. Experimentally, 4000 characters is about 20x20px in PNG or medium-quality JPEG\n * format, and 10,000 is around 50x50px, but there's quite a bit of variation depending on how the\n * image is saved.\n */\nconst DATA_URL_WARN_LIMIT = 4000;\nconst DATA_URL_ERROR_LIMIT = 10000;\n/** Info about built-in loaders we can test for. */\nconst BUILT_IN_LOADERS = [\n imgixLoaderInfo,\n imageKitLoaderInfo,\n cloudinaryLoaderInfo,\n netlifyLoaderInfo,\n];\n/**\n * Threshold for the PRIORITY_TRUE_COUNT\n */\nconst PRIORITY_COUNT_THRESHOLD = 10;\n/**\n * This count is used to log a devMode warning\n * when the count of directive instances with priority=true\n * exceeds the threshold PRIORITY_COUNT_THRESHOLD\n */\nlet IMGS_WITH_PRIORITY_ATTR_COUNT = 0;\n/**\n * This function is for testing purpose.\n */\nfunction resetImagePriorityCount() {\n IMGS_WITH_PRIORITY_ATTR_COUNT = 0;\n}\n/**\n * Directive that improves image loading performance by enforcing best practices.\n *\n * `NgOptimizedImage` ensures that the loading of the Largest Contentful Paint (LCP) image is\n * prioritized by:\n * - Automatically setting the `fetchpriority` attribute on the `` tag\n * - Lazy loading non-priority images by default\n * - Automatically generating a preconnect link tag in the document head\n *\n * In addition, the directive:\n * - Generates appropriate asset URLs if a corresponding `ImageLoader` function is provided\n * - Automatically generates a srcset\n * - Requires that `width` and `height` are set\n * - Warns if `width` or `height` have been set incorrectly\n * - Warns if the image will be visually distorted when rendered\n *\n * @usageNotes\n * The `NgOptimizedImage` directive is marked as [standalone](guide/components/importing) and can\n * be imported directly.\n *\n * Follow the steps below to enable and use the directive:\n * 1. Import it into the necessary NgModule or a standalone Component.\n * 2. Optionally provide an `ImageLoader` if you use an image hosting service.\n * 3. Update the necessary `` tags in templates and replace `src` attributes with `ngSrc`.\n * Using a `ngSrc` allows the directive to control when the `src` gets set, which triggers an image\n * download.\n *\n * Step 1: import the `NgOptimizedImage` directive.\n *\n * ```typescript\n * import { NgOptimizedImage } from '@angular/common';\n *\n * // Include it into the necessary NgModule\n * @NgModule({\n * imports: [NgOptimizedImage],\n * })\n * class AppModule {}\n *\n * // ... or a standalone Component\n * @Component({\n * standalone: true\n * imports: [NgOptimizedImage],\n * })\n * class MyStandaloneComponent {}\n * ```\n *\n * Step 2: configure a loader.\n *\n * To use the **default loader**: no additional code changes are necessary. The URL returned by the\n * generic loader will always match the value of \"src\". In other words, this loader applies no\n * transformations to the resource URL and the value of the `ngSrc` attribute will be used as is.\n *\n * To use an existing loader for a **third-party image service**: add the provider factory for your\n * chosen service to the `providers` array. In the example below, the Imgix loader is used:\n *\n * ```typescript\n * import {provideImgixLoader} from '@angular/common';\n *\n * // Call the function and add the result to the `providers` array:\n * providers: [\n * provideImgixLoader(\"https://my.base.url/\"),\n * ],\n * ```\n *\n * The `NgOptimizedImage` directive provides the following functions:\n * - `provideCloudflareLoader`\n * - `provideCloudinaryLoader`\n * - `provideImageKitLoader`\n * - `provideImgixLoader`\n *\n * If you use a different image provider, you can create a custom loader function as described\n * below.\n *\n * To use a **custom loader**: provide your loader function as a value for the `IMAGE_LOADER` DI\n * token.\n *\n * ```typescript\n * import {IMAGE_LOADER, ImageLoaderConfig} from '@angular/common';\n *\n * // Configure the loader using the `IMAGE_LOADER` token.\n * providers: [\n * {\n * provide: IMAGE_LOADER,\n * useValue: (config: ImageLoaderConfig) => {\n * return `https://example.com/${config.src}-${config.width}.jpg}`;\n * }\n * },\n * ],\n * ```\n *\n * Step 3: update `` tags in templates to use `ngSrc` instead of `src`.\n *\n * ```\n * \n * ```\n *\n * @publicApi\n */\nclass NgOptimizedImage {\n constructor() {\n this.imageLoader = inject(IMAGE_LOADER);\n this.config = processConfig(inject(ɵIMAGE_CONFIG));\n this.renderer = inject(Renderer2);\n this.imgElement = inject(ElementRef).nativeElement;\n this.injector = inject(Injector);\n this.isServer = isPlatformServer(inject(PLATFORM_ID));\n this.preloadLinkCreator = inject(PreloadLinkCreator);\n // a LCP image observer - should be injected only in the dev mode\n this.lcpObserver = ngDevMode ? this.injector.get(LCPImageObserver) : null;\n /**\n * Calculate the rewritten `src` once and store it.\n * This is needed to avoid repetitive calculations and make sure the directive cleanup in the\n * `ngOnDestroy` does not rely on the `IMAGE_LOADER` logic (which in turn can rely on some other\n * instance that might be already destroyed).\n */\n this._renderedSrc = null;\n /**\n * Indicates whether this image should have a high priority.\n */\n this.priority = false;\n /**\n * Disables automatic srcset generation for this image.\n */\n this.disableOptimizedSrcset = false;\n /**\n * Sets the image to \"fill mode\", which eliminates the height/width requirement and adds\n * styles such that the image fills its containing element.\n */\n this.fill = false;\n }\n /** @nodoc */\n ngOnInit() {\n ɵperformanceMarkFeature('NgOptimizedImage');\n if (ngDevMode) {\n const ngZone = this.injector.get(NgZone);\n assertNonEmptyInput(this, 'ngSrc', this.ngSrc);\n assertValidNgSrcset(this, this.ngSrcset);\n assertNoConflictingSrc(this);\n if (this.ngSrcset) {\n assertNoConflictingSrcset(this);\n }\n assertNotBase64Image(this);\n assertNotBlobUrl(this);\n if (this.fill) {\n assertEmptyWidthAndHeight(this);\n // This leaves the Angular zone to avoid triggering unnecessary change detection cycles when\n // `load` tasks are invoked on images.\n ngZone.runOutsideAngular(() => assertNonZeroRenderedHeight(this, this.imgElement, this.renderer));\n }\n else {\n assertNonEmptyWidthAndHeight(this);\n if (this.height !== undefined) {\n assertGreaterThanZero(this, this.height, 'height');\n }\n if (this.width !== undefined) {\n assertGreaterThanZero(this, this.width, 'width');\n }\n // Only check for distorted images when not in fill mode, where\n // images may be intentionally stretched, cropped or letterboxed.\n ngZone.runOutsideAngular(() => assertNoImageDistortion(this, this.imgElement, this.renderer));\n }\n assertValidLoadingInput(this);\n if (!this.ngSrcset) {\n assertNoComplexSizes(this);\n }\n assertValidPlaceholder(this, this.imageLoader);\n assertNotMissingBuiltInLoader(this.ngSrc, this.imageLoader);\n assertNoNgSrcsetWithoutLoader(this, this.imageLoader);\n assertNoLoaderParamsWithoutLoader(this, this.imageLoader);\n if (this.lcpObserver !== null) {\n const ngZone = this.injector.get(NgZone);\n ngZone.runOutsideAngular(() => {\n this.lcpObserver.registerImage(this.getRewrittenSrc(), this.ngSrc, this.priority);\n });\n }\n if (this.priority) {\n const checker = this.injector.get(PreconnectLinkChecker);\n checker.assertPreconnect(this.getRewrittenSrc(), this.ngSrc);\n if (!this.isServer) {\n const applicationRef = this.injector.get(ApplicationRef);\n assetPriorityCountBelowThreshold(applicationRef);\n }\n }\n }\n if (this.placeholder) {\n this.removePlaceholderOnLoad(this.imgElement);\n }\n this.setHostAttributes();\n }\n setHostAttributes() {\n // Must set width/height explicitly in case they are bound (in which case they will\n // only be reflected and not found by the browser)\n if (this.fill) {\n this.sizes ||= '100vw';\n }\n else {\n this.setHostAttribute('width', this.width.toString());\n this.setHostAttribute('height', this.height.toString());\n }\n this.setHostAttribute('loading', this.getLoadingBehavior());\n this.setHostAttribute('fetchpriority', this.getFetchPriority());\n // The `data-ng-img` attribute flags an image as using the directive, to allow\n // for analysis of the directive's performance.\n this.setHostAttribute('ng-img', 'true');\n // The `src` and `srcset` attributes should be set last since other attributes\n // could affect the image's loading behavior.\n const rewrittenSrcset = this.updateSrcAndSrcset();\n if (this.sizes) {\n this.setHostAttribute('sizes', this.sizes);\n }\n if (this.isServer && this.priority) {\n this.preloadLinkCreator.createPreloadLinkTag(this.renderer, this.getRewrittenSrc(), rewrittenSrcset, this.sizes);\n }\n }\n /** @nodoc */\n ngOnChanges(changes) {\n if (ngDevMode) {\n assertNoPostInitInputChange(this, changes, [\n 'ngSrcset',\n 'width',\n 'height',\n 'priority',\n 'fill',\n 'loading',\n 'sizes',\n 'loaderParams',\n 'disableOptimizedSrcset',\n ]);\n }\n if (changes['ngSrc'] && !changes['ngSrc'].isFirstChange()) {\n const oldSrc = this._renderedSrc;\n this.updateSrcAndSrcset(true);\n const newSrc = this._renderedSrc;\n if (this.lcpObserver !== null && oldSrc && newSrc && oldSrc !== newSrc) {\n const ngZone = this.injector.get(NgZone);\n ngZone.runOutsideAngular(() => {\n this.lcpObserver?.updateImage(oldSrc, newSrc);\n });\n }\n }\n if (ngDevMode && changes['placeholder']?.currentValue && !this.isServer) {\n assertPlaceholderDimensions(this, this.imgElement);\n }\n }\n callImageLoader(configWithoutCustomParams) {\n let augmentedConfig = configWithoutCustomParams;\n if (this.loaderParams) {\n augmentedConfig.loaderParams = this.loaderParams;\n }\n return this.imageLoader(augmentedConfig);\n }\n getLoadingBehavior() {\n if (!this.priority && this.loading !== undefined) {\n return this.loading;\n }\n return this.priority ? 'eager' : 'lazy';\n }\n getFetchPriority() {\n return this.priority ? 'high' : 'auto';\n }\n getRewrittenSrc() {\n // ImageLoaderConfig supports setting a width property. However, we're not setting width here\n // because if the developer uses rendered width instead of intrinsic width in the HTML width\n // attribute, the image requested may be too small for 2x+ screens.\n if (!this._renderedSrc) {\n const imgConfig = { src: this.ngSrc };\n // Cache calculated image src to reuse it later in the code.\n this._renderedSrc = this.callImageLoader(imgConfig);\n }\n return this._renderedSrc;\n }\n getRewrittenSrcset() {\n const widthSrcSet = VALID_WIDTH_DESCRIPTOR_SRCSET.test(this.ngSrcset);\n const finalSrcs = this.ngSrcset\n .split(',')\n .filter((src) => src !== '')\n .map((srcStr) => {\n srcStr = srcStr.trim();\n const width = widthSrcSet ? parseFloat(srcStr) : parseFloat(srcStr) * this.width;\n return `${this.callImageLoader({ src: this.ngSrc, width })} ${srcStr}`;\n });\n return finalSrcs.join(', ');\n }\n getAutomaticSrcset() {\n if (this.sizes) {\n return this.getResponsiveSrcset();\n }\n else {\n return this.getFixedSrcset();\n }\n }\n getResponsiveSrcset() {\n const { breakpoints } = this.config;\n let filteredBreakpoints = breakpoints;\n if (this.sizes?.trim() === '100vw') {\n // Since this is a full-screen-width image, our srcset only needs to include\n // breakpoints with full viewport widths.\n filteredBreakpoints = breakpoints.filter((bp) => bp >= VIEWPORT_BREAKPOINT_CUTOFF);\n }\n const finalSrcs = filteredBreakpoints.map((bp) => `${this.callImageLoader({ src: this.ngSrc, width: bp })} ${bp}w`);\n return finalSrcs.join(', ');\n }\n updateSrcAndSrcset(forceSrcRecalc = false) {\n if (forceSrcRecalc) {\n // Reset cached value, so that the followup `getRewrittenSrc()` call\n // will recalculate it and update the cache.\n this._renderedSrc = null;\n }\n const rewrittenSrc = this.getRewrittenSrc();\n this.setHostAttribute('src', rewrittenSrc);\n let rewrittenSrcset = undefined;\n if (this.ngSrcset) {\n rewrittenSrcset = this.getRewrittenSrcset();\n }\n else if (this.shouldGenerateAutomaticSrcset()) {\n rewrittenSrcset = this.getAutomaticSrcset();\n }\n if (rewrittenSrcset) {\n this.setHostAttribute('srcset', rewrittenSrcset);\n }\n return rewrittenSrcset;\n }\n getFixedSrcset() {\n const finalSrcs = DENSITY_SRCSET_MULTIPLIERS.map((multiplier) => `${this.callImageLoader({\n src: this.ngSrc,\n width: this.width * multiplier,\n })} ${multiplier}x`);\n return finalSrcs.join(', ');\n }\n shouldGenerateAutomaticSrcset() {\n let oversizedImage = false;\n if (!this.sizes) {\n oversizedImage =\n this.width > FIXED_SRCSET_WIDTH_LIMIT || this.height > FIXED_SRCSET_HEIGHT_LIMIT;\n }\n return (!this.disableOptimizedSrcset &&\n !this.srcset &&\n this.imageLoader !== noopImageLoader &&\n !oversizedImage);\n }\n /**\n * Returns an image url formatted for use with the CSS background-image property. Expects one of:\n * * A base64 encoded image, which is wrapped and passed through.\n * * A boolean. If true, calls the image loader to generate a small placeholder url.\n */\n generatePlaceholder(placeholderInput) {\n const { placeholderResolution } = this.config;\n if (placeholderInput === true) {\n return `url(${this.callImageLoader({\n src: this.ngSrc,\n width: placeholderResolution,\n isPlaceholder: true,\n })})`;\n }\n else if (typeof placeholderInput === 'string') {\n return `url(${placeholderInput})`;\n }\n return null;\n }\n /**\n * Determines if blur should be applied, based on an optional boolean\n * property `blur` within the optional configuration object `placeholderConfig`.\n */\n shouldBlurPlaceholder(placeholderConfig) {\n if (!placeholderConfig || !placeholderConfig.hasOwnProperty('blur')) {\n return true;\n }\n return Boolean(placeholderConfig.blur);\n }\n removePlaceholderOnLoad(img) {\n const callback = () => {\n const changeDetectorRef = this.injector.get(ChangeDetectorRef);\n removeLoadListenerFn();\n removeErrorListenerFn();\n this.placeholder = false;\n changeDetectorRef.markForCheck();\n };\n const removeLoadListenerFn = this.renderer.listen(img, 'load', callback);\n const removeErrorListenerFn = this.renderer.listen(img, 'error', callback);\n }\n /** @nodoc */\n ngOnDestroy() {\n if (ngDevMode) {\n if (!this.priority && this._renderedSrc !== null && this.lcpObserver !== null) {\n this.lcpObserver.unregisterImage(this._renderedSrc);\n }\n }\n }\n setHostAttribute(name, value) {\n this.renderer.setAttribute(this.imgElement, name, value);\n }\n static { this.ɵfac = i0.ɵɵngDeclareFactory({ minVersion: \"12.0.0\", version: \"18.2.1\", ngImport: i0, type: NgOptimizedImage, deps: [], target: i0.ɵɵFactoryTarget.Directive }); }\n static { this.ɵdir = i0.ɵɵngDeclareDirective({ minVersion: \"16.1.0\", version: \"18.2.1\", type: NgOptimizedImage, isStandalone: true, selector: \"img[ngSrc]\", inputs: { ngSrc: [\"ngSrc\", \"ngSrc\", unwrapSafeUrl], ngSrcset: \"ngSrcset\", sizes: \"sizes\", width: [\"width\", \"width\", numberAttribute], height: [\"height\", \"height\", numberAttribute], loading: \"loading\", priority: [\"priority\", \"priority\", booleanAttribute], loaderParams: \"loaderParams\", disableOptimizedSrcset: [\"disableOptimizedSrcset\", \"disableOptimizedSrcset\", booleanAttribute], fill: [\"fill\", \"fill\", booleanAttribute], placeholder: [\"placeholder\", \"placeholder\", booleanOrUrlAttribute], placeholderConfig: \"placeholderConfig\", src: \"src\", srcset: \"srcset\" }, host: { properties: { \"style.position\": \"fill ? \\\"absolute\\\" : null\", \"style.width\": \"fill ? \\\"100%\\\" : null\", \"style.height\": \"fill ? \\\"100%\\\" : null\", \"style.inset\": \"fill ? \\\"0\\\" : null\", \"style.background-size\": \"placeholder ? \\\"cover\\\" : null\", \"style.background-position\": \"placeholder ? \\\"50% 50%\\\" : null\", \"style.background-repeat\": \"placeholder ? \\\"no-repeat\\\" : null\", \"style.background-image\": \"placeholder ? generatePlaceholder(placeholder) : null\", \"style.filter\": \"placeholder && shouldBlurPlaceholder(placeholderConfig) ? \\\"blur(15px)\\\" : null\" } }, usesOnChanges: true, ngImport: i0 }); }\n}\ni0.ɵɵngDeclareClassMetadata({ minVersion: \"12.0.0\", version: \"18.2.1\", ngImport: i0, type: NgOptimizedImage, decorators: [{\n type: Directive,\n args: [{\n standalone: true,\n selector: 'img[ngSrc]',\n host: {\n '[style.position]': 'fill ? \"absolute\" : null',\n '[style.width]': 'fill ? \"100%\" : null',\n '[style.height]': 'fill ? \"100%\" : null',\n '[style.inset]': 'fill ? \"0\" : null',\n '[style.background-size]': 'placeholder ? \"cover\" : null',\n '[style.background-position]': 'placeholder ? \"50% 50%\" : null',\n '[style.background-repeat]': 'placeholder ? \"no-repeat\" : null',\n '[style.background-image]': 'placeholder ? generatePlaceholder(placeholder) : null',\n '[style.filter]': `placeholder && shouldBlurPlaceholder(placeholderConfig) ? \"blur(${PLACEHOLDER_BLUR_AMOUNT}px)\" : null`,\n },\n }]\n }], propDecorators: { ngSrc: [{\n type: Input,\n args: [{ required: true, transform: unwrapSafeUrl }]\n }], ngSrcset: [{\n type: Input\n }], sizes: [{\n type: Input\n }], width: [{\n type: Input,\n args: [{ transform: numberAttribute }]\n }], height: [{\n type: Input,\n args: [{ transform: numberAttribute }]\n }], loading: [{\n type: Input\n }], priority: [{\n type: Input,\n args: [{ transform: booleanAttribute }]\n }], loaderParams: [{\n type: Input\n }], disableOptimizedSrcset: [{\n type: Input,\n args: [{ transform: booleanAttribute }]\n }], fill: [{\n type: Input,\n args: [{ transform: booleanAttribute }]\n }], placeholder: [{\n type: Input,\n args: [{ transform: booleanOrUrlAttribute }]\n }], placeholderConfig: [{\n type: Input\n }], src: [{\n type: Input\n }], srcset: [{\n type: Input\n }] } });\n/***** Helpers *****/\n/**\n * Sorts provided config breakpoints and uses defaults.\n */\nfunction processConfig(config) {\n let sortedBreakpoints = {};\n if (config.breakpoints) {\n sortedBreakpoints.breakpoints = config.breakpoints.sort((a, b) => a - b);\n }\n return Object.assign({}, ɵIMAGE_CONFIG_DEFAULTS, config, sortedBreakpoints);\n}\n/***** Assert functions *****/\n/**\n * Verifies that there is no `src` set on a host element.\n */\nfunction assertNoConflictingSrc(dir) {\n if (dir.src) {\n throw new ɵRuntimeError(2950 /* RuntimeErrorCode.UNEXPECTED_SRC_ATTR */, `${imgDirectiveDetails(dir.ngSrc)} both \\`src\\` and \\`ngSrc\\` have been set. ` +\n `Supplying both of these attributes breaks lazy loading. ` +\n `The NgOptimizedImage directive sets \\`src\\` itself based on the value of \\`ngSrc\\`. ` +\n `To fix this, please remove the \\`src\\` attribute.`);\n }\n}\n/**\n * Verifies that there is no `srcset` set on a host element.\n */\nfunction assertNoConflictingSrcset(dir) {\n if (dir.srcset) {\n throw new ɵRuntimeError(2951 /* RuntimeErrorCode.UNEXPECTED_SRCSET_ATTR */, `${imgDirectiveDetails(dir.ngSrc)} both \\`srcset\\` and \\`ngSrcset\\` have been set. ` +\n `Supplying both of these attributes breaks lazy loading. ` +\n `The NgOptimizedImage directive sets \\`srcset\\` itself based on the value of ` +\n `\\`ngSrcset\\`. To fix this, please remove the \\`srcset\\` attribute.`);\n }\n}\n/**\n * Verifies that the `ngSrc` is not a Base64-encoded image.\n */\nfunction assertNotBase64Image(dir) {\n let ngSrc = dir.ngSrc.trim();\n if (ngSrc.startsWith('data:')) {\n if (ngSrc.length > BASE64_IMG_MAX_LENGTH_IN_ERROR) {\n ngSrc = ngSrc.substring(0, BASE64_IMG_MAX_LENGTH_IN_ERROR) + '...';\n }\n throw new ɵRuntimeError(2952 /* RuntimeErrorCode.INVALID_INPUT */, `${imgDirectiveDetails(dir.ngSrc, false)} \\`ngSrc\\` is a Base64-encoded string ` +\n `(${ngSrc}). NgOptimizedImage does not support Base64-encoded strings. ` +\n `To fix this, disable the NgOptimizedImage directive for this element ` +\n `by removing \\`ngSrc\\` and using a standard \\`src\\` attribute instead.`);\n }\n}\n/**\n * Verifies that the 'sizes' only includes responsive values.\n */\nfunction assertNoComplexSizes(dir) {\n let sizes = dir.sizes;\n if (sizes?.match(/((\\)|,)\\s|^)\\d+px/)) {\n throw new ɵRuntimeError(2952 /* RuntimeErrorCode.INVALID_INPUT */, `${imgDirectiveDetails(dir.ngSrc, false)} \\`sizes\\` was set to a string including ` +\n `pixel values. For automatic \\`srcset\\` generation, \\`sizes\\` must only include responsive ` +\n `values, such as \\`sizes=\"50vw\"\\` or \\`sizes=\"(min-width: 768px) 50vw, 100vw\"\\`. ` +\n `To fix this, modify the \\`sizes\\` attribute, or provide your own \\`ngSrcset\\` value directly.`);\n }\n}\nfunction assertValidPlaceholder(dir, imageLoader) {\n assertNoPlaceholderConfigWithoutPlaceholder(dir);\n assertNoRelativePlaceholderWithoutLoader(dir, imageLoader);\n assertNoOversizedDataUrl(dir);\n}\n/**\n * Verifies that placeholderConfig isn't being used without placeholder\n */\nfunction assertNoPlaceholderConfigWithoutPlaceholder(dir) {\n if (dir.placeholderConfig && !dir.placeholder) {\n throw new ɵRuntimeError(2952 /* RuntimeErrorCode.INVALID_INPUT */, `${imgDirectiveDetails(dir.ngSrc, false)} \\`placeholderConfig\\` options were provided for an ` +\n `image that does not use the \\`placeholder\\` attribute, and will have no effect.`);\n }\n}\n/**\n * Warns if a relative URL placeholder is specified, but no loader is present to provide the small\n * image.\n */\nfunction assertNoRelativePlaceholderWithoutLoader(dir, imageLoader) {\n if (dir.placeholder === true && imageLoader === noopImageLoader) {\n throw new ɵRuntimeError(2963 /* RuntimeErrorCode.MISSING_NECESSARY_LOADER */, `${imgDirectiveDetails(dir.ngSrc)} the \\`placeholder\\` attribute is set to true but ` +\n `no image loader is configured (i.e. the default one is being used), ` +\n `which would result in the same image being used for the primary image and its placeholder. ` +\n `To fix this, provide a loader or remove the \\`placeholder\\` attribute from the image.`);\n }\n}\n/**\n * Warns or throws an error if an oversized dataURL placeholder is provided.\n */\nfunction assertNoOversizedDataUrl(dir) {\n if (dir.placeholder &&\n typeof dir.placeholder === 'string' &&\n dir.placeholder.startsWith('data:')) {\n if (dir.placeholder.length > DATA_URL_ERROR_LIMIT) {\n throw new ɵRuntimeError(2965 /* RuntimeErrorCode.OVERSIZED_PLACEHOLDER */, `${imgDirectiveDetails(dir.ngSrc)} the \\`placeholder\\` attribute is set to a data URL which is longer ` +\n `than ${DATA_URL_ERROR_LIMIT} characters. This is strongly discouraged, as large inline placeholders ` +\n `directly increase the bundle size of Angular and hurt page load performance. To fix this, generate ` +\n `a smaller data URL placeholder.`);\n }\n if (dir.placeholder.length > DATA_URL_WARN_LIMIT) {\n console.warn(ɵformatRuntimeError(2965 /* RuntimeErrorCode.OVERSIZED_PLACEHOLDER */, `${imgDirectiveDetails(dir.ngSrc)} the \\`placeholder\\` attribute is set to a data URL which is longer ` +\n `than ${DATA_URL_WARN_LIMIT} characters. This is discouraged, as large inline placeholders ` +\n `directly increase the bundle size of Angular and hurt page load performance. For better loading performance, ` +\n `generate a smaller data URL placeholder.`));\n }\n }\n}\n/**\n * Verifies that the `ngSrc` is not a Blob URL.\n */\nfunction assertNotBlobUrl(dir) {\n const ngSrc = dir.ngSrc.trim();\n if (ngSrc.startsWith('blob:')) {\n throw new ɵRuntimeError(2952 /* RuntimeErrorCode.INVALID_INPUT */, `${imgDirectiveDetails(dir.ngSrc)} \\`ngSrc\\` was set to a blob URL (${ngSrc}). ` +\n `Blob URLs are not supported by the NgOptimizedImage directive. ` +\n `To fix this, disable the NgOptimizedImage directive for this element ` +\n `by removing \\`ngSrc\\` and using a regular \\`src\\` attribute instead.`);\n }\n}\n/**\n * Verifies that the input is set to a non-empty string.\n */\nfunction assertNonEmptyInput(dir, name, value) {\n const isString = typeof value === 'string';\n const isEmptyString = isString && value.trim() === '';\n if (!isString || isEmptyString) {\n throw new ɵRuntimeError(2952 /* RuntimeErrorCode.INVALID_INPUT */, `${imgDirectiveDetails(dir.ngSrc)} \\`${name}\\` has an invalid value ` +\n `(\\`${value}\\`). To fix this, change the value to a non-empty string.`);\n }\n}\n/**\n * Verifies that the `ngSrcset` is in a valid format, e.g. \"100w, 200w\" or \"1x, 2x\".\n */\nfunction assertValidNgSrcset(dir, value) {\n if (value == null)\n return;\n assertNonEmptyInput(dir, 'ngSrcset', value);\n const stringVal = value;\n const isValidWidthDescriptor = VALID_WIDTH_DESCRIPTOR_SRCSET.test(stringVal);\n const isValidDensityDescriptor = VALID_DENSITY_DESCRIPTOR_SRCSET.test(stringVal);\n if (isValidDensityDescriptor) {\n assertUnderDensityCap(dir, stringVal);\n }\n const isValidSrcset = isValidWidthDescriptor || isValidDensityDescriptor;\n if (!isValidSrcset) {\n throw new ɵRuntimeError(2952 /* RuntimeErrorCode.INVALID_INPUT */, `${imgDirectiveDetails(dir.ngSrc)} \\`ngSrcset\\` has an invalid value (\\`${value}\\`). ` +\n `To fix this, supply \\`ngSrcset\\` using a comma-separated list of one or more width ` +\n `descriptors (e.g. \"100w, 200w\") or density descriptors (e.g. \"1x, 2x\").`);\n }\n}\nfunction assertUnderDensityCap(dir, value) {\n const underDensityCap = value\n .split(',')\n .every((num) => num === '' || parseFloat(num) <= ABSOLUTE_SRCSET_DENSITY_CAP);\n if (!underDensityCap) {\n throw new ɵRuntimeError(2952 /* RuntimeErrorCode.INVALID_INPUT */, `${imgDirectiveDetails(dir.ngSrc)} the \\`ngSrcset\\` contains an unsupported image density:` +\n `\\`${value}\\`. NgOptimizedImage generally recommends a max image density of ` +\n `${RECOMMENDED_SRCSET_DENSITY_CAP}x but supports image densities up to ` +\n `${ABSOLUTE_SRCSET_DENSITY_CAP}x. The human eye cannot distinguish between image densities ` +\n `greater than ${RECOMMENDED_SRCSET_DENSITY_CAP}x - which makes them unnecessary for ` +\n `most use cases. Images that will be pinch-zoomed are typically the primary use case for ` +\n `${ABSOLUTE_SRCSET_DENSITY_CAP}x images. Please remove the high density descriptor and try again.`);\n }\n}\n/**\n * Creates a `RuntimeError` instance to represent a situation when an input is set after\n * the directive has initialized.\n */\nfunction postInitInputChangeError(dir, inputName) {\n let reason;\n if (inputName === 'width' || inputName === 'height') {\n reason =\n `Changing \\`${inputName}\\` may result in different attribute value ` +\n `applied to the underlying image element and cause layout shifts on a page.`;\n }\n else {\n reason =\n `Changing the \\`${inputName}\\` would have no effect on the underlying ` +\n `image element, because the resource loading has already occurred.`;\n }\n return new ɵRuntimeError(2953 /* RuntimeErrorCode.UNEXPECTED_INPUT_CHANGE */, `${imgDirectiveDetails(dir.ngSrc)} \\`${inputName}\\` was updated after initialization. ` +\n `The NgOptimizedImage directive will not react to this input change. ${reason} ` +\n `To fix this, either switch \\`${inputName}\\` to a static value ` +\n `or wrap the image element in an *ngIf that is gated on the necessary value.`);\n}\n/**\n * Verify that none of the listed inputs has changed.\n */\nfunction assertNoPostInitInputChange(dir, changes, inputs) {\n inputs.forEach((input) => {\n const isUpdated = changes.hasOwnProperty(input);\n if (isUpdated && !changes[input].isFirstChange()) {\n if (input === 'ngSrc') {\n // When the `ngSrc` input changes, we detect that only in the\n // `ngOnChanges` hook, thus the `ngSrc` is already set. We use\n // `ngSrc` in the error message, so we use a previous value, but\n // not the updated one in it.\n dir = { ngSrc: changes[input].previousValue };\n }\n throw postInitInputChangeError(dir, input);\n }\n });\n}\n/**\n * Verifies that a specified input is a number greater than 0.\n */\nfunction assertGreaterThanZero(dir, inputValue, inputName) {\n const validNumber = typeof inputValue === 'number' && inputValue > 0;\n const validString = typeof inputValue === 'string' && /^\\d+$/.test(inputValue.trim()) && parseInt(inputValue) > 0;\n if (!validNumber && !validString) {\n throw new ɵRuntimeError(2952 /* RuntimeErrorCode.INVALID_INPUT */, `${imgDirectiveDetails(dir.ngSrc)} \\`${inputName}\\` has an invalid value. ` +\n `To fix this, provide \\`${inputName}\\` as a number greater than 0.`);\n }\n}\n/**\n * Verifies that the rendered image is not visually distorted. Effectively this is checking:\n * - Whether the \"width\" and \"height\" attributes reflect the actual dimensions of the image.\n * - Whether image styling is \"correct\" (see below for a longer explanation).\n */\nfunction assertNoImageDistortion(dir, img, renderer) {\n const removeLoadListenerFn = renderer.listen(img, 'load', () => {\n removeLoadListenerFn();\n removeErrorListenerFn();\n const computedStyle = window.getComputedStyle(img);\n let renderedWidth = parseFloat(computedStyle.getPropertyValue('width'));\n let renderedHeight = parseFloat(computedStyle.getPropertyValue('height'));\n const boxSizing = computedStyle.getPropertyValue('box-sizing');\n if (boxSizing === 'border-box') {\n const paddingTop = computedStyle.getPropertyValue('padding-top');\n const paddingRight = computedStyle.getPropertyValue('padding-right');\n const paddingBottom = computedStyle.getPropertyValue('padding-bottom');\n const paddingLeft = computedStyle.getPropertyValue('padding-left');\n renderedWidth -= parseFloat(paddingRight) + parseFloat(paddingLeft);\n renderedHeight -= parseFloat(paddingTop) + parseFloat(paddingBottom);\n }\n const renderedAspectRatio = renderedWidth / renderedHeight;\n const nonZeroRenderedDimensions = renderedWidth !== 0 && renderedHeight !== 0;\n const intrinsicWidth = img.naturalWidth;\n const intrinsicHeight = img.naturalHeight;\n const intrinsicAspectRatio = intrinsicWidth / intrinsicHeight;\n const suppliedWidth = dir.width;\n const suppliedHeight = dir.height;\n const suppliedAspectRatio = suppliedWidth / suppliedHeight;\n // Tolerance is used to account for the impact of subpixel rendering.\n // Due to subpixel rendering, the rendered, intrinsic, and supplied\n // aspect ratios of a correctly configured image may not exactly match.\n // For example, a `width=4030 height=3020` image might have a rendered\n // size of \"1062w, 796.48h\". (An aspect ratio of 1.334... vs. 1.333...)\n const inaccurateDimensions = Math.abs(suppliedAspectRatio - intrinsicAspectRatio) > ASPECT_RATIO_TOLERANCE;\n const stylingDistortion = nonZeroRenderedDimensions &&\n Math.abs(intrinsicAspectRatio - renderedAspectRatio) > ASPECT_RATIO_TOLERANCE;\n if (inaccurateDimensions) {\n console.warn(ɵformatRuntimeError(2952 /* RuntimeErrorCode.INVALID_INPUT */, `${imgDirectiveDetails(dir.ngSrc)} the aspect ratio of the image does not match ` +\n `the aspect ratio indicated by the width and height attributes. ` +\n `\\nIntrinsic image size: ${intrinsicWidth}w x ${intrinsicHeight}h ` +\n `(aspect-ratio: ${round(intrinsicAspectRatio)}). \\nSupplied width and height attributes: ` +\n `${suppliedWidth}w x ${suppliedHeight}h (aspect-ratio: ${round(suppliedAspectRatio)}). ` +\n `\\nTo fix this, update the width and height attributes.`));\n }\n else if (stylingDistortion) {\n console.warn(ɵformatRuntimeError(2952 /* RuntimeErrorCode.INVALID_INPUT */, `${imgDirectiveDetails(dir.ngSrc)} the aspect ratio of the rendered image ` +\n `does not match the image's intrinsic aspect ratio. ` +\n `\\nIntrinsic image size: ${intrinsicWidth}w x ${intrinsicHeight}h ` +\n `(aspect-ratio: ${round(intrinsicAspectRatio)}). \\nRendered image size: ` +\n `${renderedWidth}w x ${renderedHeight}h (aspect-ratio: ` +\n `${round(renderedAspectRatio)}). \\nThis issue can occur if \"width\" and \"height\" ` +\n `attributes are added to an image without updating the corresponding ` +\n `image styling. To fix this, adjust image styling. In most cases, ` +\n `adding \"height: auto\" or \"width: auto\" to the image styling will fix ` +\n `this issue.`));\n }\n else if (!dir.ngSrcset && nonZeroRenderedDimensions) {\n // If `ngSrcset` hasn't been set, sanity check the intrinsic size.\n const recommendedWidth = RECOMMENDED_SRCSET_DENSITY_CAP * renderedWidth;\n const recommendedHeight = RECOMMENDED_SRCSET_DENSITY_CAP * renderedHeight;\n const oversizedWidth = intrinsicWidth - recommendedWidth >= OVERSIZED_IMAGE_TOLERANCE;\n const oversizedHeight = intrinsicHeight - recommendedHeight >= OVERSIZED_IMAGE_TOLERANCE;\n if (oversizedWidth || oversizedHeight) {\n console.warn(ɵformatRuntimeError(2960 /* RuntimeErrorCode.OVERSIZED_IMAGE */, `${imgDirectiveDetails(dir.ngSrc)} the intrinsic image is significantly ` +\n `larger than necessary. ` +\n `\\nRendered image size: ${renderedWidth}w x ${renderedHeight}h. ` +\n `\\nIntrinsic image size: ${intrinsicWidth}w x ${intrinsicHeight}h. ` +\n `\\nRecommended intrinsic image size: ${recommendedWidth}w x ${recommendedHeight}h. ` +\n `\\nNote: Recommended intrinsic image size is calculated assuming a maximum DPR of ` +\n `${RECOMMENDED_SRCSET_DENSITY_CAP}. To improve loading time, resize the image ` +\n `or consider using the \"ngSrcset\" and \"sizes\" attributes.`));\n }\n }\n });\n // We only listen to the `error` event to remove the `load` event listener because it will not be\n // fired if the image fails to load. This is done to prevent memory leaks in development mode\n // because image elements aren't garbage-collected properly. It happens because zone.js stores the\n // event listener directly on the element and closures capture `dir`.\n const removeErrorListenerFn = renderer.listen(img, 'error', () => {\n removeLoadListenerFn();\n removeErrorListenerFn();\n });\n}\n/**\n * Verifies that a specified input is set.\n */\nfunction assertNonEmptyWidthAndHeight(dir) {\n let missingAttributes = [];\n if (dir.width === undefined)\n missingAttributes.push('width');\n if (dir.height === undefined)\n missingAttributes.push('height');\n if (missingAttributes.length > 0) {\n throw new ɵRuntimeError(2954 /* RuntimeErrorCode.REQUIRED_INPUT_MISSING */, `${imgDirectiveDetails(dir.ngSrc)} these required attributes ` +\n `are missing: ${missingAttributes.map((attr) => `\"${attr}\"`).join(', ')}. ` +\n `Including \"width\" and \"height\" attributes will prevent image-related layout shifts. ` +\n `To fix this, include \"width\" and \"height\" attributes on the image tag or turn on ` +\n `\"fill\" mode with the \\`fill\\` attribute.`);\n }\n}\n/**\n * Verifies that width and height are not set. Used in fill mode, where those attributes don't make\n * sense.\n */\nfunction assertEmptyWidthAndHeight(dir) {\n if (dir.width || dir.height) {\n throw new ɵRuntimeError(2952 /* RuntimeErrorCode.INVALID_INPUT */, `${imgDirectiveDetails(dir.ngSrc)} the attributes \\`height\\` and/or \\`width\\` are present ` +\n `along with the \\`fill\\` attribute. Because \\`fill\\` mode causes an image to fill its containing ` +\n `element, the size attributes have no effect and should be removed.`);\n }\n}\n/**\n * Verifies that the rendered image has a nonzero height. If the image is in fill mode, provides\n * guidance that this can be caused by the containing element's CSS position property.\n */\nfunction assertNonZeroRenderedHeight(dir, img, renderer) {\n const removeLoadListenerFn = renderer.listen(img, 'load', () => {\n removeLoadListenerFn();\n removeErrorListenerFn();\n const renderedHeight = img.clientHeight;\n if (dir.fill && renderedHeight === 0) {\n console.warn(ɵformatRuntimeError(2952 /* RuntimeErrorCode.INVALID_INPUT */, `${imgDirectiveDetails(dir.ngSrc)} the height of the fill-mode image is zero. ` +\n `This is likely because the containing element does not have the CSS 'position' ` +\n `property set to one of the following: \"relative\", \"fixed\", or \"absolute\". ` +\n `To fix this problem, make sure the container element has the CSS 'position' ` +\n `property defined and the height of the element is not zero.`));\n }\n });\n // See comments in the `assertNoImageDistortion`.\n const removeErrorListenerFn = renderer.listen(img, 'error', () => {\n removeLoadListenerFn();\n removeErrorListenerFn();\n });\n}\n/**\n * Verifies that the `loading` attribute is set to a valid input &\n * is not used on priority images.\n */\nfunction assertValidLoadingInput(dir) {\n if (dir.loading && dir.priority) {\n throw new ɵRuntimeError(2952 /* RuntimeErrorCode.INVALID_INPUT */, `${imgDirectiveDetails(dir.ngSrc)} the \\`loading\\` attribute ` +\n `was used on an image that was marked \"priority\". ` +\n `Setting \\`loading\\` on priority images is not allowed ` +\n `because these images will always be eagerly loaded. ` +\n `To fix this, remove the “loading” attribute from the priority image.`);\n }\n const validInputs = ['auto', 'eager', 'lazy'];\n if (typeof dir.loading === 'string' && !validInputs.includes(dir.loading)) {\n throw new ɵRuntimeError(2952 /* RuntimeErrorCode.INVALID_INPUT */, `${imgDirectiveDetails(dir.ngSrc)} the \\`loading\\` attribute ` +\n `has an invalid value (\\`${dir.loading}\\`). ` +\n `To fix this, provide a valid value (\"lazy\", \"eager\", or \"auto\").`);\n }\n}\n/**\n * Warns if NOT using a loader (falling back to the generic loader) and\n * the image appears to be hosted on one of the image CDNs for which\n * we do have a built-in image loader. Suggests switching to the\n * built-in loader.\n *\n * @param ngSrc Value of the ngSrc attribute\n * @param imageLoader ImageLoader provided\n */\nfunction assertNotMissingBuiltInLoader(ngSrc, imageLoader) {\n if (imageLoader === noopImageLoader) {\n let builtInLoaderName = '';\n for (const loader of BUILT_IN_LOADERS) {\n if (loader.testUrl(ngSrc)) {\n builtInLoaderName = loader.name;\n break;\n }\n }\n if (builtInLoaderName) {\n console.warn(ɵformatRuntimeError(2962 /* RuntimeErrorCode.MISSING_BUILTIN_LOADER */, `NgOptimizedImage: It looks like your images may be hosted on the ` +\n `${builtInLoaderName} CDN, but your app is not using Angular's ` +\n `built-in loader for that CDN. We recommend switching to use ` +\n `the built-in by calling \\`provide${builtInLoaderName}Loader()\\` ` +\n `in your \\`providers\\` and passing it your instance's base URL. ` +\n `If you don't want to use the built-in loader, define a custom ` +\n `loader function using IMAGE_LOADER to silence this warning.`));\n }\n }\n}\n/**\n * Warns if ngSrcset is present and no loader is configured (i.e. the default one is being used).\n */\nfunction assertNoNgSrcsetWithoutLoader(dir, imageLoader) {\n if (dir.ngSrcset && imageLoader === noopImageLoader) {\n console.warn(ɵformatRuntimeError(2963 /* RuntimeErrorCode.MISSING_NECESSARY_LOADER */, `${imgDirectiveDetails(dir.ngSrc)} the \\`ngSrcset\\` attribute is present but ` +\n `no image loader is configured (i.e. the default one is being used), ` +\n `which would result in the same image being used for all configured sizes. ` +\n `To fix this, provide a loader or remove the \\`ngSrcset\\` attribute from the image.`));\n }\n}\n/**\n * Warns if loaderParams is present and no loader is configured (i.e. the default one is being\n * used).\n */\nfunction assertNoLoaderParamsWithoutLoader(dir, imageLoader) {\n if (dir.loaderParams && imageLoader === noopImageLoader) {\n console.warn(ɵformatRuntimeError(2963 /* RuntimeErrorCode.MISSING_NECESSARY_LOADER */, `${imgDirectiveDetails(dir.ngSrc)} the \\`loaderParams\\` attribute is present but ` +\n `no image loader is configured (i.e. the default one is being used), ` +\n `which means that the loaderParams data will not be consumed and will not affect the URL. ` +\n `To fix this, provide a custom loader or remove the \\`loaderParams\\` attribute from the image.`));\n }\n}\n/**\n * Warns if the priority attribute is used too often on page load\n */\nasync function assetPriorityCountBelowThreshold(appRef) {\n if (IMGS_WITH_PRIORITY_ATTR_COUNT === 0) {\n IMGS_WITH_PRIORITY_ATTR_COUNT++;\n await ɵwhenStable(appRef);\n if (IMGS_WITH_PRIORITY_ATTR_COUNT > PRIORITY_COUNT_THRESHOLD) {\n console.warn(ɵformatRuntimeError(2966 /* RuntimeErrorCode.TOO_MANY_PRIORITY_ATTRIBUTES */, `NgOptimizedImage: The \"priority\" attribute is set to true more than ${PRIORITY_COUNT_THRESHOLD} times (${IMGS_WITH_PRIORITY_ATTR_COUNT} times). ` +\n `Marking too many images as \"high\" priority can hurt your application's LCP (https://web.dev/lcp). ` +\n `\"Priority\" should only be set on the image expected to be the page's LCP element.`));\n }\n }\n else {\n IMGS_WITH_PRIORITY_ATTR_COUNT++;\n }\n}\n/**\n * Warns if placeholder's dimension are over a threshold.\n *\n * This assert function is meant to only run on the browser.\n */\nfunction assertPlaceholderDimensions(dir, imgElement) {\n const computedStyle = window.getComputedStyle(imgElement);\n let renderedWidth = parseFloat(computedStyle.getPropertyValue('width'));\n let renderedHeight = parseFloat(computedStyle.getPropertyValue('height'));\n if (renderedWidth > PLACEHOLDER_DIMENSION_LIMIT || renderedHeight > PLACEHOLDER_DIMENSION_LIMIT) {\n console.warn(ɵformatRuntimeError(2967 /* RuntimeErrorCode.PLACEHOLDER_DIMENSION_LIMIT_EXCEEDED */, `${imgDirectiveDetails(dir.ngSrc)} it uses a placeholder image, but at least one ` +\n `of the dimensions attribute (height or width) exceeds the limit of ${PLACEHOLDER_DIMENSION_LIMIT}px. ` +\n `To fix this, use a smaller image as a placeholder.`));\n }\n}\nfunction round(input) {\n return Number.isInteger(input) ? input : input.toFixed(2);\n}\n// Transform function to handle SafeValue input for ngSrc. This doesn't do any sanitization,\n// as that is not needed for img.src and img.srcset. This transform is purely for compatibility.\nfunction unwrapSafeUrl(value) {\n if (typeof value === 'string') {\n return value;\n }\n return ɵunwrapSafeValue(value);\n}\n// Transform function to handle inputs which may be booleans, strings, or string representations\n// of boolean values. Used for the placeholder attribute.\nfunction booleanOrUrlAttribute(value) {\n if (typeof value === 'string' && value !== 'true' && value !== 'false' && value !== '') {\n return value;\n }\n return booleanAttribute(value);\n}\n\n/**\n * @module\n * @description\n * Entry point for all public APIs of the common package.\n */\n\n/**\n * @module\n * @description\n * Entry point for all public APIs of this package.\n */\n// This file only reexports content of the `src` folder. Keep it that way.\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 { APP_BASE_HREF, AsyncPipe, BrowserPlatformLocation, CommonModule, CurrencyPipe, DATE_PIPE_DEFAULT_OPTIONS, DATE_PIPE_DEFAULT_TIMEZONE, DOCUMENT, DatePipe, DecimalPipe, FormStyle, FormatWidth, HashLocationStrategy, I18nPluralPipe, I18nSelectPipe, IMAGE_LOADER, JsonPipe, KeyValuePipe, LOCATION_INITIALIZED, Location, LocationStrategy, LowerCasePipe, NgClass, NgComponentOutlet, NgForOf as NgFor, NgForOf, NgForOfContext, NgIf, NgIfContext, NgLocaleLocalization, NgLocalization, NgOptimizedImage, NgPlural, NgPluralCase, NgStyle, NgSwitch, NgSwitchCase, NgSwitchDefault, NgTemplateOutlet, NumberFormatStyle, NumberSymbol, PRECONNECT_CHECK_BLOCKLIST, PathLocationStrategy, PercentPipe, PlatformLocation, Plural, SlicePipe, TitleCasePipe, TranslationWidth, UpperCasePipe, VERSION, ViewportScroller, WeekDay, XhrFactory, formatCurrency, formatDate, formatNumber, formatPercent, getCurrencySymbol, getLocaleCurrencyCode, getLocaleCurrencyName, getLocaleCurrencySymbol, getLocaleDateFormat, getLocaleDateTimeFormat, getLocaleDayNames, getLocaleDayPeriods, getLocaleDirection, getLocaleEraNames, getLocaleExtraDayPeriodRules, getLocaleExtraDayPeriods, getLocaleFirstDayOfWeek, getLocaleId, getLocaleMonthNames, getLocaleNumberFormat, getLocaleNumberSymbol, getLocalePluralCase, getLocaleTimeFormat, getLocaleWeekEndRange, getNumberOfCurrencyDigits, isPlatformBrowser, isPlatformServer, provideCloudflareLoader, provideCloudinaryLoader, provideImageKitLoader, provideImgixLoader, provideNetlifyLoader, registerLocaleData, DomAdapter as ɵDomAdapter, NullViewportScroller as ɵNullViewportScroller, PLATFORM_BROWSER_ID as ɵPLATFORM_BROWSER_ID, PLATFORM_SERVER_ID as ɵPLATFORM_SERVER_ID, PlatformNavigation as ɵPlatformNavigation, getDOM as ɵgetDOM, normalizeQueryParams as ɵnormalizeQueryParams, parseCookieValue as ɵparseCookieValue, setRootDomAdapter as ɵsetRootDomAdapter };\n","/**\n * @license Angular v18.2.1\n * (c) 2010-2024 Google LLC. https://angular.io/\n * License: MIT\n */\n\nimport * as i0 from '@angular/core';\nimport { Injectable, inject, NgZone, runInInjectionContext, InjectionToken, ɵPendingTasks, PLATFORM_ID, ɵConsole, ɵformatRuntimeError, Inject, ɵRuntimeError, makeEnvironmentProviders, NgModule, TransferState, makeStateKey, ɵperformanceMarkFeature, APP_BOOTSTRAP_LISTENER, ApplicationRef, ɵwhenStable, ɵtruncateMiddle } from '@angular/core';\nimport { of, Observable, from } from 'rxjs';\nimport { concatMap, filter, map, finalize, switchMap, tap } from 'rxjs/operators';\nimport * as i1 from '@angular/common';\nimport { isPlatformServer, DOCUMENT, ɵparseCookieValue } from '@angular/common';\n\n/**\n * Transforms an `HttpRequest` into a stream of `HttpEvent`s, one of which will likely be a\n * `HttpResponse`.\n *\n * `HttpHandler` is injectable. When injected, the handler instance dispatches requests to the\n * first interceptor in the chain, which dispatches to the second, etc, eventually reaching the\n * `HttpBackend`.\n *\n * In an `HttpInterceptor`, the `HttpHandler` parameter is the next interceptor in the chain.\n *\n * @publicApi\n */\nclass HttpHandler {\n}\n/**\n * A final `HttpHandler` which will dispatch the request via browser HTTP APIs to a backend.\n *\n * Interceptors sit between the `HttpClient` interface and the `HttpBackend`.\n *\n * When injected, `HttpBackend` dispatches requests directly to the backend, without going\n * through the interceptor chain.\n *\n * @publicApi\n */\nclass HttpBackend {\n}\n\n/**\n * Represents the header configuration options for an HTTP request.\n * Instances are immutable. Modifying methods return a cloned\n * instance with the change. The original object is never changed.\n *\n * @publicApi\n */\nclass HttpHeaders {\n /** Constructs a new HTTP header object with the given values.*/\n constructor(headers) {\n /**\n * Internal map of lowercased header names to the normalized\n * form of the name (the form seen first).\n */\n this.normalizedNames = new Map();\n /**\n * Queued updates to be materialized the next initialization.\n */\n this.lazyUpdate = null;\n if (!headers) {\n this.headers = new Map();\n }\n else if (typeof headers === 'string') {\n this.lazyInit = () => {\n this.headers = new Map();\n headers.split('\\n').forEach((line) => {\n const index = line.indexOf(':');\n if (index > 0) {\n const name = line.slice(0, index);\n const key = name.toLowerCase();\n const value = line.slice(index + 1).trim();\n this.maybeSetNormalizedName(name, key);\n if (this.headers.has(key)) {\n this.headers.get(key).push(value);\n }\n else {\n this.headers.set(key, [value]);\n }\n }\n });\n };\n }\n else if (typeof Headers !== 'undefined' && headers instanceof Headers) {\n this.headers = new Map();\n headers.forEach((values, name) => {\n this.setHeaderEntries(name, values);\n });\n }\n else {\n this.lazyInit = () => {\n if (typeof ngDevMode === 'undefined' || ngDevMode) {\n assertValidHeaders(headers);\n }\n this.headers = new Map();\n Object.entries(headers).forEach(([name, values]) => {\n this.setHeaderEntries(name, values);\n });\n };\n }\n }\n /**\n * Checks for existence of a given header.\n *\n * @param name The header name to check for existence.\n *\n * @returns True if the header exists, false otherwise.\n */\n has(name) {\n this.init();\n return this.headers.has(name.toLowerCase());\n }\n /**\n * Retrieves the first value of a given header.\n *\n * @param name The header name.\n *\n * @returns The value string if the header exists, null otherwise\n */\n get(name) {\n this.init();\n const values = this.headers.get(name.toLowerCase());\n return values && values.length > 0 ? values[0] : null;\n }\n /**\n * Retrieves the names of the headers.\n *\n * @returns A list of header names.\n */\n keys() {\n this.init();\n return Array.from(this.normalizedNames.values());\n }\n /**\n * Retrieves a list of values for a given header.\n *\n * @param name The header name from which to retrieve values.\n *\n * @returns A string of values if the header exists, null otherwise.\n */\n getAll(name) {\n this.init();\n return this.headers.get(name.toLowerCase()) || null;\n }\n /**\n * Appends a new value to the existing set of values for a header\n * and returns them in a clone of the original instance.\n *\n * @param name The header name for which to append the values.\n * @param value The value to append.\n *\n * @returns A clone of the HTTP headers object with the value appended to the given header.\n */\n append(name, value) {\n return this.clone({ name, value, op: 'a' });\n }\n /**\n * Sets or modifies a value for a given header in a clone of the original instance.\n * If the header already exists, its value is replaced with the given value\n * in the returned object.\n *\n * @param name The header name.\n * @param value The value or values to set or override for the given header.\n *\n * @returns A clone of the HTTP headers object with the newly set header value.\n */\n set(name, value) {\n return this.clone({ name, value, op: 's' });\n }\n /**\n * Deletes values for a given header in a clone of the original instance.\n *\n * @param name The header name.\n * @param value The value or values to delete for the given header.\n *\n * @returns A clone of the HTTP headers object with the given value deleted.\n */\n delete(name, value) {\n return this.clone({ name, value, op: 'd' });\n }\n maybeSetNormalizedName(name, lcName) {\n if (!this.normalizedNames.has(lcName)) {\n this.normalizedNames.set(lcName, name);\n }\n }\n init() {\n if (!!this.lazyInit) {\n if (this.lazyInit instanceof HttpHeaders) {\n this.copyFrom(this.lazyInit);\n }\n else {\n this.lazyInit();\n }\n this.lazyInit = null;\n if (!!this.lazyUpdate) {\n this.lazyUpdate.forEach((update) => this.applyUpdate(update));\n this.lazyUpdate = null;\n }\n }\n }\n copyFrom(other) {\n other.init();\n Array.from(other.headers.keys()).forEach((key) => {\n this.headers.set(key, other.headers.get(key));\n this.normalizedNames.set(key, other.normalizedNames.get(key));\n });\n }\n clone(update) {\n const clone = new HttpHeaders();\n clone.lazyInit = !!this.lazyInit && this.lazyInit instanceof HttpHeaders ? this.lazyInit : this;\n clone.lazyUpdate = (this.lazyUpdate || []).concat([update]);\n return clone;\n }\n applyUpdate(update) {\n const key = update.name.toLowerCase();\n switch (update.op) {\n case 'a':\n case 's':\n let value = update.value;\n if (typeof value === 'string') {\n value = [value];\n }\n if (value.length === 0) {\n return;\n }\n this.maybeSetNormalizedName(update.name, key);\n const base = (update.op === 'a' ? this.headers.get(key) : undefined) || [];\n base.push(...value);\n this.headers.set(key, base);\n break;\n case 'd':\n const toDelete = update.value;\n if (!toDelete) {\n this.headers.delete(key);\n this.normalizedNames.delete(key);\n }\n else {\n let existing = this.headers.get(key);\n if (!existing) {\n return;\n }\n existing = existing.filter((value) => toDelete.indexOf(value) === -1);\n if (existing.length === 0) {\n this.headers.delete(key);\n this.normalizedNames.delete(key);\n }\n else {\n this.headers.set(key, existing);\n }\n }\n break;\n }\n }\n setHeaderEntries(name, values) {\n const headerValues = (Array.isArray(values) ? values : [values]).map((value) => value.toString());\n const key = name.toLowerCase();\n this.headers.set(key, headerValues);\n this.maybeSetNormalizedName(name, key);\n }\n /**\n * @internal\n */\n forEach(fn) {\n this.init();\n Array.from(this.normalizedNames.keys()).forEach((key) => fn(this.normalizedNames.get(key), this.headers.get(key)));\n }\n}\n/**\n * Verifies that the headers object has the right shape: the values\n * must be either strings, numbers or arrays. Throws an error if an invalid\n * header value is present.\n */\nfunction assertValidHeaders(headers) {\n for (const [key, value] of Object.entries(headers)) {\n if (!(typeof value === 'string' || typeof value === 'number') && !Array.isArray(value)) {\n throw new Error(`Unexpected value of the \\`${key}\\` header provided. ` +\n `Expecting either a string, a number or an array, but got: \\`${value}\\`.`);\n }\n }\n}\n\n/**\n * Provides encoding and decoding of URL parameter and query-string values.\n *\n * Serializes and parses URL parameter keys and values to encode and decode them.\n * If you pass URL query parameters without encoding,\n * the query parameters can be misinterpreted at the receiving end.\n *\n *\n * @publicApi\n */\nclass HttpUrlEncodingCodec {\n /**\n * Encodes a key name for a URL parameter or query-string.\n * @param key The key name.\n * @returns The encoded key name.\n */\n encodeKey(key) {\n return standardEncoding(key);\n }\n /**\n * Encodes the value of a URL parameter or query-string.\n * @param value The value.\n * @returns The encoded value.\n */\n encodeValue(value) {\n return standardEncoding(value);\n }\n /**\n * Decodes an encoded URL parameter or query-string key.\n * @param key The encoded key name.\n * @returns The decoded key name.\n */\n decodeKey(key) {\n return decodeURIComponent(key);\n }\n /**\n * Decodes an encoded URL parameter or query-string value.\n * @param value The encoded value.\n * @returns The decoded value.\n */\n decodeValue(value) {\n return decodeURIComponent(value);\n }\n}\nfunction paramParser(rawParams, codec) {\n const map = new Map();\n if (rawParams.length > 0) {\n // The `window.location.search` can be used while creating an instance of the `HttpParams` class\n // (e.g. `new HttpParams({ fromString: window.location.search })`). The `window.location.search`\n // may start with the `?` char, so we strip it if it's present.\n const params = rawParams.replace(/^\\?/, '').split('&');\n params.forEach((param) => {\n const eqIdx = param.indexOf('=');\n const [key, val] = eqIdx == -1\n ? [codec.decodeKey(param), '']\n : [codec.decodeKey(param.slice(0, eqIdx)), codec.decodeValue(param.slice(eqIdx + 1))];\n const list = map.get(key) || [];\n list.push(val);\n map.set(key, list);\n });\n }\n return map;\n}\n/**\n * Encode input string with standard encodeURIComponent and then un-encode specific characters.\n */\nconst STANDARD_ENCODING_REGEX = /%(\\d[a-f0-9])/gi;\nconst STANDARD_ENCODING_REPLACEMENTS = {\n '40': '@',\n '3A': ':',\n '24': '$',\n '2C': ',',\n '3B': ';',\n '3D': '=',\n '3F': '?',\n '2F': '/',\n};\nfunction standardEncoding(v) {\n return encodeURIComponent(v).replace(STANDARD_ENCODING_REGEX, (s, t) => STANDARD_ENCODING_REPLACEMENTS[t] ?? s);\n}\nfunction valueToString(value) {\n return `${value}`;\n}\n/**\n * An HTTP request/response body that represents serialized parameters,\n * per the MIME type `application/x-www-form-urlencoded`.\n *\n * This class is immutable; all mutation operations return a new instance.\n *\n * @publicApi\n */\nclass HttpParams {\n constructor(options = {}) {\n this.updates = null;\n this.cloneFrom = null;\n this.encoder = options.encoder || new HttpUrlEncodingCodec();\n if (!!options.fromString) {\n if (!!options.fromObject) {\n throw new Error(`Cannot specify both fromString and fromObject.`);\n }\n this.map = paramParser(options.fromString, this.encoder);\n }\n else if (!!options.fromObject) {\n this.map = new Map();\n Object.keys(options.fromObject).forEach((key) => {\n const value = options.fromObject[key];\n // convert the values to strings\n const values = Array.isArray(value) ? value.map(valueToString) : [valueToString(value)];\n this.map.set(key, values);\n });\n }\n else {\n this.map = null;\n }\n }\n /**\n * Reports whether the body includes one or more values for a given parameter.\n * @param param The parameter name.\n * @returns True if the parameter has one or more values,\n * false if it has no value or is not present.\n */\n has(param) {\n this.init();\n return this.map.has(param);\n }\n /**\n * Retrieves the first value for a parameter.\n * @param param The parameter name.\n * @returns The first value of the given parameter,\n * or `null` if the parameter is not present.\n */\n get(param) {\n this.init();\n const res = this.map.get(param);\n return !!res ? res[0] : null;\n }\n /**\n * Retrieves all values for a parameter.\n * @param param The parameter name.\n * @returns All values in a string array,\n * or `null` if the parameter not present.\n */\n getAll(param) {\n this.init();\n return this.map.get(param) || null;\n }\n /**\n * Retrieves all the parameters for this body.\n * @returns The parameter names in a string array.\n */\n keys() {\n this.init();\n return Array.from(this.map.keys());\n }\n /**\n * Appends a new value to existing values for a parameter.\n * @param param The parameter name.\n * @param value The new value to add.\n * @return A new body with the appended value.\n */\n append(param, value) {\n return this.clone({ param, value, op: 'a' });\n }\n /**\n * Constructs a new body with appended values for the given parameter name.\n * @param params parameters and values\n * @return A new body with the new value.\n */\n appendAll(params) {\n const updates = [];\n Object.keys(params).forEach((param) => {\n const value = params[param];\n if (Array.isArray(value)) {\n value.forEach((_value) => {\n updates.push({ param, value: _value, op: 'a' });\n });\n }\n else {\n updates.push({ param, value: value, op: 'a' });\n }\n });\n return this.clone(updates);\n }\n /**\n * Replaces the value for a parameter.\n * @param param The parameter name.\n * @param value The new value.\n * @return A new body with the new value.\n */\n set(param, value) {\n return this.clone({ param, value, op: 's' });\n }\n /**\n * Removes a given value or all values from a parameter.\n * @param param The parameter name.\n * @param value The value to remove, if provided.\n * @return A new body with the given value removed, or with all values\n * removed if no value is specified.\n */\n delete(param, value) {\n return this.clone({ param, value, op: 'd' });\n }\n /**\n * Serializes the body to an encoded string, where key-value pairs (separated by `=`) are\n * separated by `&`s.\n */\n toString() {\n this.init();\n return (this.keys()\n .map((key) => {\n const eKey = this.encoder.encodeKey(key);\n // `a: ['1']` produces `'a=1'`\n // `b: []` produces `''`\n // `c: ['1', '2']` produces `'c=1&c=2'`\n return this.map.get(key)\n .map((value) => eKey + '=' + this.encoder.encodeValue(value))\n .join('&');\n })\n // filter out empty values because `b: []` produces `''`\n // which results in `a=1&&c=1&c=2` instead of `a=1&c=1&c=2` if we don't\n .filter((param) => param !== '')\n .join('&'));\n }\n clone(update) {\n const clone = new HttpParams({ encoder: this.encoder });\n clone.cloneFrom = this.cloneFrom || this;\n clone.updates = (this.updates || []).concat(update);\n return clone;\n }\n init() {\n if (this.map === null) {\n this.map = new Map();\n }\n if (this.cloneFrom !== null) {\n this.cloneFrom.init();\n this.cloneFrom.keys().forEach((key) => this.map.set(key, this.cloneFrom.map.get(key)));\n this.updates.forEach((update) => {\n switch (update.op) {\n case 'a':\n case 's':\n const base = (update.op === 'a' ? this.map.get(update.param) : undefined) || [];\n base.push(valueToString(update.value));\n this.map.set(update.param, base);\n break;\n case 'd':\n if (update.value !== undefined) {\n let base = this.map.get(update.param) || [];\n const idx = base.indexOf(valueToString(update.value));\n if (idx !== -1) {\n base.splice(idx, 1);\n }\n if (base.length > 0) {\n this.map.set(update.param, base);\n }\n else {\n this.map.delete(update.param);\n }\n }\n else {\n this.map.delete(update.param);\n break;\n }\n }\n });\n this.cloneFrom = this.updates = null;\n }\n }\n}\n\n/**\n * A token used to manipulate and access values stored in `HttpContext`.\n *\n * @publicApi\n */\nclass HttpContextToken {\n constructor(defaultValue) {\n this.defaultValue = defaultValue;\n }\n}\n/**\n * Http context stores arbitrary user defined values and ensures type safety without\n * actually knowing the types. It is backed by a `Map` and guarantees that keys do not clash.\n *\n * This context is mutable and is shared between cloned requests unless explicitly specified.\n *\n * @usageNotes\n *\n * ### Usage Example\n *\n * ```typescript\n * // inside cache.interceptors.ts\n * export const IS_CACHE_ENABLED = new HttpContextToken(() => false);\n *\n * export class CacheInterceptor implements HttpInterceptor {\n *\n * intercept(req: HttpRequest, delegate: HttpHandler): Observable> {\n * if (req.context.get(IS_CACHE_ENABLED) === true) {\n * return ...;\n * }\n * return delegate.handle(req);\n * }\n * }\n *\n * // inside a service\n *\n * this.httpClient.get('/api/weather', {\n * context: new HttpContext().set(IS_CACHE_ENABLED, true)\n * }).subscribe(...);\n * ```\n *\n * @publicApi\n */\nclass HttpContext {\n constructor() {\n this.map = new Map();\n }\n /**\n * Store a value in the context. If a value is already present it will be overwritten.\n *\n * @param token The reference to an instance of `HttpContextToken`.\n * @param value The value to store.\n *\n * @returns A reference to itself for easy chaining.\n */\n set(token, value) {\n this.map.set(token, value);\n return this;\n }\n /**\n * Retrieve the value associated with the given token.\n *\n * @param token The reference to an instance of `HttpContextToken`.\n *\n * @returns The stored value or default if one is defined.\n */\n get(token) {\n if (!this.map.has(token)) {\n this.map.set(token, token.defaultValue());\n }\n return this.map.get(token);\n }\n /**\n * Delete the value associated with the given token.\n *\n * @param token The reference to an instance of `HttpContextToken`.\n *\n * @returns A reference to itself for easy chaining.\n */\n delete(token) {\n this.map.delete(token);\n return this;\n }\n /**\n * Checks for existence of a given token.\n *\n * @param token The reference to an instance of `HttpContextToken`.\n *\n * @returns True if the token exists, false otherwise.\n */\n has(token) {\n return this.map.has(token);\n }\n /**\n * @returns a list of tokens currently stored in the context.\n */\n keys() {\n return this.map.keys();\n }\n}\n\n/**\n * Determine whether the given HTTP method may include a body.\n */\nfunction mightHaveBody(method) {\n switch (method) {\n case 'DELETE':\n case 'GET':\n case 'HEAD':\n case 'OPTIONS':\n case 'JSONP':\n return false;\n default:\n return true;\n }\n}\n/**\n * Safely assert whether the given value is an ArrayBuffer.\n *\n * In some execution environments ArrayBuffer is not defined.\n */\nfunction isArrayBuffer(value) {\n return typeof ArrayBuffer !== 'undefined' && value instanceof ArrayBuffer;\n}\n/**\n * Safely assert whether the given value is a Blob.\n *\n * In some execution environments Blob is not defined.\n */\nfunction isBlob(value) {\n return typeof Blob !== 'undefined' && value instanceof Blob;\n}\n/**\n * Safely assert whether the given value is a FormData instance.\n *\n * In some execution environments FormData is not defined.\n */\nfunction isFormData(value) {\n return typeof FormData !== 'undefined' && value instanceof FormData;\n}\n/**\n * Safely assert whether the given value is a URLSearchParams instance.\n *\n * In some execution environments URLSearchParams is not defined.\n */\nfunction isUrlSearchParams(value) {\n return typeof URLSearchParams !== 'undefined' && value instanceof URLSearchParams;\n}\n/**\n * An outgoing HTTP request with an optional typed body.\n *\n * `HttpRequest` represents an outgoing request, including URL, method,\n * headers, body, and other request configuration options. Instances should be\n * assumed to be immutable. To modify a `HttpRequest`, the `clone`\n * method should be used.\n *\n * @publicApi\n */\nclass HttpRequest {\n constructor(method, url, third, fourth) {\n this.url = url;\n /**\n * The request body, or `null` if one isn't set.\n *\n * Bodies are not enforced to be immutable, as they can include a reference to any\n * user-defined data type. However, interceptors should take care to preserve\n * idempotence by treating them as such.\n */\n this.body = null;\n /**\n * Whether this request should be made in a way that exposes progress events.\n *\n * Progress events are expensive (change detection runs on each event) and so\n * they should only be requested if the consumer intends to monitor them.\n *\n * Note: The `FetchBackend` doesn't support progress report on uploads.\n */\n this.reportProgress = false;\n /**\n * Whether this request should be sent with outgoing credentials (cookies).\n */\n this.withCredentials = false;\n /**\n * The expected response type of the server.\n *\n * This is used to parse the response appropriately before returning it to\n * the requestee.\n */\n this.responseType = 'json';\n this.method = method.toUpperCase();\n // Next, need to figure out which argument holds the HttpRequestInit\n // options, if any.\n let options;\n // Check whether a body argument is expected. The only valid way to omit\n // the body argument is to use a known no-body method like GET.\n if (mightHaveBody(this.method) || !!fourth) {\n // Body is the third argument, options are the fourth.\n this.body = third !== undefined ? third : null;\n options = fourth;\n }\n else {\n // No body required, options are the third argument. The body stays null.\n options = third;\n }\n // If options have been passed, interpret them.\n if (options) {\n // Normalize reportProgress and withCredentials.\n this.reportProgress = !!options.reportProgress;\n this.withCredentials = !!options.withCredentials;\n // Override default response type of 'json' if one is provided.\n if (!!options.responseType) {\n this.responseType = options.responseType;\n }\n // Override headers if they're provided.\n if (!!options.headers) {\n this.headers = options.headers;\n }\n if (!!options.context) {\n this.context = options.context;\n }\n if (!!options.params) {\n this.params = options.params;\n }\n // We do want to assign transferCache even if it's falsy (false is valid value)\n this.transferCache = options.transferCache;\n }\n // If no headers have been passed in, construct a new HttpHeaders instance.\n this.headers ??= new HttpHeaders();\n // If no context have been passed in, construct a new HttpContext instance.\n this.context ??= new HttpContext();\n // If no parameters have been passed in, construct a new HttpUrlEncodedParams instance.\n if (!this.params) {\n this.params = new HttpParams();\n this.urlWithParams = url;\n }\n else {\n // Encode the parameters to a string in preparation for inclusion in the URL.\n const params = this.params.toString();\n if (params.length === 0) {\n // No parameters, the visible URL is just the URL given at creation time.\n this.urlWithParams = url;\n }\n else {\n // Does the URL already have query parameters? Look for '?'.\n const qIdx = url.indexOf('?');\n // There are 3 cases to handle:\n // 1) No existing parameters -> append '?' followed by params.\n // 2) '?' exists and is followed by existing query string ->\n // append '&' followed by params.\n // 3) '?' exists at the end of the url -> append params directly.\n // This basically amounts to determining the character, if any, with\n // which to join the URL and parameters.\n const sep = qIdx === -1 ? '?' : qIdx < url.length - 1 ? '&' : '';\n this.urlWithParams = url + sep + params;\n }\n }\n }\n /**\n * Transform the free-form body into a serialized format suitable for\n * transmission to the server.\n */\n serializeBody() {\n // If no body is present, no need to serialize it.\n if (this.body === null) {\n return null;\n }\n // Check whether the body is already in a serialized form. If so,\n // it can just be returned directly.\n if (typeof this.body === 'string' ||\n isArrayBuffer(this.body) ||\n isBlob(this.body) ||\n isFormData(this.body) ||\n isUrlSearchParams(this.body)) {\n return this.body;\n }\n // Check whether the body is an instance of HttpUrlEncodedParams.\n if (this.body instanceof HttpParams) {\n return this.body.toString();\n }\n // Check whether the body is an object or array, and serialize with JSON if so.\n if (typeof this.body === 'object' ||\n typeof this.body === 'boolean' ||\n Array.isArray(this.body)) {\n return JSON.stringify(this.body);\n }\n // Fall back on toString() for everything else.\n return this.body.toString();\n }\n /**\n * Examine the body and attempt to infer an appropriate MIME type\n * for it.\n *\n * If no such type can be inferred, this method will return `null`.\n */\n detectContentTypeHeader() {\n // An empty body has no content type.\n if (this.body === null) {\n return null;\n }\n // FormData bodies rely on the browser's content type assignment.\n if (isFormData(this.body)) {\n return null;\n }\n // Blobs usually have their own content type. If it doesn't, then\n // no type can be inferred.\n if (isBlob(this.body)) {\n return this.body.type || null;\n }\n // Array buffers have unknown contents and thus no type can be inferred.\n if (isArrayBuffer(this.body)) {\n return null;\n }\n // Technically, strings could be a form of JSON data, but it's safe enough\n // to assume they're plain strings.\n if (typeof this.body === 'string') {\n return 'text/plain';\n }\n // `HttpUrlEncodedParams` has its own content-type.\n if (this.body instanceof HttpParams) {\n return 'application/x-www-form-urlencoded;charset=UTF-8';\n }\n // Arrays, objects, boolean and numbers will be encoded as JSON.\n if (typeof this.body === 'object' ||\n typeof this.body === 'number' ||\n typeof this.body === 'boolean') {\n return 'application/json';\n }\n // No type could be inferred.\n return null;\n }\n clone(update = {}) {\n // For method, url, and responseType, take the current value unless\n // it is overridden in the update hash.\n const method = update.method || this.method;\n const url = update.url || this.url;\n const responseType = update.responseType || this.responseType;\n // Carefully handle the transferCache to differentiate between\n // `false` and `undefined` in the update args.\n const transferCache = update.transferCache ?? this.transferCache;\n // The body is somewhat special - a `null` value in update.body means\n // whatever current body is present is being overridden with an empty\n // body, whereas an `undefined` value in update.body implies no\n // override.\n const body = update.body !== undefined ? update.body : this.body;\n // Carefully handle the boolean options to differentiate between\n // `false` and `undefined` in the update args.\n const withCredentials = update.withCredentials ?? this.withCredentials;\n const reportProgress = update.reportProgress ?? this.reportProgress;\n // Headers and params may be appended to if `setHeaders` or\n // `setParams` are used.\n let headers = update.headers || this.headers;\n let params = update.params || this.params;\n // Pass on context if needed\n const context = update.context ?? this.context;\n // Check whether the caller has asked to add headers.\n if (update.setHeaders !== undefined) {\n // Set every requested header.\n headers = Object.keys(update.setHeaders).reduce((headers, name) => headers.set(name, update.setHeaders[name]), headers);\n }\n // Check whether the caller has asked to set params.\n if (update.setParams) {\n // Set every requested param.\n params = Object.keys(update.setParams).reduce((params, param) => params.set(param, update.setParams[param]), params);\n }\n // Finally, construct the new HttpRequest using the pieces from above.\n return new HttpRequest(method, url, body, {\n params,\n headers,\n context,\n reportProgress,\n responseType,\n withCredentials,\n transferCache,\n });\n }\n}\n\n/**\n * Type enumeration for the different kinds of `HttpEvent`.\n *\n * @publicApi\n */\nvar HttpEventType;\n(function (HttpEventType) {\n /**\n * The request was sent out over the wire.\n */\n HttpEventType[HttpEventType[\"Sent\"] = 0] = \"Sent\";\n /**\n * An upload progress event was received.\n *\n * Note: The `FetchBackend` doesn't support progress report on uploads.\n */\n HttpEventType[HttpEventType[\"UploadProgress\"] = 1] = \"UploadProgress\";\n /**\n * The response status code and headers were received.\n */\n HttpEventType[HttpEventType[\"ResponseHeader\"] = 2] = \"ResponseHeader\";\n /**\n * A download progress event was received.\n */\n HttpEventType[HttpEventType[\"DownloadProgress\"] = 3] = \"DownloadProgress\";\n /**\n * The full response including the body was received.\n */\n HttpEventType[HttpEventType[\"Response\"] = 4] = \"Response\";\n /**\n * A custom event from an interceptor or a backend.\n */\n HttpEventType[HttpEventType[\"User\"] = 5] = \"User\";\n})(HttpEventType || (HttpEventType = {}));\n/**\n * Base class for both `HttpResponse` and `HttpHeaderResponse`.\n *\n * @publicApi\n */\nclass HttpResponseBase {\n /**\n * Super-constructor for all responses.\n *\n * The single parameter accepted is an initialization hash. Any properties\n * of the response passed there will override the default values.\n */\n constructor(init, defaultStatus = 200, defaultStatusText = 'OK') {\n // If the hash has values passed, use them to initialize the response.\n // Otherwise use the default values.\n this.headers = init.headers || new HttpHeaders();\n this.status = init.status !== undefined ? init.status : defaultStatus;\n this.statusText = init.statusText || defaultStatusText;\n this.url = init.url || null;\n // Cache the ok value to avoid defining a getter.\n this.ok = this.status >= 200 && this.status < 300;\n }\n}\n/**\n * A partial HTTP response which only includes the status and header data,\n * but no response body.\n *\n * `HttpHeaderResponse` is a `HttpEvent` available on the response\n * event stream, only when progress events are requested.\n *\n * @publicApi\n */\nclass HttpHeaderResponse extends HttpResponseBase {\n /**\n * Create a new `HttpHeaderResponse` with the given parameters.\n */\n constructor(init = {}) {\n super(init);\n this.type = HttpEventType.ResponseHeader;\n }\n /**\n * Copy this `HttpHeaderResponse`, overriding its contents with the\n * given parameter hash.\n */\n clone(update = {}) {\n // Perform a straightforward initialization of the new HttpHeaderResponse,\n // overriding the current parameters with new ones if given.\n return new HttpHeaderResponse({\n headers: update.headers || this.headers,\n status: update.status !== undefined ? update.status : this.status,\n statusText: update.statusText || this.statusText,\n url: update.url || this.url || undefined,\n });\n }\n}\n/**\n * A full HTTP response, including a typed response body (which may be `null`\n * if one was not returned).\n *\n * `HttpResponse` is a `HttpEvent` available on the response event\n * stream.\n *\n * @publicApi\n */\nclass HttpResponse extends HttpResponseBase {\n /**\n * Construct a new `HttpResponse`.\n */\n constructor(init = {}) {\n super(init);\n this.type = HttpEventType.Response;\n this.body = init.body !== undefined ? init.body : null;\n }\n clone(update = {}) {\n return new HttpResponse({\n body: update.body !== undefined ? update.body : this.body,\n headers: update.headers || this.headers,\n status: update.status !== undefined ? update.status : this.status,\n statusText: update.statusText || this.statusText,\n url: update.url || this.url || undefined,\n });\n }\n}\n/**\n * A response that represents an error or failure, either from a\n * non-successful HTTP status, an error while executing the request,\n * or some other failure which occurred during the parsing of the response.\n *\n * Any error returned on the `Observable` response stream will be\n * wrapped in an `HttpErrorResponse` to provide additional context about\n * the state of the HTTP layer when the error occurred. The error property\n * will contain either a wrapped Error object or the error response returned\n * from the server.\n *\n * @publicApi\n */\nclass HttpErrorResponse extends HttpResponseBase {\n constructor(init) {\n // Initialize with a default status of 0 / Unknown Error.\n super(init, 0, 'Unknown Error');\n this.name = 'HttpErrorResponse';\n /**\n * Errors are never okay, even when the status code is in the 2xx success range.\n */\n this.ok = false;\n // If the response was successful, then this was a parse error. Otherwise, it was\n // a protocol-level failure of some sort. Either the request failed in transit\n // or the server returned an unsuccessful status code.\n if (this.status >= 200 && this.status < 300) {\n this.message = `Http failure during parsing for ${init.url || '(unknown url)'}`;\n }\n else {\n this.message = `Http failure response for ${init.url || '(unknown url)'}: ${init.status} ${init.statusText}`;\n }\n this.error = init.error || null;\n }\n}\n/**\n * We use these constant to prevent pulling the whole HttpStatusCode enum\n * Those are the only ones referenced directly by the framework\n */\nconst HTTP_STATUS_CODE_OK = 200;\nconst HTTP_STATUS_CODE_NO_CONTENT = 204;\n/**\n * Http status codes.\n * As per https://www.iana.org/assignments/http-status-codes/http-status-codes.xhtml\n * @publicApi\n */\nvar HttpStatusCode;\n(function (HttpStatusCode) {\n HttpStatusCode[HttpStatusCode[\"Continue\"] = 100] = \"Continue\";\n HttpStatusCode[HttpStatusCode[\"SwitchingProtocols\"] = 101] = \"SwitchingProtocols\";\n HttpStatusCode[HttpStatusCode[\"Processing\"] = 102] = \"Processing\";\n HttpStatusCode[HttpStatusCode[\"EarlyHints\"] = 103] = \"EarlyHints\";\n HttpStatusCode[HttpStatusCode[\"Ok\"] = 200] = \"Ok\";\n HttpStatusCode[HttpStatusCode[\"Created\"] = 201] = \"Created\";\n HttpStatusCode[HttpStatusCode[\"Accepted\"] = 202] = \"Accepted\";\n HttpStatusCode[HttpStatusCode[\"NonAuthoritativeInformation\"] = 203] = \"NonAuthoritativeInformation\";\n HttpStatusCode[HttpStatusCode[\"NoContent\"] = 204] = \"NoContent\";\n HttpStatusCode[HttpStatusCode[\"ResetContent\"] = 205] = \"ResetContent\";\n HttpStatusCode[HttpStatusCode[\"PartialContent\"] = 206] = \"PartialContent\";\n HttpStatusCode[HttpStatusCode[\"MultiStatus\"] = 207] = \"MultiStatus\";\n HttpStatusCode[HttpStatusCode[\"AlreadyReported\"] = 208] = \"AlreadyReported\";\n HttpStatusCode[HttpStatusCode[\"ImUsed\"] = 226] = \"ImUsed\";\n HttpStatusCode[HttpStatusCode[\"MultipleChoices\"] = 300] = \"MultipleChoices\";\n HttpStatusCode[HttpStatusCode[\"MovedPermanently\"] = 301] = \"MovedPermanently\";\n HttpStatusCode[HttpStatusCode[\"Found\"] = 302] = \"Found\";\n HttpStatusCode[HttpStatusCode[\"SeeOther\"] = 303] = \"SeeOther\";\n HttpStatusCode[HttpStatusCode[\"NotModified\"] = 304] = \"NotModified\";\n HttpStatusCode[HttpStatusCode[\"UseProxy\"] = 305] = \"UseProxy\";\n HttpStatusCode[HttpStatusCode[\"Unused\"] = 306] = \"Unused\";\n HttpStatusCode[HttpStatusCode[\"TemporaryRedirect\"] = 307] = \"TemporaryRedirect\";\n HttpStatusCode[HttpStatusCode[\"PermanentRedirect\"] = 308] = \"PermanentRedirect\";\n HttpStatusCode[HttpStatusCode[\"BadRequest\"] = 400] = \"BadRequest\";\n HttpStatusCode[HttpStatusCode[\"Unauthorized\"] = 401] = \"Unauthorized\";\n HttpStatusCode[HttpStatusCode[\"PaymentRequired\"] = 402] = \"PaymentRequired\";\n HttpStatusCode[HttpStatusCode[\"Forbidden\"] = 403] = \"Forbidden\";\n HttpStatusCode[HttpStatusCode[\"NotFound\"] = 404] = \"NotFound\";\n HttpStatusCode[HttpStatusCode[\"MethodNotAllowed\"] = 405] = \"MethodNotAllowed\";\n HttpStatusCode[HttpStatusCode[\"NotAcceptable\"] = 406] = \"NotAcceptable\";\n HttpStatusCode[HttpStatusCode[\"ProxyAuthenticationRequired\"] = 407] = \"ProxyAuthenticationRequired\";\n HttpStatusCode[HttpStatusCode[\"RequestTimeout\"] = 408] = \"RequestTimeout\";\n HttpStatusCode[HttpStatusCode[\"Conflict\"] = 409] = \"Conflict\";\n HttpStatusCode[HttpStatusCode[\"Gone\"] = 410] = \"Gone\";\n HttpStatusCode[HttpStatusCode[\"LengthRequired\"] = 411] = \"LengthRequired\";\n HttpStatusCode[HttpStatusCode[\"PreconditionFailed\"] = 412] = \"PreconditionFailed\";\n HttpStatusCode[HttpStatusCode[\"PayloadTooLarge\"] = 413] = \"PayloadTooLarge\";\n HttpStatusCode[HttpStatusCode[\"UriTooLong\"] = 414] = \"UriTooLong\";\n HttpStatusCode[HttpStatusCode[\"UnsupportedMediaType\"] = 415] = \"UnsupportedMediaType\";\n HttpStatusCode[HttpStatusCode[\"RangeNotSatisfiable\"] = 416] = \"RangeNotSatisfiable\";\n HttpStatusCode[HttpStatusCode[\"ExpectationFailed\"] = 417] = \"ExpectationFailed\";\n HttpStatusCode[HttpStatusCode[\"ImATeapot\"] = 418] = \"ImATeapot\";\n HttpStatusCode[HttpStatusCode[\"MisdirectedRequest\"] = 421] = \"MisdirectedRequest\";\n HttpStatusCode[HttpStatusCode[\"UnprocessableEntity\"] = 422] = \"UnprocessableEntity\";\n HttpStatusCode[HttpStatusCode[\"Locked\"] = 423] = \"Locked\";\n HttpStatusCode[HttpStatusCode[\"FailedDependency\"] = 424] = \"FailedDependency\";\n HttpStatusCode[HttpStatusCode[\"TooEarly\"] = 425] = \"TooEarly\";\n HttpStatusCode[HttpStatusCode[\"UpgradeRequired\"] = 426] = \"UpgradeRequired\";\n HttpStatusCode[HttpStatusCode[\"PreconditionRequired\"] = 428] = \"PreconditionRequired\";\n HttpStatusCode[HttpStatusCode[\"TooManyRequests\"] = 429] = \"TooManyRequests\";\n HttpStatusCode[HttpStatusCode[\"RequestHeaderFieldsTooLarge\"] = 431] = \"RequestHeaderFieldsTooLarge\";\n HttpStatusCode[HttpStatusCode[\"UnavailableForLegalReasons\"] = 451] = \"UnavailableForLegalReasons\";\n HttpStatusCode[HttpStatusCode[\"InternalServerError\"] = 500] = \"InternalServerError\";\n HttpStatusCode[HttpStatusCode[\"NotImplemented\"] = 501] = \"NotImplemented\";\n HttpStatusCode[HttpStatusCode[\"BadGateway\"] = 502] = \"BadGateway\";\n HttpStatusCode[HttpStatusCode[\"ServiceUnavailable\"] = 503] = \"ServiceUnavailable\";\n HttpStatusCode[HttpStatusCode[\"GatewayTimeout\"] = 504] = \"GatewayTimeout\";\n HttpStatusCode[HttpStatusCode[\"HttpVersionNotSupported\"] = 505] = \"HttpVersionNotSupported\";\n HttpStatusCode[HttpStatusCode[\"VariantAlsoNegotiates\"] = 506] = \"VariantAlsoNegotiates\";\n HttpStatusCode[HttpStatusCode[\"InsufficientStorage\"] = 507] = \"InsufficientStorage\";\n HttpStatusCode[HttpStatusCode[\"LoopDetected\"] = 508] = \"LoopDetected\";\n HttpStatusCode[HttpStatusCode[\"NotExtended\"] = 510] = \"NotExtended\";\n HttpStatusCode[HttpStatusCode[\"NetworkAuthenticationRequired\"] = 511] = \"NetworkAuthenticationRequired\";\n})(HttpStatusCode || (HttpStatusCode = {}));\n\n/**\n * Constructs an instance of `HttpRequestOptions` from a source `HttpMethodOptions` and\n * the given `body`. This function clones the object and adds the body.\n *\n * Note that the `responseType` *options* value is a String that identifies the\n * single data type of the response.\n * A single overload version of the method handles each response type.\n * The value of `responseType` cannot be a union, as the combined signature could imply.\n *\n */\nfunction addBody(options, body) {\n return {\n body,\n headers: options.headers,\n context: options.context,\n observe: options.observe,\n params: options.params,\n reportProgress: options.reportProgress,\n responseType: options.responseType,\n withCredentials: options.withCredentials,\n transferCache: options.transferCache,\n };\n}\n/**\n * Performs HTTP requests.\n * This service is available as an injectable class, with methods to perform HTTP requests.\n * Each request method has multiple signatures, and the return type varies based on\n * the signature that is called (mainly the values of `observe` and `responseType`).\n *\n * Note that the `responseType` *options* value is a String that identifies the\n * single data type of the response.\n * A single overload version of the method handles each response type.\n * The value of `responseType` cannot be a union, as the combined signature could imply.\n\n * TODO(adev): review\n * @usageNotes\n *\n * ### HTTP Request Example\n *\n * ```\n * // GET heroes whose name contains search term\n * searchHeroes(term: string): observable{\n *\n * const params = new HttpParams({fromString: 'name=term'});\n * return this.httpClient.request('GET', this.heroesUrl, {responseType:'json', params});\n * }\n * ```\n *\n * Alternatively, the parameter string can be used without invoking HttpParams\n * by directly joining to the URL.\n * ```\n * this.httpClient.request('GET', this.heroesUrl + '?' + 'name=term', {responseType:'json'});\n * ```\n *\n *\n * ### JSONP Example\n * ```\n * requestJsonp(url, callback = 'callback') {\n * return this.httpClient.jsonp(this.heroesURL, callback);\n * }\n * ```\n *\n * ### PATCH Example\n * ```\n * // PATCH one of the heroes' name\n * patchHero (id: number, heroName: string): Observable<{}> {\n * const url = `${this.heroesUrl}/${id}`; // PATCH api/heroes/42\n * return this.httpClient.patch(url, {name: heroName}, httpOptions)\n * .pipe(catchError(this.handleError('patchHero')));\n * }\n * ```\n *\n * @see [HTTP Guide](guide/http)\n * @see [HTTP Request](api/common/http/HttpRequest)\n *\n * @publicApi\n */\nclass HttpClient {\n constructor(handler) {\n this.handler = handler;\n }\n /**\n * Constructs an observable for a generic HTTP request that, when subscribed,\n * fires the request through the chain of registered interceptors and on to the\n * server.\n *\n * You can pass an `HttpRequest` directly as the only parameter. In this case,\n * the call returns an observable of the raw `HttpEvent` stream.\n *\n * Alternatively you can pass an HTTP method as the first parameter,\n * a URL string as the second, and an options hash containing the request body as the third.\n * See `addBody()`. In this case, the specified `responseType` and `observe` options determine the\n * type of returned observable.\n * * The `responseType` value determines how a successful response body is parsed.\n * * If `responseType` is the default `json`, you can pass a type interface for the resulting\n * object as a type parameter to the call.\n *\n * The `observe` value determines the return type, according to what you are interested in\n * observing.\n * * An `observe` value of events returns an observable of the raw `HttpEvent` stream, including\n * progress events by default.\n * * An `observe` value of response returns an observable of `HttpResponse`,\n * where the `T` parameter depends on the `responseType` and any optionally provided type\n * parameter.\n * * An `observe` value of body returns an observable of `` with the same `T` body type.\n *\n */\n request(first, url, options = {}) {\n let req;\n // First, check whether the primary argument is an instance of `HttpRequest`.\n if (first instanceof HttpRequest) {\n // It is. The other arguments must be undefined (per the signatures) and can be\n // ignored.\n req = first;\n }\n else {\n // It's a string, so it represents a URL. Construct a request based on it,\n // and incorporate the remaining arguments (assuming `GET` unless a method is\n // provided.\n // Figure out the headers.\n let headers = undefined;\n if (options.headers instanceof HttpHeaders) {\n headers = options.headers;\n }\n else {\n headers = new HttpHeaders(options.headers);\n }\n // Sort out parameters.\n let params = undefined;\n if (!!options.params) {\n if (options.params instanceof HttpParams) {\n params = options.params;\n }\n else {\n params = new HttpParams({ fromObject: options.params });\n }\n }\n // Construct the request.\n req = new HttpRequest(first, url, options.body !== undefined ? options.body : null, {\n headers,\n context: options.context,\n params,\n reportProgress: options.reportProgress,\n // By default, JSON is assumed to be returned for all calls.\n responseType: options.responseType || 'json',\n withCredentials: options.withCredentials,\n transferCache: options.transferCache,\n });\n }\n // Start with an Observable.of() the initial request, and run the handler (which\n // includes all interceptors) inside a concatMap(). This way, the handler runs\n // inside an Observable chain, which causes interceptors to be re-run on every\n // subscription (this also makes retries re-run the handler, including interceptors).\n const events$ = of(req).pipe(concatMap((req) => this.handler.handle(req)));\n // If coming via the API signature which accepts a previously constructed HttpRequest,\n // the only option is to get the event stream. Otherwise, return the event stream if\n // that is what was requested.\n if (first instanceof HttpRequest || options.observe === 'events') {\n return events$;\n }\n // The requested stream contains either the full response or the body. In either\n // case, the first step is to filter the event stream to extract a stream of\n // responses(s).\n const res$ = (events$.pipe(filter((event) => event instanceof HttpResponse)));\n // Decide which stream to return.\n switch (options.observe || 'body') {\n case 'body':\n // The requested stream is the body. Map the response stream to the response\n // body. This could be done more simply, but a misbehaving interceptor might\n // transform the response body into a different format and ignore the requested\n // responseType. Guard against this by validating that the response is of the\n // requested type.\n switch (req.responseType) {\n case 'arraybuffer':\n return res$.pipe(map((res) => {\n // Validate that the body is an ArrayBuffer.\n if (res.body !== null && !(res.body instanceof ArrayBuffer)) {\n throw new Error('Response is not an ArrayBuffer.');\n }\n return res.body;\n }));\n case 'blob':\n return res$.pipe(map((res) => {\n // Validate that the body is a Blob.\n if (res.body !== null && !(res.body instanceof Blob)) {\n throw new Error('Response is not a Blob.');\n }\n return res.body;\n }));\n case 'text':\n return res$.pipe(map((res) => {\n // Validate that the body is a string.\n if (res.body !== null && typeof res.body !== 'string') {\n throw new Error('Response is not a string.');\n }\n return res.body;\n }));\n case 'json':\n default:\n // No validation needed for JSON responses, as they can be of any type.\n return res$.pipe(map((res) => res.body));\n }\n case 'response':\n // The response stream was requested directly, so return it.\n return res$;\n default:\n // Guard against new future observe types being added.\n throw new Error(`Unreachable: unhandled observe type ${options.observe}}`);\n }\n }\n /**\n * Constructs an observable that, when subscribed, causes the configured\n * `DELETE` request to execute on the server. See the individual overloads for\n * details on the return type.\n *\n * @param url The endpoint URL.\n * @param options The HTTP options to send with the request.\n *\n */\n delete(url, options = {}) {\n return this.request('DELETE', url, options);\n }\n /**\n * Constructs an observable that, when subscribed, causes the configured\n * `GET` request to execute on the server. See the individual overloads for\n * details on the return type.\n */\n get(url, options = {}) {\n return this.request('GET', url, options);\n }\n /**\n * Constructs an observable that, when subscribed, causes the configured\n * `HEAD` request to execute on the server. The `HEAD` method returns\n * meta information about the resource without transferring the\n * resource itself. See the individual overloads for\n * details on the return type.\n */\n head(url, options = {}) {\n return this.request('HEAD', url, options);\n }\n /**\n * Constructs an `Observable` that, when subscribed, causes a request with the special method\n * `JSONP` to be dispatched via the interceptor pipeline.\n * The [JSONP pattern](https://en.wikipedia.org/wiki/JSONP) works around limitations of certain\n * API endpoints that don't support newer,\n * and preferable [CORS](https://developer.mozilla.org/en-US/docs/Web/HTTP/CORS) protocol.\n * JSONP treats the endpoint API as a JavaScript file and tricks the browser to process the\n * requests even if the API endpoint is not located on the same domain (origin) as the client-side\n * application making the request.\n * The endpoint API must support JSONP callback for JSONP requests to work.\n * The resource API returns the JSON response wrapped in a callback function.\n * You can pass the callback function name as one of the query parameters.\n * Note that JSONP requests can only be used with `GET` requests.\n *\n * @param url The resource URL.\n * @param callbackParam The callback function name.\n *\n */\n jsonp(url, callbackParam) {\n return this.request('JSONP', url, {\n params: new HttpParams().append(callbackParam, 'JSONP_CALLBACK'),\n observe: 'body',\n responseType: 'json',\n });\n }\n /**\n * Constructs an `Observable` that, when subscribed, causes the configured\n * `OPTIONS` request to execute on the server. This method allows the client\n * to determine the supported HTTP methods and other capabilities of an endpoint,\n * without implying a resource action. See the individual overloads for\n * details on the return type.\n */\n options(url, options = {}) {\n return this.request('OPTIONS', url, options);\n }\n /**\n * Constructs an observable that, when subscribed, causes the configured\n * `PATCH` request to execute on the server. See the individual overloads for\n * details on the return type.\n */\n patch(url, body, options = {}) {\n return this.request('PATCH', url, addBody(options, body));\n }\n /**\n * Constructs an observable that, when subscribed, causes the configured\n * `POST` request to execute on the server. The server responds with the location of\n * the replaced resource. See the individual overloads for\n * details on the return type.\n */\n post(url, body, options = {}) {\n return this.request('POST', url, addBody(options, body));\n }\n /**\n * Constructs an observable that, when subscribed, causes the configured\n * `PUT` request to execute on the server. The `PUT` method replaces an existing resource\n * with a new set of values.\n * See the individual overloads for details on the return type.\n */\n put(url, body, options = {}) {\n return this.request('PUT', url, addBody(options, body));\n }\n static { this.ɵfac = i0.ɵɵngDeclareFactory({ minVersion: \"12.0.0\", version: \"18.2.1\", ngImport: i0, type: HttpClient, deps: [{ token: HttpHandler }], target: i0.ɵɵFactoryTarget.Injectable }); }\n static { this.ɵprov = i0.ɵɵngDeclareInjectable({ minVersion: \"12.0.0\", version: \"18.2.1\", ngImport: i0, type: HttpClient }); }\n}\ni0.ɵɵngDeclareClassMetadata({ minVersion: \"12.0.0\", version: \"18.2.1\", ngImport: i0, type: HttpClient, decorators: [{\n type: Injectable\n }], ctorParameters: () => [{ type: HttpHandler }] });\n\nconst XSSI_PREFIX$1 = /^\\)\\]\\}',?\\n/;\nconst REQUEST_URL_HEADER = `X-Request-URL`;\n/**\n * Determine an appropriate URL for the response, by checking either\n * response url or the X-Request-URL header.\n */\nfunction getResponseUrl$1(response) {\n if (response.url) {\n return response.url;\n }\n // stored as lowercase in the map\n const xRequestUrl = REQUEST_URL_HEADER.toLocaleLowerCase();\n return response.headers.get(xRequestUrl);\n}\n/**\n * Uses `fetch` to send requests to a backend server.\n *\n * This `FetchBackend` requires the support of the\n * [Fetch API](https://developer.mozilla.org/en-US/docs/Web/API/Fetch_API) which is available on all\n * supported browsers and on Node.js v18 or later.\n *\n * @see {@link HttpHandler}\n *\n * @publicApi\n */\nclass FetchBackend {\n constructor() {\n // We need to bind the native fetch to its context or it will throw an \"illegal invocation\"\n this.fetchImpl = inject(FetchFactory, { optional: true })?.fetch ?? fetch.bind(globalThis);\n this.ngZone = inject(NgZone);\n }\n handle(request) {\n return new Observable((observer) => {\n const aborter = new AbortController();\n this.doRequest(request, aborter.signal, observer).then(noop, (error) => observer.error(new HttpErrorResponse({ error })));\n return () => aborter.abort();\n });\n }\n async doRequest(request, signal, observer) {\n const init = this.createRequestInit(request);\n let response;\n try {\n // Run fetch outside of Angular zone.\n // This is due to Node.js fetch implementation (Undici) which uses a number of setTimeouts to check if\n // the response should eventually timeout which causes extra CD cycles every 500ms\n const fetchPromise = this.ngZone.runOutsideAngular(() => this.fetchImpl(request.urlWithParams, { signal, ...init }));\n // Make sure Zone.js doesn't trigger false-positive unhandled promise\n // error in case the Promise is rejected synchronously. See function\n // description for additional information.\n silenceSuperfluousUnhandledPromiseRejection(fetchPromise);\n // Send the `Sent` event before awaiting the response.\n observer.next({ type: HttpEventType.Sent });\n response = await fetchPromise;\n }\n catch (error) {\n observer.error(new HttpErrorResponse({\n error,\n status: error.status ?? 0,\n statusText: error.statusText,\n url: request.urlWithParams,\n headers: error.headers,\n }));\n return;\n }\n const headers = new HttpHeaders(response.headers);\n const statusText = response.statusText;\n const url = getResponseUrl$1(response) ?? request.urlWithParams;\n let status = response.status;\n let body = null;\n if (request.reportProgress) {\n observer.next(new HttpHeaderResponse({ headers, status, statusText, url }));\n }\n if (response.body) {\n // Read Progress\n const contentLength = response.headers.get('content-length');\n const chunks = [];\n const reader = response.body.getReader();\n let receivedLength = 0;\n let decoder;\n let partialText;\n // We have to check whether the Zone is defined in the global scope because this may be called\n // when the zone is nooped.\n const reqZone = typeof Zone !== 'undefined' && Zone.current;\n // Perform response processing outside of Angular zone to\n // ensure no excessive change detection runs are executed\n // Here calling the async ReadableStreamDefaultReader.read() is responsible for triggering CD\n await this.ngZone.runOutsideAngular(async () => {\n while (true) {\n const { done, value } = await reader.read();\n if (done) {\n break;\n }\n chunks.push(value);\n receivedLength += value.length;\n if (request.reportProgress) {\n partialText =\n request.responseType === 'text'\n ? (partialText ?? '') +\n (decoder ??= new TextDecoder()).decode(value, { stream: true })\n : undefined;\n const reportProgress = () => observer.next({\n type: HttpEventType.DownloadProgress,\n total: contentLength ? +contentLength : undefined,\n loaded: receivedLength,\n partialText,\n });\n reqZone ? reqZone.run(reportProgress) : reportProgress();\n }\n }\n });\n // Combine all chunks.\n const chunksAll = this.concatChunks(chunks, receivedLength);\n try {\n const contentType = response.headers.get('Content-Type') ?? '';\n body = this.parseBody(request, chunksAll, contentType);\n }\n catch (error) {\n // Body loading or parsing failed\n observer.error(new HttpErrorResponse({\n error,\n headers: new HttpHeaders(response.headers),\n status: response.status,\n statusText: response.statusText,\n url: getResponseUrl$1(response) ?? request.urlWithParams,\n }));\n return;\n }\n }\n // Same behavior as the XhrBackend\n if (status === 0) {\n status = body ? HTTP_STATUS_CODE_OK : 0;\n }\n // ok determines whether the response will be transmitted on the event or\n // error channel. Unsuccessful status codes (not 2xx) will always be errors,\n // but a successful status code can still result in an error if the user\n // asked for JSON data and the body cannot be parsed as such.\n const ok = status >= 200 && status < 300;\n if (ok) {\n observer.next(new HttpResponse({\n body,\n headers,\n status,\n statusText,\n url,\n }));\n // The full body has been received and delivered, no further events\n // are possible. This request is complete.\n observer.complete();\n }\n else {\n observer.error(new HttpErrorResponse({\n error: body,\n headers,\n status,\n statusText,\n url,\n }));\n }\n }\n parseBody(request, binContent, contentType) {\n switch (request.responseType) {\n case 'json':\n // stripping the XSSI when present\n const text = new TextDecoder().decode(binContent).replace(XSSI_PREFIX$1, '');\n return text === '' ? null : JSON.parse(text);\n case 'text':\n return new TextDecoder().decode(binContent);\n case 'blob':\n return new Blob([binContent], { type: contentType });\n case 'arraybuffer':\n return binContent.buffer;\n }\n }\n createRequestInit(req) {\n // We could share some of this logic with the XhrBackend\n const headers = {};\n const credentials = req.withCredentials ? 'include' : undefined;\n // Setting all the requested headers.\n req.headers.forEach((name, values) => (headers[name] = values.join(',')));\n // Add an Accept header if one isn't present already.\n if (!req.headers.has('Accept')) {\n headers['Accept'] = 'application/json, text/plain, */*';\n }\n // Auto-detect the Content-Type header if one isn't present already.\n if (!req.headers.has('Content-Type')) {\n const detectedType = req.detectContentTypeHeader();\n // Sometimes Content-Type detection fails.\n if (detectedType !== null) {\n headers['Content-Type'] = detectedType;\n }\n }\n return {\n body: req.serializeBody(),\n method: req.method,\n headers,\n credentials,\n };\n }\n concatChunks(chunks, totalLength) {\n const chunksAll = new Uint8Array(totalLength);\n let position = 0;\n for (const chunk of chunks) {\n chunksAll.set(chunk, position);\n position += chunk.length;\n }\n return chunksAll;\n }\n static { this.ɵfac = i0.ɵɵngDeclareFactory({ minVersion: \"12.0.0\", version: \"18.2.1\", ngImport: i0, type: FetchBackend, deps: [], target: i0.ɵɵFactoryTarget.Injectable }); }\n static { this.ɵprov = i0.ɵɵngDeclareInjectable({ minVersion: \"12.0.0\", version: \"18.2.1\", ngImport: i0, type: FetchBackend }); }\n}\ni0.ɵɵngDeclareClassMetadata({ minVersion: \"12.0.0\", version: \"18.2.1\", ngImport: i0, type: FetchBackend, decorators: [{\n type: Injectable\n }] });\n/**\n * Abstract class to provide a mocked implementation of `fetch()`\n */\nclass FetchFactory {\n}\nfunction noop() { }\n/**\n * Zone.js treats a rejected promise that has not yet been awaited\n * as an unhandled error. This function adds a noop `.then` to make\n * sure that Zone.js doesn't throw an error if the Promise is rejected\n * synchronously.\n */\nfunction silenceSuperfluousUnhandledPromiseRejection(promise) {\n promise.then(noop, noop);\n}\n\nfunction interceptorChainEndFn(req, finalHandlerFn) {\n return finalHandlerFn(req);\n}\n/**\n * Constructs a `ChainedInterceptorFn` which adapts a legacy `HttpInterceptor` to the\n * `ChainedInterceptorFn` interface.\n */\nfunction adaptLegacyInterceptorToChain(chainTailFn, interceptor) {\n return (initialRequest, finalHandlerFn) => interceptor.intercept(initialRequest, {\n handle: (downstreamRequest) => chainTailFn(downstreamRequest, finalHandlerFn),\n });\n}\n/**\n * Constructs a `ChainedInterceptorFn` which wraps and invokes a functional interceptor in the given\n * injector.\n */\nfunction chainedInterceptorFn(chainTailFn, interceptorFn, injector) {\n return (initialRequest, finalHandlerFn) => runInInjectionContext(injector, () => interceptorFn(initialRequest, (downstreamRequest) => chainTailFn(downstreamRequest, finalHandlerFn)));\n}\n/**\n * A multi-provider token that represents the array of registered\n * `HttpInterceptor` objects.\n *\n * @publicApi\n */\nconst HTTP_INTERCEPTORS = new InjectionToken(ngDevMode ? 'HTTP_INTERCEPTORS' : '');\n/**\n * A multi-provided token of `HttpInterceptorFn`s.\n */\nconst HTTP_INTERCEPTOR_FNS = new InjectionToken(ngDevMode ? 'HTTP_INTERCEPTOR_FNS' : '');\n/**\n * A multi-provided token of `HttpInterceptorFn`s that are only set in root.\n */\nconst HTTP_ROOT_INTERCEPTOR_FNS = new InjectionToken(ngDevMode ? 'HTTP_ROOT_INTERCEPTOR_FNS' : '');\n// TODO(atscott): We need a larger discussion about stability and what should contribute to stability.\n// Should the whole interceptor chain contribute to stability or just the backend request #55075?\n// Should HttpClient contribute to stability automatically at all?\nconst REQUESTS_CONTRIBUTE_TO_STABILITY = new InjectionToken(ngDevMode ? 'REQUESTS_CONTRIBUTE_TO_STABILITY' : '', { providedIn: 'root', factory: () => true });\n/**\n * Creates an `HttpInterceptorFn` which lazily initializes an interceptor chain from the legacy\n * class-based interceptors and runs the request through it.\n */\nfunction legacyInterceptorFnFactory() {\n let chain = null;\n return (req, handler) => {\n if (chain === null) {\n const interceptors = inject(HTTP_INTERCEPTORS, { optional: true }) ?? [];\n // Note: interceptors are wrapped right-to-left so that final execution order is\n // left-to-right. That is, if `interceptors` is the array `[a, b, c]`, we want to\n // produce a chain that is conceptually `c(b(a(end)))`, which we build from the inside\n // out.\n chain = interceptors.reduceRight(adaptLegacyInterceptorToChain, interceptorChainEndFn);\n }\n const pendingTasks = inject(ɵPendingTasks);\n const contributeToStability = inject(REQUESTS_CONTRIBUTE_TO_STABILITY);\n if (contributeToStability) {\n const taskId = pendingTasks.add();\n return chain(req, handler).pipe(finalize(() => pendingTasks.remove(taskId)));\n }\n else {\n return chain(req, handler);\n }\n };\n}\nlet fetchBackendWarningDisplayed = false;\n/** Internal function to reset the flag in tests */\nfunction resetFetchBackendWarningFlag() {\n fetchBackendWarningDisplayed = false;\n}\nclass HttpInterceptorHandler extends HttpHandler {\n constructor(backend, injector) {\n super();\n this.backend = backend;\n this.injector = injector;\n this.chain = null;\n this.pendingTasks = inject(ɵPendingTasks);\n this.contributeToStability = inject(REQUESTS_CONTRIBUTE_TO_STABILITY);\n // We strongly recommend using fetch backend for HTTP calls when SSR is used\n // for an application. The logic below checks if that's the case and produces\n // a warning otherwise.\n if ((typeof ngDevMode === 'undefined' || ngDevMode) && !fetchBackendWarningDisplayed) {\n const isServer = isPlatformServer(injector.get(PLATFORM_ID));\n if (isServer && !(this.backend instanceof FetchBackend)) {\n fetchBackendWarningDisplayed = true;\n injector\n .get(ɵConsole)\n .warn(ɵformatRuntimeError(2801 /* RuntimeErrorCode.NOT_USING_FETCH_BACKEND_IN_SSR */, 'Angular detected that `HttpClient` is not configured ' +\n \"to use `fetch` APIs. It's strongly recommended to \" +\n 'enable `fetch` for applications that use Server-Side Rendering ' +\n 'for better performance and compatibility. ' +\n 'To enable `fetch`, add the `withFetch()` to the `provideHttpClient()` ' +\n 'call at the root of the application.'));\n }\n }\n }\n handle(initialRequest) {\n if (this.chain === null) {\n const dedupedInterceptorFns = Array.from(new Set([\n ...this.injector.get(HTTP_INTERCEPTOR_FNS),\n ...this.injector.get(HTTP_ROOT_INTERCEPTOR_FNS, []),\n ]));\n // Note: interceptors are wrapped right-to-left so that final execution order is\n // left-to-right. That is, if `dedupedInterceptorFns` is the array `[a, b, c]`, we want to\n // produce a chain that is conceptually `c(b(a(end)))`, which we build from the inside\n // out.\n this.chain = dedupedInterceptorFns.reduceRight((nextSequencedFn, interceptorFn) => chainedInterceptorFn(nextSequencedFn, interceptorFn, this.injector), interceptorChainEndFn);\n }\n if (this.contributeToStability) {\n const taskId = this.pendingTasks.add();\n return this.chain(initialRequest, (downstreamRequest) => this.backend.handle(downstreamRequest)).pipe(finalize(() => this.pendingTasks.remove(taskId)));\n }\n else {\n return this.chain(initialRequest, (downstreamRequest) => this.backend.handle(downstreamRequest));\n }\n }\n static { this.ɵfac = i0.ɵɵngDeclareFactory({ minVersion: \"12.0.0\", version: \"18.2.1\", ngImport: i0, type: HttpInterceptorHandler, deps: [{ token: HttpBackend }, { token: i0.EnvironmentInjector }], target: i0.ɵɵFactoryTarget.Injectable }); }\n static { this.ɵprov = i0.ɵɵngDeclareInjectable({ minVersion: \"12.0.0\", version: \"18.2.1\", ngImport: i0, type: HttpInterceptorHandler }); }\n}\ni0.ɵɵngDeclareClassMetadata({ minVersion: \"12.0.0\", version: \"18.2.1\", ngImport: i0, type: HttpInterceptorHandler, decorators: [{\n type: Injectable\n }], ctorParameters: () => [{ type: HttpBackend }, { type: i0.EnvironmentInjector }] });\n\n// Every request made through JSONP needs a callback name that's unique across the\n// whole page. Each request is assigned an id and the callback name is constructed\n// from that. The next id to be assigned is tracked in a global variable here that\n// is shared among all applications on the page.\nlet nextRequestId = 0;\n/**\n * When a pending