import { BehaviorSubject, Subject, Subscription, __async, __spreadProps, __spreadValues, first, map } from "./chunk-SXIXOCJ4.js"; // node_modules/@angular/core/fesm2022/primitives/signals.mjs function defaultEquals(a, b) { return Object.is(a, b); } var activeConsumer = null; var inNotificationPhase = false; var epoch = 1; var SIGNAL = Symbol("SIGNAL"); function setActiveConsumer(consumer) { const prev = activeConsumer; activeConsumer = consumer; return prev; } function getActiveConsumer() { return activeConsumer; } function isInNotificationPhase() { return inNotificationPhase; } var REACTIVE_NODE = { version: 0, lastCleanEpoch: 0, dirty: false, producerNode: void 0, producerLastReadVersion: void 0, producerIndexOfThis: void 0, nextProducerIndex: 0, liveConsumerNode: void 0, liveConsumerIndexOfThis: void 0, consumerAllowSignalWrites: false, consumerIsAlwaysLive: false, producerMustRecompute: () => false, producerRecomputeValue: () => { }, consumerMarkedDirty: () => { }, consumerOnSignalRead: () => { } }; function producerAccessed(node) { if (inNotificationPhase) { throw new Error(typeof ngDevMode !== "undefined" && ngDevMode ? `Assertion error: signal read during notification phase` : ""); } if (activeConsumer === null) { return; } activeConsumer.consumerOnSignalRead(node); const idx = activeConsumer.nextProducerIndex++; assertConsumerNode(activeConsumer); if (idx < activeConsumer.producerNode.length && activeConsumer.producerNode[idx] !== node) { if (consumerIsLive(activeConsumer)) { const staleProducer = activeConsumer.producerNode[idx]; producerRemoveLiveConsumerAtIndex(staleProducer, activeConsumer.producerIndexOfThis[idx]); } } if (activeConsumer.producerNode[idx] !== node) { activeConsumer.producerNode[idx] = node; activeConsumer.producerIndexOfThis[idx] = consumerIsLive(activeConsumer) ? producerAddLiveConsumer(node, activeConsumer, idx) : 0; } activeConsumer.producerLastReadVersion[idx] = node.version; } function producerIncrementEpoch() { epoch++; } function producerUpdateValueVersion(node) { if (consumerIsLive(node) && !node.dirty) { return; } if (!node.dirty && node.lastCleanEpoch === epoch) { return; } if (!node.producerMustRecompute(node) && !consumerPollProducersForChange(node)) { node.dirty = false; node.lastCleanEpoch = epoch; return; } node.producerRecomputeValue(node); node.dirty = false; node.lastCleanEpoch = epoch; } function producerNotifyConsumers(node) { if (node.liveConsumerNode === void 0) { return; } const prev = inNotificationPhase; inNotificationPhase = true; try { for (const consumer of node.liveConsumerNode) { if (!consumer.dirty) { consumerMarkDirty(consumer); } } } finally { inNotificationPhase = prev; } } function producerUpdatesAllowed() { return activeConsumer?.consumerAllowSignalWrites !== false; } function consumerMarkDirty(node) { node.dirty = true; producerNotifyConsumers(node); node.consumerMarkedDirty?.(node); } function consumerBeforeComputation(node) { node && (node.nextProducerIndex = 0); return setActiveConsumer(node); } function consumerAfterComputation(node, prevConsumer) { setActiveConsumer(prevConsumer); if (!node || node.producerNode === void 0 || node.producerIndexOfThis === void 0 || node.producerLastReadVersion === void 0) { return; } if (consumerIsLive(node)) { for (let i = node.nextProducerIndex; i < node.producerNode.length; i++) { producerRemoveLiveConsumerAtIndex(node.producerNode[i], node.producerIndexOfThis[i]); } } while (node.producerNode.length > node.nextProducerIndex) { node.producerNode.pop(); node.producerLastReadVersion.pop(); node.producerIndexOfThis.pop(); } } function consumerPollProducersForChange(node) { assertConsumerNode(node); for (let i = 0; i < node.producerNode.length; i++) { const producer = node.producerNode[i]; const seenVersion = node.producerLastReadVersion[i]; if (seenVersion !== producer.version) { return true; } producerUpdateValueVersion(producer); if (seenVersion !== producer.version) { return true; } } return false; } function consumerDestroy(node) { assertConsumerNode(node); if (consumerIsLive(node)) { for (let i = 0; i < node.producerNode.length; i++) { producerRemoveLiveConsumerAtIndex(node.producerNode[i], node.producerIndexOfThis[i]); } } node.producerNode.length = node.producerLastReadVersion.length = node.producerIndexOfThis.length = 0; if (node.liveConsumerNode) { node.liveConsumerNode.length = node.liveConsumerIndexOfThis.length = 0; } } function producerAddLiveConsumer(node, consumer, indexOfThis) { assertProducerNode(node); assertConsumerNode(node); if (node.liveConsumerNode.length === 0) { for (let i = 0; i < node.producerNode.length; i++) { node.producerIndexOfThis[i] = producerAddLiveConsumer(node.producerNode[i], node, i); } } node.liveConsumerIndexOfThis.push(indexOfThis); return node.liveConsumerNode.push(consumer) - 1; } function producerRemoveLiveConsumerAtIndex(node, idx) { assertProducerNode(node); assertConsumerNode(node); if (typeof ngDevMode !== "undefined" && ngDevMode && idx >= node.liveConsumerNode.length) { throw new Error(`Assertion error: active consumer index ${idx} is out of bounds of ${node.liveConsumerNode.length} consumers)`); } if (node.liveConsumerNode.length === 1) { for (let i = 0; i < node.producerNode.length; i++) { producerRemoveLiveConsumerAtIndex(node.producerNode[i], node.producerIndexOfThis[i]); } } const lastIdx = node.liveConsumerNode.length - 1; node.liveConsumerNode[idx] = node.liveConsumerNode[lastIdx]; node.liveConsumerIndexOfThis[idx] = node.liveConsumerIndexOfThis[lastIdx]; node.liveConsumerNode.length--; node.liveConsumerIndexOfThis.length--; if (idx < node.liveConsumerNode.length) { const idxProducer = node.liveConsumerIndexOfThis[idx]; const consumer = node.liveConsumerNode[idx]; assertConsumerNode(consumer); consumer.producerIndexOfThis[idxProducer] = idx; } } function consumerIsLive(node) { return node.consumerIsAlwaysLive || (node?.liveConsumerNode?.length ?? 0) > 0; } function assertConsumerNode(node) { node.producerNode ??= []; node.producerIndexOfThis ??= []; node.producerLastReadVersion ??= []; } function assertProducerNode(node) { node.liveConsumerNode ??= []; node.liveConsumerIndexOfThis ??= []; } function createComputed(computation) { const node = Object.create(COMPUTED_NODE); node.computation = computation; const computed2 = () => { producerUpdateValueVersion(node); producerAccessed(node); if (node.value === ERRORED) { throw node.error; } return node.value; }; computed2[SIGNAL] = node; return computed2; } var UNSET = Symbol("UNSET"); var COMPUTING = Symbol("COMPUTING"); var ERRORED = Symbol("ERRORED"); var COMPUTED_NODE = (() => { return __spreadProps(__spreadValues({}, REACTIVE_NODE), { value: UNSET, dirty: true, error: null, equal: defaultEquals, producerMustRecompute(node) { return node.value === UNSET || node.value === COMPUTING; }, producerRecomputeValue(node) { if (node.value === COMPUTING) { throw new Error("Detected cycle in computations."); } const oldValue = node.value; node.value = COMPUTING; const prevConsumer = consumerBeforeComputation(node); let newValue; try { newValue = node.computation(); } catch (err) { newValue = ERRORED; node.error = err; } finally { consumerAfterComputation(node, prevConsumer); } if (oldValue !== UNSET && oldValue !== ERRORED && newValue !== ERRORED && node.equal(oldValue, newValue)) { node.value = oldValue; return; } node.value = newValue; node.version++; } }); })(); function defaultThrowError() { throw new Error(); } var throwInvalidWriteToSignalErrorFn = defaultThrowError; function throwInvalidWriteToSignalError() { throwInvalidWriteToSignalErrorFn(); } function setThrowInvalidWriteToSignalError(fn) { throwInvalidWriteToSignalErrorFn = fn; } var postSignalSetFn = null; function createSignal(initialValue) { const node = Object.create(SIGNAL_NODE); node.value = initialValue; const getter = () => { producerAccessed(node); return node.value; }; getter[SIGNAL] = node; return getter; } function signalSetFn(node, newValue) { if (!producerUpdatesAllowed()) { throwInvalidWriteToSignalError(); } if (!node.equal(node.value, newValue)) { node.value = newValue; signalValueChanged(node); } } function signalUpdateFn(node, updater) { if (!producerUpdatesAllowed()) { throwInvalidWriteToSignalError(); } signalSetFn(node, updater(node.value)); } var SIGNAL_NODE = (() => { return __spreadProps(__spreadValues({}, REACTIVE_NODE), { equal: defaultEquals, value: void 0 }); })(); function signalValueChanged(node) { node.version++; producerIncrementEpoch(); producerNotifyConsumers(node); postSignalSetFn?.(); } function createWatch(fn, schedule, allowSignalWrites) { const node = Object.create(WATCH_NODE); if (allowSignalWrites) { node.consumerAllowSignalWrites = true; } node.fn = fn; node.schedule = schedule; const registerOnCleanup = (cleanupFn) => { node.cleanupFn = cleanupFn; }; function isWatchNodeDestroyed(node2) { return node2.fn === null && node2.schedule === null; } function destroyWatchNode(node2) { if (!isWatchNodeDestroyed(node2)) { consumerDestroy(node2); node2.cleanupFn(); node2.fn = null; node2.schedule = null; node2.cleanupFn = NOOP_CLEANUP_FN; } } const run = () => { if (node.fn === null) { return; } if (isInNotificationPhase()) { throw new Error(`Schedulers cannot synchronously execute watches while scheduling.`); } node.dirty = false; if (node.hasRun && !consumerPollProducersForChange(node)) { return; } node.hasRun = true; const prevConsumer = consumerBeforeComputation(node); try { node.cleanupFn(); node.cleanupFn = NOOP_CLEANUP_FN; node.fn(registerOnCleanup); } finally { consumerAfterComputation(node, prevConsumer); } }; node.ref = { notify: () => consumerMarkDirty(node), run, cleanup: () => node.cleanupFn(), destroy: () => destroyWatchNode(node), [SIGNAL]: node }; return node.ref; } var NOOP_CLEANUP_FN = () => { }; var WATCH_NODE = (() => { return __spreadProps(__spreadValues({}, REACTIVE_NODE), { consumerIsAlwaysLive: true, consumerAllowSignalWrites: false, consumerMarkedDirty: (node) => { if (node.schedule !== null) { node.schedule(node.ref); } }, hasRun: false, cleanupFn: NOOP_CLEANUP_FN }); })(); // node_modules/@angular/core/fesm2022/core.mjs var ERROR_DETAILS_PAGE_BASE_URL = "https://angular.io/errors"; var XSS_SECURITY_URL = "https://g.co/ng/security#xss"; var RuntimeError = class extends Error { constructor(code, message) { super(formatRuntimeError(code, message)); this.code = code; } }; function formatRuntimeError(code, message) { const fullCode = `NG0${Math.abs(code)}`; let errorMessage = `${fullCode}${message ? ": " + message : ""}`; if (ngDevMode && code < 0) { const addPeriodSeparator = !errorMessage.match(/[.,;!?\n]$/); const separator = addPeriodSeparator ? "." : ""; errorMessage = `${errorMessage}${separator} Find more at ${ERROR_DETAILS_PAGE_BASE_URL}/${fullCode}`; } return errorMessage; } var REQUIRED_UNSET_VALUE = Symbol("InputSignalNode#UNSET"); var INPUT_SIGNAL_NODE = (() => { return __spreadProps(__spreadValues({}, SIGNAL_NODE), { transformFn: void 0, applyValueToInputSignal(node, value) { signalSetFn(node, value); } }); })(); var ɵINPUT_SIGNAL_BRAND_READ_TYPE = Symbol(); var ɵINPUT_SIGNAL_BRAND_WRITE_TYPE = Symbol(); function createInputSignal(initialValue, options) { const node = Object.create(INPUT_SIGNAL_NODE); node.value = initialValue; node.transformFn = options?.transform; function inputValueFn() { producerAccessed(node); if (node.value === REQUIRED_UNSET_VALUE) { throw new RuntimeError(-950, ngDevMode && "Input is required but no value is available yet."); } return node.value; } inputValueFn[SIGNAL] = node; if (ngDevMode) { inputValueFn.toString = () => `[Input Signal: ${inputValueFn()}]`; } return inputValueFn; } var EventEmitter_ = class extends Subject { constructor(isAsync = false) { super(); this.__isAsync = isAsync; } emit(value) { super.next(value); } subscribe(observerOrNext, error, complete) { let nextFn = observerOrNext; let errorFn = error || (() => null); let completeFn = complete; if (observerOrNext && typeof observerOrNext === "object") { const observer = observerOrNext; nextFn = observer.next?.bind(observer); errorFn = observer.error?.bind(observer); completeFn = observer.complete?.bind(observer); } if (this.__isAsync) { errorFn = _wrapInTimeout(errorFn); if (nextFn) { nextFn = _wrapInTimeout(nextFn); } if (completeFn) { completeFn = _wrapInTimeout(completeFn); } } const sink = super.subscribe({ next: nextFn, error: errorFn, complete: completeFn }); if (observerOrNext instanceof Subscription) { observerOrNext.add(sink); } return sink; } }; function _wrapInTimeout(fn) { return (value) => { setTimeout(fn, void 0, value); }; } var EventEmitter = EventEmitter_; function output(opts) { return new EventEmitter(); } function inputFunction(initialValue, opts) { return createInputSignal(initialValue, opts); } function inputRequiredFunction(opts) { return createInputSignal(REQUIRED_UNSET_VALUE, opts); } var input = (() => { inputFunction.required = inputRequiredFunction; return inputFunction; })(); var InjectFlags; (function(InjectFlags2) { InjectFlags2[InjectFlags2["Default"] = 0] = "Default"; InjectFlags2[InjectFlags2["Host"] = 1] = "Host"; InjectFlags2[InjectFlags2["Self"] = 2] = "Self"; InjectFlags2[InjectFlags2["SkipSelf"] = 4] = "SkipSelf"; InjectFlags2[InjectFlags2["Optional"] = 8] = "Optional"; })(InjectFlags || (InjectFlags = {})); function stringify(token) { if (typeof token === "string") { return token; } if (Array.isArray(token)) { return "[" + token.map(stringify).join(", ") + "]"; } if (token == null) { return "" + token; } if (token.overriddenName) { return `${token.overriddenName}`; } if (token.name) { return `${token.name}`; } const res = token.toString(); if (res == null) { return "" + res; } const newLineIndex = res.indexOf("\n"); return newLineIndex === -1 ? res : res.substring(0, newLineIndex); } function concatStringsWithSpace(before, after) { return before == null || before === "" ? after === null ? "" : after : after == null || after === "" ? before : before + " " + after; } function truncateMiddle(str, maxLength = 100) { if (!str || maxLength < 1 || str.length <= maxLength) return str; if (maxLength == 1) return str.substring(0, 1) + "..."; const halfLimit = Math.round(maxLength / 2); return str.substring(0, halfLimit) + "..." + str.substring(str.length - halfLimit); } function assertNumber(actual, msg) { if (!(typeof actual === "number")) { throwError(msg, typeof actual, "number", "==="); } } function assertNumberInRange(actual, minInclusive, maxInclusive) { assertNumber(actual, "Expected a number"); assertLessThanOrEqual(actual, maxInclusive, "Expected number to be less than or equal to"); assertGreaterThanOrEqual(actual, minInclusive, "Expected number to be greater than or equal to"); } function assertString(actual, msg) { if (!(typeof actual === "string")) { throwError(msg, actual === null ? "null" : typeof actual, "string", "==="); } } function assertFunction(actual, msg) { if (!(typeof actual === "function")) { throwError(msg, actual === null ? "null" : typeof actual, "function", "==="); } } function assertEqual(actual, expected, msg) { if (!(actual == expected)) { throwError(msg, actual, expected, "=="); } } function assertNotEqual(actual, expected, msg) { if (!(actual != expected)) { throwError(msg, actual, expected, "!="); } } function assertSame(actual, expected, msg) { if (!(actual === expected)) { throwError(msg, actual, expected, "==="); } } function assertNotSame(actual, expected, msg) { if (!(actual !== expected)) { throwError(msg, actual, expected, "!=="); } } function assertLessThan(actual, expected, msg) { if (!(actual < expected)) { throwError(msg, actual, expected, "<"); } } function assertLessThanOrEqual(actual, expected, msg) { if (!(actual <= expected)) { throwError(msg, actual, expected, "<="); } } function assertGreaterThan(actual, expected, msg) { if (!(actual > expected)) { throwError(msg, actual, expected, ">"); } } function assertGreaterThanOrEqual(actual, expected, msg) { if (!(actual >= expected)) { throwError(msg, actual, expected, ">="); } } function assertDefined(actual, msg) { if (actual == null) { throwError(msg, actual, null, "!="); } } function throwError(msg, actual, expected, comparison) { throw new Error(`ASSERTION ERROR: ${msg}` + (comparison == null ? "" : ` [Expected=> ${expected} ${comparison} ${actual} <=Actual]`)); } function assertDomNode(node) { if (!(node instanceof Node)) { throwError(`The provided value must be an instance of a DOM Node but got ${stringify(node)}`); } } function assertElement(node) { if (!(node instanceof Element)) { throwError(`The provided value must be an element but got ${stringify(node)}`); } } function assertIndexInRange(arr, index) { assertDefined(arr, "Array must be defined."); const maxLen = arr.length; if (index < 0 || index >= maxLen) { throwError(`Index expected to be less than ${maxLen} but got ${index}`); } } function assertOneOf(value, ...validValues) { if (validValues.indexOf(value) !== -1) return true; throwError(`Expected value to be one of ${JSON.stringify(validValues)} but was ${JSON.stringify(value)}.`); } var ChangeDetectionStrategy; (function(ChangeDetectionStrategy2) { ChangeDetectionStrategy2[ChangeDetectionStrategy2["OnPush"] = 0] = "OnPush"; ChangeDetectionStrategy2[ChangeDetectionStrategy2["Default"] = 1] = "Default"; })(ChangeDetectionStrategy || (ChangeDetectionStrategy = {})); var ViewEncapsulation$1; (function(ViewEncapsulation2) { ViewEncapsulation2[ViewEncapsulation2["Emulated"] = 0] = "Emulated"; ViewEncapsulation2[ViewEncapsulation2["None"] = 2] = "None"; ViewEncapsulation2[ViewEncapsulation2["ShadowDom"] = 3] = "ShadowDom"; })(ViewEncapsulation$1 || (ViewEncapsulation$1 = {})); function noSideEffects(fn) { return { toString: fn }.toString(); } var _global = globalThis; function ngDevModeResetPerfCounters() { const locationString = typeof location !== "undefined" ? location.toString() : ""; const newCounters = { namedConstructors: locationString.indexOf("ngDevMode=namedConstructors") != -1, firstCreatePass: 0, tNode: 0, tView: 0, rendererCreateTextNode: 0, rendererSetText: 0, rendererCreateElement: 0, rendererAddEventListener: 0, rendererSetAttribute: 0, rendererRemoveAttribute: 0, rendererSetProperty: 0, rendererSetClassName: 0, rendererAddClass: 0, rendererRemoveClass: 0, rendererSetStyle: 0, rendererRemoveStyle: 0, rendererDestroy: 0, rendererDestroyNode: 0, rendererMoveNode: 0, rendererRemoveNode: 0, rendererAppendChild: 0, rendererInsertBefore: 0, rendererCreateComment: 0, hydratedNodes: 0, hydratedComponents: 0, dehydratedViewsRemoved: 0, dehydratedViewsCleanupRuns: 0, componentsSkippedHydration: 0 }; const allowNgDevModeTrue = locationString.indexOf("ngDevMode=false") === -1; if (!allowNgDevModeTrue) { _global["ngDevMode"] = false; } else { if (typeof _global["ngDevMode"] !== "object") { _global["ngDevMode"] = {}; } Object.assign(_global["ngDevMode"], newCounters); } return newCounters; } function initNgDevMode() { if (typeof ngDevMode === "undefined" || ngDevMode) { if (typeof ngDevMode !== "object" || Object.keys(ngDevMode).length === 0) { ngDevModeResetPerfCounters(); } return typeof ngDevMode !== "undefined" && !!ngDevMode; } return false; } var EMPTY_OBJ = {}; var EMPTY_ARRAY = []; if ((typeof ngDevMode === "undefined" || ngDevMode) && initNgDevMode()) { Object.freeze(EMPTY_OBJ); Object.freeze(EMPTY_ARRAY); } function getClosureSafeProperty(objWithPropertyToExtract) { for (let key in objWithPropertyToExtract) { if (objWithPropertyToExtract[key] === getClosureSafeProperty) { return key; } } throw Error("Could not find renamed property on target object."); } function fillProperties(target, source) { for (const key in source) { if (source.hasOwnProperty(key) && !target.hasOwnProperty(key)) { target[key] = source[key]; } } } var NG_COMP_DEF = getClosureSafeProperty({ ɵcmp: getClosureSafeProperty }); var NG_DIR_DEF = getClosureSafeProperty({ ɵdir: getClosureSafeProperty }); var NG_PIPE_DEF = getClosureSafeProperty({ ɵpipe: getClosureSafeProperty }); var NG_MOD_DEF = getClosureSafeProperty({ ɵmod: getClosureSafeProperty }); var NG_FACTORY_DEF = getClosureSafeProperty({ ɵfac: getClosureSafeProperty }); var NG_ELEMENT_ID = getClosureSafeProperty({ __NG_ELEMENT_ID__: getClosureSafeProperty }); var NG_ENV_ID = getClosureSafeProperty({ __NG_ENV_ID__: getClosureSafeProperty }); var InputFlags; (function(InputFlags2) { InputFlags2[InputFlags2["None"] = 0] = "None"; InputFlags2[InputFlags2["SignalBased"] = 1] = "SignalBased"; InputFlags2[InputFlags2["HasDecoratorInputTransform"] = 2] = "HasDecoratorInputTransform"; })(InputFlags || (InputFlags = {})); function classIndexOf(className, classToSearch, startingIndex) { ngDevMode && assertNotEqual(classToSearch, "", 'can not look for "" string.'); let end = className.length; while (true) { const foundIndex = className.indexOf(classToSearch, startingIndex); if (foundIndex === -1) return foundIndex; if (foundIndex === 0 || className.charCodeAt(foundIndex - 1) <= 32) { const length = classToSearch.length; if (foundIndex + length === end || className.charCodeAt(foundIndex + length) <= 32) { return foundIndex; } } startingIndex = foundIndex + 1; } } function setUpAttributes(renderer, native, attrs) { let i = 0; while (i < attrs.length) { const value = attrs[i]; if (typeof value === "number") { if (value !== 0) { break; } i++; const namespaceURI = attrs[i++]; const attrName = attrs[i++]; const attrVal = attrs[i++]; ngDevMode && ngDevMode.rendererSetAttribute++; renderer.setAttribute(native, attrName, attrVal, namespaceURI); } else { const attrName = value; const attrVal = attrs[++i]; ngDevMode && ngDevMode.rendererSetAttribute++; if (isAnimationProp(attrName)) { renderer.setProperty(native, attrName, attrVal); } else { renderer.setAttribute(native, attrName, attrVal); } i++; } } return i; } function isNameOnlyAttributeMarker(marker) { return marker === 3 || marker === 4 || marker === 6; } function isAnimationProp(name) { return name.charCodeAt(0) === 64; } function mergeHostAttrs(dst, src) { if (src === null || src.length === 0) { } else if (dst === null || dst.length === 0) { dst = src.slice(); } else { let srcMarker = -1; for (let i = 0; i < src.length; i++) { const item = src[i]; if (typeof item === "number") { srcMarker = item; } else { if (srcMarker === 0) { } else if (srcMarker === -1 || srcMarker === 2) { mergeHostAttribute(dst, srcMarker, item, null, src[++i]); } else { mergeHostAttribute(dst, srcMarker, item, null, null); } } } } return dst; } function mergeHostAttribute(dst, marker, key1, key2, value) { let i = 0; let markerInsertPosition = dst.length; if (marker === -1) { markerInsertPosition = -1; } else { while (i < dst.length) { const dstValue = dst[i++]; if (typeof dstValue === "number") { if (dstValue === marker) { markerInsertPosition = -1; break; } else if (dstValue > marker) { markerInsertPosition = i - 1; break; } } } } while (i < dst.length) { const item = dst[i]; if (typeof item === "number") { break; } else if (item === key1) { if (key2 === null) { if (value !== null) { dst[i + 1] = value; } return; } else if (key2 === dst[i + 1]) { dst[i + 2] = value; return; } } i++; if (key2 !== null) i++; if (value !== null) i++; } if (markerInsertPosition !== -1) { dst.splice(markerInsertPosition, 0, marker); i = markerInsertPosition + 1; } dst.splice(i++, 0, key1); if (key2 !== null) { dst.splice(i++, 0, key2); } if (value !== null) { dst.splice(i++, 0, value); } } var NG_TEMPLATE_SELECTOR = "ng-template"; function isCssClassMatching(attrs, cssClassToMatch, isProjectionMode) { ngDevMode && assertEqual(cssClassToMatch, cssClassToMatch.toLowerCase(), "Class name expected to be lowercase."); let i = 0; let isImplicitAttrsSection = true; while (i < attrs.length) { let item = attrs[i++]; if (typeof item === "string" && isImplicitAttrsSection) { const value = attrs[i++]; if (isProjectionMode && item === "class") { if (classIndexOf(value.toLowerCase(), cssClassToMatch, 0) !== -1) { return true; } } } else if (item === 1) { while (i < attrs.length && typeof (item = attrs[i++]) == "string") { if (item.toLowerCase() === cssClassToMatch) return true; } return false; } else if (typeof item === "number") { isImplicitAttrsSection = false; } } return false; } function isInlineTemplate(tNode) { return tNode.type === 4 && tNode.value !== NG_TEMPLATE_SELECTOR; } function hasTagAndTypeMatch(tNode, currentSelector, isProjectionMode) { const tagNameToCompare = tNode.type === 4 && !isProjectionMode ? NG_TEMPLATE_SELECTOR : tNode.value; return currentSelector === tagNameToCompare; } function isNodeMatchingSelector(tNode, selector, isProjectionMode) { ngDevMode && assertDefined(selector[0], "Selector should have a tag name"); let mode = 4; const nodeAttrs = tNode.attrs || []; const nameOnlyMarkerIdx = getNameOnlyMarkerIndex(nodeAttrs); let skipToNextSelector = false; for (let i = 0; i < selector.length; i++) { const current = selector[i]; if (typeof current === "number") { if (!skipToNextSelector && !isPositive(mode) && !isPositive(current)) { return false; } if (skipToNextSelector && isPositive(current)) continue; skipToNextSelector = false; mode = current | mode & 1; continue; } if (skipToNextSelector) continue; if (mode & 4) { mode = 2 | mode & 1; if (current !== "" && !hasTagAndTypeMatch(tNode, current, isProjectionMode) || current === "" && selector.length === 1) { if (isPositive(mode)) return false; skipToNextSelector = true; } } else { const selectorAttrValue = mode & 8 ? current : selector[++i]; if (mode & 8 && tNode.attrs !== null) { if (!isCssClassMatching(tNode.attrs, selectorAttrValue, isProjectionMode)) { if (isPositive(mode)) return false; skipToNextSelector = true; } continue; } const attrName = mode & 8 ? "class" : current; const attrIndexInNode = findAttrIndexInNode(attrName, nodeAttrs, isInlineTemplate(tNode), isProjectionMode); if (attrIndexInNode === -1) { if (isPositive(mode)) return false; skipToNextSelector = true; continue; } if (selectorAttrValue !== "") { let nodeAttrValue; if (attrIndexInNode > nameOnlyMarkerIdx) { nodeAttrValue = ""; } else { ngDevMode && assertNotEqual(nodeAttrs[attrIndexInNode], 0, "We do not match directives on namespaced attributes"); nodeAttrValue = nodeAttrs[attrIndexInNode + 1].toLowerCase(); } const compareAgainstClassName = mode & 8 ? nodeAttrValue : null; if (compareAgainstClassName && classIndexOf(compareAgainstClassName, selectorAttrValue, 0) !== -1 || mode & 2 && selectorAttrValue !== nodeAttrValue) { if (isPositive(mode)) return false; skipToNextSelector = true; } } } } return isPositive(mode) || skipToNextSelector; } function isPositive(mode) { return (mode & 1) === 0; } function findAttrIndexInNode(name, attrs, isInlineTemplate2, isProjectionMode) { if (attrs === null) return -1; let i = 0; if (isProjectionMode || !isInlineTemplate2) { let bindingsMode = false; while (i < attrs.length) { const maybeAttrName = attrs[i]; if (maybeAttrName === name) { return i; } else if (maybeAttrName === 3 || maybeAttrName === 6) { bindingsMode = true; } else if (maybeAttrName === 1 || maybeAttrName === 2) { let value = attrs[++i]; while (typeof value === "string") { value = attrs[++i]; } continue; } else if (maybeAttrName === 4) { break; } else if (maybeAttrName === 0) { i += 4; continue; } i += bindingsMode ? 1 : 2; } return -1; } else { return matchTemplateAttribute(attrs, name); } } function isNodeMatchingSelectorList(tNode, selector, isProjectionMode = false) { for (let i = 0; i < selector.length; i++) { if (isNodeMatchingSelector(tNode, selector[i], isProjectionMode)) { return true; } } return false; } function getProjectAsAttrValue(tNode) { const nodeAttrs = tNode.attrs; if (nodeAttrs != null) { const ngProjectAsAttrIdx = nodeAttrs.indexOf( 5 /* AttributeMarker.ProjectAs */ ); if ((ngProjectAsAttrIdx & 1) === 0) { return nodeAttrs[ngProjectAsAttrIdx + 1]; } } return null; } function getNameOnlyMarkerIndex(nodeAttrs) { for (let i = 0; i < nodeAttrs.length; i++) { const nodeAttr = nodeAttrs[i]; if (isNameOnlyAttributeMarker(nodeAttr)) { return i; } } return nodeAttrs.length; } function matchTemplateAttribute(attrs, name) { let i = attrs.indexOf( 4 /* AttributeMarker.Template */ ); if (i > -1) { i++; while (i < attrs.length) { const attr = attrs[i]; if (typeof attr === "number") return -1; if (attr === name) return i; i++; } } return -1; } function isSelectorInSelectorList(selector, list) { selectorListLoop: for (let i = 0; i < list.length; i++) { const currentSelectorInList = list[i]; if (selector.length !== currentSelectorInList.length) { continue; } for (let j = 0; j < selector.length; j++) { if (selector[j] !== currentSelectorInList[j]) { continue selectorListLoop; } } return true; } return false; } function maybeWrapInNotSelector(isNegativeMode, chunk) { return isNegativeMode ? ":not(" + chunk.trim() + ")" : chunk; } function stringifyCSSSelector(selector) { let result = selector[0]; let i = 1; let mode = 2; let currentChunk = ""; let isNegativeMode = false; while (i < selector.length) { let valueOrMarker = selector[i]; if (typeof valueOrMarker === "string") { if (mode & 2) { const attrValue = selector[++i]; currentChunk += "[" + valueOrMarker + (attrValue.length > 0 ? '="' + attrValue + '"' : "") + "]"; } else if (mode & 8) { currentChunk += "." + valueOrMarker; } else if (mode & 4) { currentChunk += " " + valueOrMarker; } } else { if (currentChunk !== "" && !isPositive(valueOrMarker)) { result += maybeWrapInNotSelector(isNegativeMode, currentChunk); currentChunk = ""; } mode = valueOrMarker; isNegativeMode = isNegativeMode || !isPositive(mode); } i++; } if (currentChunk !== "") { result += maybeWrapInNotSelector(isNegativeMode, currentChunk); } return result; } function stringifyCSSSelectorList(selectorList) { return selectorList.map(stringifyCSSSelector).join(","); } function extractAttrsAndClassesFromSelector(selector) { const attrs = []; const classes = []; let i = 1; let mode = 2; while (i < selector.length) { let valueOrMarker = selector[i]; if (typeof valueOrMarker === "string") { if (mode === 2) { if (valueOrMarker !== "") { attrs.push(valueOrMarker, selector[++i]); } } else if (mode === 8) { classes.push(valueOrMarker); } } else { if (!isPositive(mode)) break; mode = valueOrMarker; } i++; } return { attrs, classes }; } function ɵɵdefineComponent(componentDefinition) { return noSideEffects(() => { (typeof ngDevMode === "undefined" || ngDevMode) && initNgDevMode(); const baseDef = getNgDirectiveDef(componentDefinition); const def = __spreadProps(__spreadValues({}, baseDef), { decls: componentDefinition.decls, vars: componentDefinition.vars, template: componentDefinition.template, consts: componentDefinition.consts || null, ngContentSelectors: componentDefinition.ngContentSelectors, onPush: componentDefinition.changeDetection === ChangeDetectionStrategy.OnPush, directiveDefs: null, // assigned in noSideEffects pipeDefs: null, // assigned in noSideEffects dependencies: baseDef.standalone && componentDefinition.dependencies || null, getStandaloneInjector: null, signals: componentDefinition.signals ?? false, data: componentDefinition.data || {}, encapsulation: componentDefinition.encapsulation || ViewEncapsulation$1.Emulated, styles: componentDefinition.styles || EMPTY_ARRAY, _: null, schemas: componentDefinition.schemas || null, tView: null, id: "" }); initFeatures(def); const dependencies = componentDefinition.dependencies; def.directiveDefs = extractDefListOrFactory( dependencies, /* pipeDef */ false ); def.pipeDefs = extractDefListOrFactory( dependencies, /* pipeDef */ true ); def.id = getComponentId(def); return def; }); } function extractDirectiveDef(type) { return getComponentDef(type) || getDirectiveDef(type); } function nonNull(value) { return value !== null; } function ɵɵdefineNgModule(def) { return noSideEffects(() => { const res = { type: def.type, bootstrap: def.bootstrap || EMPTY_ARRAY, declarations: def.declarations || EMPTY_ARRAY, imports: def.imports || EMPTY_ARRAY, exports: def.exports || EMPTY_ARRAY, transitiveCompileScopes: null, schemas: def.schemas || null, id: def.id || null }; return res; }); } function parseAndConvertBindingsForDefinition(obj, declaredInputs) { if (obj == null) return EMPTY_OBJ; const newLookup = {}; for (const minifiedKey in obj) { if (obj.hasOwnProperty(minifiedKey)) { const value = obj[minifiedKey]; let publicName; let declaredName; let inputFlags = InputFlags.None; if (Array.isArray(value)) { inputFlags = value[0]; publicName = value[1]; declaredName = value[2] ?? publicName; } else { publicName = value; declaredName = value; } if (declaredInputs) { newLookup[publicName] = inputFlags !== InputFlags.None ? [minifiedKey, inputFlags] : minifiedKey; declaredInputs[publicName] = declaredName; } else { newLookup[publicName] = minifiedKey; } } } return newLookup; } function ɵɵdefineDirective(directiveDefinition) { return noSideEffects(() => { const def = getNgDirectiveDef(directiveDefinition); initFeatures(def); return def; }); } function ɵɵdefinePipe(pipeDef) { return { type: pipeDef.type, name: pipeDef.name, factory: null, pure: pipeDef.pure !== false, standalone: pipeDef.standalone === true, onDestroy: pipeDef.type.prototype.ngOnDestroy || null }; } function getComponentDef(type) { return type[NG_COMP_DEF] || null; } function getDirectiveDef(type) { return type[NG_DIR_DEF] || null; } function getPipeDef$1(type) { return type[NG_PIPE_DEF] || null; } function isStandalone(type) { const def = getComponentDef(type) || getDirectiveDef(type) || getPipeDef$1(type); return def !== null ? def.standalone : false; } function getNgModuleDef(type, throwNotFound) { const ngModuleDef = type[NG_MOD_DEF] || null; if (!ngModuleDef && throwNotFound === true) { throw new Error(`Type ${stringify(type)} does not have 'ɵmod' property.`); } return ngModuleDef; } function getNgDirectiveDef(directiveDefinition) { const declaredInputs = {}; return { type: directiveDefinition.type, providersResolver: null, factory: null, hostBindings: directiveDefinition.hostBindings || null, hostVars: directiveDefinition.hostVars || 0, hostAttrs: directiveDefinition.hostAttrs || null, contentQueries: directiveDefinition.contentQueries || null, declaredInputs, inputTransforms: null, inputConfig: directiveDefinition.inputs || EMPTY_OBJ, exportAs: directiveDefinition.exportAs || null, standalone: directiveDefinition.standalone === true, signals: directiveDefinition.signals === true, selectors: directiveDefinition.selectors || EMPTY_ARRAY, viewQuery: directiveDefinition.viewQuery || null, features: directiveDefinition.features || null, setInput: null, findHostDirectiveDefs: null, hostDirectives: null, inputs: parseAndConvertBindingsForDefinition(directiveDefinition.inputs, declaredInputs), outputs: parseAndConvertBindingsForDefinition(directiveDefinition.outputs), debugInfo: null }; } function initFeatures(definition) { definition.features?.forEach((fn) => fn(definition)); } function extractDefListOrFactory(dependencies, pipeDef) { if (!dependencies) { return null; } const defExtractor = pipeDef ? getPipeDef$1 : extractDirectiveDef; return () => (typeof dependencies === "function" ? dependencies() : dependencies).map((dep) => defExtractor(dep)).filter(nonNull); } var GENERATED_COMP_IDS = /* @__PURE__ */ new Map(); function getComponentId(componentDef) { let hash = 0; const hashSelectors = [ componentDef.selectors, componentDef.ngContentSelectors, componentDef.hostVars, componentDef.hostAttrs, componentDef.consts, componentDef.vars, componentDef.decls, componentDef.encapsulation, componentDef.standalone, componentDef.signals, componentDef.exportAs, JSON.stringify(componentDef.inputs), JSON.stringify(componentDef.outputs), // We cannot use 'componentDef.type.name' as the name of the symbol will change and will not // match in the server and browser bundles. Object.getOwnPropertyNames(componentDef.type.prototype), !!componentDef.contentQueries, !!componentDef.viewQuery ].join("|"); for (const char of hashSelectors) { hash = Math.imul(31, hash) + char.charCodeAt(0) << 0; } hash += 2147483647 + 1; const compId = "c" + hash; if (typeof ngDevMode === "undefined" || ngDevMode) { if (GENERATED_COMP_IDS.has(compId)) { const previousCompDefType = GENERATED_COMP_IDS.get(compId); if (previousCompDefType !== componentDef.type) { console.warn(formatRuntimeError(-912, `Component ID generation collision detected. Components '${previousCompDefType.name}' and '${componentDef.type.name}' with selector '${stringifyCSSSelectorList(componentDef.selectors)}' generated the same component ID. To fix this, you can change the selector of one of those components or add an extra host attribute to force a different ID.`)); } } else { GENERATED_COMP_IDS.set(compId, componentDef.type); } } return compId; } var HOST = 0; var TVIEW = 1; var FLAGS = 2; var PARENT = 3; var NEXT = 4; var T_HOST = 5; var HYDRATION = 6; var CLEANUP = 7; var CONTEXT = 8; var INJECTOR$1 = 9; var ENVIRONMENT = 10; var RENDERER = 11; var CHILD_HEAD = 12; var CHILD_TAIL = 13; var DECLARATION_VIEW = 14; var DECLARATION_COMPONENT_VIEW = 15; var DECLARATION_LCONTAINER = 16; var PREORDER_HOOK_FLAGS = 17; var QUERIES = 18; var ID = 19; var EMBEDDED_VIEW_INJECTOR = 20; var ON_DESTROY_HOOKS = 21; var EFFECTS_TO_SCHEDULE = 22; var REACTIVE_TEMPLATE_CONSUMER = 23; var HEADER_OFFSET = 25; var TYPE = 1; var DEHYDRATED_VIEWS = 6; var NATIVE = 7; var VIEW_REFS = 8; var MOVED_VIEWS = 9; var CONTAINER_HEADER_OFFSET = 10; var LContainerFlags; (function(LContainerFlags2) { LContainerFlags2[LContainerFlags2["None"] = 0] = "None"; LContainerFlags2[LContainerFlags2["HasTransplantedViews"] = 2] = "HasTransplantedViews"; })(LContainerFlags || (LContainerFlags = {})); function isLView(value) { return Array.isArray(value) && typeof value[TYPE] === "object"; } function isLContainer(value) { return Array.isArray(value) && value[TYPE] === true; } function isContentQueryHost(tNode) { return (tNode.flags & 4) !== 0; } function isComponentHost(tNode) { return tNode.componentOffset > -1; } function isDirectiveHost(tNode) { return (tNode.flags & 1) === 1; } function isComponentDef(def) { return !!def.template; } function isRootView(target) { return (target[FLAGS] & 512) !== 0; } function isProjectionTNode(tNode) { return (tNode.type & 16) === 16; } function hasI18n(lView) { return (lView[FLAGS] & 32) === 32; } function isDestroyed(lView) { return (lView[FLAGS] & 256) === 256; } function assertTNodeForLView(tNode, lView) { assertTNodeForTView(tNode, lView[TVIEW]); } function assertTNodeForTView(tNode, tView) { assertTNode(tNode); const tData = tView.data; for (let i = HEADER_OFFSET; i < tData.length; i++) { if (tData[i] === tNode) { return; } } throwError("This TNode does not belong to this TView."); } function assertTNode(tNode) { assertDefined(tNode, "TNode must be defined"); if (!(tNode && typeof tNode === "object" && tNode.hasOwnProperty("directiveStylingLast"))) { throwError("Not of type TNode, got: " + tNode); } } function assertTIcu(tIcu) { assertDefined(tIcu, "Expected TIcu to be defined"); if (!(typeof tIcu.currentCaseLViewIndex === "number")) { throwError("Object is not of TIcu type."); } } function assertComponentType(actual, msg = "Type passed in is not ComponentType, it does not have 'ɵcmp' property.") { if (!getComponentDef(actual)) { throwError(msg); } } function assertNgModuleType(actual, msg = "Type passed in is not NgModuleType, it does not have 'ɵmod' property.") { if (!getNgModuleDef(actual)) { throwError(msg); } } function assertHasParent(tNode) { assertDefined(tNode, "currentTNode should exist!"); assertDefined(tNode.parent, "currentTNode should have a parent"); } function assertLContainer(value) { assertDefined(value, "LContainer must be defined"); assertEqual(isLContainer(value), true, "Expecting LContainer"); } function assertLViewOrUndefined(value) { value && assertEqual(isLView(value), true, "Expecting LView or undefined or null"); } function assertLView(value) { assertDefined(value, "LView must be defined"); assertEqual(isLView(value), true, "Expecting LView"); } function assertFirstCreatePass(tView, errMessage) { assertEqual(tView.firstCreatePass, true, errMessage || "Should only be called in first create pass."); } function assertFirstUpdatePass(tView, errMessage) { assertEqual(tView.firstUpdatePass, true, errMessage || "Should only be called in first update pass."); } function assertDirectiveDef(obj) { if (obj.type === void 0 || obj.selectors == void 0 || obj.inputs === void 0) { throwError(`Expected a DirectiveDef/ComponentDef and this object does not seem to have the expected shape.`); } } function assertIndexInDeclRange(tView, index) { assertBetween(HEADER_OFFSET, tView.bindingStartIndex, index); } function assertIndexInExpandoRange(lView, index) { const tView = lView[1]; assertBetween(tView.expandoStartIndex, lView.length, index); } function assertBetween(lower, upper, index) { if (!(lower <= index && index < upper)) { throwError(`Index out of range (expecting ${lower} <= ${index} < ${upper})`); } } function assertProjectionSlots(lView, errMessage) { assertDefined(lView[DECLARATION_COMPONENT_VIEW], "Component views should exist."); assertDefined(lView[DECLARATION_COMPONENT_VIEW][T_HOST].projection, errMessage || "Components with projection nodes () must have projection slots defined."); } function assertParentView(lView, errMessage) { assertDefined(lView, errMessage || "Component views should always have a parent view (component's host view)"); } function assertNoDuplicateDirectives(directives) { if (directives.length < 2) { return; } const seenDirectives = /* @__PURE__ */ new Set(); for (const current of directives) { if (seenDirectives.has(current)) { throw new RuntimeError(309, `Directive ${current.type.name} matches multiple times on the same element. Directives can only match an element once.`); } seenDirectives.add(current); } } function assertNodeInjector(lView, injectorIndex) { assertIndexInExpandoRange(lView, injectorIndex); assertIndexInExpandoRange( lView, injectorIndex + 8 /* NodeInjectorOffset.PARENT */ ); assertNumber(lView[injectorIndex + 0], "injectorIndex should point to a bloom filter"); assertNumber(lView[injectorIndex + 1], "injectorIndex should point to a bloom filter"); assertNumber(lView[injectorIndex + 2], "injectorIndex should point to a bloom filter"); assertNumber(lView[injectorIndex + 3], "injectorIndex should point to a bloom filter"); assertNumber(lView[injectorIndex + 4], "injectorIndex should point to a bloom filter"); assertNumber(lView[injectorIndex + 5], "injectorIndex should point to a bloom filter"); assertNumber(lView[injectorIndex + 6], "injectorIndex should point to a bloom filter"); assertNumber(lView[injectorIndex + 7], "injectorIndex should point to a bloom filter"); assertNumber(lView[ injectorIndex + 8 /* NodeInjectorOffset.PARENT */ ], "injectorIndex should point to parent injector"); } var SVG_NAMESPACE = "svg"; var MATH_ML_NAMESPACE = "math"; var _ensureDirtyViewsAreAlwaysReachable = false; function getEnsureDirtyViewsAreAlwaysReachable() { return _ensureDirtyViewsAreAlwaysReachable; } function setEnsureDirtyViewsAreAlwaysReachable(v) { _ensureDirtyViewsAreAlwaysReachable = v; } function unwrapRNode(value) { while (Array.isArray(value)) { value = value[HOST]; } return value; } function unwrapLView(value) { while (Array.isArray(value)) { if (typeof value[TYPE] === "object") return value; value = value[HOST]; } return null; } function getNativeByIndex(index, lView) { ngDevMode && assertIndexInRange(lView, index); ngDevMode && assertGreaterThanOrEqual(index, HEADER_OFFSET, "Expected to be past HEADER_OFFSET"); return unwrapRNode(lView[index]); } function getNativeByTNode(tNode, lView) { ngDevMode && assertTNodeForLView(tNode, lView); ngDevMode && assertIndexInRange(lView, tNode.index); const node = unwrapRNode(lView[tNode.index]); return node; } function getNativeByTNodeOrNull(tNode, lView) { const index = tNode === null ? -1 : tNode.index; if (index !== -1) { ngDevMode && assertTNodeForLView(tNode, lView); const node = unwrapRNode(lView[index]); return node; } return null; } function getTNode(tView, index) { ngDevMode && assertGreaterThan(index, -1, "wrong index for TNode"); ngDevMode && assertLessThan(index, tView.data.length, "wrong index for TNode"); const tNode = tView.data[index]; ngDevMode && tNode !== null && assertTNode(tNode); return tNode; } function load(view, index) { ngDevMode && assertIndexInRange(view, index); return view[index]; } function getComponentLViewByIndex(nodeIndex, hostView) { ngDevMode && assertIndexInRange(hostView, nodeIndex); const slotValue = hostView[nodeIndex]; const lView = isLView(slotValue) ? slotValue : slotValue[HOST]; return lView; } function isCreationMode(view) { return (view[FLAGS] & 4) === 4; } function viewAttachedToChangeDetector(view) { return (view[FLAGS] & 128) === 128; } function viewAttachedToContainer(view) { return isLContainer(view[PARENT]); } function getConstant(consts, index) { if (index === null || index === void 0) return null; ngDevMode && assertIndexInRange(consts, index); return consts[index]; } function resetPreOrderHookFlags(lView) { lView[PREORDER_HOOK_FLAGS] = 0; } function markViewForRefresh(lView) { if (lView[FLAGS] & 1024) { return; } lView[FLAGS] |= 1024; if (viewAttachedToChangeDetector(lView)) { markAncestorsForTraversal(lView); } } function walkUpViews(nestingLevel, currentView) { while (nestingLevel > 0) { ngDevMode && assertDefined(currentView[DECLARATION_VIEW], "Declaration view should be defined if nesting level is greater than 0."); currentView = currentView[DECLARATION_VIEW]; nestingLevel--; } return currentView; } function requiresRefreshOrTraversal(lView) { return !!(lView[FLAGS] & (1024 | 8192) || lView[REACTIVE_TEMPLATE_CONSUMER]?.dirty); } function updateAncestorTraversalFlagsOnAttach(lView) { if (requiresRefreshOrTraversal(lView)) { markAncestorsForTraversal(lView); } else if (lView[FLAGS] & 64) { if (getEnsureDirtyViewsAreAlwaysReachable()) { lView[FLAGS] |= 1024; markAncestorsForTraversal(lView); } else { lView[ENVIRONMENT].changeDetectionScheduler?.notify(); } } } function markAncestorsForTraversal(lView) { lView[ENVIRONMENT].changeDetectionScheduler?.notify(); let parent = getLViewParent(lView); while (parent !== null) { if (parent[FLAGS] & 8192) { break; } parent[FLAGS] |= 8192; if (!viewAttachedToChangeDetector(parent)) { break; } parent = getLViewParent(parent); } } function storeLViewOnDestroy(lView, onDestroyCallback) { if ((lView[FLAGS] & 256) === 256) { throw new RuntimeError(911, ngDevMode && "View has already been destroyed."); } if (lView[ON_DESTROY_HOOKS] === null) { lView[ON_DESTROY_HOOKS] = []; } lView[ON_DESTROY_HOOKS].push(onDestroyCallback); } function removeLViewOnDestroy(lView, onDestroyCallback) { if (lView[ON_DESTROY_HOOKS] === null) return; const destroyCBIdx = lView[ON_DESTROY_HOOKS].indexOf(onDestroyCallback); if (destroyCBIdx !== -1) { lView[ON_DESTROY_HOOKS].splice(destroyCBIdx, 1); } } function getLViewParent(lView) { ngDevMode && assertLView(lView); const parent = lView[PARENT]; return isLContainer(parent) ? parent[PARENT] : parent; } var instructionState = { lFrame: createLFrame(null), bindingsEnabled: true, skipHydrationRootTNode: null }; var _isInCheckNoChangesMode = false; function getElementDepthCount() { return instructionState.lFrame.elementDepthCount; } function increaseElementDepthCount() { instructionState.lFrame.elementDepthCount++; } function decreaseElementDepthCount() { instructionState.lFrame.elementDepthCount--; } function getBindingsEnabled() { return instructionState.bindingsEnabled; } function isInSkipHydrationBlock$1() { return instructionState.skipHydrationRootTNode !== null; } function isSkipHydrationRootTNode(tNode) { return instructionState.skipHydrationRootTNode === tNode; } function ɵɵenableBindings() { instructionState.bindingsEnabled = true; } function enterSkipHydrationBlock(tNode) { instructionState.skipHydrationRootTNode = tNode; } function ɵɵdisableBindings() { instructionState.bindingsEnabled = false; } function leaveSkipHydrationBlock() { instructionState.skipHydrationRootTNode = null; } function getLView() { return instructionState.lFrame.lView; } function getTView() { return instructionState.lFrame.tView; } function ɵɵrestoreView(viewToRestore) { instructionState.lFrame.contextLView = viewToRestore; return viewToRestore[CONTEXT]; } function ɵɵresetView(value) { instructionState.lFrame.contextLView = null; return value; } function getCurrentTNode() { let currentTNode = getCurrentTNodePlaceholderOk(); while (currentTNode !== null && currentTNode.type === 64) { currentTNode = currentTNode.parent; } return currentTNode; } function getCurrentTNodePlaceholderOk() { return instructionState.lFrame.currentTNode; } function getCurrentParentTNode() { const lFrame = instructionState.lFrame; const currentTNode = lFrame.currentTNode; return lFrame.isParent ? currentTNode : currentTNode.parent; } function setCurrentTNode(tNode, isParent) { ngDevMode && tNode && assertTNodeForTView(tNode, instructionState.lFrame.tView); const lFrame = instructionState.lFrame; lFrame.currentTNode = tNode; lFrame.isParent = isParent; } function isCurrentTNodeParent() { return instructionState.lFrame.isParent; } function setCurrentTNodeAsNotParent() { instructionState.lFrame.isParent = false; } function getContextLView() { const contextLView = instructionState.lFrame.contextLView; ngDevMode && assertDefined(contextLView, "contextLView must be defined."); return contextLView; } function isInCheckNoChangesMode() { !ngDevMode && throwError("Must never be called in production mode"); return _isInCheckNoChangesMode; } function setIsInCheckNoChangesMode(mode) { !ngDevMode && throwError("Must never be called in production mode"); _isInCheckNoChangesMode = mode; } function getBindingRoot() { const lFrame = instructionState.lFrame; let index = lFrame.bindingRootIndex; if (index === -1) { index = lFrame.bindingRootIndex = lFrame.tView.bindingStartIndex; } return index; } function getBindingIndex() { return instructionState.lFrame.bindingIndex; } function setBindingIndex(value) { return instructionState.lFrame.bindingIndex = value; } function nextBindingIndex() { return instructionState.lFrame.bindingIndex++; } function incrementBindingIndex(count2) { const lFrame = instructionState.lFrame; const index = lFrame.bindingIndex; lFrame.bindingIndex = lFrame.bindingIndex + count2; return index; } function isInI18nBlock() { return instructionState.lFrame.inI18n; } function setInI18nBlock(isInI18nBlock2) { instructionState.lFrame.inI18n = isInI18nBlock2; } function setBindingRootForHostBindings(bindingRootIndex, currentDirectiveIndex) { const lFrame = instructionState.lFrame; lFrame.bindingIndex = lFrame.bindingRootIndex = bindingRootIndex; setCurrentDirectiveIndex(currentDirectiveIndex); } function getCurrentDirectiveIndex() { return instructionState.lFrame.currentDirectiveIndex; } function setCurrentDirectiveIndex(currentDirectiveIndex) { instructionState.lFrame.currentDirectiveIndex = currentDirectiveIndex; } function getCurrentDirectiveDef(tData) { const currentDirectiveIndex = instructionState.lFrame.currentDirectiveIndex; return currentDirectiveIndex === -1 ? null : tData[currentDirectiveIndex]; } function getCurrentQueryIndex() { return instructionState.lFrame.currentQueryIndex; } function setCurrentQueryIndex(value) { instructionState.lFrame.currentQueryIndex = value; } function getDeclarationTNode(lView) { const tView = lView[TVIEW]; if (tView.type === 2) { ngDevMode && assertDefined(tView.declTNode, "Embedded TNodes should have declaration parents."); return tView.declTNode; } if (tView.type === 1) { return lView[T_HOST]; } return null; } function enterDI(lView, tNode, flags) { ngDevMode && assertLViewOrUndefined(lView); if (flags & InjectFlags.SkipSelf) { ngDevMode && assertTNodeForTView(tNode, lView[TVIEW]); let parentTNode = tNode; let parentLView = lView; while (true) { ngDevMode && assertDefined(parentTNode, "Parent TNode should be defined"); parentTNode = parentTNode.parent; if (parentTNode === null && !(flags & InjectFlags.Host)) { parentTNode = getDeclarationTNode(parentLView); if (parentTNode === null) break; ngDevMode && assertDefined(parentLView, "Parent LView should be defined"); parentLView = parentLView[DECLARATION_VIEW]; if (parentTNode.type & (2 | 8)) { break; } } else { break; } } if (parentTNode === null) { return false; } else { tNode = parentTNode; lView = parentLView; } } ngDevMode && assertTNodeForLView(tNode, lView); const lFrame = instructionState.lFrame = allocLFrame(); lFrame.currentTNode = tNode; lFrame.lView = lView; return true; } function enterView(newView) { ngDevMode && assertNotEqual(newView[0], newView[1], "????"); ngDevMode && assertLViewOrUndefined(newView); const newLFrame = allocLFrame(); if (ngDevMode) { assertEqual(newLFrame.isParent, true, "Expected clean LFrame"); assertEqual(newLFrame.lView, null, "Expected clean LFrame"); assertEqual(newLFrame.tView, null, "Expected clean LFrame"); assertEqual(newLFrame.selectedIndex, -1, "Expected clean LFrame"); assertEqual(newLFrame.elementDepthCount, 0, "Expected clean LFrame"); assertEqual(newLFrame.currentDirectiveIndex, -1, "Expected clean LFrame"); assertEqual(newLFrame.currentNamespace, null, "Expected clean LFrame"); assertEqual(newLFrame.bindingRootIndex, -1, "Expected clean LFrame"); assertEqual(newLFrame.currentQueryIndex, 0, "Expected clean LFrame"); } const tView = newView[TVIEW]; instructionState.lFrame = newLFrame; ngDevMode && tView.firstChild && assertTNodeForTView(tView.firstChild, tView); newLFrame.currentTNode = tView.firstChild; newLFrame.lView = newView; newLFrame.tView = tView; newLFrame.contextLView = newView; newLFrame.bindingIndex = tView.bindingStartIndex; newLFrame.inI18n = false; } function allocLFrame() { const currentLFrame = instructionState.lFrame; const childLFrame = currentLFrame === null ? null : currentLFrame.child; const newLFrame = childLFrame === null ? createLFrame(currentLFrame) : childLFrame; return newLFrame; } function createLFrame(parent) { const lFrame = { currentTNode: null, isParent: true, lView: null, tView: null, selectedIndex: -1, contextLView: null, elementDepthCount: 0, currentNamespace: null, currentDirectiveIndex: -1, bindingRootIndex: -1, bindingIndex: -1, currentQueryIndex: 0, parent, child: null, inI18n: false }; parent !== null && (parent.child = lFrame); return lFrame; } function leaveViewLight() { const oldLFrame = instructionState.lFrame; instructionState.lFrame = oldLFrame.parent; oldLFrame.currentTNode = null; oldLFrame.lView = null; return oldLFrame; } var leaveDI = leaveViewLight; function leaveView() { const oldLFrame = leaveViewLight(); oldLFrame.isParent = true; oldLFrame.tView = null; oldLFrame.selectedIndex = -1; oldLFrame.contextLView = null; oldLFrame.elementDepthCount = 0; oldLFrame.currentDirectiveIndex = -1; oldLFrame.currentNamespace = null; oldLFrame.bindingRootIndex = -1; oldLFrame.bindingIndex = -1; oldLFrame.currentQueryIndex = 0; } function nextContextImpl(level) { const contextLView = instructionState.lFrame.contextLView = walkUpViews(level, instructionState.lFrame.contextLView); return contextLView[CONTEXT]; } function getSelectedIndex() { return instructionState.lFrame.selectedIndex; } function setSelectedIndex(index) { ngDevMode && index !== -1 && assertGreaterThanOrEqual(index, HEADER_OFFSET, "Index must be past HEADER_OFFSET (or -1)."); ngDevMode && assertLessThan(index, instructionState.lFrame.lView.length, "Can't set index passed end of LView"); instructionState.lFrame.selectedIndex = index; } function getSelectedTNode() { const lFrame = instructionState.lFrame; return getTNode(lFrame.tView, lFrame.selectedIndex); } function ɵɵnamespaceSVG() { instructionState.lFrame.currentNamespace = SVG_NAMESPACE; } function ɵɵnamespaceMathML() { instructionState.lFrame.currentNamespace = MATH_ML_NAMESPACE; } function ɵɵnamespaceHTML() { namespaceHTMLInternal(); } function namespaceHTMLInternal() { instructionState.lFrame.currentNamespace = null; } function getNamespace$1() { return instructionState.lFrame.currentNamespace; } var _wasLastNodeCreated = true; function wasLastNodeCreated() { return _wasLastNodeCreated; } function lastNodeWasCreated(flag) { _wasLastNodeCreated = flag; } function injectElementRef() { return createElementRef(getCurrentTNode(), getLView()); } function createElementRef(tNode, lView) { return new ElementRef(getNativeByTNode(tNode, lView)); } var _ElementRef = class _ElementRef { constructor(nativeElement) { this.nativeElement = nativeElement; } }; _ElementRef.__NG_ELEMENT_ID__ = injectElementRef; var ElementRef = _ElementRef; function unwrapElementRef(value) { return value instanceof ElementRef ? value.nativeElement : value; } function arrayEquals(a, b, identityAccessor) { if (a.length !== b.length) return false; for (let i = 0; i < a.length; i++) { let valueA = a[i]; let valueB = b[i]; if (identityAccessor) { valueA = identityAccessor(valueA); valueB = identityAccessor(valueB); } if (valueB !== valueA) { return false; } } return true; } function flatten(list) { return list.flat(Number.POSITIVE_INFINITY); } function deepForEach(input2, fn) { input2.forEach((value) => Array.isArray(value) ? deepForEach(value, fn) : fn(value)); } function addToArray(arr, index, value) { if (index >= arr.length) { arr.push(value); } else { arr.splice(index, 0, value); } } function removeFromArray(arr, index) { if (index >= arr.length - 1) { return arr.pop(); } else { return arr.splice(index, 1)[0]; } } function newArray(size, value) { const list = []; for (let i = 0; i < size; i++) { list.push(value); } return list; } function arraySplice(array, index, count2) { const length = array.length - count2; while (index < length) { array[index] = array[index + count2]; index++; } while (count2--) { array.pop(); } } function arrayInsert2(array, index, value1, value2) { ngDevMode && assertLessThanOrEqual(index, array.length, "Can't insert past array end."); let end = array.length; if (end == index) { array.push(value1, value2); } else if (end === 1) { array.push(value2, array[0]); array[0] = value1; } else { end--; array.push(array[end - 1], array[end]); while (end > index) { const previousEnd = end - 2; array[end] = array[previousEnd]; end--; } array[index] = value1; array[index + 1] = value2; } } function keyValueArraySet(keyValueArray, key, value) { let index = keyValueArrayIndexOf(keyValueArray, key); if (index >= 0) { keyValueArray[index | 1] = value; } else { index = ~index; arrayInsert2(keyValueArray, index, key, value); } return index; } function keyValueArrayGet(keyValueArray, key) { const index = keyValueArrayIndexOf(keyValueArray, key); if (index >= 0) { return keyValueArray[index | 1]; } return void 0; } function keyValueArrayIndexOf(keyValueArray, key) { return _arrayIndexOfSorted(keyValueArray, key, 1); } function _arrayIndexOfSorted(array, value, shift) { ngDevMode && assertEqual(Array.isArray(array), true, "Expecting an array"); let start = 0; let end = array.length >> shift; while (end !== start) { const middle = start + (end - start >> 1); const current = array[middle << shift]; if (value === current) { return middle << shift; } else if (current > value) { end = middle; } else { start = middle + 1; } } return ~(end << shift); } function symbolIterator() { return this._results[Symbol.iterator](); } var _QueryList = class _QueryList { /** * Returns `Observable` of `QueryList` notifying the subscriber of changes. */ get changes() { return this._changes ??= new EventEmitter(); } /** * @param emitDistinctChangesOnly Whether `QueryList.changes` should fire only when actual change * has occurred. Or if it should fire when query is recomputed. (recomputing could resolve in * the same result) */ constructor(_emitDistinctChangesOnly = false) { this._emitDistinctChangesOnly = _emitDistinctChangesOnly; this.dirty = true; this._onDirty = void 0; this._results = []; this._changesDetected = false; this._changes = void 0; this.length = 0; this.first = void 0; this.last = void 0; const proto = _QueryList.prototype; if (!proto[Symbol.iterator]) proto[Symbol.iterator] = symbolIterator; } /** * Returns the QueryList entry at `index`. */ get(index) { return this._results[index]; } /** * See * [Array.map](https://developer.mozilla.org/en-US/docs/Web/JavaScript/Reference/Global_Objects/Array/map) */ map(fn) { return this._results.map(fn); } filter(fn) { return this._results.filter(fn); } /** * See * [Array.find](https://developer.mozilla.org/en-US/docs/Web/JavaScript/Reference/Global_Objects/Array/find) */ find(fn) { return this._results.find(fn); } /** * See * [Array.reduce](https://developer.mozilla.org/en-US/docs/Web/JavaScript/Reference/Global_Objects/Array/reduce) */ reduce(fn, init) { return this._results.reduce(fn, init); } /** * See * [Array.forEach](https://developer.mozilla.org/en-US/docs/Web/JavaScript/Reference/Global_Objects/Array/forEach) */ forEach(fn) { this._results.forEach(fn); } /** * See * [Array.some](https://developer.mozilla.org/en-US/docs/Web/JavaScript/Reference/Global_Objects/Array/some) */ some(fn) { return this._results.some(fn); } /** * Returns a copy of the internal results list as an Array. */ toArray() { return this._results.slice(); } toString() { return this._results.toString(); } /** * Updates the stored data of the query list, and resets the `dirty` flag to `false`, so that * on change detection, it will not notify of changes to the queries, unless a new change * occurs. * * @param resultsTree The query results to store * @param identityAccessor Optional function for extracting stable object identity from a value * in the array. This function is executed for each element of the query result list while * comparing current query list with the new one (provided as a first argument of the `reset` * function) to detect if the lists are different. If the function is not provided, elements * are compared as is (without any pre-processing). */ reset(resultsTree, identityAccessor) { this.dirty = false; const newResultFlat = flatten(resultsTree); if (this._changesDetected = !arrayEquals(this._results, newResultFlat, identityAccessor)) { this._results = newResultFlat; this.length = newResultFlat.length; this.last = newResultFlat[this.length - 1]; this.first = newResultFlat[0]; } } /** * Triggers a change event by emitting on the `changes` {@link EventEmitter}. */ notifyOnChanges() { if (this._changes !== void 0 && (this._changesDetected || !this._emitDistinctChangesOnly)) this._changes.emit(this); } /** @internal */ onDirty(cb) { this._onDirty = cb; } /** internal */ setDirty() { this.dirty = true; this._onDirty?.(); } /** internal */ destroy() { if (this._changes !== void 0) { this._changes.complete(); this._changes.unsubscribe(); } } }; Symbol.iterator; var QueryList = _QueryList; var SKIP_HYDRATION_ATTR_NAME = "ngSkipHydration"; var SKIP_HYDRATION_ATTR_NAME_LOWER_CASE = "ngskiphydration"; function hasSkipHydrationAttrOnTNode(tNode) { const attrs = tNode.mergedAttrs; if (attrs === null) return false; for (let i = 0; i < attrs.length; i += 2) { const value = attrs[i]; if (typeof value === "number") return false; if (typeof value === "string" && value.toLowerCase() === SKIP_HYDRATION_ATTR_NAME_LOWER_CASE) { return true; } } return false; } function hasSkipHydrationAttrOnRElement(rNode) { return rNode.hasAttribute(SKIP_HYDRATION_ATTR_NAME); } function hasInSkipHydrationBlockFlag(tNode) { return (tNode.flags & 128) === 128; } function isInSkipHydrationBlock(tNode) { if (hasInSkipHydrationBlockFlag(tNode)) { return true; } let currentTNode = tNode.parent; while (currentTNode) { if (hasInSkipHydrationBlockFlag(tNode) || hasSkipHydrationAttrOnTNode(currentTNode)) { return true; } currentTNode = currentTNode.parent; } return false; } var DOCUMENT = void 0; function setDocument(document2) { DOCUMENT = document2; } function getDocument() { if (DOCUMENT !== void 0) { return DOCUMENT; } else if (typeof document !== "undefined") { return document; } throw new RuntimeError(210, (typeof ngDevMode === "undefined" || ngDevMode) && `The document object is not available in this context. Make sure the DOCUMENT injection token is provided.`); } function ɵɵdefineInjectable(opts) { return { token: opts.token, providedIn: opts.providedIn || null, factory: opts.factory, value: void 0 }; } var defineInjectable = ɵɵdefineInjectable; function ɵɵdefineInjector(options) { return { providers: options.providers || [], imports: options.imports || [] }; } function getInjectableDef(type) { return getOwnDefinition(type, NG_PROV_DEF) || getOwnDefinition(type, NG_INJECTABLE_DEF); } function isInjectable(type) { return getInjectableDef(type) !== null; } function getOwnDefinition(type, field) { return type.hasOwnProperty(field) ? type[field] : null; } function getInheritedInjectableDef(type) { const def = type && (type[NG_PROV_DEF] || type[NG_INJECTABLE_DEF]); if (def) { ngDevMode && console.warn(`DEPRECATED: DI is instantiating a token "${type.name}" that inherits its @Injectable decorator but does not provide one itself. This will become an error in a future version of Angular. Please add @Injectable() to the "${type.name}" class.`); return def; } else { return null; } } function getInjectorDef(type) { return type && (type.hasOwnProperty(NG_INJ_DEF) || type.hasOwnProperty(NG_INJECTOR_DEF)) ? type[NG_INJ_DEF] : null; } var NG_PROV_DEF = getClosureSafeProperty({ ɵprov: getClosureSafeProperty }); var NG_INJ_DEF = getClosureSafeProperty({ ɵinj: getClosureSafeProperty }); var NG_INJECTABLE_DEF = getClosureSafeProperty({ ngInjectableDef: getClosureSafeProperty }); var NG_INJECTOR_DEF = getClosureSafeProperty({ ngInjectorDef: getClosureSafeProperty }); var InjectionToken = class { /** * @param _desc Description for the token, * used only for debugging purposes, * it should but does not need to be unique * @param options Options for the token's usage, as described above */ constructor(_desc, options) { this._desc = _desc; this.ngMetadataName = "InjectionToken"; this.ɵprov = void 0; if (typeof options == "number") { (typeof ngDevMode === "undefined" || ngDevMode) && assertLessThan(options, 0, "Only negative numbers are supported here"); this.__NG_ELEMENT_ID__ = options; } else if (options !== void 0) { this.ɵprov = ɵɵdefineInjectable({ token: this, providedIn: options.providedIn || "root", factory: options.factory }); } } /** * @internal */ get multi() { return this; } toString() { return `InjectionToken ${this._desc}`; } }; var APP_ID = new InjectionToken(ngDevMode ? "AppId" : "", { providedIn: "root", factory: () => DEFAULT_APP_ID }); var DEFAULT_APP_ID = "ng"; var PLATFORM_INITIALIZER = new InjectionToken(ngDevMode ? "Platform Initializer" : ""); var PLATFORM_ID = new InjectionToken(ngDevMode ? "Platform ID" : "", { providedIn: "platform", factory: () => "unknown" // set a default platform name, when none set explicitly }); var PACKAGE_ROOT_URL = new InjectionToken(ngDevMode ? "Application Packages Root URL" : ""); var ANIMATION_MODULE_TYPE = new InjectionToken(ngDevMode ? "AnimationModuleType" : ""); var CSP_NONCE = new InjectionToken(ngDevMode ? "CSP nonce" : "", { providedIn: "root", factory: () => { return getDocument().body?.querySelector("[ngCspNonce]")?.getAttribute("ngCspNonce") || null; } }); var IMAGE_CONFIG_DEFAULTS = { breakpoints: [16, 32, 48, 64, 96, 128, 256, 384, 640, 750, 828, 1080, 1200, 1920, 2048, 3840], placeholderResolution: 30, disableImageSizeWarning: false, disableImageLazyLoadWarning: false }; var IMAGE_CONFIG = new InjectionToken(ngDevMode ? "ImageConfig" : "", { providedIn: "root", factory: () => IMAGE_CONFIG_DEFAULTS }); var __forward_ref__ = getClosureSafeProperty({ __forward_ref__: getClosureSafeProperty }); function forwardRef(forwardRefFn) { forwardRefFn.__forward_ref__ = forwardRef; forwardRefFn.toString = function() { return stringify(this()); }; return forwardRefFn; } function resolveForwardRef(type) { return isForwardRef(type) ? type() : type; } function isForwardRef(fn) { return typeof fn === "function" && fn.hasOwnProperty(__forward_ref__) && fn.__forward_ref__ === forwardRef; } var _injectorProfilerContext; function getInjectorProfilerContext() { !ngDevMode && throwError("getInjectorProfilerContext should never be called in production mode"); return _injectorProfilerContext; } function setInjectorProfilerContext(context) { !ngDevMode && throwError("setInjectorProfilerContext should never be called in production mode"); const previous = _injectorProfilerContext; _injectorProfilerContext = context; return previous; } var injectorProfilerCallback = null; var setInjectorProfiler = (injectorProfiler2) => { !ngDevMode && throwError("setInjectorProfiler should never be called in production mode"); injectorProfilerCallback = injectorProfiler2; }; function injectorProfiler(event) { !ngDevMode && throwError("Injector profiler should never be called in production mode"); if (injectorProfilerCallback != null) { injectorProfilerCallback(event); } } function emitProviderConfiguredEvent(eventProvider, isViewProvider = false) { !ngDevMode && throwError("Injector profiler should never be called in production mode"); let token; if (typeof eventProvider === "function") { token = eventProvider; } else if (eventProvider instanceof InjectionToken) { token = eventProvider; } else { token = resolveForwardRef(eventProvider.provide); } let provider = eventProvider; if (eventProvider instanceof InjectionToken) { provider = eventProvider.ɵprov || eventProvider; } injectorProfiler({ type: 2, context: getInjectorProfilerContext(), providerRecord: { token, provider, isViewProvider } }); } function emitInstanceCreatedByInjectorEvent(instance) { !ngDevMode && throwError("Injector profiler should never be called in production mode"); injectorProfiler({ type: 1, context: getInjectorProfilerContext(), instance: { value: instance } }); } function emitInjectEvent(token, value, flags) { !ngDevMode && throwError("Injector profiler should never be called in production mode"); injectorProfiler({ type: 0, context: getInjectorProfilerContext(), service: { token, value, flags } }); } function runInInjectorProfilerContext(injector, token, callback) { !ngDevMode && throwError("runInInjectorProfilerContext should never be called in production mode"); const prevInjectContext = setInjectorProfilerContext({ injector, token }); try { callback(); } finally { setInjectorProfilerContext(prevInjectContext); } } function isEnvironmentProviders(value) { return value && !!value.ɵproviders; } function renderStringify(value) { if (typeof value === "string") return value; if (value == null) return ""; return String(value); } function stringifyForError(value) { if (typeof value === "function") return value.name || value.toString(); if (typeof value === "object" && value != null && typeof value.type === "function") { return value.type.name || value.type.toString(); } return renderStringify(value); } function debugStringifyTypeForError(type) { let componentDef = type[NG_COMP_DEF] || null; if (componentDef !== null && componentDef.debugInfo) { return stringifyTypeFromDebugInfo(componentDef.debugInfo); } return stringifyForError(type); } function stringifyTypeFromDebugInfo(debugInfo) { if (!debugInfo.filePath || !debugInfo.lineNumber) { return debugInfo.className; } else { return `${debugInfo.className} (at ${debugInfo.filePath}:${debugInfo.lineNumber})`; } } function throwCyclicDependencyError(token, path) { const depPath = path ? `. Dependency path: ${path.join(" > ")} > ${token}` : ""; throw new RuntimeError(-200, ngDevMode ? `Circular dependency in DI detected for ${token}${depPath}` : token); } function throwMixedMultiProviderError() { throw new Error(`Cannot mix multi providers and regular providers`); } function throwInvalidProviderError(ngModuleType, providers, provider) { if (ngModuleType && providers) { const providerDetail = providers.map((v) => v == provider ? "?" + provider + "?" : "..."); throw new Error(`Invalid provider for the NgModule '${stringify(ngModuleType)}' - only instances of Provider and Type are allowed, got: [${providerDetail.join(", ")}]`); } else if (isEnvironmentProviders(provider)) { if (provider.ɵfromNgModule) { throw new RuntimeError(207, `Invalid providers from 'importProvidersFrom' present in a non-environment injector. 'importProvidersFrom' can't be used for component providers.`); } else { throw new RuntimeError(207, `Invalid providers present in a non-environment injector. 'EnvironmentProviders' can't be used for component providers.`); } } else { throw new Error("Invalid provider"); } } function throwProviderNotFoundError(token, injectorName) { const errorMessage = ngDevMode && `No provider for ${stringifyForError(token)} found${injectorName ? ` in ${injectorName}` : ""}`; throw new RuntimeError(-201, errorMessage); } var _injectImplementation; function getInjectImplementation() { return _injectImplementation; } function setInjectImplementation(impl) { const previous = _injectImplementation; _injectImplementation = impl; return previous; } function injectRootLimpMode(token, notFoundValue, flags) { const injectableDef = getInjectableDef(token); if (injectableDef && injectableDef.providedIn == "root") { return injectableDef.value === void 0 ? injectableDef.value = injectableDef.factory() : injectableDef.value; } if (flags & InjectFlags.Optional) return null; if (notFoundValue !== void 0) return notFoundValue; throwProviderNotFoundError(token, "Injector"); } function assertInjectImplementationNotEqual(fn) { ngDevMode && assertNotEqual(_injectImplementation, fn, "Calling ɵɵinject would cause infinite recursion"); } var _THROW_IF_NOT_FOUND = {}; var THROW_IF_NOT_FOUND = _THROW_IF_NOT_FOUND; var DI_DECORATOR_FLAG = "__NG_DI_FLAG__"; var NG_TEMP_TOKEN_PATH = "ngTempTokenPath"; var NG_TOKEN_PATH = "ngTokenPath"; var NEW_LINE = /\n/gm; var NO_NEW_LINE = "ɵ"; var SOURCE = "__source"; var _currentInjector = void 0; function getCurrentInjector() { return _currentInjector; } function setCurrentInjector(injector) { const former = _currentInjector; _currentInjector = injector; return former; } function injectInjectorOnly(token, flags = InjectFlags.Default) { if (_currentInjector === void 0) { throw new RuntimeError(-203, ngDevMode && `inject() must be called from an injection context such as a constructor, a factory function, a field initializer, or a function used with \`runInInjectionContext\`.`); } else if (_currentInjector === null) { return injectRootLimpMode(token, void 0, flags); } else { const value = _currentInjector.get(token, flags & InjectFlags.Optional ? null : void 0, flags); ngDevMode && emitInjectEvent(token, value, flags); return value; } } function ɵɵinject(token, flags = InjectFlags.Default) { return (getInjectImplementation() || injectInjectorOnly)(resolveForwardRef(token), flags); } function ɵɵinvalidFactoryDep(index) { throw new RuntimeError(202, ngDevMode && `This constructor is not compatible with Angular Dependency Injection because its dependency at index ${index} of the parameter list is invalid. This can happen if the dependency type is a primitive like a string or if an ancestor of this class is missing an Angular decorator. Please check that 1) the type for the parameter at index ${index} is correct and 2) the correct Angular decorators are defined for this class and its ancestors.`); } function inject(token, flags = InjectFlags.Default) { return ɵɵinject(token, convertToBitFlags(flags)); } function convertToBitFlags(flags) { if (typeof flags === "undefined" || typeof flags === "number") { return flags; } return 0 | // comment to force a line break in the formatter (flags.optional && 8) | (flags.host && 1) | (flags.self && 2) | (flags.skipSelf && 4); } function injectArgs(types) { const args = []; for (let i = 0; i < types.length; i++) { const arg = resolveForwardRef(types[i]); if (Array.isArray(arg)) { if (arg.length === 0) { throw new RuntimeError(900, ngDevMode && "Arguments array must have arguments."); } let type = void 0; let flags = InjectFlags.Default; for (let j = 0; j < arg.length; j++) { const meta = arg[j]; const flag = getInjectFlag(meta); if (typeof flag === "number") { if (flag === -1) { type = meta.token; } else { flags |= flag; } } else { type = meta; } } args.push(ɵɵinject(type, flags)); } else { args.push(ɵɵinject(arg)); } } return args; } function attachInjectFlag(decorator, flag) { decorator[DI_DECORATOR_FLAG] = flag; decorator.prototype[DI_DECORATOR_FLAG] = flag; return decorator; } function getInjectFlag(token) { return token[DI_DECORATOR_FLAG]; } function catchInjectorError(e, token, injectorErrorName, source) { const tokenPath = e[NG_TEMP_TOKEN_PATH]; if (token[SOURCE]) { tokenPath.unshift(token[SOURCE]); } e.message = formatError("\n" + e.message, tokenPath, injectorErrorName, source); e[NG_TOKEN_PATH] = tokenPath; e[NG_TEMP_TOKEN_PATH] = null; throw e; } function formatError(text, obj, injectorErrorName, source = null) { text = text && text.charAt(0) === "\n" && text.charAt(1) == NO_NEW_LINE ? text.slice(2) : text; let context = stringify(obj); if (Array.isArray(obj)) { context = obj.map(stringify).join(" -> "); } else if (typeof obj === "object") { let parts = []; for (let key in obj) { if (obj.hasOwnProperty(key)) { let value = obj[key]; parts.push(key + ":" + (typeof value === "string" ? JSON.stringify(value) : stringify(value))); } } context = `{${parts.join(", ")}}`; } return `${injectorErrorName}${source ? "(" + source + ")" : ""}[${context}]: ${text.replace(NEW_LINE, "\n ")}`; } function makeStateKey(key) { return key; } function initTransferState() { const transferState = new TransferState(); if (inject(PLATFORM_ID) === "browser") { transferState.store = retrieveTransferredState(getDocument(), inject(APP_ID)); } return transferState; } var _TransferState = class _TransferState { constructor() { this.store = {}; this.onSerializeCallbacks = {}; } /** * Get the value corresponding to a key. Return `defaultValue` if key is not found. */ get(key, defaultValue) { return this.store[key] !== void 0 ? this.store[key] : defaultValue; } /** * Set the value corresponding to a key. */ set(key, value) { this.store[key] = value; } /** * Remove a key from the store. */ remove(key) { delete this.store[key]; } /** * Test whether a key exists in the store. */ hasKey(key) { return this.store.hasOwnProperty(key); } /** * Indicates whether the state is empty. */ get isEmpty() { return Object.keys(this.store).length === 0; } /** * Register a callback to provide the value for a key when `toJson` is called. */ onSerialize(key, callback) { this.onSerializeCallbacks[key] = callback; } /** * Serialize the current state of the store to JSON. */ toJson() { for (const key in this.onSerializeCallbacks) { if (this.onSerializeCallbacks.hasOwnProperty(key)) { try { this.store[key] = this.onSerializeCallbacks[key](); } catch (e) { console.warn("Exception in onSerialize callback: ", e); } } } return JSON.stringify(this.store).replace(/ null; function retrieveHydrationInfoImpl(rNode, injector, isRootView2 = false) { let nghAttrValue = rNode.getAttribute(NGH_ATTR_NAME); if (nghAttrValue == null) return null; const [componentViewNgh, rootViewNgh] = nghAttrValue.split("|"); nghAttrValue = isRootView2 ? rootViewNgh : componentViewNgh; if (!nghAttrValue) return null; const rootNgh = rootViewNgh ? `|${rootViewNgh}` : ""; const remainingNgh = isRootView2 ? componentViewNgh : rootNgh; let data = {}; if (nghAttrValue !== "") { const transferState = injector.get(TransferState, null, { optional: true }); if (transferState !== null) { const nghData = transferState.get(NGH_DATA_KEY, []); data = nghData[Number(nghAttrValue)]; ngDevMode && assertDefined(data, "Unable to retrieve hydration info from the TransferState."); } } const dehydratedView = { data, firstChild: rNode.firstChild ?? null }; if (isRootView2) { dehydratedView.firstChild = rNode; setSegmentHead(dehydratedView, 0, rNode.nextSibling); } if (remainingNgh) { rNode.setAttribute(NGH_ATTR_NAME, remainingNgh); } else { rNode.removeAttribute(NGH_ATTR_NAME); } ngDevMode && markRNodeAsClaimedByHydration( rNode, /* checkIfAlreadyClaimed */ false ); ngDevMode && ngDevMode.hydratedComponents++; return dehydratedView; } function enableRetrieveHydrationInfoImpl() { _retrieveHydrationInfoImpl = retrieveHydrationInfoImpl; } function retrieveHydrationInfo(rNode, injector, isRootView2 = false) { return _retrieveHydrationInfoImpl(rNode, injector, isRootView2); } function getLNodeForHydration(viewRef) { let lView = viewRef._lView; const tView = lView[TVIEW]; if (tView.type === 2) { return null; } if (isRootView(lView)) { lView = lView[HEADER_OFFSET]; } return lView; } function getTextNodeContent(node) { return node.textContent?.replace(/\s/gm, ""); } function processTextNodeMarkersBeforeHydration(node) { const doc = getDocument(); const commentNodesIterator = doc.createNodeIterator(node, NodeFilter.SHOW_COMMENT, { acceptNode(node2) { const content = getTextNodeContent(node2); const isTextNodeMarker = content === "ngetn" || content === "ngtns"; return isTextNodeMarker ? NodeFilter.FILTER_ACCEPT : NodeFilter.FILTER_REJECT; } }); let currentNode; const nodes = []; while (currentNode = commentNodesIterator.nextNode()) { nodes.push(currentNode); } for (const node2 of nodes) { if (node2.textContent === "ngetn") { node2.replaceWith(doc.createTextNode("")); } else { node2.remove(); } } } var HydrationStatus; (function(HydrationStatus2) { HydrationStatus2["Hydrated"] = "hydrated"; HydrationStatus2["Skipped"] = "skipped"; HydrationStatus2["Mismatched"] = "mismatched"; })(HydrationStatus || (HydrationStatus = {})); var HYDRATION_INFO_KEY = "__ngDebugHydrationInfo__"; function patchHydrationInfo(node, info) { node[HYDRATION_INFO_KEY] = info; } function readHydrationInfo(node) { return node[HYDRATION_INFO_KEY] ?? null; } function markRNodeAsClaimedByHydration(node, checkIfAlreadyClaimed = true) { if (!ngDevMode) { throw new Error("Calling `markRNodeAsClaimedByHydration` in prod mode is not supported and likely a mistake."); } if (checkIfAlreadyClaimed && isRNodeClaimedForHydration(node)) { throw new Error("Trying to claim a node, which was claimed already."); } patchHydrationInfo(node, { status: HydrationStatus.Hydrated }); ngDevMode.hydratedNodes++; } function markRNodeAsSkippedByHydration(node) { if (!ngDevMode) { throw new Error("Calling `markRNodeAsSkippedByHydration` in prod mode is not supported and likely a mistake."); } patchHydrationInfo(node, { status: HydrationStatus.Skipped }); ngDevMode.componentsSkippedHydration++; } function markRNodeAsHavingHydrationMismatch(node, expectedNodeDetails = null, actualNodeDetails = null) { if (!ngDevMode) { throw new Error("Calling `markRNodeAsMismatchedByHydration` in prod mode is not supported and likely a mistake."); } while (node && readHydrationInfo(node)?.status !== HydrationStatus.Hydrated) { node = node?.parentNode; } if (node) { patchHydrationInfo(node, { status: HydrationStatus.Mismatched, expectedNodeDetails, actualNodeDetails }); } } function isRNodeClaimedForHydration(node) { return readHydrationInfo(node)?.status === HydrationStatus.Hydrated; } function setSegmentHead(hydrationInfo, index, node) { hydrationInfo.segmentHeads ??= {}; hydrationInfo.segmentHeads[index] = node; } function getSegmentHead(hydrationInfo, index) { return hydrationInfo.segmentHeads?.[index] ?? null; } function getNgContainerSize(hydrationInfo, index) { const data = hydrationInfo.data; let size = data[ELEMENT_CONTAINERS]?.[index] ?? null; if (size === null && data[CONTAINERS]?.[index]) { size = calcSerializedContainerSize(hydrationInfo, index); } return size; } function getSerializedContainerViews(hydrationInfo, index) { return hydrationInfo.data[CONTAINERS]?.[index] ?? null; } function calcSerializedContainerSize(hydrationInfo, index) { const views = getSerializedContainerViews(hydrationInfo, index) ?? []; let numNodes = 0; for (let view of views) { numNodes += view[NUM_ROOT_NODES] * (view[MULTIPLIER] ?? 1); } return numNodes; } function isDisconnectedNode$1(hydrationInfo, index) { if (typeof hydrationInfo.disconnectedNodes === "undefined") { const nodeIds = hydrationInfo.data[DISCONNECTED_NODES]; hydrationInfo.disconnectedNodes = nodeIds ? new Set(nodeIds) : null; } return !!hydrationInfo.disconnectedNodes?.has(index); } var ANNOTATIONS = "__annotations__"; var PARAMETERS = "__parameters__"; var PROP_METADATA = "__prop__metadata__"; function makeDecorator(name, props, parentClass, additionalProcessing, typeFn) { return noSideEffects(() => { const metaCtor = makeMetadataCtor(props); function DecoratorFactory(...args) { if (this instanceof DecoratorFactory) { metaCtor.call(this, ...args); return this; } const annotationInstance = new DecoratorFactory(...args); return function TypeDecorator(cls) { if (typeFn) typeFn(cls, ...args); const annotations = cls.hasOwnProperty(ANNOTATIONS) ? cls[ANNOTATIONS] : Object.defineProperty(cls, ANNOTATIONS, { value: [] })[ANNOTATIONS]; annotations.push(annotationInstance); if (additionalProcessing) additionalProcessing(cls); return cls; }; } if (parentClass) { DecoratorFactory.prototype = Object.create(parentClass.prototype); } DecoratorFactory.prototype.ngMetadataName = name; DecoratorFactory.annotationCls = DecoratorFactory; return DecoratorFactory; }); } function makeMetadataCtor(props) { return function ctor(...args) { if (props) { const values = props(...args); for (const propName in values) { this[propName] = values[propName]; } } }; } function makeParamDecorator(name, props, parentClass) { return noSideEffects(() => { const metaCtor = makeMetadataCtor(props); function ParamDecoratorFactory(...args) { if (this instanceof ParamDecoratorFactory) { metaCtor.apply(this, args); return this; } const annotationInstance = new ParamDecoratorFactory(...args); ParamDecorator.annotation = annotationInstance; return ParamDecorator; function ParamDecorator(cls, unusedKey, index) { const parameters = cls.hasOwnProperty(PARAMETERS) ? cls[PARAMETERS] : Object.defineProperty(cls, PARAMETERS, { value: [] })[PARAMETERS]; while (parameters.length <= index) { parameters.push(null); } (parameters[index] = parameters[index] || []).push(annotationInstance); return cls; } } if (parentClass) { ParamDecoratorFactory.prototype = Object.create(parentClass.prototype); } ParamDecoratorFactory.prototype.ngMetadataName = name; ParamDecoratorFactory.annotationCls = ParamDecoratorFactory; return ParamDecoratorFactory; }); } function makePropDecorator(name, props, parentClass, additionalProcessing) { return noSideEffects(() => { const metaCtor = makeMetadataCtor(props); function PropDecoratorFactory(...args) { if (this instanceof PropDecoratorFactory) { metaCtor.apply(this, args); return this; } const decoratorInstance = new PropDecoratorFactory(...args); function PropDecorator(target, name2) { if (target === void 0) { throw new Error("Standard Angular field decorators are not supported in JIT mode."); } const constructor = target.constructor; const meta = constructor.hasOwnProperty(PROP_METADATA) ? constructor[PROP_METADATA] : Object.defineProperty(constructor, PROP_METADATA, { value: {} })[PROP_METADATA]; meta[name2] = meta.hasOwnProperty(name2) && meta[name2] || []; meta[name2].unshift(decoratorInstance); if (additionalProcessing) additionalProcessing(target, name2, ...args); } return PropDecorator; } if (parentClass) { PropDecoratorFactory.prototype = Object.create(parentClass.prototype); } PropDecoratorFactory.prototype.ngMetadataName = name; PropDecoratorFactory.annotationCls = PropDecoratorFactory; return PropDecoratorFactory; }); } var Inject = attachInjectFlag( // Disable tslint because `DecoratorFlags` is a const enum which gets inlined. // tslint:disable-next-line: no-toplevel-property-access makeParamDecorator("Inject", (token) => ({ token })), -1 /* DecoratorFlags.Inject */ ); var Optional = ( // Disable tslint because `InternalInjectFlags` is a const enum which gets inlined. // tslint:disable-next-line: no-toplevel-property-access attachInjectFlag( makeParamDecorator("Optional"), 8 /* InternalInjectFlags.Optional */ ) ); var Self = ( // Disable tslint because `InternalInjectFlags` is a const enum which gets inlined. // tslint:disable-next-line: no-toplevel-property-access attachInjectFlag( makeParamDecorator("Self"), 2 /* InternalInjectFlags.Self */ ) ); var SkipSelf = ( // Disable tslint because `InternalInjectFlags` is a const enum which gets inlined. // tslint:disable-next-line: no-toplevel-property-access attachInjectFlag( makeParamDecorator("SkipSelf"), 4 /* InternalInjectFlags.SkipSelf */ ) ); var Host = ( // Disable tslint because `InternalInjectFlags` is a const enum which gets inlined. // tslint:disable-next-line: no-toplevel-property-access attachInjectFlag( makeParamDecorator("Host"), 1 /* InternalInjectFlags.Host */ ) ); function getFactoryDef(type, throwNotFound) { const hasFactoryDef = type.hasOwnProperty(NG_FACTORY_DEF); if (!hasFactoryDef && throwNotFound === true && ngDevMode) { throw new Error(`Type ${stringify(type)} does not have 'ɵfac' property.`); } return hasFactoryDef ? type[NG_FACTORY_DEF] : null; } var ENVIRONMENT_INITIALIZER = new InjectionToken(ngDevMode ? "ENVIRONMENT_INITIALIZER" : ""); var INJECTOR = new InjectionToken( ngDevMode ? "INJECTOR" : "", // Disable tslint because this is const enum which gets inlined not top level prop access. // tslint:disable-next-line: no-toplevel-property-access -1 /* InjectorMarkers.Injector */ ); var INJECTOR_DEF_TYPES = new InjectionToken(ngDevMode ? "INJECTOR_DEF_TYPES" : ""); var NullInjector = class { get(token, notFoundValue = THROW_IF_NOT_FOUND) { if (notFoundValue === THROW_IF_NOT_FOUND) { const error = new Error(`NullInjectorError: No provider for ${stringify(token)}!`); error.name = "NullInjectorError"; throw error; } return notFoundValue; } }; function makeEnvironmentProviders(providers) { return { ɵproviders: providers }; } function importProvidersFrom(...sources) { return { ɵproviders: internalImportProvidersFrom(true, sources), ɵfromNgModule: true }; } function internalImportProvidersFrom(checkForStandaloneCmp, ...sources) { const providersOut = []; const dedup = /* @__PURE__ */ new Set(); let injectorTypesWithProviders; const collectProviders = (provider) => { providersOut.push(provider); }; deepForEach(sources, (source) => { if ((typeof ngDevMode === "undefined" || ngDevMode) && checkForStandaloneCmp) { const cmpDef = getComponentDef(source); if (cmpDef?.standalone) { throw new RuntimeError(800, `Importing providers supports NgModule or ModuleWithProviders but got a standalone component "${stringifyForError(source)}"`); } } const internalSource = source; if (walkProviderTree(internalSource, collectProviders, [], dedup)) { injectorTypesWithProviders ||= []; injectorTypesWithProviders.push(internalSource); } }); if (injectorTypesWithProviders !== void 0) { processInjectorTypesWithProviders(injectorTypesWithProviders, collectProviders); } return providersOut; } function processInjectorTypesWithProviders(typesWithProviders, visitor) { for (let i = 0; i < typesWithProviders.length; i++) { const { ngModule, providers } = typesWithProviders[i]; deepForEachProvider(providers, (provider) => { ngDevMode && validateProvider(provider, providers || EMPTY_ARRAY, ngModule); visitor(provider, ngModule); }); } } function walkProviderTree(container, visitor, parents, dedup) { container = resolveForwardRef(container); if (!container) return false; let defType = null; let injDef = getInjectorDef(container); const cmpDef = !injDef && getComponentDef(container); if (!injDef && !cmpDef) { const ngModule = container.ngModule; injDef = getInjectorDef(ngModule); if (injDef) { defType = ngModule; } else { return false; } } else if (cmpDef && !cmpDef.standalone) { return false; } else { defType = container; } if (ngDevMode && parents.indexOf(defType) !== -1) { const defName = stringify(defType); const path = parents.map(stringify); throwCyclicDependencyError(defName, path); } const isDuplicate = dedup.has(defType); if (cmpDef) { if (isDuplicate) { return false; } dedup.add(defType); if (cmpDef.dependencies) { const deps = typeof cmpDef.dependencies === "function" ? cmpDef.dependencies() : cmpDef.dependencies; for (const dep of deps) { walkProviderTree(dep, visitor, parents, dedup); } } } else if (injDef) { if (injDef.imports != null && !isDuplicate) { ngDevMode && parents.push(defType); dedup.add(defType); let importTypesWithProviders; try { deepForEach(injDef.imports, (imported) => { if (walkProviderTree(imported, visitor, parents, dedup)) { importTypesWithProviders ||= []; importTypesWithProviders.push(imported); } }); } finally { ngDevMode && parents.pop(); } if (importTypesWithProviders !== void 0) { processInjectorTypesWithProviders(importTypesWithProviders, visitor); } } if (!isDuplicate) { const factory = getFactoryDef(defType) || (() => new defType()); visitor({ provide: defType, useFactory: factory, deps: EMPTY_ARRAY }, defType); visitor({ provide: INJECTOR_DEF_TYPES, useValue: defType, multi: true }, defType); visitor({ provide: ENVIRONMENT_INITIALIZER, useValue: () => ɵɵinject(defType), multi: true }, defType); } const defProviders = injDef.providers; if (defProviders != null && !isDuplicate) { const injectorType = container; deepForEachProvider(defProviders, (provider) => { ngDevMode && validateProvider(provider, defProviders, injectorType); visitor(provider, injectorType); }); } } else { return false; } return defType !== container && container.providers !== void 0; } function validateProvider(provider, providers, containerType) { if (isTypeProvider(provider) || isValueProvider(provider) || isFactoryProvider(provider) || isExistingProvider(provider)) { return; } const classRef = resolveForwardRef(provider && (provider.useClass || provider.provide)); if (!classRef) { throwInvalidProviderError(containerType, providers, provider); } } function deepForEachProvider(providers, fn) { for (let provider of providers) { if (isEnvironmentProviders(provider)) { provider = provider.ɵproviders; } if (Array.isArray(provider)) { deepForEachProvider(provider, fn); } else { fn(provider); } } } var USE_VALUE$1 = getClosureSafeProperty({ provide: String, useValue: getClosureSafeProperty }); function isValueProvider(value) { return value !== null && typeof value == "object" && USE_VALUE$1 in value; } function isExistingProvider(value) { return !!(value && value.useExisting); } function isFactoryProvider(value) { return !!(value && value.useFactory); } function isTypeProvider(value) { return typeof value === "function"; } function isClassProvider(value) { return !!value.useClass; } var INJECTOR_SCOPE = new InjectionToken(ngDevMode ? "Set Injector scope." : ""); var NOT_YET = {}; var CIRCULAR = {}; var NULL_INJECTOR = void 0; function getNullInjector() { if (NULL_INJECTOR === void 0) { NULL_INJECTOR = new NullInjector(); } return NULL_INJECTOR; } var EnvironmentInjector = class { }; var R3Injector = class extends EnvironmentInjector { /** * Flag indicating that this injector was previously destroyed. */ get destroyed() { return this._destroyed; } constructor(providers, parent, source, scopes) { super(); this.parent = parent; this.source = source; this.scopes = scopes; this.records = /* @__PURE__ */ new Map(); this._ngOnDestroyHooks = /* @__PURE__ */ new Set(); this._onDestroyHooks = []; this._destroyed = false; forEachSingleProvider(providers, (provider) => this.processProvider(provider)); this.records.set(INJECTOR, makeRecord(void 0, this)); if (scopes.has("environment")) { this.records.set(EnvironmentInjector, makeRecord(void 0, this)); } const record = this.records.get(INJECTOR_SCOPE); if (record != null && typeof record.value === "string") { this.scopes.add(record.value); } this.injectorDefTypes = new Set(this.get(INJECTOR_DEF_TYPES, EMPTY_ARRAY, InjectFlags.Self)); } /** * Destroy the injector and release references to every instance or provider associated with it. * * Also calls the `OnDestroy` lifecycle hooks of every instance that was created for which a * hook was found. */ destroy() { this.assertNotDestroyed(); this._destroyed = true; try { for (const service of this._ngOnDestroyHooks) { service.ngOnDestroy(); } const onDestroyHooks = this._onDestroyHooks; this._onDestroyHooks = []; for (const hook of onDestroyHooks) { hook(); } } finally { this.records.clear(); this._ngOnDestroyHooks.clear(); this.injectorDefTypes.clear(); } } onDestroy(callback) { this.assertNotDestroyed(); this._onDestroyHooks.push(callback); return () => this.removeOnDestroy(callback); } runInContext(fn) { this.assertNotDestroyed(); const previousInjector = setCurrentInjector(this); const previousInjectImplementation = setInjectImplementation(void 0); let prevInjectContext; if (ngDevMode) { prevInjectContext = setInjectorProfilerContext({ injector: this, token: null }); } try { return fn(); } finally { setCurrentInjector(previousInjector); setInjectImplementation(previousInjectImplementation); ngDevMode && setInjectorProfilerContext(prevInjectContext); } } get(token, notFoundValue = THROW_IF_NOT_FOUND, flags = InjectFlags.Default) { this.assertNotDestroyed(); if (token.hasOwnProperty(NG_ENV_ID)) { return token[NG_ENV_ID](this); } flags = convertToBitFlags(flags); let prevInjectContext; if (ngDevMode) { prevInjectContext = setInjectorProfilerContext({ injector: this, token }); } const previousInjector = setCurrentInjector(this); const previousInjectImplementation = setInjectImplementation(void 0); try { if (!(flags & InjectFlags.SkipSelf)) { let record = this.records.get(token); if (record === void 0) { const def = couldBeInjectableType(token) && getInjectableDef(token); if (def && this.injectableDefInScope(def)) { if (ngDevMode) { runInInjectorProfilerContext(this, token, () => { emitProviderConfiguredEvent(token); }); } record = makeRecord(injectableDefOrInjectorDefFactory(token), NOT_YET); } else { record = null; } this.records.set(token, record); } if (record != null) { return this.hydrate(token, record); } } const nextInjector = !(flags & InjectFlags.Self) ? this.parent : getNullInjector(); notFoundValue = flags & InjectFlags.Optional && notFoundValue === THROW_IF_NOT_FOUND ? null : notFoundValue; return nextInjector.get(token, notFoundValue); } catch (e) { if (e.name === "NullInjectorError") { const path = e[NG_TEMP_TOKEN_PATH] = e[NG_TEMP_TOKEN_PATH] || []; path.unshift(stringify(token)); if (previousInjector) { throw e; } else { return catchInjectorError(e, token, "R3InjectorError", this.source); } } else { throw e; } } finally { setInjectImplementation(previousInjectImplementation); setCurrentInjector(previousInjector); ngDevMode && setInjectorProfilerContext(prevInjectContext); } } /** @internal */ resolveInjectorInitializers() { const previousInjector = setCurrentInjector(this); const previousInjectImplementation = setInjectImplementation(void 0); let prevInjectContext; if (ngDevMode) { prevInjectContext = setInjectorProfilerContext({ injector: this, token: null }); } try { const initializers = this.get(ENVIRONMENT_INITIALIZER, EMPTY_ARRAY, InjectFlags.Self); if (ngDevMode && !Array.isArray(initializers)) { throw new RuntimeError(-209, `Unexpected type of the \`ENVIRONMENT_INITIALIZER\` token value (expected an array, but got ${typeof initializers}). Please check that the \`ENVIRONMENT_INITIALIZER\` token is configured as a \`multi: true\` provider.`); } for (const initializer of initializers) { initializer(); } } finally { setCurrentInjector(previousInjector); setInjectImplementation(previousInjectImplementation); ngDevMode && setInjectorProfilerContext(prevInjectContext); } } toString() { const tokens = []; const records = this.records; for (const token of records.keys()) { tokens.push(stringify(token)); } return `R3Injector[${tokens.join(", ")}]`; } assertNotDestroyed() { if (this._destroyed) { throw new RuntimeError(205, ngDevMode && "Injector has already been destroyed."); } } /** * Process a `SingleProvider` and add it. */ processProvider(provider) { provider = resolveForwardRef(provider); let token = isTypeProvider(provider) ? provider : resolveForwardRef(provider && provider.provide); const record = providerToRecord(provider); if (ngDevMode) { runInInjectorProfilerContext(this, token, () => { if (isValueProvider(provider)) { emitInstanceCreatedByInjectorEvent(provider.useValue); } emitProviderConfiguredEvent(provider); }); } if (!isTypeProvider(provider) && provider.multi === true) { let multiRecord = this.records.get(token); if (multiRecord) { if (ngDevMode && multiRecord.multi === void 0) { throwMixedMultiProviderError(); } } else { multiRecord = makeRecord(void 0, NOT_YET, true); multiRecord.factory = () => injectArgs(multiRecord.multi); this.records.set(token, multiRecord); } token = provider; multiRecord.multi.push(provider); } else { if (ngDevMode) { const existing = this.records.get(token); if (existing && existing.multi !== void 0) { throwMixedMultiProviderError(); } } } this.records.set(token, record); } hydrate(token, record) { if (ngDevMode && record.value === CIRCULAR) { throwCyclicDependencyError(stringify(token)); } else if (record.value === NOT_YET) { record.value = CIRCULAR; if (ngDevMode) { runInInjectorProfilerContext(this, token, () => { record.value = record.factory(); emitInstanceCreatedByInjectorEvent(record.value); }); } else { record.value = record.factory(); } } if (typeof record.value === "object" && record.value && hasOnDestroy(record.value)) { this._ngOnDestroyHooks.add(record.value); } return record.value; } injectableDefInScope(def) { if (!def.providedIn) { return false; } const providedIn = resolveForwardRef(def.providedIn); if (typeof providedIn === "string") { return providedIn === "any" || this.scopes.has(providedIn); } else { return this.injectorDefTypes.has(providedIn); } } removeOnDestroy(callback) { const destroyCBIdx = this._onDestroyHooks.indexOf(callback); if (destroyCBIdx !== -1) { this._onDestroyHooks.splice(destroyCBIdx, 1); } } }; function injectableDefOrInjectorDefFactory(token) { const injectableDef = getInjectableDef(token); const factory = injectableDef !== null ? injectableDef.factory : getFactoryDef(token); if (factory !== null) { return factory; } if (token instanceof InjectionToken) { throw new RuntimeError(204, ngDevMode && `Token ${stringify(token)} is missing a ɵprov definition.`); } if (token instanceof Function) { return getUndecoratedInjectableFactory(token); } throw new RuntimeError(204, ngDevMode && "unreachable"); } function getUndecoratedInjectableFactory(token) { const paramLength = token.length; if (paramLength > 0) { throw new RuntimeError(204, ngDevMode && `Can't resolve all parameters for ${stringify(token)}: (${newArray(paramLength, "?").join(", ")}).`); } const inheritedInjectableDef = getInheritedInjectableDef(token); if (inheritedInjectableDef !== null) { return () => inheritedInjectableDef.factory(token); } else { return () => new token(); } } function providerToRecord(provider) { if (isValueProvider(provider)) { return makeRecord(void 0, provider.useValue); } else { const factory = providerToFactory(provider); return makeRecord(factory, NOT_YET); } } function providerToFactory(provider, ngModuleType, providers) { let factory = void 0; if (ngDevMode && isEnvironmentProviders(provider)) { throwInvalidProviderError(void 0, providers, provider); } if (isTypeProvider(provider)) { const unwrappedProvider = resolveForwardRef(provider); return getFactoryDef(unwrappedProvider) || injectableDefOrInjectorDefFactory(unwrappedProvider); } else { if (isValueProvider(provider)) { factory = () => resolveForwardRef(provider.useValue); } else if (isFactoryProvider(provider)) { factory = () => provider.useFactory(...injectArgs(provider.deps || [])); } else if (isExistingProvider(provider)) { factory = () => ɵɵinject(resolveForwardRef(provider.useExisting)); } else { const classRef = resolveForwardRef(provider && (provider.useClass || provider.provide)); if (ngDevMode && !classRef) { throwInvalidProviderError(ngModuleType, providers, provider); } if (hasDeps(provider)) { factory = () => new classRef(...injectArgs(provider.deps)); } else { return getFactoryDef(classRef) || injectableDefOrInjectorDefFactory(classRef); } } } return factory; } function makeRecord(factory, value, multi = false) { return { factory, value, multi: multi ? [] : void 0 }; } function hasDeps(value) { return !!value.deps; } function hasOnDestroy(value) { return value !== null && typeof value === "object" && typeof value.ngOnDestroy === "function"; } function couldBeInjectableType(value) { return typeof value === "function" || typeof value === "object" && value instanceof InjectionToken; } function forEachSingleProvider(providers, fn) { for (const provider of providers) { if (Array.isArray(provider)) { forEachSingleProvider(provider, fn); } else if (provider && isEnvironmentProviders(provider)) { forEachSingleProvider(provider.ɵproviders, fn); } else { fn(provider); } } } function runInInjectionContext(injector, fn) { if (injector instanceof R3Injector) { injector.assertNotDestroyed(); } let prevInjectorProfilerContext; if (ngDevMode) { prevInjectorProfilerContext = setInjectorProfilerContext({ injector, token: null }); } const prevInjector = setCurrentInjector(injector); const previousInjectImplementation = setInjectImplementation(void 0); try { return fn(); } finally { setCurrentInjector(prevInjector); ngDevMode && setInjectorProfilerContext(prevInjectorProfilerContext); setInjectImplementation(previousInjectImplementation); } } function assertInInjectionContext(debugFn) { if (!getInjectImplementation() && !getCurrentInjector()) { throw new RuntimeError(-203, ngDevMode && debugFn.name + "() can only be used within an injection context such as a constructor, a factory function, a field initializer, or a function used with `runInInjectionContext`"); } } var FactoryTarget; (function(FactoryTarget2) { FactoryTarget2[FactoryTarget2["Directive"] = 0] = "Directive"; FactoryTarget2[FactoryTarget2["Component"] = 1] = "Component"; FactoryTarget2[FactoryTarget2["Injectable"] = 2] = "Injectable"; FactoryTarget2[FactoryTarget2["Pipe"] = 3] = "Pipe"; FactoryTarget2[FactoryTarget2["NgModule"] = 4] = "NgModule"; })(FactoryTarget || (FactoryTarget = {})); var R3TemplateDependencyKind; (function(R3TemplateDependencyKind2) { R3TemplateDependencyKind2[R3TemplateDependencyKind2["Directive"] = 0] = "Directive"; R3TemplateDependencyKind2[R3TemplateDependencyKind2["Pipe"] = 1] = "Pipe"; R3TemplateDependencyKind2[R3TemplateDependencyKind2["NgModule"] = 2] = "NgModule"; })(R3TemplateDependencyKind || (R3TemplateDependencyKind = {})); var ViewEncapsulation; (function(ViewEncapsulation2) { ViewEncapsulation2[ViewEncapsulation2["Emulated"] = 0] = "Emulated"; ViewEncapsulation2[ViewEncapsulation2["None"] = 2] = "None"; ViewEncapsulation2[ViewEncapsulation2["ShadowDom"] = 3] = "ShadowDom"; })(ViewEncapsulation || (ViewEncapsulation = {})); function getCompilerFacade(request) { const globalNg = _global["ng"]; if (globalNg && globalNg.ɵcompilerFacade) { return globalNg.ɵcompilerFacade; } if (typeof ngDevMode === "undefined" || ngDevMode) { console.error(`JIT compilation failed for ${request.kind}`, request.type); let message = `The ${request.kind} '${request.type.name}' needs to be compiled using the JIT compiler, but '@angular/compiler' is not available. `; if (request.usage === 1) { message += `The ${request.kind} is part of a library that has been partially compiled. `; message += `However, the Angular Linker has not processed the library such that JIT compilation is used as fallback. `; message += "\n"; message += `Ideally, the library is processed using the Angular Linker to become fully AOT compiled. `; } else { message += `JIT compilation is discouraged for production use-cases! Consider using AOT mode instead. `; } message += `Alternatively, the JIT compiler should be loaded by bootstrapping using '@angular/platform-browser-dynamic' or '@angular/platform-server', `; message += `or manually provide the compiler with 'import "@angular/compiler";' before bootstrapping.`; throw new Error(message); } else { throw new Error("JIT compiler unavailable"); } } var angularCoreDiEnv = { "ɵɵdefineInjectable": ɵɵdefineInjectable, "ɵɵdefineInjector": ɵɵdefineInjector, "ɵɵinject": ɵɵinject, "ɵɵinvalidFactoryDep": ɵɵinvalidFactoryDep, "resolveForwardRef": resolveForwardRef }; var Type = Function; function isType(v) { return typeof v === "function"; } var ES5_DELEGATE_CTOR = /^function\s+\S+\(\)\s*{[\s\S]+\.apply\(this,\s*(arguments|(?:[^()]+\(\[\],)?[^()]+\(arguments\).*)\)/; var ES2015_INHERITED_CLASS = /^class\s+[A-Za-z\d$_]*\s*extends\s+[^{]+{/; var ES2015_INHERITED_CLASS_WITH_CTOR = /^class\s+[A-Za-z\d$_]*\s*extends\s+[^{]+{[\s\S]*constructor\s*\(/; var ES2015_INHERITED_CLASS_WITH_DELEGATE_CTOR = /^class\s+[A-Za-z\d$_]*\s*extends\s+[^{]+{[\s\S]*constructor\s*\(\)\s*{[^}]*super\(\.\.\.arguments\)/; function isDelegateCtor(typeStr) { return ES5_DELEGATE_CTOR.test(typeStr) || ES2015_INHERITED_CLASS_WITH_DELEGATE_CTOR.test(typeStr) || ES2015_INHERITED_CLASS.test(typeStr) && !ES2015_INHERITED_CLASS_WITH_CTOR.test(typeStr); } var ReflectionCapabilities = class { constructor(reflect) { this._reflect = reflect || _global["Reflect"]; } factory(t) { return (...args) => new t(...args); } /** @internal */ _zipTypesAndAnnotations(paramTypes, paramAnnotations) { let result; if (typeof paramTypes === "undefined") { result = newArray(paramAnnotations.length); } else { result = newArray(paramTypes.length); } for (let i = 0; i < result.length; i++) { if (typeof paramTypes === "undefined") { result[i] = []; } else if (paramTypes[i] && paramTypes[i] != Object) { result[i] = [paramTypes[i]]; } else { result[i] = []; } if (paramAnnotations && paramAnnotations[i] != null) { result[i] = result[i].concat(paramAnnotations[i]); } } return result; } _ownParameters(type, parentCtor) { const typeStr = type.toString(); if (isDelegateCtor(typeStr)) { return null; } if (type.parameters && type.parameters !== parentCtor.parameters) { return type.parameters; } const tsickleCtorParams = type.ctorParameters; if (tsickleCtorParams && tsickleCtorParams !== parentCtor.ctorParameters) { const ctorParameters = typeof tsickleCtorParams === "function" ? tsickleCtorParams() : tsickleCtorParams; const paramTypes2 = ctorParameters.map((ctorParam) => ctorParam && ctorParam.type); const paramAnnotations2 = ctorParameters.map((ctorParam) => ctorParam && convertTsickleDecoratorIntoMetadata(ctorParam.decorators)); return this._zipTypesAndAnnotations(paramTypes2, paramAnnotations2); } const paramAnnotations = type.hasOwnProperty(PARAMETERS) && type[PARAMETERS]; const paramTypes = this._reflect && this._reflect.getOwnMetadata && this._reflect.getOwnMetadata("design:paramtypes", type); if (paramTypes || paramAnnotations) { return this._zipTypesAndAnnotations(paramTypes, paramAnnotations); } return newArray(type.length); } parameters(type) { if (!isType(type)) { return []; } const parentCtor = getParentCtor(type); let parameters = this._ownParameters(type, parentCtor); if (!parameters && parentCtor !== Object) { parameters = this.parameters(parentCtor); } return parameters || []; } _ownAnnotations(typeOrFunc, parentCtor) { if (typeOrFunc.annotations && typeOrFunc.annotations !== parentCtor.annotations) { let annotations = typeOrFunc.annotations; if (typeof annotations === "function" && annotations.annotations) { annotations = annotations.annotations; } return annotations; } if (typeOrFunc.decorators && typeOrFunc.decorators !== parentCtor.decorators) { return convertTsickleDecoratorIntoMetadata(typeOrFunc.decorators); } if (typeOrFunc.hasOwnProperty(ANNOTATIONS)) { return typeOrFunc[ANNOTATIONS]; } return null; } annotations(typeOrFunc) { if (!isType(typeOrFunc)) { return []; } const parentCtor = getParentCtor(typeOrFunc); const ownAnnotations = this._ownAnnotations(typeOrFunc, parentCtor) || []; const parentAnnotations = parentCtor !== Object ? this.annotations(parentCtor) : []; return parentAnnotations.concat(ownAnnotations); } _ownPropMetadata(typeOrFunc, parentCtor) { if (typeOrFunc.propMetadata && typeOrFunc.propMetadata !== parentCtor.propMetadata) { let propMetadata = typeOrFunc.propMetadata; if (typeof propMetadata === "function" && propMetadata.propMetadata) { propMetadata = propMetadata.propMetadata; } return propMetadata; } if (typeOrFunc.propDecorators && typeOrFunc.propDecorators !== parentCtor.propDecorators) { const propDecorators = typeOrFunc.propDecorators; const propMetadata = {}; Object.keys(propDecorators).forEach((prop) => { propMetadata[prop] = convertTsickleDecoratorIntoMetadata(propDecorators[prop]); }); return propMetadata; } if (typeOrFunc.hasOwnProperty(PROP_METADATA)) { return typeOrFunc[PROP_METADATA]; } return null; } propMetadata(typeOrFunc) { if (!isType(typeOrFunc)) { return {}; } const parentCtor = getParentCtor(typeOrFunc); const propMetadata = {}; if (parentCtor !== Object) { const parentPropMetadata = this.propMetadata(parentCtor); Object.keys(parentPropMetadata).forEach((propName) => { propMetadata[propName] = parentPropMetadata[propName]; }); } const ownPropMetadata = this._ownPropMetadata(typeOrFunc, parentCtor); if (ownPropMetadata) { Object.keys(ownPropMetadata).forEach((propName) => { const decorators = []; if (propMetadata.hasOwnProperty(propName)) { decorators.push(...propMetadata[propName]); } decorators.push(...ownPropMetadata[propName]); propMetadata[propName] = decorators; }); } return propMetadata; } ownPropMetadata(typeOrFunc) { if (!isType(typeOrFunc)) { return {}; } return this._ownPropMetadata(typeOrFunc, getParentCtor(typeOrFunc)) || {}; } hasLifecycleHook(type, lcProperty) { return type instanceof Type && lcProperty in type.prototype; } }; function convertTsickleDecoratorIntoMetadata(decoratorInvocations) { if (!decoratorInvocations) { return []; } return decoratorInvocations.map((decoratorInvocation) => { const decoratorType = decoratorInvocation.type; const annotationCls = decoratorType.annotationCls; const annotationArgs = decoratorInvocation.args ? decoratorInvocation.args : []; return new annotationCls(...annotationArgs); }); } function getParentCtor(ctor) { const parentProto = ctor.prototype ? Object.getPrototypeOf(ctor.prototype) : null; const parentCtor = parentProto ? parentProto.constructor : null; return parentCtor || Object; } var SimpleChange = class { constructor(previousValue, currentValue, firstChange) { this.previousValue = previousValue; this.currentValue = currentValue; this.firstChange = firstChange; } /** * Check whether the new value is the first value assigned. */ isFirstChange() { return this.firstChange; } }; function applyValueToInputField(instance, inputSignalNode, privateName, value) { if (inputSignalNode !== null) { inputSignalNode.applyValueToInputSignal(inputSignalNode, value); } else { instance[privateName] = value; } } function ɵɵNgOnChangesFeature() { return NgOnChangesFeatureImpl; } function NgOnChangesFeatureImpl(definition) { if (definition.type.prototype.ngOnChanges) { definition.setInput = ngOnChangesSetInput; } return rememberChangeHistoryAndInvokeOnChangesHook; } ɵɵNgOnChangesFeature.ngInherit = true; function rememberChangeHistoryAndInvokeOnChangesHook() { const simpleChangesStore = getSimpleChangesStore(this); const current = simpleChangesStore?.current; if (current) { const previous = simpleChangesStore.previous; if (previous === EMPTY_OBJ) { simpleChangesStore.previous = current; } else { for (let key in current) { previous[key] = current[key]; } } simpleChangesStore.current = null; this.ngOnChanges(current); } } function ngOnChangesSetInput(instance, inputSignalNode, value, publicName, privateName) { const declaredName = this.declaredInputs[publicName]; ngDevMode && assertString(declaredName, "Name of input in ngOnChanges has to be a string"); const simpleChangesStore = getSimpleChangesStore(instance) || setSimpleChangesStore(instance, { previous: EMPTY_OBJ, current: null }); const current = simpleChangesStore.current || (simpleChangesStore.current = {}); const previous = simpleChangesStore.previous; const previousChange = previous[declaredName]; current[declaredName] = new SimpleChange(previousChange && previousChange.currentValue, value, previous === EMPTY_OBJ); applyValueToInputField(instance, inputSignalNode, privateName, value); } var SIMPLE_CHANGES_STORE = "__ngSimpleChanges__"; function getSimpleChangesStore(instance) { return instance[SIMPLE_CHANGES_STORE] || null; } function setSimpleChangesStore(instance, store2) { return instance[SIMPLE_CHANGES_STORE] = store2; } var profilerCallback = null; var setProfiler = (profiler2) => { profilerCallback = profiler2; }; var profiler = function(event, instance, hookOrListener) { if (profilerCallback != null) { profilerCallback(event, instance, hookOrListener); } }; function registerPreOrderHooks(directiveIndex, directiveDef, tView) { ngDevMode && assertFirstCreatePass(tView); const { ngOnChanges, ngOnInit, ngDoCheck } = directiveDef.type.prototype; if (ngOnChanges) { const wrappedOnChanges = NgOnChangesFeatureImpl(directiveDef); (tView.preOrderHooks ??= []).push(directiveIndex, wrappedOnChanges); (tView.preOrderCheckHooks ??= []).push(directiveIndex, wrappedOnChanges); } if (ngOnInit) { (tView.preOrderHooks ??= []).push(0 - directiveIndex, ngOnInit); } if (ngDoCheck) { (tView.preOrderHooks ??= []).push(directiveIndex, ngDoCheck); (tView.preOrderCheckHooks ??= []).push(directiveIndex, ngDoCheck); } } function registerPostOrderHooks(tView, tNode) { ngDevMode && assertFirstCreatePass(tView); for (let i = tNode.directiveStart, end = tNode.directiveEnd; i < end; i++) { const directiveDef = tView.data[i]; ngDevMode && assertDefined(directiveDef, "Expecting DirectiveDef"); const lifecycleHooks = directiveDef.type.prototype; const { ngAfterContentInit, ngAfterContentChecked, ngAfterViewInit, ngAfterViewChecked, ngOnDestroy } = lifecycleHooks; if (ngAfterContentInit) { (tView.contentHooks ??= []).push(-i, ngAfterContentInit); } if (ngAfterContentChecked) { (tView.contentHooks ??= []).push(i, ngAfterContentChecked); (tView.contentCheckHooks ??= []).push(i, ngAfterContentChecked); } if (ngAfterViewInit) { (tView.viewHooks ??= []).push(-i, ngAfterViewInit); } if (ngAfterViewChecked) { (tView.viewHooks ??= []).push(i, ngAfterViewChecked); (tView.viewCheckHooks ??= []).push(i, ngAfterViewChecked); } if (ngOnDestroy != null) { (tView.destroyHooks ??= []).push(i, ngOnDestroy); } } } function executeCheckHooks(lView, hooks, nodeIndex) { callHooks(lView, hooks, 3, nodeIndex); } function executeInitAndCheckHooks(lView, hooks, initPhase, nodeIndex) { ngDevMode && assertNotEqual(initPhase, 3, "Init pre-order hooks should not be called more than once"); if ((lView[FLAGS] & 3) === initPhase) { callHooks(lView, hooks, initPhase, nodeIndex); } } function incrementInitPhaseFlags(lView, initPhase) { ngDevMode && assertNotEqual(initPhase, 3, "Init hooks phase should not be incremented after all init hooks have been run."); let flags = lView[FLAGS]; if ((flags & 3) === initPhase) { flags &= 16383; flags += 1; lView[FLAGS] = flags; } } function callHooks(currentView, arr, initPhase, currentNodeIndex) { ngDevMode && assertEqual(isInCheckNoChangesMode(), false, "Hooks should never be run when in check no changes mode."); const startIndex = currentNodeIndex !== void 0 ? currentView[PREORDER_HOOK_FLAGS] & 65535 : 0; const nodeIndexLimit = currentNodeIndex != null ? currentNodeIndex : -1; const max2 = arr.length - 1; let lastNodeIndexFound = 0; for (let i = startIndex; i < max2; i++) { const hook = arr[i + 1]; if (typeof hook === "number") { lastNodeIndexFound = arr[i]; if (currentNodeIndex != null && lastNodeIndexFound >= currentNodeIndex) { break; } } else { const isInitHook = arr[i] < 0; if (isInitHook) { currentView[PREORDER_HOOK_FLAGS] += 65536; } if (lastNodeIndexFound < nodeIndexLimit || nodeIndexLimit == -1) { callHook(currentView, initPhase, arr, i); currentView[PREORDER_HOOK_FLAGS] = (currentView[PREORDER_HOOK_FLAGS] & 4294901760) + i + 2; } i++; } } } function callHookInternal(directive, hook) { profiler(4, directive, hook); const prevConsumer = setActiveConsumer(null); try { hook.call(directive); } finally { setActiveConsumer(prevConsumer); profiler(5, directive, hook); } } function callHook(currentView, initPhase, arr, i) { const isInitHook = arr[i] < 0; const hook = arr[i + 1]; const directiveIndex = isInitHook ? -arr[i] : arr[i]; const directive = currentView[directiveIndex]; if (isInitHook) { const indexWithintInitPhase = currentView[FLAGS] >> 14; if (indexWithintInitPhase < currentView[PREORDER_HOOK_FLAGS] >> 16 && (currentView[FLAGS] & 3) === initPhase) { currentView[FLAGS] += 16384; callHookInternal(directive, hook); } } else { callHookInternal(directive, hook); } } var NO_PARENT_INJECTOR = -1; var NodeInjectorFactory = class { constructor(factory, isViewProvider, injectImplementation) { this.factory = factory; this.resolving = false; ngDevMode && assertDefined(factory, "Factory not specified"); ngDevMode && assertEqual(typeof factory, "function", "Expected factory function."); this.canSeeViewProviders = isViewProvider; this.injectImpl = injectImplementation; } }; function isFactory(obj) { return obj instanceof NodeInjectorFactory; } function toTNodeTypeAsString(tNodeType) { let text = ""; tNodeType & 1 && (text += "|Text"); tNodeType & 2 && (text += "|Element"); tNodeType & 4 && (text += "|Container"); tNodeType & 8 && (text += "|ElementContainer"); tNodeType & 16 && (text += "|Projection"); tNodeType & 32 && (text += "|IcuContainer"); tNodeType & 64 && (text += "|Placeholder"); return text.length > 0 ? text.substring(1) : text; } function isTNodeShape(value) { return value != null && typeof value === "object" && (value.insertBeforeIndex === null || typeof value.insertBeforeIndex === "number" || Array.isArray(value.insertBeforeIndex)); } function hasClassInput(tNode) { return (tNode.flags & 8) !== 0; } function hasStyleInput(tNode) { return (tNode.flags & 16) !== 0; } function assertTNodeType(tNode, expectedTypes, message) { assertDefined(tNode, "should be called with a TNode"); if ((tNode.type & expectedTypes) === 0) { throwError(message || `Expected [${toTNodeTypeAsString(expectedTypes)}] but got ${toTNodeTypeAsString(tNode.type)}.`); } } function assertPureTNodeType(type) { if (!(type === 2 || // type === 1 || // type === 4 || // type === 8 || // type === 32 || // type === 16 || // type === 64)) { throwError(`Expected TNodeType to have only a single type selected, but got ${toTNodeTypeAsString(type)}.`); } } function hasParentInjector(parentLocation) { return parentLocation !== NO_PARENT_INJECTOR; } function getParentInjectorIndex(parentLocation) { if (ngDevMode) { assertNumber(parentLocation, "Number expected"); assertNotEqual(parentLocation, -1, "Not a valid state."); const parentInjectorIndex = parentLocation & 32767; assertGreaterThan(parentInjectorIndex, HEADER_OFFSET, "Parent injector must be pointing past HEADER_OFFSET."); } return parentLocation & 32767; } function getParentInjectorViewOffset(parentLocation) { return parentLocation >> 16; } function getParentInjectorView(location2, startView) { let viewOffset = getParentInjectorViewOffset(location2); let parentView = startView; while (viewOffset > 0) { parentView = parentView[DECLARATION_VIEW]; viewOffset--; } return parentView; } var includeViewProviders = true; function setIncludeViewProviders(v) { const oldValue = includeViewProviders; includeViewProviders = v; return oldValue; } var BLOOM_SIZE = 256; var BLOOM_MASK = BLOOM_SIZE - 1; var BLOOM_BUCKET_BITS = 5; var nextNgElementId = 0; var NOT_FOUND = {}; function bloomAdd(injectorIndex, tView, type) { ngDevMode && assertEqual(tView.firstCreatePass, true, "expected firstCreatePass to be true"); let id; if (typeof type === "string") { id = type.charCodeAt(0) || 0; } else if (type.hasOwnProperty(NG_ELEMENT_ID)) { id = type[NG_ELEMENT_ID]; } if (id == null) { id = type[NG_ELEMENT_ID] = nextNgElementId++; } const bloomHash = id & BLOOM_MASK; const mask = 1 << bloomHash; tView.data[injectorIndex + (bloomHash >> BLOOM_BUCKET_BITS)] |= mask; } function getOrCreateNodeInjectorForNode(tNode, lView) { const existingInjectorIndex = getInjectorIndex(tNode, lView); if (existingInjectorIndex !== -1) { return existingInjectorIndex; } const tView = lView[TVIEW]; if (tView.firstCreatePass) { tNode.injectorIndex = lView.length; insertBloom(tView.data, tNode); insertBloom(lView, null); insertBloom(tView.blueprint, null); } const parentLoc = getParentInjectorLocation(tNode, lView); const injectorIndex = tNode.injectorIndex; if (hasParentInjector(parentLoc)) { const parentIndex = getParentInjectorIndex(parentLoc); const parentLView = getParentInjectorView(parentLoc, lView); const parentData = parentLView[TVIEW].data; for (let i = 0; i < 8; i++) { lView[injectorIndex + i] = parentLView[parentIndex + i] | parentData[parentIndex + i]; } } lView[ injectorIndex + 8 /* NodeInjectorOffset.PARENT */ ] = parentLoc; return injectorIndex; } function insertBloom(arr, footer) { arr.push(0, 0, 0, 0, 0, 0, 0, 0, footer); } function getInjectorIndex(tNode, lView) { if (tNode.injectorIndex === -1 || // If the injector index is the same as its parent's injector index, then the index has been // copied down from the parent node. No injector has been created yet on this node. tNode.parent && tNode.parent.injectorIndex === tNode.injectorIndex || // After the first template pass, the injector index might exist but the parent values // might not have been calculated yet for this instance lView[ tNode.injectorIndex + 8 /* NodeInjectorOffset.PARENT */ ] === null) { return -1; } else { ngDevMode && assertIndexInRange(lView, tNode.injectorIndex); return tNode.injectorIndex; } } function getParentInjectorLocation(tNode, lView) { if (tNode.parent && tNode.parent.injectorIndex !== -1) { return tNode.parent.injectorIndex; } let declarationViewOffset = 0; let parentTNode = null; let lViewCursor = lView; while (lViewCursor !== null) { parentTNode = getTNodeFromLView(lViewCursor); if (parentTNode === null) { return NO_PARENT_INJECTOR; } ngDevMode && parentTNode && assertTNodeForLView(parentTNode, lViewCursor[DECLARATION_VIEW]); declarationViewOffset++; lViewCursor = lViewCursor[DECLARATION_VIEW]; if (parentTNode.injectorIndex !== -1) { return parentTNode.injectorIndex | declarationViewOffset << 16; } } return NO_PARENT_INJECTOR; } function diPublicInInjector(injectorIndex, tView, token) { bloomAdd(injectorIndex, tView, token); } function injectAttributeImpl(tNode, attrNameToInject) { ngDevMode && assertTNodeType( tNode, 12 | 3 /* TNodeType.AnyRNode */ ); ngDevMode && assertDefined(tNode, "expecting tNode"); if (attrNameToInject === "class") { return tNode.classes; } if (attrNameToInject === "style") { return tNode.styles; } const attrs = tNode.attrs; if (attrs) { const attrsLength = attrs.length; let i = 0; while (i < attrsLength) { const value = attrs[i]; if (isNameOnlyAttributeMarker(value)) break; if (value === 0) { i = i + 2; } else if (typeof value === "number") { i++; while (i < attrsLength && typeof attrs[i] === "string") { i++; } } else if (value === attrNameToInject) { return attrs[i + 1]; } else { i = i + 2; } } } return null; } function notFoundValueOrThrow(notFoundValue, token, flags) { if (flags & InjectFlags.Optional || notFoundValue !== void 0) { return notFoundValue; } else { throwProviderNotFoundError(token, "NodeInjector"); } } function lookupTokenUsingModuleInjector(lView, token, flags, notFoundValue) { if (flags & InjectFlags.Optional && notFoundValue === void 0) { notFoundValue = null; } if ((flags & (InjectFlags.Self | InjectFlags.Host)) === 0) { const moduleInjector = lView[INJECTOR$1]; const previousInjectImplementation = setInjectImplementation(void 0); try { if (moduleInjector) { return moduleInjector.get(token, notFoundValue, flags & InjectFlags.Optional); } else { return injectRootLimpMode(token, notFoundValue, flags & InjectFlags.Optional); } } finally { setInjectImplementation(previousInjectImplementation); } } return notFoundValueOrThrow(notFoundValue, token, flags); } function getOrCreateInjectable(tNode, lView, token, flags = InjectFlags.Default, notFoundValue) { if (tNode !== null) { if (lView[FLAGS] & 2048 && // The token must be present on the current node injector when the `Self` // flag is set, so the lookup on embedded view injector(s) can be skipped. !(flags & InjectFlags.Self)) { const embeddedInjectorValue = lookupTokenUsingEmbeddedInjector(tNode, lView, token, flags, NOT_FOUND); if (embeddedInjectorValue !== NOT_FOUND) { return embeddedInjectorValue; } } const value = lookupTokenUsingNodeInjector(tNode, lView, token, flags, NOT_FOUND); if (value !== NOT_FOUND) { return value; } } return lookupTokenUsingModuleInjector(lView, token, flags, notFoundValue); } function lookupTokenUsingNodeInjector(tNode, lView, token, flags, notFoundValue) { const bloomHash = bloomHashBitOrFactory(token); if (typeof bloomHash === "function") { if (!enterDI(lView, tNode, flags)) { return flags & InjectFlags.Host ? notFoundValueOrThrow(notFoundValue, token, flags) : lookupTokenUsingModuleInjector(lView, token, flags, notFoundValue); } try { let value; if (ngDevMode) { runInInjectorProfilerContext(new NodeInjector(getCurrentTNode(), getLView()), token, () => { value = bloomHash(flags); if (value != null) { emitInstanceCreatedByInjectorEvent(value); } }); } else { value = bloomHash(flags); } if (value == null && !(flags & InjectFlags.Optional)) { throwProviderNotFoundError(token); } else { return value; } } finally { leaveDI(); } } else if (typeof bloomHash === "number") { let previousTView = null; let injectorIndex = getInjectorIndex(tNode, lView); let parentLocation = NO_PARENT_INJECTOR; let hostTElementNode = flags & InjectFlags.Host ? lView[DECLARATION_COMPONENT_VIEW][T_HOST] : null; if (injectorIndex === -1 || flags & InjectFlags.SkipSelf) { parentLocation = injectorIndex === -1 ? getParentInjectorLocation(tNode, lView) : lView[ injectorIndex + 8 /* NodeInjectorOffset.PARENT */ ]; if (parentLocation === NO_PARENT_INJECTOR || !shouldSearchParent(flags, false)) { injectorIndex = -1; } else { previousTView = lView[TVIEW]; injectorIndex = getParentInjectorIndex(parentLocation); lView = getParentInjectorView(parentLocation, lView); } } while (injectorIndex !== -1) { ngDevMode && assertNodeInjector(lView, injectorIndex); const tView = lView[TVIEW]; ngDevMode && assertTNodeForLView(tView.data[ injectorIndex + 8 /* NodeInjectorOffset.TNODE */ ], lView); if (bloomHasToken(bloomHash, injectorIndex, tView.data)) { const instance = searchTokensOnInjector(injectorIndex, lView, token, previousTView, flags, hostTElementNode); if (instance !== NOT_FOUND) { return instance; } } parentLocation = lView[ injectorIndex + 8 /* NodeInjectorOffset.PARENT */ ]; if (parentLocation !== NO_PARENT_INJECTOR && shouldSearchParent(flags, lView[TVIEW].data[ injectorIndex + 8 /* NodeInjectorOffset.TNODE */ ] === hostTElementNode) && bloomHasToken(bloomHash, injectorIndex, lView)) { previousTView = tView; injectorIndex = getParentInjectorIndex(parentLocation); lView = getParentInjectorView(parentLocation, lView); } else { injectorIndex = -1; } } } return notFoundValue; } function searchTokensOnInjector(injectorIndex, lView, token, previousTView, flags, hostTElementNode) { const currentTView = lView[TVIEW]; const tNode = currentTView.data[ injectorIndex + 8 /* NodeInjectorOffset.TNODE */ ]; const canAccessViewProviders = previousTView == null ? ( // 1) This is the first invocation `previousTView == null` which means that we are at the // `TNode` of where injector is starting to look. In such a case the only time we are allowed // to look into the ViewProviders is if: // - we are on a component // - AND the injector set `includeViewProviders` to true (implying that the token can see // ViewProviders because it is the Component or a Service which itself was declared in // ViewProviders) isComponentHost(tNode) && includeViewProviders ) : ( // 2) `previousTView != null` which means that we are now walking across the parent nodes. // In such a case we are only allowed to look into the ViewProviders if: // - We just crossed from child View to Parent View `previousTView != currentTView` // - AND the parent TNode is an Element. // This means that we just came from the Component's View and therefore are allowed to see // into the ViewProviders. previousTView != currentTView && (tNode.type & 3) !== 0 ); const isHostSpecialCase = flags & InjectFlags.Host && hostTElementNode === tNode; const injectableIdx = locateDirectiveOrProvider(tNode, currentTView, token, canAccessViewProviders, isHostSpecialCase); if (injectableIdx !== null) { return getNodeInjectable(lView, currentTView, injectableIdx, tNode); } else { return NOT_FOUND; } } function locateDirectiveOrProvider(tNode, tView, token, canAccessViewProviders, isHostSpecialCase) { const nodeProviderIndexes = tNode.providerIndexes; const tInjectables = tView.data; const injectablesStart = nodeProviderIndexes & 1048575; const directivesStart = tNode.directiveStart; const directiveEnd = tNode.directiveEnd; const cptViewProvidersCount = nodeProviderIndexes >> 20; const startingIndex = canAccessViewProviders ? injectablesStart : injectablesStart + cptViewProvidersCount; const endIndex = isHostSpecialCase ? injectablesStart + cptViewProvidersCount : directiveEnd; for (let i = startingIndex; i < endIndex; i++) { const providerTokenOrDef = tInjectables[i]; if (i < directivesStart && token === providerTokenOrDef || i >= directivesStart && providerTokenOrDef.type === token) { return i; } } if (isHostSpecialCase) { const dirDef = tInjectables[directivesStart]; if (dirDef && isComponentDef(dirDef) && dirDef.type === token) { return directivesStart; } } return null; } function getNodeInjectable(lView, tView, index, tNode) { let value = lView[index]; const tData = tView.data; if (isFactory(value)) { const factory = value; if (factory.resolving) { throwCyclicDependencyError(stringifyForError(tData[index])); } const previousIncludeViewProviders = setIncludeViewProviders(factory.canSeeViewProviders); factory.resolving = true; let prevInjectContext; if (ngDevMode) { const token = tData[index].type || tData[index]; const injector = new NodeInjector(tNode, lView); prevInjectContext = setInjectorProfilerContext({ injector, token }); } const previousInjectImplementation = factory.injectImpl ? setInjectImplementation(factory.injectImpl) : null; const success = enterDI(lView, tNode, InjectFlags.Default); ngDevMode && assertEqual(success, true, "Because flags do not contain `SkipSelf' we expect this to always succeed."); try { value = lView[index] = factory.factory(void 0, tData, lView, tNode); ngDevMode && emitInstanceCreatedByInjectorEvent(value); if (tView.firstCreatePass && index >= tNode.directiveStart) { ngDevMode && assertDirectiveDef(tData[index]); registerPreOrderHooks(index, tData[index], tView); } } finally { ngDevMode && setInjectorProfilerContext(prevInjectContext); previousInjectImplementation !== null && setInjectImplementation(previousInjectImplementation); setIncludeViewProviders(previousIncludeViewProviders); factory.resolving = false; leaveDI(); } } return value; } function bloomHashBitOrFactory(token) { ngDevMode && assertDefined(token, "token must be defined"); if (typeof token === "string") { return token.charCodeAt(0) || 0; } const tokenId = ( // First check with `hasOwnProperty` so we don't get an inherited ID. token.hasOwnProperty(NG_ELEMENT_ID) ? token[NG_ELEMENT_ID] : void 0 ); if (typeof tokenId === "number") { if (tokenId >= 0) { return tokenId & BLOOM_MASK; } else { ngDevMode && assertEqual(tokenId, -1, "Expecting to get Special Injector Id"); return createNodeInjector; } } else { return tokenId; } } function bloomHasToken(bloomHash, injectorIndex, injectorView) { const mask = 1 << bloomHash; const value = injectorView[injectorIndex + (bloomHash >> BLOOM_BUCKET_BITS)]; return !!(value & mask); } function shouldSearchParent(flags, isFirstHostTNode) { return !(flags & InjectFlags.Self) && !(flags & InjectFlags.Host && isFirstHostTNode); } function getNodeInjectorLView(nodeInjector) { return nodeInjector._lView; } function getNodeInjectorTNode(nodeInjector) { return nodeInjector._tNode; } var NodeInjector = class { constructor(_tNode, _lView) { this._tNode = _tNode; this._lView = _lView; } get(token, notFoundValue, flags) { return getOrCreateInjectable(this._tNode, this._lView, token, convertToBitFlags(flags), notFoundValue); } }; function createNodeInjector() { return new NodeInjector(getCurrentTNode(), getLView()); } function ɵɵgetInheritedFactory(type) { return noSideEffects(() => { const ownConstructor = type.prototype.constructor; const ownFactory = ownConstructor[NG_FACTORY_DEF] || getFactoryOf(ownConstructor); const objectPrototype = Object.prototype; let parent = Object.getPrototypeOf(type.prototype).constructor; while (parent && parent !== objectPrototype) { const factory = parent[NG_FACTORY_DEF] || getFactoryOf(parent); if (factory && factory !== ownFactory) { return factory; } parent = Object.getPrototypeOf(parent); } return (t) => new t(); }); } function getFactoryOf(type) { if (isForwardRef(type)) { return () => { const factory = getFactoryOf(resolveForwardRef(type)); return factory && factory(); }; } return getFactoryDef(type); } function lookupTokenUsingEmbeddedInjector(tNode, lView, token, flags, notFoundValue) { let currentTNode = tNode; let currentLView = lView; while (currentTNode !== null && currentLView !== null && currentLView[FLAGS] & 2048 && !(currentLView[FLAGS] & 512)) { ngDevMode && assertTNodeForLView(currentTNode, currentLView); const nodeInjectorValue = lookupTokenUsingNodeInjector(currentTNode, currentLView, token, flags | InjectFlags.Self, NOT_FOUND); if (nodeInjectorValue !== NOT_FOUND) { return nodeInjectorValue; } let parentTNode = currentTNode.parent; if (!parentTNode) { const embeddedViewInjector = currentLView[EMBEDDED_VIEW_INJECTOR]; if (embeddedViewInjector) { const embeddedViewInjectorValue = embeddedViewInjector.get(token, NOT_FOUND, flags); if (embeddedViewInjectorValue !== NOT_FOUND) { return embeddedViewInjectorValue; } } parentTNode = getTNodeFromLView(currentLView); currentLView = currentLView[DECLARATION_VIEW]; } currentTNode = parentTNode; } return notFoundValue; } function getTNodeFromLView(lView) { const tView = lView[TVIEW]; const tViewType = tView.type; if (tViewType === 2) { ngDevMode && assertDefined(tView.declTNode, "Embedded TNodes should have declaration parents."); return tView.declTNode; } else if (tViewType === 1) { return lView[T_HOST]; } return null; } function ɵɵinjectAttribute(attrNameToInject) { return injectAttributeImpl(getCurrentTNode(), attrNameToInject); } var Attribute = makeParamDecorator("Attribute", (attributeName) => ({ attributeName, __NG_ELEMENT_ID__: () => ɵɵinjectAttribute(attributeName) })); var _reflect = null; function getReflect() { return _reflect = _reflect || new ReflectionCapabilities(); } function reflectDependencies(type) { return convertDependencies(getReflect().parameters(type)); } function convertDependencies(deps) { return deps.map((dep) => reflectDependency(dep)); } function reflectDependency(dep) { const meta = { token: null, attribute: null, host: false, optional: false, self: false, skipSelf: false }; if (Array.isArray(dep) && dep.length > 0) { for (let j = 0; j < dep.length; j++) { const param = dep[j]; if (param === void 0) { continue; } const proto = Object.getPrototypeOf(param); if (param instanceof Optional || proto.ngMetadataName === "Optional") { meta.optional = true; } else if (param instanceof SkipSelf || proto.ngMetadataName === "SkipSelf") { meta.skipSelf = true; } else if (param instanceof Self || proto.ngMetadataName === "Self") { meta.self = true; } else if (param instanceof Host || proto.ngMetadataName === "Host") { meta.host = true; } else if (param instanceof Inject) { meta.token = param.token; } else if (param instanceof Attribute) { if (param.attributeName === void 0) { throw new RuntimeError(204, ngDevMode && `Attribute name must be defined.`); } meta.attribute = param.attributeName; } else { meta.token = param; } } } else if (dep === void 0 || Array.isArray(dep) && dep.length === 0) { meta.token = null; } else { meta.token = dep; } return meta; } function compileInjectable(type, meta) { let ngInjectableDef = null; let ngFactoryDef = null; if (!type.hasOwnProperty(NG_PROV_DEF)) { Object.defineProperty(type, NG_PROV_DEF, { get: () => { if (ngInjectableDef === null) { const compiler = getCompilerFacade({ usage: 0, kind: "injectable", type }); ngInjectableDef = compiler.compileInjectable(angularCoreDiEnv, `ng:///${type.name}/ɵprov.js`, getInjectableMetadata(type, meta)); } return ngInjectableDef; } }); } if (!type.hasOwnProperty(NG_FACTORY_DEF)) { Object.defineProperty(type, NG_FACTORY_DEF, { get: () => { if (ngFactoryDef === null) { const compiler = getCompilerFacade({ usage: 0, kind: "injectable", type }); ngFactoryDef = compiler.compileFactory(angularCoreDiEnv, `ng:///${type.name}/ɵfac.js`, { name: type.name, type, typeArgumentCount: 0, // In JIT mode types are not available nor used. deps: reflectDependencies(type), target: compiler.FactoryTarget.Injectable }); } return ngFactoryDef; }, // Leave this configurable so that the factories from directives or pipes can take precedence. configurable: true }); } } var USE_VALUE = getClosureSafeProperty({ provide: String, useValue: getClosureSafeProperty }); function isUseClassProvider(meta) { return meta.useClass !== void 0; } function isUseValueProvider(meta) { return USE_VALUE in meta; } function isUseFactoryProvider(meta) { return meta.useFactory !== void 0; } function isUseExistingProvider(meta) { return meta.useExisting !== void 0; } function getInjectableMetadata(type, srcMeta) { const meta = srcMeta || { providedIn: null }; const compilerMeta = { name: type.name, type, typeArgumentCount: 0, providedIn: meta.providedIn }; if ((isUseClassProvider(meta) || isUseFactoryProvider(meta)) && meta.deps !== void 0) { compilerMeta.deps = convertDependencies(meta.deps); } if (isUseClassProvider(meta)) { compilerMeta.useClass = meta.useClass; } else if (isUseValueProvider(meta)) { compilerMeta.useValue = meta.useValue; } else if (isUseFactoryProvider(meta)) { compilerMeta.useFactory = meta.useFactory; } else if (isUseExistingProvider(meta)) { compilerMeta.useExisting = meta.useExisting; } return compilerMeta; } var Injectable = makeDecorator("Injectable", void 0, void 0, void 0, (type, meta) => compileInjectable(type, meta)); function createInjector(defType, parent = null, additionalProviders = null, name) { const injector = createInjectorWithoutInjectorInstances(defType, parent, additionalProviders, name); injector.resolveInjectorInitializers(); return injector; } function createInjectorWithoutInjectorInstances(defType, parent = null, additionalProviders = null, name, scopes = /* @__PURE__ */ new Set()) { const providers = [ additionalProviders || EMPTY_ARRAY, importProvidersFrom(defType) ]; name = name || (typeof defType === "object" ? void 0 : stringify(defType)); return new R3Injector(providers, parent || getNullInjector(), name || null, scopes); } var _Injector = class _Injector { static create(options, parent) { if (Array.isArray(options)) { return createInjector({ name: "" }, parent, options, ""); } else { const name = options.name ?? ""; return createInjector({ name }, options.parent, options.providers, name); } } }; _Injector.THROW_IF_NOT_FOUND = THROW_IF_NOT_FOUND; _Injector.NULL = new NullInjector(); _Injector.ɵprov = ɵɵdefineInjectable({ token: _Injector, providedIn: "any", factory: () => ɵɵinject(INJECTOR) }); _Injector.__NG_ELEMENT_ID__ = -1; var Injector = _Injector; var ERROR_ORIGINAL_ERROR = "ngOriginalError"; function getOriginalError(error) { return error[ERROR_ORIGINAL_ERROR]; } var ErrorHandler = class { constructor() { this._console = console; } handleError(error) { const originalError = this._findOriginalError(error); this._console.error("ERROR", error); if (originalError) { this._console.error("ORIGINAL ERROR", originalError); } } /** @internal */ _findOriginalError(error) { let e = error && getOriginalError(error); while (e && getOriginalError(e)) { e = getOriginalError(e); } return e || null; } }; var INTERNAL_APPLICATION_ERROR_HANDLER = new InjectionToken(typeof ngDevMode === "undefined" || ngDevMode ? "internal error handler" : "", { providedIn: "root", factory: () => { const userErrorHandler = inject(ErrorHandler); return userErrorHandler.handleError.bind(void 0); } }); var IS_HYDRATION_DOM_REUSE_ENABLED = new InjectionToken(typeof ngDevMode === "undefined" || !!ngDevMode ? "IS_HYDRATION_DOM_REUSE_ENABLED" : ""); var PRESERVE_HOST_CONTENT_DEFAULT = false; var PRESERVE_HOST_CONTENT = new InjectionToken(typeof ngDevMode === "undefined" || !!ngDevMode ? "PRESERVE_HOST_CONTENT" : "", { providedIn: "root", factory: () => PRESERVE_HOST_CONTENT_DEFAULT }); var policy$1; function getPolicy$1() { if (policy$1 === void 0) { policy$1 = null; if (_global.trustedTypes) { try { policy$1 = _global.trustedTypes.createPolicy("angular", { createHTML: (s) => s, createScript: (s) => s, createScriptURL: (s) => s }); } catch { } } } return policy$1; } function trustedHTMLFromString(html) { return getPolicy$1()?.createHTML(html) || html; } function trustedScriptURLFromString(url) { return getPolicy$1()?.createScriptURL(url) || url; } var policy; function getPolicy() { if (policy === void 0) { policy = null; if (_global.trustedTypes) { try { policy = _global.trustedTypes.createPolicy("angular#unsafe-bypass", { createHTML: (s) => s, createScript: (s) => s, createScriptURL: (s) => s }); } catch { } } } return policy; } function trustedHTMLFromStringBypass(html) { return getPolicy()?.createHTML(html) || html; } function trustedScriptFromStringBypass(script) { return getPolicy()?.createScript(script) || script; } function trustedScriptURLFromStringBypass(url) { return getPolicy()?.createScriptURL(url) || url; } var SafeValueImpl = class { constructor(changingThisBreaksApplicationSecurity) { this.changingThisBreaksApplicationSecurity = changingThisBreaksApplicationSecurity; } toString() { return `SafeValue must use [property]=binding: ${this.changingThisBreaksApplicationSecurity} (see ${XSS_SECURITY_URL})`; } }; var SafeHtmlImpl = class extends SafeValueImpl { getTypeName() { return "HTML"; } }; var SafeStyleImpl = class extends SafeValueImpl { getTypeName() { return "Style"; } }; var SafeScriptImpl = class extends SafeValueImpl { getTypeName() { return "Script"; } }; var SafeUrlImpl = class extends SafeValueImpl { getTypeName() { return "URL"; } }; var SafeResourceUrlImpl = class extends SafeValueImpl { getTypeName() { return "ResourceURL"; } }; function unwrapSafeValue(value) { return value instanceof SafeValueImpl ? value.changingThisBreaksApplicationSecurity : value; } function allowSanitizationBypassAndThrow(value, type) { const actualType = getSanitizationBypassType(value); if (actualType != null && actualType !== type) { if (actualType === "ResourceURL" && type === "URL") return true; throw new Error(`Required a safe ${type}, got a ${actualType} (see ${XSS_SECURITY_URL})`); } return actualType === type; } function getSanitizationBypassType(value) { return value instanceof SafeValueImpl && value.getTypeName() || null; } function bypassSanitizationTrustHtml(trustedHtml) { return new SafeHtmlImpl(trustedHtml); } function bypassSanitizationTrustStyle(trustedStyle) { return new SafeStyleImpl(trustedStyle); } function bypassSanitizationTrustScript(trustedScript) { return new SafeScriptImpl(trustedScript); } function bypassSanitizationTrustUrl(trustedUrl) { return new SafeUrlImpl(trustedUrl); } function bypassSanitizationTrustResourceUrl(trustedResourceUrl) { return new SafeResourceUrlImpl(trustedResourceUrl); } function getInertBodyHelper(defaultDoc) { const inertDocumentHelper = new InertDocumentHelper(defaultDoc); return isDOMParserAvailable() ? new DOMParserHelper(inertDocumentHelper) : inertDocumentHelper; } var DOMParserHelper = class { constructor(inertDocumentHelper) { this.inertDocumentHelper = inertDocumentHelper; } getInertBodyElement(html) { html = "" + html; try { const body = new window.DOMParser().parseFromString(trustedHTMLFromString(html), "text/html").body; if (body === null) { return this.inertDocumentHelper.getInertBodyElement(html); } body.removeChild(body.firstChild); return body; } catch { return null; } } }; var InertDocumentHelper = class { constructor(defaultDoc) { this.defaultDoc = defaultDoc; this.inertDocument = this.defaultDoc.implementation.createHTMLDocument("sanitization-inert"); } getInertBodyElement(html) { const templateEl = this.inertDocument.createElement("template"); templateEl.innerHTML = trustedHTMLFromString(html); return templateEl; } }; function isDOMParserAvailable() { try { return !!new window.DOMParser().parseFromString(trustedHTMLFromString(""), "text/html"); } catch { return false; } } var SAFE_URL_PATTERN = /^(?!javascript:)(?:[a-z0-9+.-]+:|[^&:\/?#]*(?:[\/?#]|$))/i; function _sanitizeUrl(url) { url = String(url); if (url.match(SAFE_URL_PATTERN)) return url; if (typeof ngDevMode === "undefined" || ngDevMode) { console.warn(`WARNING: sanitizing unsafe URL value ${url} (see ${XSS_SECURITY_URL})`); } return "unsafe:" + url; } function tagSet(tags) { const res = {}; for (const t of tags.split(",")) res[t] = true; return res; } function merge2(...sets) { const res = {}; for (const s of sets) { for (const v in s) { if (s.hasOwnProperty(v)) res[v] = true; } } return res; } var VOID_ELEMENTS = tagSet("area,br,col,hr,img,wbr"); var OPTIONAL_END_TAG_BLOCK_ELEMENTS = tagSet("colgroup,dd,dt,li,p,tbody,td,tfoot,th,thead,tr"); var OPTIONAL_END_TAG_INLINE_ELEMENTS = tagSet("rp,rt"); var OPTIONAL_END_TAG_ELEMENTS = merge2(OPTIONAL_END_TAG_INLINE_ELEMENTS, OPTIONAL_END_TAG_BLOCK_ELEMENTS); var BLOCK_ELEMENTS = merge2(OPTIONAL_END_TAG_BLOCK_ELEMENTS, tagSet("address,article,aside,blockquote,caption,center,del,details,dialog,dir,div,dl,figure,figcaption,footer,h1,h2,h3,h4,h5,h6,header,hgroup,hr,ins,main,map,menu,nav,ol,pre,section,summary,table,ul")); var INLINE_ELEMENTS = merge2(OPTIONAL_END_TAG_INLINE_ELEMENTS, tagSet("a,abbr,acronym,audio,b,bdi,bdo,big,br,cite,code,del,dfn,em,font,i,img,ins,kbd,label,map,mark,picture,q,ruby,rp,rt,s,samp,small,source,span,strike,strong,sub,sup,time,track,tt,u,var,video")); var VALID_ELEMENTS = merge2(VOID_ELEMENTS, BLOCK_ELEMENTS, INLINE_ELEMENTS, OPTIONAL_END_TAG_ELEMENTS); var URI_ATTRS = tagSet("background,cite,href,itemtype,longdesc,poster,src,xlink:href"); var HTML_ATTRS = tagSet("abbr,accesskey,align,alt,autoplay,axis,bgcolor,border,cellpadding,cellspacing,class,clear,color,cols,colspan,compact,controls,coords,datetime,default,dir,download,face,headers,height,hidden,hreflang,hspace,ismap,itemscope,itemprop,kind,label,lang,language,loop,media,muted,nohref,nowrap,open,preload,rel,rev,role,rows,rowspan,rules,scope,scrolling,shape,size,sizes,span,srclang,srcset,start,summary,tabindex,target,title,translate,type,usemap,valign,value,vspace,width"); var ARIA_ATTRS = tagSet("aria-activedescendant,aria-atomic,aria-autocomplete,aria-busy,aria-checked,aria-colcount,aria-colindex,aria-colspan,aria-controls,aria-current,aria-describedby,aria-details,aria-disabled,aria-dropeffect,aria-errormessage,aria-expanded,aria-flowto,aria-grabbed,aria-haspopup,aria-hidden,aria-invalid,aria-keyshortcuts,aria-label,aria-labelledby,aria-level,aria-live,aria-modal,aria-multiline,aria-multiselectable,aria-orientation,aria-owns,aria-placeholder,aria-posinset,aria-pressed,aria-readonly,aria-relevant,aria-required,aria-roledescription,aria-rowcount,aria-rowindex,aria-rowspan,aria-selected,aria-setsize,aria-sort,aria-valuemax,aria-valuemin,aria-valuenow,aria-valuetext"); var VALID_ATTRS = merge2(URI_ATTRS, HTML_ATTRS, ARIA_ATTRS); var SKIP_TRAVERSING_CONTENT_IF_INVALID_ELEMENTS = tagSet("script,style,template"); var SanitizingHtmlSerializer = class { constructor() { this.sanitizedSomething = false; this.buf = []; } sanitizeChildren(el) { let current = el.firstChild; let traverseContent = true; while (current) { if (current.nodeType === Node.ELEMENT_NODE) { traverseContent = this.startElement(current); } else if (current.nodeType === Node.TEXT_NODE) { this.chars(current.nodeValue); } else { this.sanitizedSomething = true; } if (traverseContent && current.firstChild) { current = current.firstChild; continue; } while (current) { if (current.nodeType === Node.ELEMENT_NODE) { this.endElement(current); } let next = this.checkClobberedElement(current, current.nextSibling); if (next) { current = next; break; } current = this.checkClobberedElement(current, current.parentNode); } } return this.buf.join(""); } /** * Sanitizes an opening element tag (if valid) and returns whether the element's contents should * be traversed. Element content must always be traversed (even if the element itself is not * valid/safe), unless the element is one of `SKIP_TRAVERSING_CONTENT_IF_INVALID_ELEMENTS`. * * @param element The element to sanitize. * @return True if the element's contents should be traversed. */ startElement(element) { const tagName = element.nodeName.toLowerCase(); if (!VALID_ELEMENTS.hasOwnProperty(tagName)) { this.sanitizedSomething = true; return !SKIP_TRAVERSING_CONTENT_IF_INVALID_ELEMENTS.hasOwnProperty(tagName); } this.buf.push("<"); this.buf.push(tagName); const elAttrs = element.attributes; for (let i = 0; i < elAttrs.length; i++) { const elAttr = elAttrs.item(i); const attrName = elAttr.name; const lower = attrName.toLowerCase(); if (!VALID_ATTRS.hasOwnProperty(lower)) { this.sanitizedSomething = true; continue; } let value = elAttr.value; if (URI_ATTRS[lower]) value = _sanitizeUrl(value); this.buf.push(" ", attrName, '="', encodeEntities(value), '"'); } this.buf.push(">"); return true; } endElement(current) { const tagName = current.nodeName.toLowerCase(); if (VALID_ELEMENTS.hasOwnProperty(tagName) && !VOID_ELEMENTS.hasOwnProperty(tagName)) { this.buf.push(""); } } chars(chars) { this.buf.push(encodeEntities(chars)); } checkClobberedElement(node, nextNode) { if (nextNode && (node.compareDocumentPosition(nextNode) & Node.DOCUMENT_POSITION_CONTAINED_BY) === Node.DOCUMENT_POSITION_CONTAINED_BY) { throw new Error(`Failed to sanitize html because the element is clobbered: ${node.outerHTML}`); } return nextNode; } }; var SURROGATE_PAIR_REGEXP = /[\uD800-\uDBFF][\uDC00-\uDFFF]/g; var NON_ALPHANUMERIC_REGEXP = /([^\#-~ |!])/g; function encodeEntities(value) { return value.replace(/&/g, "&").replace(SURROGATE_PAIR_REGEXP, function(match) { const hi = match.charCodeAt(0); const low = match.charCodeAt(1); return "&#" + ((hi - 55296) * 1024 + (low - 56320) + 65536) + ";"; }).replace(NON_ALPHANUMERIC_REGEXP, function(match) { return "&#" + match.charCodeAt(0) + ";"; }).replace(//g, ">"); } var inertBodyHelper; function _sanitizeHtml(defaultDoc, unsafeHtmlInput) { let inertBodyElement = null; try { inertBodyHelper = inertBodyHelper || getInertBodyHelper(defaultDoc); let unsafeHtml = unsafeHtmlInput ? String(unsafeHtmlInput) : ""; inertBodyElement = inertBodyHelper.getInertBodyElement(unsafeHtml); let mXSSAttempts = 5; let parsedHtml = unsafeHtml; do { if (mXSSAttempts === 0) { throw new Error("Failed to sanitize html because the input is unstable"); } mXSSAttempts--; unsafeHtml = parsedHtml; parsedHtml = inertBodyElement.innerHTML; inertBodyElement = inertBodyHelper.getInertBodyElement(unsafeHtml); } while (unsafeHtml !== parsedHtml); const sanitizer = new SanitizingHtmlSerializer(); const safeHtml = sanitizer.sanitizeChildren(getTemplateContent(inertBodyElement) || inertBodyElement); if ((typeof ngDevMode === "undefined" || ngDevMode) && sanitizer.sanitizedSomething) { console.warn(`WARNING: sanitizing HTML stripped some content, see ${XSS_SECURITY_URL}`); } return trustedHTMLFromString(safeHtml); } finally { if (inertBodyElement) { const parent = getTemplateContent(inertBodyElement) || inertBodyElement; while (parent.firstChild) { parent.removeChild(parent.firstChild); } } } } function getTemplateContent(el) { return "content" in el && isTemplateElement(el) ? el.content : null; } function isTemplateElement(el) { return el.nodeType === Node.ELEMENT_NODE && el.nodeName === "TEMPLATE"; } var SecurityContext; (function(SecurityContext2) { SecurityContext2[SecurityContext2["NONE"] = 0] = "NONE"; SecurityContext2[SecurityContext2["HTML"] = 1] = "HTML"; SecurityContext2[SecurityContext2["STYLE"] = 2] = "STYLE"; SecurityContext2[SecurityContext2["SCRIPT"] = 3] = "SCRIPT"; SecurityContext2[SecurityContext2["URL"] = 4] = "URL"; SecurityContext2[SecurityContext2["RESOURCE_URL"] = 5] = "RESOURCE_URL"; })(SecurityContext || (SecurityContext = {})); function ɵɵsanitizeHtml(unsafeHtml) { const sanitizer = getSanitizer(); if (sanitizer) { return trustedHTMLFromStringBypass(sanitizer.sanitize(SecurityContext.HTML, unsafeHtml) || ""); } if (allowSanitizationBypassAndThrow( unsafeHtml, "HTML" /* BypassType.Html */ )) { return trustedHTMLFromStringBypass(unwrapSafeValue(unsafeHtml)); } return _sanitizeHtml(getDocument(), renderStringify(unsafeHtml)); } function ɵɵsanitizeStyle(unsafeStyle) { const sanitizer = getSanitizer(); if (sanitizer) { return sanitizer.sanitize(SecurityContext.STYLE, unsafeStyle) || ""; } if (allowSanitizationBypassAndThrow( unsafeStyle, "Style" /* BypassType.Style */ )) { return unwrapSafeValue(unsafeStyle); } return renderStringify(unsafeStyle); } function ɵɵsanitizeUrl(unsafeUrl) { const sanitizer = getSanitizer(); if (sanitizer) { return sanitizer.sanitize(SecurityContext.URL, unsafeUrl) || ""; } if (allowSanitizationBypassAndThrow( unsafeUrl, "URL" /* BypassType.Url */ )) { return unwrapSafeValue(unsafeUrl); } return _sanitizeUrl(renderStringify(unsafeUrl)); } function ɵɵsanitizeResourceUrl(unsafeResourceUrl) { const sanitizer = getSanitizer(); if (sanitizer) { return trustedScriptURLFromStringBypass(sanitizer.sanitize(SecurityContext.RESOURCE_URL, unsafeResourceUrl) || ""); } if (allowSanitizationBypassAndThrow( unsafeResourceUrl, "ResourceURL" /* BypassType.ResourceUrl */ )) { return trustedScriptURLFromStringBypass(unwrapSafeValue(unsafeResourceUrl)); } throw new RuntimeError(904, ngDevMode && `unsafe value used in a resource URL context (see ${XSS_SECURITY_URL})`); } function ɵɵsanitizeScript(unsafeScript) { const sanitizer = getSanitizer(); if (sanitizer) { return trustedScriptFromStringBypass(sanitizer.sanitize(SecurityContext.SCRIPT, unsafeScript) || ""); } if (allowSanitizationBypassAndThrow( unsafeScript, "Script" /* BypassType.Script */ )) { return trustedScriptFromStringBypass(unwrapSafeValue(unsafeScript)); } throw new RuntimeError(905, ngDevMode && "unsafe value used in a script context"); } function ɵɵtrustConstantHtml(html) { if (ngDevMode && (!Array.isArray(html) || !Array.isArray(html.raw) || html.length !== 1)) { throw new Error(`Unexpected interpolation in trusted HTML constant: ${html.join("?")}`); } return trustedHTMLFromString(html[0]); } function ɵɵtrustConstantResourceUrl(url) { if (ngDevMode && (!Array.isArray(url) || !Array.isArray(url.raw) || url.length !== 1)) { throw new Error(`Unexpected interpolation in trusted URL constant: ${url.join("?")}`); } return trustedScriptURLFromString(url[0]); } function getUrlSanitizer(tag, prop) { if (prop === "src" && (tag === "embed" || tag === "frame" || tag === "iframe" || tag === "media" || tag === "script") || prop === "href" && (tag === "base" || tag === "link")) { return ɵɵsanitizeResourceUrl; } return ɵɵsanitizeUrl; } function ɵɵsanitizeUrlOrResourceUrl(unsafeUrl, tag, prop) { return getUrlSanitizer(tag, prop)(unsafeUrl); } function validateAgainstEventProperties(name) { if (name.toLowerCase().startsWith("on")) { const errorMessage = `Binding to event property '${name}' is disallowed for security reasons, please use (${name.slice(2)})=... If '${name}' is a directive input, make sure the directive is imported by the current module.`; throw new RuntimeError(306, errorMessage); } } function validateAgainstEventAttributes(name) { if (name.toLowerCase().startsWith("on")) { const errorMessage = `Binding to event attribute '${name}' is disallowed for security reasons, please use (${name.slice(2)})=...`; throw new RuntimeError(306, errorMessage); } } function getSanitizer() { const lView = getLView(); return lView && lView[ENVIRONMENT].sanitizer; } var COMMENT_DISALLOWED = /^>|^->||--!>|)/g; var COMMENT_DELIMITER_ESCAPED = "​$1​"; function escapeCommentText(value) { return value.replace(COMMENT_DISALLOWED, (text) => text.replace(COMMENT_DELIMITER, COMMENT_DELIMITER_ESCAPED)); } function normalizeDebugBindingName(name) { name = camelCaseToDashCase(name.replace(/[$@]/g, "_")); return `ng-reflect-${name}`; } var CAMEL_CASE_REGEXP = /([A-Z])/g; function camelCaseToDashCase(input2) { return input2.replace(CAMEL_CASE_REGEXP, (...m) => "-" + m[1].toLowerCase()); } function normalizeDebugBindingValue(value) { try { return value != null ? value.toString().slice(0, 30) : value; } catch (e) { return "[ERROR] Exception while trying to serialize the value"; } } var TRACKED_LVIEWS = /* @__PURE__ */ new Map(); var uniqueIdCounter = 0; function getUniqueLViewId() { return uniqueIdCounter++; } function registerLView(lView) { ngDevMode && assertNumber(lView[ID], "LView must have an ID in order to be registered"); TRACKED_LVIEWS.set(lView[ID], lView); } function getLViewById(id) { ngDevMode && assertNumber(id, "ID used for LView lookup must be a number"); return TRACKED_LVIEWS.get(id) || null; } function unregisterLView(lView) { ngDevMode && assertNumber(lView[ID], "Cannot stop tracking an LView that does not have an ID"); TRACKED_LVIEWS.delete(lView[ID]); } var LContext = class { /** Component's parent view data. */ get lView() { return getLViewById(this.lViewId); } constructor(lViewId, nodeIndex, native) { this.lViewId = lViewId; this.nodeIndex = nodeIndex; this.native = native; } }; function getLContext(target) { let mpValue = readPatchedData(target); if (mpValue) { if (isLView(mpValue)) { const lView = mpValue; let nodeIndex; let component = void 0; let directives = void 0; if (isComponentInstance(target)) { nodeIndex = findViaComponent(lView, target); if (nodeIndex == -1) { throw new Error("The provided component was not found in the application"); } component = target; } else if (isDirectiveInstance(target)) { nodeIndex = findViaDirective(lView, target); if (nodeIndex == -1) { throw new Error("The provided directive was not found in the application"); } directives = getDirectivesAtNodeIndex(nodeIndex, lView); } else { nodeIndex = findViaNativeElement(lView, target); if (nodeIndex == -1) { return null; } } const native = unwrapRNode(lView[nodeIndex]); const existingCtx = readPatchedData(native); const context = existingCtx && !Array.isArray(existingCtx) ? existingCtx : createLContext(lView, nodeIndex, native); if (component && context.component === void 0) { context.component = component; attachPatchData(context.component, context); } if (directives && context.directives === void 0) { context.directives = directives; for (let i = 0; i < directives.length; i++) { attachPatchData(directives[i], context); } } attachPatchData(context.native, context); mpValue = context; } } else { const rElement = target; ngDevMode && assertDomNode(rElement); let parent = rElement; while (parent = parent.parentNode) { const parentContext = readPatchedData(parent); if (parentContext) { const lView = Array.isArray(parentContext) ? parentContext : parentContext.lView; if (!lView) { return null; } const index = findViaNativeElement(lView, rElement); if (index >= 0) { const native = unwrapRNode(lView[index]); const context = createLContext(lView, index, native); attachPatchData(native, context); mpValue = context; break; } } } } return mpValue || null; } function createLContext(lView, nodeIndex, native) { return new LContext(lView[ID], nodeIndex, native); } function getComponentViewByInstance(componentInstance) { let patchedData = readPatchedData(componentInstance); let lView; if (isLView(patchedData)) { const contextLView = patchedData; const nodeIndex = findViaComponent(contextLView, componentInstance); lView = getComponentLViewByIndex(nodeIndex, contextLView); const context = createLContext(contextLView, nodeIndex, lView[HOST]); context.component = componentInstance; attachPatchData(componentInstance, context); attachPatchData(context.native, context); } else { const context = patchedData; const contextLView = context.lView; ngDevMode && assertLView(contextLView); lView = getComponentLViewByIndex(context.nodeIndex, contextLView); } return lView; } var MONKEY_PATCH_KEY_NAME = "__ngContext__"; function attachPatchData(target, data) { ngDevMode && assertDefined(target, "Target expected"); if (isLView(data)) { target[MONKEY_PATCH_KEY_NAME] = data[ID]; registerLView(data); } else { target[MONKEY_PATCH_KEY_NAME] = data; } } function readPatchedData(target) { ngDevMode && assertDefined(target, "Target expected"); const data = target[MONKEY_PATCH_KEY_NAME]; return typeof data === "number" ? getLViewById(data) : data || null; } function readPatchedLView(target) { const value = readPatchedData(target); if (value) { return isLView(value) ? value : value.lView; } return null; } function isComponentInstance(instance) { return instance && instance.constructor && instance.constructor.ɵcmp; } function isDirectiveInstance(instance) { return instance && instance.constructor && instance.constructor.ɵdir; } function findViaNativeElement(lView, target) { const tView = lView[TVIEW]; for (let i = HEADER_OFFSET; i < tView.bindingStartIndex; i++) { if (unwrapRNode(lView[i]) === target) { return i; } } return -1; } function traverseNextElement(tNode) { if (tNode.child) { return tNode.child; } else if (tNode.next) { return tNode.next; } else { while (tNode.parent && !tNode.parent.next) { tNode = tNode.parent; } return tNode.parent && tNode.parent.next; } } function findViaComponent(lView, componentInstance) { const componentIndices = lView[TVIEW].components; if (componentIndices) { for (let i = 0; i < componentIndices.length; i++) { const elementComponentIndex = componentIndices[i]; const componentView = getComponentLViewByIndex(elementComponentIndex, lView); if (componentView[CONTEXT] === componentInstance) { return elementComponentIndex; } } } else { const rootComponentView = getComponentLViewByIndex(HEADER_OFFSET, lView); const rootComponent = rootComponentView[CONTEXT]; if (rootComponent === componentInstance) { return HEADER_OFFSET; } } return -1; } function findViaDirective(lView, directiveInstance) { let tNode = lView[TVIEW].firstChild; while (tNode) { const directiveIndexStart = tNode.directiveStart; const directiveIndexEnd = tNode.directiveEnd; for (let i = directiveIndexStart; i < directiveIndexEnd; i++) { if (lView[i] === directiveInstance) { return tNode.index; } } tNode = traverseNextElement(tNode); } return -1; } function getDirectivesAtNodeIndex(nodeIndex, lView) { const tNode = lView[TVIEW].data[nodeIndex]; if (tNode.directiveStart === 0) return EMPTY_ARRAY; const results = []; for (let i = tNode.directiveStart; i < tNode.directiveEnd; i++) { const directiveInstance = lView[i]; if (!isComponentInstance(directiveInstance)) { results.push(directiveInstance); } } return results; } function getComponentAtNodeIndex(nodeIndex, lView) { const tNode = lView[TVIEW].data[nodeIndex]; const { directiveStart, componentOffset } = tNode; return componentOffset > -1 ? lView[directiveStart + componentOffset] : null; } function discoverLocalRefs(lView, nodeIndex) { const tNode = lView[TVIEW].data[nodeIndex]; if (tNode && tNode.localNames) { const result = {}; let localIndex = tNode.index + 1; for (let i = 0; i < tNode.localNames.length; i += 2) { result[tNode.localNames[i]] = lView[localIndex]; localIndex++; } return result; } return null; } var CUSTOM_ELEMENTS_SCHEMA = { name: "custom-elements" }; var NO_ERRORS_SCHEMA = { name: "no-errors-schema" }; var shouldThrowErrorOnUnknownElement = false; function ɵsetUnknownElementStrictMode(shouldThrow) { shouldThrowErrorOnUnknownElement = shouldThrow; } function ɵgetUnknownElementStrictMode() { return shouldThrowErrorOnUnknownElement; } var shouldThrowErrorOnUnknownProperty = false; function ɵsetUnknownPropertyStrictMode(shouldThrow) { shouldThrowErrorOnUnknownProperty = shouldThrow; } function ɵgetUnknownPropertyStrictMode() { return shouldThrowErrorOnUnknownProperty; } function validateElementIsKnown(element, lView, tagName, schemas, hasDirectives) { if (schemas === null) return; if (!hasDirectives && tagName !== null) { const isUnknown = ( // Note that we can't check for `typeof HTMLUnknownElement === 'function'` because // Domino doesn't expose HTMLUnknownElement globally. typeof HTMLUnknownElement !== "undefined" && HTMLUnknownElement && element instanceof HTMLUnknownElement || typeof customElements !== "undefined" && tagName.indexOf("-") > -1 && !customElements.get(tagName) ); if (isUnknown && !matchingSchemas(schemas, tagName)) { const isHostStandalone = isHostComponentStandalone(lView); const templateLocation = getTemplateLocationDetails(lView); const schemas2 = `'${isHostStandalone ? "@Component" : "@NgModule"}.schemas'`; let message = `'${tagName}' is not a known element${templateLocation}: `; message += `1. If '${tagName}' is an Angular component, then verify that it is ${isHostStandalone ? "included in the '@Component.imports' of this component" : "a part of an @NgModule where this component is declared"}. `; if (tagName && tagName.indexOf("-") > -1) { message += `2. If '${tagName}' is a Web Component then add 'CUSTOM_ELEMENTS_SCHEMA' to the ${schemas2} of this component to suppress this message.`; } else { message += `2. To allow any element add 'NO_ERRORS_SCHEMA' to the ${schemas2} of this component.`; } if (shouldThrowErrorOnUnknownElement) { throw new RuntimeError(304, message); } else { console.error(formatRuntimeError(304, message)); } } } } function isPropertyValid(element, propName, tagName, schemas) { if (schemas === null) return true; if (matchingSchemas(schemas, tagName) || propName in element || isAnimationProp(propName)) { return true; } return typeof Node === "undefined" || Node === null || !(element instanceof Node); } function handleUnknownPropertyError(propName, tagName, nodeType, lView) { if (!tagName && nodeType === 4) { tagName = "ng-template"; } const isHostStandalone = isHostComponentStandalone(lView); const templateLocation = getTemplateLocationDetails(lView); let message = `Can't bind to '${propName}' since it isn't a known property of '${tagName}'${templateLocation}.`; const schemas = `'${isHostStandalone ? "@Component" : "@NgModule"}.schemas'`; const importLocation = isHostStandalone ? "included in the '@Component.imports' of this component" : "a part of an @NgModule where this component is declared"; if (KNOWN_CONTROL_FLOW_DIRECTIVES.has(propName)) { const correspondingImport = KNOWN_CONTROL_FLOW_DIRECTIVES.get(propName); message += ` If the '${propName}' is an Angular control flow directive, please make sure that either the '${correspondingImport}' directive or the 'CommonModule' is ${importLocation}.`; } else { message += ` 1. If '${tagName}' is an Angular component and it has the '${propName}' input, then verify that it is ${importLocation}.`; if (tagName && tagName.indexOf("-") > -1) { message += ` 2. If '${tagName}' is a Web Component then add 'CUSTOM_ELEMENTS_SCHEMA' to the ${schemas} of this component to suppress this message.`; message += ` 3. To allow any property add 'NO_ERRORS_SCHEMA' to the ${schemas} of this component.`; } else { message += ` 2. To allow any property add 'NO_ERRORS_SCHEMA' to the ${schemas} of this component.`; } } reportUnknownPropertyError(message); } function reportUnknownPropertyError(message) { if (shouldThrowErrorOnUnknownProperty) { throw new RuntimeError(303, message); } else { console.error(formatRuntimeError(303, message)); } } function getDeclarationComponentDef(lView) { !ngDevMode && throwError("Must never be called in production mode"); const declarationLView = lView[DECLARATION_COMPONENT_VIEW]; const context = declarationLView[CONTEXT]; if (!context) return null; return context.constructor ? getComponentDef(context.constructor) : null; } function isHostComponentStandalone(lView) { !ngDevMode && throwError("Must never be called in production mode"); const componentDef = getDeclarationComponentDef(lView); return !!componentDef?.standalone; } function getTemplateLocationDetails(lView) { !ngDevMode && throwError("Must never be called in production mode"); const hostComponentDef = getDeclarationComponentDef(lView); const componentClassName = hostComponentDef?.type?.name; return componentClassName ? ` (used in the '${componentClassName}' component template)` : ""; } var KNOWN_CONTROL_FLOW_DIRECTIVES = /* @__PURE__ */ new Map([ ["ngIf", "NgIf"], ["ngFor", "NgFor"], ["ngSwitchCase", "NgSwitchCase"], ["ngSwitchDefault", "NgSwitchDefault"] ]); function matchingSchemas(schemas, tagName) { if (schemas !== null) { for (let i = 0; i < schemas.length; i++) { const schema = schemas[i]; if (schema === NO_ERRORS_SCHEMA || schema === CUSTOM_ELEMENTS_SCHEMA && tagName && tagName.indexOf("-") > -1) { return true; } } } return false; } function ɵɵresolveWindow(element) { return element.ownerDocument.defaultView; } function ɵɵresolveDocument(element) { return element.ownerDocument; } function ɵɵresolveBody(element) { return element.ownerDocument.body; } var INTERPOLATION_DELIMITER = `�`; function maybeUnwrapFn(value) { if (value instanceof Function) { return value(); } else { return value; } } function isPlatformBrowser(injector) { return (injector ?? inject(Injector)).get(PLATFORM_ID) === "browser"; } var VALUE_STRING_LENGTH_LIMIT = 200; function assertStandaloneComponentType(type) { assertComponentDef(type); const componentDef = getComponentDef(type); if (!componentDef.standalone) { throw new RuntimeError(907, `The ${stringifyForError(type)} component is not marked as standalone, but Angular expects to have a standalone component here. Please make sure the ${stringifyForError(type)} component has the \`standalone: true\` flag in the decorator.`); } } function assertComponentDef(type) { if (!getComponentDef(type)) { throw new RuntimeError(906, `The ${stringifyForError(type)} is not an Angular component, make sure it has the \`@Component\` decorator.`); } } function throwMultipleComponentError(tNode, first2, second) { throw new RuntimeError(-300, `Multiple components match node with tagname ${tNode.value}: ${stringifyForError(first2)} and ${stringifyForError(second)}`); } function throwErrorIfNoChangesMode(creationMode, oldValue, currValue, propName, lView) { const hostComponentDef = getDeclarationComponentDef(lView); const componentClassName = hostComponentDef?.type?.name; const field = propName ? ` for '${propName}'` : ""; let msg = `ExpressionChangedAfterItHasBeenCheckedError: Expression has changed after it was checked. Previous value${field}: '${formatValue(oldValue)}'. Current value: '${formatValue(currValue)}'.${componentClassName ? ` Expression location: ${componentClassName} component` : ""}`; if (creationMode) { msg += ` It seems like the view has been created after its parent and its children have been dirty checked. Has it been created in a change detection hook?`; } throw new RuntimeError(-100, msg); } function formatValue(value) { let strValue = String(value); try { if (Array.isArray(value) || strValue === "[object Object]") { strValue = JSON.stringify(value); } } catch (error) { } return strValue.length > VALUE_STRING_LENGTH_LIMIT ? strValue.substring(0, VALUE_STRING_LENGTH_LIMIT) + "…" : strValue; } function constructDetailsForInterpolation(lView, rootIndex, expressionIndex, meta, changedValue) { const [propName, prefix, ...chunks] = meta.split(INTERPOLATION_DELIMITER); let oldValue = prefix, newValue = prefix; for (let i = 0; i < chunks.length; i++) { const slotIdx = rootIndex + i; oldValue += `${lView[slotIdx]}${chunks[i]}`; newValue += `${slotIdx === expressionIndex ? changedValue : lView[slotIdx]}${chunks[i]}`; } return { propName, oldValue, newValue }; } function getExpressionChangedErrorDetails(lView, bindingIndex, oldValue, newValue) { const tData = lView[TVIEW].data; const metadata = tData[bindingIndex]; if (typeof metadata === "string") { if (metadata.indexOf(INTERPOLATION_DELIMITER) > -1) { return constructDetailsForInterpolation(lView, bindingIndex, bindingIndex, metadata, newValue); } return { propName: metadata, oldValue, newValue }; } if (metadata === null) { let idx = bindingIndex - 1; while (typeof tData[idx] !== "string" && tData[idx + 1] === null) { idx--; } const meta = tData[idx]; if (typeof meta === "string") { const matches = meta.match(new RegExp(INTERPOLATION_DELIMITER, "g")); if (matches && matches.length - 1 > bindingIndex - idx) { return constructDetailsForInterpolation(lView, idx, bindingIndex, meta, newValue); } } } return { propName: void 0, oldValue, newValue }; } var RendererStyleFlags2; (function(RendererStyleFlags22) { RendererStyleFlags22[RendererStyleFlags22["Important"] = 1] = "Important"; RendererStyleFlags22[RendererStyleFlags22["DashCase"] = 2] = "DashCase"; })(RendererStyleFlags2 || (RendererStyleFlags2 = {})); var _icuContainerIterate; function icuContainerIterate(tIcuContainerNode, lView) { return _icuContainerIterate(tIcuContainerNode, lView); } function ensureIcuContainerVisitorLoaded(loader) { if (_icuContainerIterate === void 0) { _icuContainerIterate = loader(); } } function applyToElementOrContainer(action, renderer, parent, lNodeToHandle, beforeNode) { if (lNodeToHandle != null) { let lContainer; let isComponent2 = false; if (isLContainer(lNodeToHandle)) { lContainer = lNodeToHandle; } else if (isLView(lNodeToHandle)) { isComponent2 = true; ngDevMode && assertDefined(lNodeToHandle[HOST], "HOST must be defined for a component LView"); lNodeToHandle = lNodeToHandle[HOST]; } const rNode = unwrapRNode(lNodeToHandle); if (action === 0 && parent !== null) { if (beforeNode == null) { nativeAppendChild(renderer, parent, rNode); } else { nativeInsertBefore(renderer, parent, rNode, beforeNode || null, true); } } else if (action === 1 && parent !== null) { nativeInsertBefore(renderer, parent, rNode, beforeNode || null, true); } else if (action === 2) { nativeRemoveNode(renderer, rNode, isComponent2); } else if (action === 3) { ngDevMode && ngDevMode.rendererDestroyNode++; renderer.destroyNode(rNode); } if (lContainer != null) { applyContainer(renderer, action, lContainer, parent, beforeNode); } } } function createTextNode(renderer, value) { ngDevMode && ngDevMode.rendererCreateTextNode++; ngDevMode && ngDevMode.rendererSetText++; return renderer.createText(value); } function updateTextNode(renderer, rNode, value) { ngDevMode && ngDevMode.rendererSetText++; renderer.setValue(rNode, value); } function createCommentNode(renderer, value) { ngDevMode && ngDevMode.rendererCreateComment++; return renderer.createComment(escapeCommentText(value)); } function createElementNode(renderer, name, namespace) { ngDevMode && ngDevMode.rendererCreateElement++; return renderer.createElement(name, namespace); } function removeViewFromDOM(tView, lView) { detachViewFromDOM(tView, lView); lView[HOST] = null; lView[T_HOST] = null; } function addViewToDOM(tView, parentTNode, renderer, lView, parentNativeNode, beforeNode) { lView[HOST] = parentNativeNode; lView[T_HOST] = parentTNode; applyView(tView, lView, renderer, 1, parentNativeNode, beforeNode); } function detachViewFromDOM(tView, lView) { applyView(tView, lView, lView[RENDERER], 2, null, null); } function destroyViewTree(rootView) { let lViewOrLContainer = rootView[CHILD_HEAD]; if (!lViewOrLContainer) { return cleanUpView(rootView[TVIEW], rootView); } while (lViewOrLContainer) { let next = null; if (isLView(lViewOrLContainer)) { next = lViewOrLContainer[CHILD_HEAD]; } else { ngDevMode && assertLContainer(lViewOrLContainer); const firstView = lViewOrLContainer[CONTAINER_HEADER_OFFSET]; if (firstView) next = firstView; } if (!next) { while (lViewOrLContainer && !lViewOrLContainer[NEXT] && lViewOrLContainer !== rootView) { if (isLView(lViewOrLContainer)) { cleanUpView(lViewOrLContainer[TVIEW], lViewOrLContainer); } lViewOrLContainer = lViewOrLContainer[PARENT]; } if (lViewOrLContainer === null) lViewOrLContainer = rootView; if (isLView(lViewOrLContainer)) { cleanUpView(lViewOrLContainer[TVIEW], lViewOrLContainer); } next = lViewOrLContainer && lViewOrLContainer[NEXT]; } lViewOrLContainer = next; } } function insertView(tView, lView, lContainer, index) { ngDevMode && assertLView(lView); ngDevMode && assertLContainer(lContainer); const indexInContainer = CONTAINER_HEADER_OFFSET + index; const containerLength = lContainer.length; if (index > 0) { lContainer[indexInContainer - 1][NEXT] = lView; } if (index < containerLength - CONTAINER_HEADER_OFFSET) { lView[NEXT] = lContainer[indexInContainer]; addToArray(lContainer, CONTAINER_HEADER_OFFSET + index, lView); } else { lContainer.push(lView); lView[NEXT] = null; } lView[PARENT] = lContainer; const declarationLContainer = lView[DECLARATION_LCONTAINER]; if (declarationLContainer !== null && lContainer !== declarationLContainer) { trackMovedView(declarationLContainer, lView); } const lQueries = lView[QUERIES]; if (lQueries !== null) { lQueries.insertView(tView); } updateAncestorTraversalFlagsOnAttach(lView); lView[FLAGS] |= 128; } function trackMovedView(declarationContainer, lView) { ngDevMode && assertDefined(lView, "LView required"); ngDevMode && assertLContainer(declarationContainer); const movedViews = declarationContainer[MOVED_VIEWS]; const insertedLContainer = lView[PARENT]; ngDevMode && assertLContainer(insertedLContainer); const insertedComponentLView = insertedLContainer[PARENT][DECLARATION_COMPONENT_VIEW]; ngDevMode && assertDefined(insertedComponentLView, "Missing insertedComponentLView"); const declaredComponentLView = lView[DECLARATION_COMPONENT_VIEW]; ngDevMode && assertDefined(declaredComponentLView, "Missing declaredComponentLView"); if (declaredComponentLView !== insertedComponentLView) { declarationContainer[FLAGS] |= LContainerFlags.HasTransplantedViews; } if (movedViews === null) { declarationContainer[MOVED_VIEWS] = [lView]; } else { movedViews.push(lView); } } function detachMovedView(declarationContainer, lView) { ngDevMode && assertLContainer(declarationContainer); ngDevMode && assertDefined(declarationContainer[MOVED_VIEWS], "A projected view should belong to a non-empty projected views collection"); const movedViews = declarationContainer[MOVED_VIEWS]; const declarationViewIndex = movedViews.indexOf(lView); ngDevMode && assertLContainer(lView[PARENT]); movedViews.splice(declarationViewIndex, 1); } function detachView(lContainer, removeIndex) { if (lContainer.length <= CONTAINER_HEADER_OFFSET) return; const indexInContainer = CONTAINER_HEADER_OFFSET + removeIndex; const viewToDetach = lContainer[indexInContainer]; if (viewToDetach) { const declarationLContainer = viewToDetach[DECLARATION_LCONTAINER]; if (declarationLContainer !== null && declarationLContainer !== lContainer) { detachMovedView(declarationLContainer, viewToDetach); } if (removeIndex > 0) { lContainer[indexInContainer - 1][NEXT] = viewToDetach[NEXT]; } const removedLView = removeFromArray(lContainer, CONTAINER_HEADER_OFFSET + removeIndex); removeViewFromDOM(viewToDetach[TVIEW], viewToDetach); const lQueries = removedLView[QUERIES]; if (lQueries !== null) { lQueries.detachView(removedLView[TVIEW]); } viewToDetach[PARENT] = null; viewToDetach[NEXT] = null; viewToDetach[FLAGS] &= ~128; } return viewToDetach; } function destroyLView(tView, lView) { if (!(lView[FLAGS] & 256)) { const renderer = lView[RENDERER]; if (renderer.destroyNode) { applyView(tView, lView, renderer, 3, null, null); } destroyViewTree(lView); } } function cleanUpView(tView, lView) { if (!(lView[FLAGS] & 256)) { lView[FLAGS] &= ~128; lView[FLAGS] |= 256; lView[REACTIVE_TEMPLATE_CONSUMER] && consumerDestroy(lView[REACTIVE_TEMPLATE_CONSUMER]); executeOnDestroys(tView, lView); processCleanups(tView, lView); if (lView[TVIEW].type === 1) { ngDevMode && ngDevMode.rendererDestroy++; lView[RENDERER].destroy(); } const declarationContainer = lView[DECLARATION_LCONTAINER]; if (declarationContainer !== null && isLContainer(lView[PARENT])) { if (declarationContainer !== lView[PARENT]) { detachMovedView(declarationContainer, lView); } const lQueries = lView[QUERIES]; if (lQueries !== null) { lQueries.detachView(tView); } } unregisterLView(lView); } } function processCleanups(tView, lView) { const tCleanup = tView.cleanup; const lCleanup = lView[CLEANUP]; if (tCleanup !== null) { for (let i = 0; i < tCleanup.length - 1; i += 2) { if (typeof tCleanup[i] === "string") { const targetIdx = tCleanup[i + 3]; ngDevMode && assertNumber(targetIdx, "cleanup target must be a number"); if (targetIdx >= 0) { lCleanup[targetIdx](); } else { lCleanup[-targetIdx].unsubscribe(); } i += 2; } else { const context = lCleanup[tCleanup[i + 1]]; tCleanup[i].call(context); } } } if (lCleanup !== null) { lView[CLEANUP] = null; } const destroyHooks = lView[ON_DESTROY_HOOKS]; if (destroyHooks !== null) { lView[ON_DESTROY_HOOKS] = null; for (let i = 0; i < destroyHooks.length; i++) { const destroyHooksFn = destroyHooks[i]; ngDevMode && assertFunction(destroyHooksFn, "Expecting destroy hook to be a function."); destroyHooksFn(); } } } function executeOnDestroys(tView, lView) { let destroyHooks; if (tView != null && (destroyHooks = tView.destroyHooks) != null) { for (let i = 0; i < destroyHooks.length; i += 2) { const context = lView[destroyHooks[i]]; if (!(context instanceof NodeInjectorFactory)) { const toCall = destroyHooks[i + 1]; if (Array.isArray(toCall)) { for (let j = 0; j < toCall.length; j += 2) { const callContext = context[toCall[j]]; const hook = toCall[j + 1]; profiler(4, callContext, hook); try { hook.call(callContext); } finally { profiler(5, callContext, hook); } } } else { profiler(4, context, toCall); try { toCall.call(context); } finally { profiler(5, context, toCall); } } } } } } function getParentRElement(tView, tNode, lView) { return getClosestRElement(tView, tNode.parent, lView); } function getClosestRElement(tView, tNode, lView) { let parentTNode = tNode; while (parentTNode !== null && parentTNode.type & (8 | 32)) { tNode = parentTNode; parentTNode = tNode.parent; } if (parentTNode === null) { return lView[HOST]; } else { ngDevMode && assertTNodeType( parentTNode, 3 | 4 /* TNodeType.Container */ ); const { componentOffset } = parentTNode; if (componentOffset > -1) { ngDevMode && assertTNodeForLView(parentTNode, lView); const { encapsulation } = tView.data[parentTNode.directiveStart + componentOffset]; if (encapsulation === ViewEncapsulation$1.None || encapsulation === ViewEncapsulation$1.Emulated) { return null; } } return getNativeByTNode(parentTNode, lView); } } function nativeInsertBefore(renderer, parent, child, beforeNode, isMove) { ngDevMode && ngDevMode.rendererInsertBefore++; renderer.insertBefore(parent, child, beforeNode, isMove); } function nativeAppendChild(renderer, parent, child) { ngDevMode && ngDevMode.rendererAppendChild++; ngDevMode && assertDefined(parent, "parent node must be defined"); renderer.appendChild(parent, child); } function nativeAppendOrInsertBefore(renderer, parent, child, beforeNode, isMove) { if (beforeNode !== null) { nativeInsertBefore(renderer, parent, child, beforeNode, isMove); } else { nativeAppendChild(renderer, parent, child); } } function nativeRemoveChild(renderer, parent, child, isHostElement) { renderer.removeChild(parent, child, isHostElement); } function nativeParentNode(renderer, node) { return renderer.parentNode(node); } function nativeNextSibling(renderer, node) { return renderer.nextSibling(node); } function getInsertInFrontOfRNode(parentTNode, currentTNode, lView) { return _getInsertInFrontOfRNodeWithI18n(parentTNode, currentTNode, lView); } function getInsertInFrontOfRNodeWithNoI18n(parentTNode, currentTNode, lView) { if (parentTNode.type & (8 | 32)) { return getNativeByTNode(parentTNode, lView); } return null; } var _getInsertInFrontOfRNodeWithI18n = getInsertInFrontOfRNodeWithNoI18n; var _processI18nInsertBefore; function setI18nHandling(getInsertInFrontOfRNodeWithI18n2, processI18nInsertBefore2) { _getInsertInFrontOfRNodeWithI18n = getInsertInFrontOfRNodeWithI18n2; _processI18nInsertBefore = processI18nInsertBefore2; } function appendChild(tView, lView, childRNode, childTNode) { const parentRNode = getParentRElement(tView, childTNode, lView); const renderer = lView[RENDERER]; const parentTNode = childTNode.parent || lView[T_HOST]; const anchorNode = getInsertInFrontOfRNode(parentTNode, childTNode, lView); if (parentRNode != null) { if (Array.isArray(childRNode)) { for (let i = 0; i < childRNode.length; i++) { nativeAppendOrInsertBefore(renderer, parentRNode, childRNode[i], anchorNode, false); } } else { nativeAppendOrInsertBefore(renderer, parentRNode, childRNode, anchorNode, false); } } _processI18nInsertBefore !== void 0 && _processI18nInsertBefore(renderer, childTNode, lView, childRNode, parentRNode); } function getFirstNativeNode(lView, tNode) { if (tNode !== null) { ngDevMode && assertTNodeType( tNode, 3 | 12 | 32 | 16 /* TNodeType.Projection */ ); const tNodeType = tNode.type; if (tNodeType & 3) { return getNativeByTNode(tNode, lView); } else if (tNodeType & 4) { return getBeforeNodeForView(-1, lView[tNode.index]); } else if (tNodeType & 8) { const elIcuContainerChild = tNode.child; if (elIcuContainerChild !== null) { return getFirstNativeNode(lView, elIcuContainerChild); } else { const rNodeOrLContainer = lView[tNode.index]; if (isLContainer(rNodeOrLContainer)) { return getBeforeNodeForView(-1, rNodeOrLContainer); } else { return unwrapRNode(rNodeOrLContainer); } } } else if (tNodeType & 32) { let nextRNode = icuContainerIterate(tNode, lView); let rNode = nextRNode(); return rNode || unwrapRNode(lView[tNode.index]); } else { const projectionNodes = getProjectionNodes(lView, tNode); if (projectionNodes !== null) { if (Array.isArray(projectionNodes)) { return projectionNodes[0]; } const parentView = getLViewParent(lView[DECLARATION_COMPONENT_VIEW]); ngDevMode && assertParentView(parentView); return getFirstNativeNode(parentView, projectionNodes); } else { return getFirstNativeNode(lView, tNode.next); } } } return null; } function getProjectionNodes(lView, tNode) { if (tNode !== null) { const componentView = lView[DECLARATION_COMPONENT_VIEW]; const componentHost = componentView[T_HOST]; const slotIdx = tNode.projection; ngDevMode && assertProjectionSlots(lView); return componentHost.projection[slotIdx]; } return null; } function getBeforeNodeForView(viewIndexInContainer, lContainer) { const nextViewIndex = CONTAINER_HEADER_OFFSET + viewIndexInContainer + 1; if (nextViewIndex < lContainer.length) { const lView = lContainer[nextViewIndex]; const firstTNodeOfView = lView[TVIEW].firstChild; if (firstTNodeOfView !== null) { return getFirstNativeNode(lView, firstTNodeOfView); } } return lContainer[NATIVE]; } function nativeRemoveNode(renderer, rNode, isHostElement) { ngDevMode && ngDevMode.rendererRemoveNode++; const nativeParent = nativeParentNode(renderer, rNode); if (nativeParent) { nativeRemoveChild(renderer, nativeParent, rNode, isHostElement); } } function clearElementContents(rElement) { rElement.textContent = ""; } function applyNodes(renderer, action, tNode, lView, parentRElement, beforeNode, isProjection) { while (tNode != null) { ngDevMode && assertTNodeForLView(tNode, lView); ngDevMode && assertTNodeType( tNode, 3 | 12 | 16 | 32 /* TNodeType.Icu */ ); const rawSlotValue = lView[tNode.index]; const tNodeType = tNode.type; if (isProjection) { if (action === 0) { rawSlotValue && attachPatchData(unwrapRNode(rawSlotValue), lView); tNode.flags |= 2; } } if ((tNode.flags & 32) !== 32) { if (tNodeType & 8) { applyNodes(renderer, action, tNode.child, lView, parentRElement, beforeNode, false); applyToElementOrContainer(action, renderer, parentRElement, rawSlotValue, beforeNode); } else if (tNodeType & 32) { const nextRNode = icuContainerIterate(tNode, lView); let rNode; while (rNode = nextRNode()) { applyToElementOrContainer(action, renderer, parentRElement, rNode, beforeNode); } applyToElementOrContainer(action, renderer, parentRElement, rawSlotValue, beforeNode); } else if (tNodeType & 16) { applyProjectionRecursive(renderer, action, lView, tNode, parentRElement, beforeNode); } else { ngDevMode && assertTNodeType( tNode, 3 | 4 /* TNodeType.Container */ ); applyToElementOrContainer(action, renderer, parentRElement, rawSlotValue, beforeNode); } } tNode = isProjection ? tNode.projectionNext : tNode.next; } } function applyView(tView, lView, renderer, action, parentRElement, beforeNode) { applyNodes(renderer, action, tView.firstChild, lView, parentRElement, beforeNode, false); } function applyProjection(tView, lView, tProjectionNode) { const renderer = lView[RENDERER]; const parentRNode = getParentRElement(tView, tProjectionNode, lView); const parentTNode = tProjectionNode.parent || lView[T_HOST]; let beforeNode = getInsertInFrontOfRNode(parentTNode, tProjectionNode, lView); applyProjectionRecursive(renderer, 0, lView, tProjectionNode, parentRNode, beforeNode); } function applyProjectionRecursive(renderer, action, lView, tProjectionNode, parentRElement, beforeNode) { const componentLView = lView[DECLARATION_COMPONENT_VIEW]; const componentNode = componentLView[T_HOST]; ngDevMode && assertEqual(typeof tProjectionNode.projection, "number", "expecting projection index"); const nodeToProjectOrRNodes = componentNode.projection[tProjectionNode.projection]; if (Array.isArray(nodeToProjectOrRNodes)) { for (let i = 0; i < nodeToProjectOrRNodes.length; i++) { const rNode = nodeToProjectOrRNodes[i]; applyToElementOrContainer(action, renderer, parentRElement, rNode, beforeNode); } } else { let nodeToProject = nodeToProjectOrRNodes; const projectedComponentLView = componentLView[PARENT]; if (hasInSkipHydrationBlockFlag(tProjectionNode)) { nodeToProject.flags |= 128; } applyNodes(renderer, action, nodeToProject, projectedComponentLView, parentRElement, beforeNode, true); } } function applyContainer(renderer, action, lContainer, parentRElement, beforeNode) { ngDevMode && assertLContainer(lContainer); const anchor = lContainer[NATIVE]; const native = unwrapRNode(lContainer); if (anchor !== native) { applyToElementOrContainer(action, renderer, parentRElement, anchor, beforeNode); } for (let i = CONTAINER_HEADER_OFFSET; i < lContainer.length; i++) { const lView = lContainer[i]; applyView(lView[TVIEW], lView, renderer, action, parentRElement, anchor); } } function applyStyling(renderer, isClassBased, rNode, prop, value) { if (isClassBased) { if (!value) { ngDevMode && ngDevMode.rendererRemoveClass++; renderer.removeClass(rNode, prop); } else { ngDevMode && ngDevMode.rendererAddClass++; renderer.addClass(rNode, prop); } } else { let flags = prop.indexOf("-") === -1 ? void 0 : RendererStyleFlags2.DashCase; if (value == null) { ngDevMode && ngDevMode.rendererRemoveStyle++; renderer.removeStyle(rNode, prop, flags); } else { const isImportant = typeof value === "string" ? value.endsWith("!important") : false; if (isImportant) { value = value.slice(0, -10); flags |= RendererStyleFlags2.Important; } ngDevMode && ngDevMode.rendererSetStyle++; renderer.setStyle(rNode, prop, value, flags); } } } function writeDirectStyle(renderer, element, newValue) { ngDevMode && assertString(newValue, "'newValue' should be a string"); renderer.setAttribute(element, "style", newValue); ngDevMode && ngDevMode.rendererSetStyle++; } function writeDirectClass(renderer, element, newValue) { ngDevMode && assertString(newValue, "'newValue' should be a string"); if (newValue === "") { renderer.removeAttribute(element, "class"); } else { renderer.setAttribute(element, "class", newValue); } ngDevMode && ngDevMode.rendererSetClassName++; } function setupStaticAttributes(renderer, element, tNode) { const { mergedAttrs, classes, styles } = tNode; if (mergedAttrs !== null) { setUpAttributes(renderer, element, mergedAttrs); } if (classes !== null) { writeDirectClass(renderer, element, classes); } if (styles !== null) { writeDirectStyle(renderer, element, styles); } } var NO_CHANGE = typeof ngDevMode === "undefined" || ngDevMode ? { __brand__: "NO_CHANGE" } : {}; function ɵɵadvance(delta = 1) { ngDevMode && assertGreaterThan(delta, 0, "Can only advance forward"); selectIndexInternal(getTView(), getLView(), getSelectedIndex() + delta, !!ngDevMode && isInCheckNoChangesMode()); } function selectIndexInternal(tView, lView, index, checkNoChangesMode) { ngDevMode && assertIndexInDeclRange(lView[TVIEW], index); if (!checkNoChangesMode) { const hooksInitPhaseCompleted = (lView[FLAGS] & 3) === 3; if (hooksInitPhaseCompleted) { const preOrderCheckHooks = tView.preOrderCheckHooks; if (preOrderCheckHooks !== null) { executeCheckHooks(lView, preOrderCheckHooks, index); } } else { const preOrderHooks = tView.preOrderHooks; if (preOrderHooks !== null) { executeInitAndCheckHooks(lView, preOrderHooks, 0, index); } } } setSelectedIndex(index); } function ɵɵdirectiveInject(token, flags = InjectFlags.Default) { const lView = getLView(); if (lView === null) { ngDevMode && assertInjectImplementationNotEqual(ɵɵdirectiveInject); return ɵɵinject(token, flags); } const tNode = getCurrentTNode(); const value = getOrCreateInjectable(tNode, lView, resolveForwardRef(token), flags); ngDevMode && emitInjectEvent(token, value, flags); return value; } function ɵɵinvalidFactory() { const msg = ngDevMode ? `This constructor was not compatible with Dependency Injection.` : "invalid"; throw new Error(msg); } function writeToDirectiveInput(def, instance, publicName, privateName, flags, value) { const prevConsumer = setActiveConsumer(null); try { let inputSignalNode = null; if ((flags & InputFlags.SignalBased) !== 0) { const field = instance[privateName]; inputSignalNode = field[SIGNAL]; } if (inputSignalNode !== null && inputSignalNode.transformFn !== void 0) { value = inputSignalNode.transformFn(value); } if ((flags & InputFlags.HasDecoratorInputTransform) !== 0) { value = def.inputTransforms[privateName].call(instance, value); } if (def.setInput !== null) { def.setInput(instance, inputSignalNode, value, publicName, privateName); } else { applyValueToInputField(instance, inputSignalNode, privateName, value); } } finally { setActiveConsumer(prevConsumer); } } function processHostBindingOpCodes(tView, lView) { const hostBindingOpCodes = tView.hostBindingOpCodes; if (hostBindingOpCodes === null) return; try { for (let i = 0; i < hostBindingOpCodes.length; i++) { const opCode = hostBindingOpCodes[i]; if (opCode < 0) { setSelectedIndex(~opCode); } else { const directiveIdx = opCode; const bindingRootIndx = hostBindingOpCodes[++i]; const hostBindingFn = hostBindingOpCodes[++i]; setBindingRootForHostBindings(bindingRootIndx, directiveIdx); const context = lView[directiveIdx]; hostBindingFn(2, context); } } } finally { setSelectedIndex(-1); } } function createLView(parentLView, tView, context, flags, host, tHostNode, environment, renderer, injector, embeddedViewInjector, hydrationInfo) { const lView = tView.blueprint.slice(); lView[HOST] = host; lView[FLAGS] = flags | 4 | 128 | 8 | 64; if (embeddedViewInjector !== null || parentLView && parentLView[FLAGS] & 2048) { lView[FLAGS] |= 2048; } resetPreOrderHookFlags(lView); ngDevMode && tView.declTNode && parentLView && assertTNodeForLView(tView.declTNode, parentLView); lView[PARENT] = lView[DECLARATION_VIEW] = parentLView; lView[CONTEXT] = context; lView[ENVIRONMENT] = environment || parentLView && parentLView[ENVIRONMENT]; ngDevMode && assertDefined(lView[ENVIRONMENT], "LViewEnvironment is required"); lView[RENDERER] = renderer || parentLView && parentLView[RENDERER]; ngDevMode && assertDefined(lView[RENDERER], "Renderer is required"); lView[INJECTOR$1] = injector || parentLView && parentLView[INJECTOR$1] || null; lView[T_HOST] = tHostNode; lView[ID] = getUniqueLViewId(); lView[HYDRATION] = hydrationInfo; lView[EMBEDDED_VIEW_INJECTOR] = embeddedViewInjector; ngDevMode && assertEqual(tView.type == 2 ? parentLView !== null : true, true, "Embedded views must have parentLView"); lView[DECLARATION_COMPONENT_VIEW] = tView.type == 2 ? parentLView[DECLARATION_COMPONENT_VIEW] : lView; return lView; } function getOrCreateTNode(tView, index, type, name, attrs) { ngDevMode && index !== 0 && // 0 are bogus nodes and they are OK. See `createContainerRef` in // `view_engine_compatibility` for additional context. assertGreaterThanOrEqual(index, HEADER_OFFSET, "TNodes can't be in the LView header."); ngDevMode && assertPureTNodeType(type); let tNode = tView.data[index]; if (tNode === null) { tNode = createTNodeAtIndex(tView, index, type, name, attrs); if (isInI18nBlock()) { tNode.flags |= 32; } } else if (tNode.type & 64) { tNode.type = type; tNode.value = name; tNode.attrs = attrs; const parent = getCurrentParentTNode(); tNode.injectorIndex = parent === null ? -1 : parent.injectorIndex; ngDevMode && assertTNodeForTView(tNode, tView); ngDevMode && assertEqual(index, tNode.index, "Expecting same index"); } setCurrentTNode(tNode, true); return tNode; } function createTNodeAtIndex(tView, index, type, name, attrs) { const currentTNode = getCurrentTNodePlaceholderOk(); const isParent = isCurrentTNodeParent(); const parent = isParent ? currentTNode : currentTNode && currentTNode.parent; const tNode = tView.data[index] = createTNode(tView, parent, type, index, name, attrs); if (tView.firstChild === null) { tView.firstChild = tNode; } if (currentTNode !== null) { if (isParent) { if (currentTNode.child == null && tNode.parent !== null) { currentTNode.child = tNode; } } else { if (currentTNode.next === null) { currentTNode.next = tNode; tNode.prev = currentTNode; } } } return tNode; } function allocExpando(tView, lView, numSlotsToAlloc, initialValue) { if (numSlotsToAlloc === 0) return -1; if (ngDevMode) { assertFirstCreatePass(tView); assertSame(tView, lView[TVIEW], "`LView` must be associated with `TView`!"); assertEqual(tView.data.length, lView.length, "Expecting LView to be same size as TView"); assertEqual(tView.data.length, tView.blueprint.length, "Expecting Blueprint to be same size as TView"); assertFirstUpdatePass(tView); } const allocIdx = lView.length; for (let i = 0; i < numSlotsToAlloc; i++) { lView.push(initialValue); tView.blueprint.push(initialValue); tView.data.push(null); } return allocIdx; } function executeTemplate(tView, lView, templateFn, rf, context) { const prevSelectedIndex = getSelectedIndex(); const isUpdatePhase = rf & 2; try { setSelectedIndex(-1); if (isUpdatePhase && lView.length > HEADER_OFFSET) { selectIndexInternal(tView, lView, HEADER_OFFSET, !!ngDevMode && isInCheckNoChangesMode()); } const preHookType = isUpdatePhase ? 2 : 0; profiler(preHookType, context); templateFn(rf, context); } finally { setSelectedIndex(prevSelectedIndex); const postHookType = isUpdatePhase ? 3 : 1; profiler(postHookType, context); } } function executeContentQueries(tView, tNode, lView) { if (isContentQueryHost(tNode)) { const prevConsumer = setActiveConsumer(null); try { const start = tNode.directiveStart; const end = tNode.directiveEnd; for (let directiveIndex = start; directiveIndex < end; directiveIndex++) { const def = tView.data[directiveIndex]; if (def.contentQueries) { const directiveInstance = lView[directiveIndex]; ngDevMode && assertDefined(directiveIndex, "Incorrect reference to a directive defining a content query"); def.contentQueries(1, directiveInstance, directiveIndex); } } } finally { setActiveConsumer(prevConsumer); } } } function createDirectivesInstances(tView, lView, tNode) { if (!getBindingsEnabled()) return; instantiateAllDirectives(tView, lView, tNode, getNativeByTNode(tNode, lView)); if ((tNode.flags & 64) === 64) { invokeDirectivesHostBindings(tView, lView, tNode); } } function saveResolvedLocalsInData(viewData, tNode, localRefExtractor = getNativeByTNode) { const localNames = tNode.localNames; if (localNames !== null) { let localIndex = tNode.index + 1; for (let i = 0; i < localNames.length; i += 2) { const index = localNames[i + 1]; const value = index === -1 ? localRefExtractor(tNode, viewData) : viewData[index]; viewData[localIndex++] = value; } } } function getOrCreateComponentTView(def) { const tView = def.tView; if (tView === null || tView.incompleteFirstPass) { const declTNode = null; return def.tView = createTView(1, declTNode, def.template, def.decls, def.vars, def.directiveDefs, def.pipeDefs, def.viewQuery, def.schemas, def.consts, def.id); } return tView; } function createTView(type, declTNode, templateFn, decls, vars, directives, pipes, viewQuery, schemas, constsOrFactory, ssrId) { ngDevMode && ngDevMode.tView++; const bindingStartIndex = HEADER_OFFSET + decls; const initialViewLength = bindingStartIndex + vars; const blueprint = createViewBlueprint(bindingStartIndex, initialViewLength); const consts = typeof constsOrFactory === "function" ? constsOrFactory() : constsOrFactory; const tView = blueprint[TVIEW] = { type, blueprint, template: templateFn, queries: null, viewQuery, declTNode, data: blueprint.slice().fill(null, bindingStartIndex), bindingStartIndex, expandoStartIndex: initialViewLength, hostBindingOpCodes: null, firstCreatePass: true, firstUpdatePass: true, staticViewQueries: false, staticContentQueries: false, preOrderHooks: null, preOrderCheckHooks: null, contentHooks: null, contentCheckHooks: null, viewHooks: null, viewCheckHooks: null, destroyHooks: null, cleanup: null, contentQueries: null, components: null, directiveRegistry: typeof directives === "function" ? directives() : directives, pipeRegistry: typeof pipes === "function" ? pipes() : pipes, firstChild: null, schemas, consts, incompleteFirstPass: false, ssrId }; if (ngDevMode) { Object.seal(tView); } return tView; } function createViewBlueprint(bindingStartIndex, initialViewLength) { const blueprint = []; for (let i = 0; i < initialViewLength; i++) { blueprint.push(i < bindingStartIndex ? null : NO_CHANGE); } return blueprint; } function locateHostElement(renderer, elementOrSelector, encapsulation, injector) { const preserveHostContent = injector.get(PRESERVE_HOST_CONTENT, PRESERVE_HOST_CONTENT_DEFAULT); const preserveContent = preserveHostContent || encapsulation === ViewEncapsulation$1.ShadowDom; const rootElement = renderer.selectRootElement(elementOrSelector, preserveContent); applyRootElementTransform(rootElement); return rootElement; } function applyRootElementTransform(rootElement) { _applyRootElementTransformImpl(rootElement); } var _applyRootElementTransformImpl = () => null; function applyRootElementTransformImpl(rootElement) { if (hasSkipHydrationAttrOnRElement(rootElement)) { clearElementContents(rootElement); } else { processTextNodeMarkersBeforeHydration(rootElement); } } function enableApplyRootElementTransformImpl() { _applyRootElementTransformImpl = applyRootElementTransformImpl; } function storeCleanupWithContext(tView, lView, context, cleanupFn) { const lCleanup = getOrCreateLViewCleanup(lView); ngDevMode && assertDefined(context, "Cleanup context is mandatory when registering framework-level destroy hooks"); lCleanup.push(context); if (tView.firstCreatePass) { getOrCreateTViewCleanup(tView).push(cleanupFn, lCleanup.length - 1); } else { if (ngDevMode) { Object.freeze(getOrCreateTViewCleanup(tView)); } } } function createTNode(tView, tParent, type, index, value, attrs) { ngDevMode && index !== 0 && // 0 are bogus nodes and they are OK. See `createContainerRef` in // `view_engine_compatibility` for additional context. assertGreaterThanOrEqual(index, HEADER_OFFSET, "TNodes can't be in the LView header."); ngDevMode && assertNotSame(attrs, void 0, "'undefined' is not valid value for 'attrs'"); ngDevMode && ngDevMode.tNode++; ngDevMode && tParent && assertTNodeForTView(tParent, tView); let injectorIndex = tParent ? tParent.injectorIndex : -1; let flags = 0; if (isInSkipHydrationBlock$1()) { flags |= 128; } const tNode = { type, index, insertBeforeIndex: null, injectorIndex, directiveStart: -1, directiveEnd: -1, directiveStylingLast: -1, componentOffset: -1, propertyBindings: null, flags, providerIndexes: 0, value, attrs, mergedAttrs: null, localNames: null, initialInputs: void 0, inputs: null, outputs: null, tView: null, next: null, prev: null, projectionNext: null, child: null, parent: tParent, projection: null, styles: null, stylesWithoutHost: null, residualStyles: void 0, classes: null, classesWithoutHost: null, residualClasses: void 0, classBindings: 0, styleBindings: 0 }; if (ngDevMode) { Object.seal(tNode); } return tNode; } function captureNodeBindings(mode, aliasMap, directiveIndex, bindingsResult, hostDirectiveAliasMap) { for (let publicName in aliasMap) { if (!aliasMap.hasOwnProperty(publicName)) { continue; } const value = aliasMap[publicName]; if (value === void 0) { continue; } bindingsResult ??= {}; let internalName; let inputFlags = InputFlags.None; if (Array.isArray(value)) { internalName = value[0]; inputFlags = value[1]; } else { internalName = value; } let finalPublicName = publicName; if (hostDirectiveAliasMap !== null) { if (!hostDirectiveAliasMap.hasOwnProperty(publicName)) { continue; } finalPublicName = hostDirectiveAliasMap[publicName]; } if (mode === 0) { addPropertyBinding(bindingsResult, directiveIndex, finalPublicName, internalName, inputFlags); } else { addPropertyBinding(bindingsResult, directiveIndex, finalPublicName, internalName); } } return bindingsResult; } function addPropertyBinding(bindings, directiveIndex, publicName, internalName, inputFlags) { let values; if (bindings.hasOwnProperty(publicName)) { (values = bindings[publicName]).push(directiveIndex, internalName); } else { values = bindings[publicName] = [directiveIndex, internalName]; } if (inputFlags !== void 0) { values.push(inputFlags); } } function initializeInputAndOutputAliases(tView, tNode, hostDirectiveDefinitionMap) { ngDevMode && assertFirstCreatePass(tView); const start = tNode.directiveStart; const end = tNode.directiveEnd; const tViewData = tView.data; const tNodeAttrs = tNode.attrs; const inputsFromAttrs = []; let inputsStore = null; let outputsStore = null; for (let directiveIndex = start; directiveIndex < end; directiveIndex++) { const directiveDef = tViewData[directiveIndex]; const aliasData = hostDirectiveDefinitionMap ? hostDirectiveDefinitionMap.get(directiveDef) : null; const aliasedInputs = aliasData ? aliasData.inputs : null; const aliasedOutputs = aliasData ? aliasData.outputs : null; inputsStore = captureNodeBindings(0, directiveDef.inputs, directiveIndex, inputsStore, aliasedInputs); outputsStore = captureNodeBindings(1, directiveDef.outputs, directiveIndex, outputsStore, aliasedOutputs); const initialInputs = inputsStore !== null && tNodeAttrs !== null && !isInlineTemplate(tNode) ? generateInitialInputs(inputsStore, directiveIndex, tNodeAttrs) : null; inputsFromAttrs.push(initialInputs); } if (inputsStore !== null) { if (inputsStore.hasOwnProperty("class")) { tNode.flags |= 8; } if (inputsStore.hasOwnProperty("style")) { tNode.flags |= 16; } } tNode.initialInputs = inputsFromAttrs; tNode.inputs = inputsStore; tNode.outputs = outputsStore; } function mapPropName(name) { if (name === "class") return "className"; if (name === "for") return "htmlFor"; if (name === "formaction") return "formAction"; if (name === "innerHtml") return "innerHTML"; if (name === "readonly") return "readOnly"; if (name === "tabindex") return "tabIndex"; return name; } function elementPropertyInternal(tView, tNode, lView, propName, value, renderer, sanitizer, nativeOnly) { ngDevMode && assertNotSame(value, NO_CHANGE, "Incoming value should never be NO_CHANGE."); const element = getNativeByTNode(tNode, lView); let inputData = tNode.inputs; let dataValue; if (!nativeOnly && inputData != null && (dataValue = inputData[propName])) { setInputsForProperty(tView, lView, dataValue, propName, value); if (isComponentHost(tNode)) markDirtyIfOnPush(lView, tNode.index); if (ngDevMode) { setNgReflectProperties(lView, element, tNode.type, dataValue, value); } } else if (tNode.type & 3) { propName = mapPropName(propName); if (ngDevMode) { validateAgainstEventProperties(propName); if (!isPropertyValid(element, propName, tNode.value, tView.schemas)) { handleUnknownPropertyError(propName, tNode.value, tNode.type, lView); } ngDevMode.rendererSetProperty++; } value = sanitizer != null ? sanitizer(value, tNode.value || "", propName) : value; renderer.setProperty(element, propName, value); } else if (tNode.type & 12) { if (ngDevMode && !matchingSchemas(tView.schemas, tNode.value)) { handleUnknownPropertyError(propName, tNode.value, tNode.type, lView); } } } function markDirtyIfOnPush(lView, viewIndex) { ngDevMode && assertLView(lView); const childComponentLView = getComponentLViewByIndex(viewIndex, lView); if (!(childComponentLView[FLAGS] & 16)) { childComponentLView[FLAGS] |= 64; } } function setNgReflectProperty(lView, element, type, attrName, value) { const renderer = lView[RENDERER]; attrName = normalizeDebugBindingName(attrName); const debugValue = normalizeDebugBindingValue(value); if (type & 3) { if (value == null) { renderer.removeAttribute(element, attrName); } else { renderer.setAttribute(element, attrName, debugValue); } } else { const textContent = escapeCommentText(`bindings=${JSON.stringify({ [attrName]: debugValue }, null, 2)}`); renderer.setValue(element, textContent); } } function setNgReflectProperties(lView, element, type, dataValue, value) { if (type & (3 | 4)) { for (let i = 0; i < dataValue.length; i += 3) { setNgReflectProperty(lView, element, type, dataValue[i + 1], value); } } } function resolveDirectives(tView, lView, tNode, localRefs) { ngDevMode && assertFirstCreatePass(tView); if (getBindingsEnabled()) { const exportsMap = localRefs === null ? null : { "": -1 }; const matchResult = findDirectiveDefMatches(tView, tNode); let directiveDefs; let hostDirectiveDefs; if (matchResult === null) { directiveDefs = hostDirectiveDefs = null; } else { [directiveDefs, hostDirectiveDefs] = matchResult; } if (directiveDefs !== null) { initializeDirectives(tView, lView, tNode, directiveDefs, exportsMap, hostDirectiveDefs); } if (exportsMap) cacheMatchingLocalNames(tNode, localRefs, exportsMap); } tNode.mergedAttrs = mergeHostAttrs(tNode.mergedAttrs, tNode.attrs); } function initializeDirectives(tView, lView, tNode, directives, exportsMap, hostDirectiveDefs) { ngDevMode && assertFirstCreatePass(tView); for (let i = 0; i < directives.length; i++) { diPublicInInjector(getOrCreateNodeInjectorForNode(tNode, lView), tView, directives[i].type); } initTNodeFlags(tNode, tView.data.length, directives.length); for (let i = 0; i < directives.length; i++) { const def = directives[i]; if (def.providersResolver) def.providersResolver(def); } let preOrderHooksFound = false; let preOrderCheckHooksFound = false; let directiveIdx = allocExpando(tView, lView, directives.length, null); ngDevMode && assertSame(directiveIdx, tNode.directiveStart, "TNode.directiveStart should point to just allocated space"); for (let i = 0; i < directives.length; i++) { const def = directives[i]; tNode.mergedAttrs = mergeHostAttrs(tNode.mergedAttrs, def.hostAttrs); configureViewWithDirective(tView, tNode, lView, directiveIdx, def); saveNameToExportMap(directiveIdx, def, exportsMap); if (def.contentQueries !== null) tNode.flags |= 4; if (def.hostBindings !== null || def.hostAttrs !== null || def.hostVars !== 0) tNode.flags |= 64; const lifeCycleHooks = def.type.prototype; if (!preOrderHooksFound && (lifeCycleHooks.ngOnChanges || lifeCycleHooks.ngOnInit || lifeCycleHooks.ngDoCheck)) { (tView.preOrderHooks ??= []).push(tNode.index); preOrderHooksFound = true; } if (!preOrderCheckHooksFound && (lifeCycleHooks.ngOnChanges || lifeCycleHooks.ngDoCheck)) { (tView.preOrderCheckHooks ??= []).push(tNode.index); preOrderCheckHooksFound = true; } directiveIdx++; } initializeInputAndOutputAliases(tView, tNode, hostDirectiveDefs); } function registerHostBindingOpCodes(tView, tNode, directiveIdx, directiveVarsIdx, def) { ngDevMode && assertFirstCreatePass(tView); const hostBindings = def.hostBindings; if (hostBindings) { let hostBindingOpCodes = tView.hostBindingOpCodes; if (hostBindingOpCodes === null) { hostBindingOpCodes = tView.hostBindingOpCodes = []; } const elementIndx = ~tNode.index; if (lastSelectedElementIdx(hostBindingOpCodes) != elementIndx) { hostBindingOpCodes.push(elementIndx); } hostBindingOpCodes.push(directiveIdx, directiveVarsIdx, hostBindings); } } function lastSelectedElementIdx(hostBindingOpCodes) { let i = hostBindingOpCodes.length; while (i > 0) { const value = hostBindingOpCodes[--i]; if (typeof value === "number" && value < 0) { return value; } } return 0; } function instantiateAllDirectives(tView, lView, tNode, native) { const start = tNode.directiveStart; const end = tNode.directiveEnd; if (isComponentHost(tNode)) { ngDevMode && assertTNodeType( tNode, 3 /* TNodeType.AnyRNode */ ); addComponentLogic(lView, tNode, tView.data[start + tNode.componentOffset]); } if (!tView.firstCreatePass) { getOrCreateNodeInjectorForNode(tNode, lView); } attachPatchData(native, lView); const initialInputs = tNode.initialInputs; for (let i = start; i < end; i++) { const def = tView.data[i]; const directive = getNodeInjectable(lView, tView, i, tNode); attachPatchData(directive, lView); if (initialInputs !== null) { setInputsFromAttrs(lView, i - start, directive, def, tNode, initialInputs); } if (isComponentDef(def)) { const componentView = getComponentLViewByIndex(tNode.index, lView); componentView[CONTEXT] = getNodeInjectable(lView, tView, i, tNode); } } } function invokeDirectivesHostBindings(tView, lView, tNode) { const start = tNode.directiveStart; const end = tNode.directiveEnd; const elementIndex = tNode.index; const currentDirectiveIndex = getCurrentDirectiveIndex(); try { setSelectedIndex(elementIndex); for (let dirIndex = start; dirIndex < end; dirIndex++) { const def = tView.data[dirIndex]; const directive = lView[dirIndex]; setCurrentDirectiveIndex(dirIndex); if (def.hostBindings !== null || def.hostVars !== 0 || def.hostAttrs !== null) { invokeHostBindingsInCreationMode(def, directive); } } } finally { setSelectedIndex(-1); setCurrentDirectiveIndex(currentDirectiveIndex); } } function invokeHostBindingsInCreationMode(def, directive) { if (def.hostBindings !== null) { def.hostBindings(1, directive); } } function findDirectiveDefMatches(tView, tNode) { ngDevMode && assertFirstCreatePass(tView); ngDevMode && assertTNodeType( tNode, 3 | 12 /* TNodeType.AnyContainer */ ); const registry = tView.directiveRegistry; let matches = null; let hostDirectiveDefs = null; if (registry) { for (let i = 0; i < registry.length; i++) { const def = registry[i]; if (isNodeMatchingSelectorList( tNode, def.selectors, /* isProjectionMode */ false )) { matches || (matches = []); if (isComponentDef(def)) { if (ngDevMode) { assertTNodeType(tNode, 2, `"${tNode.value}" tags cannot be used as component hosts. Please use a different tag to activate the ${stringify(def.type)} component.`); if (isComponentHost(tNode)) { throwMultipleComponentError(tNode, matches.find(isComponentDef).type, def.type); } } if (def.findHostDirectiveDefs !== null) { const hostDirectiveMatches = []; hostDirectiveDefs = hostDirectiveDefs || /* @__PURE__ */ new Map(); def.findHostDirectiveDefs(def, hostDirectiveMatches, hostDirectiveDefs); matches.unshift(...hostDirectiveMatches, def); const componentOffset = hostDirectiveMatches.length; markAsComponentHost(tView, tNode, componentOffset); } else { matches.unshift(def); markAsComponentHost(tView, tNode, 0); } } else { hostDirectiveDefs = hostDirectiveDefs || /* @__PURE__ */ new Map(); def.findHostDirectiveDefs?.(def, matches, hostDirectiveDefs); matches.push(def); } } } } ngDevMode && matches !== null && assertNoDuplicateDirectives(matches); return matches === null ? null : [matches, hostDirectiveDefs]; } function markAsComponentHost(tView, hostTNode, componentOffset) { ngDevMode && assertFirstCreatePass(tView); ngDevMode && assertGreaterThan(componentOffset, -1, "componentOffset must be great than -1"); hostTNode.componentOffset = componentOffset; (tView.components ??= []).push(hostTNode.index); } function cacheMatchingLocalNames(tNode, localRefs, exportsMap) { if (localRefs) { const localNames = tNode.localNames = []; for (let i = 0; i < localRefs.length; i += 2) { const index = exportsMap[localRefs[i + 1]]; if (index == null) throw new RuntimeError(-301, ngDevMode && `Export of name '${localRefs[i + 1]}' not found!`); localNames.push(localRefs[i], index); } } } function saveNameToExportMap(directiveIdx, def, exportsMap) { if (exportsMap) { if (def.exportAs) { for (let i = 0; i < def.exportAs.length; i++) { exportsMap[def.exportAs[i]] = directiveIdx; } } if (isComponentDef(def)) exportsMap[""] = directiveIdx; } } function initTNodeFlags(tNode, index, numberOfDirectives) { ngDevMode && assertNotEqual(numberOfDirectives, tNode.directiveEnd - tNode.directiveStart, "Reached the max number of directives"); tNode.flags |= 1; tNode.directiveStart = index; tNode.directiveEnd = index + numberOfDirectives; tNode.providerIndexes = index; } function configureViewWithDirective(tView, tNode, lView, directiveIndex, def) { ngDevMode && assertGreaterThanOrEqual(directiveIndex, HEADER_OFFSET, "Must be in Expando section"); tView.data[directiveIndex] = def; const directiveFactory = def.factory || (def.factory = getFactoryDef(def.type, true)); const nodeInjectorFactory = new NodeInjectorFactory(directiveFactory, isComponentDef(def), ɵɵdirectiveInject); tView.blueprint[directiveIndex] = nodeInjectorFactory; lView[directiveIndex] = nodeInjectorFactory; registerHostBindingOpCodes(tView, tNode, directiveIndex, allocExpando(tView, lView, def.hostVars, NO_CHANGE), def); } function addComponentLogic(lView, hostTNode, def) { const native = getNativeByTNode(hostTNode, lView); const tView = getOrCreateComponentTView(def); const rendererFactory = lView[ENVIRONMENT].rendererFactory; let lViewFlags = 16; if (def.signals) { lViewFlags = 4096; } else if (def.onPush) { lViewFlags = 64; } const componentView = addToViewTree(lView, createLView(lView, tView, null, lViewFlags, native, hostTNode, null, rendererFactory.createRenderer(native, def), null, null, null)); lView[hostTNode.index] = componentView; } function elementAttributeInternal(tNode, lView, name, value, sanitizer, namespace) { if (ngDevMode) { assertNotSame(value, NO_CHANGE, "Incoming value should never be NO_CHANGE."); validateAgainstEventAttributes(name); assertTNodeType(tNode, 2, `Attempted to set attribute \`${name}\` on a container node. Host bindings are not valid on ng-container or ng-template.`); } const element = getNativeByTNode(tNode, lView); setElementAttribute(lView[RENDERER], element, namespace, tNode.value, name, value, sanitizer); } function setElementAttribute(renderer, element, namespace, tagName, name, value, sanitizer) { if (value == null) { ngDevMode && ngDevMode.rendererRemoveAttribute++; renderer.removeAttribute(element, name, namespace); } else { ngDevMode && ngDevMode.rendererSetAttribute++; const strValue = sanitizer == null ? renderStringify(value) : sanitizer(value, tagName || "", name); renderer.setAttribute(element, name, strValue, namespace); } } function setInputsFromAttrs(lView, directiveIndex, instance, def, tNode, initialInputData) { const initialInputs = initialInputData[directiveIndex]; if (initialInputs !== null) { for (let i = 0; i < initialInputs.length; ) { const publicName = initialInputs[i++]; const privateName = initialInputs[i++]; const flags = initialInputs[i++]; const value = initialInputs[i++]; writeToDirectiveInput(def, instance, publicName, privateName, flags, value); if (ngDevMode) { const nativeElement = getNativeByTNode(tNode, lView); setNgReflectProperty(lView, nativeElement, tNode.type, privateName, value); } } } } function generateInitialInputs(inputs, directiveIndex, attrs) { let inputsToStore = null; let i = 0; while (i < attrs.length) { const attrName = attrs[i]; if (attrName === 0) { i += 4; continue; } else if (attrName === 5) { i += 2; continue; } if (typeof attrName === "number") break; if (inputs.hasOwnProperty(attrName)) { if (inputsToStore === null) inputsToStore = []; const inputConfig = inputs[attrName]; for (let j = 0; j < inputConfig.length; j += 3) { if (inputConfig[j] === directiveIndex) { inputsToStore.push(attrName, inputConfig[j + 1], inputConfig[j + 2], attrs[i + 1]); break; } } } i += 2; } return inputsToStore; } function createLContainer(hostNative, currentView, native, tNode) { ngDevMode && assertLView(currentView); const lContainer = [ hostNative, // host native true, // Boolean `true` in this position signifies that this is an `LContainer` 0, // flags currentView, // parent null, // next tNode, // t_host null, // dehydrated views native, // native, null, // view refs null // moved views ]; ngDevMode && assertEqual(lContainer.length, CONTAINER_HEADER_OFFSET, "Should allocate correct number of slots for LContainer header."); return lContainer; } function refreshContentQueries(tView, lView) { const contentQueries = tView.contentQueries; if (contentQueries !== null) { const prevConsumer = setActiveConsumer(null); try { for (let i = 0; i < contentQueries.length; i += 2) { const queryStartIdx = contentQueries[i]; const directiveDefIdx = contentQueries[i + 1]; if (directiveDefIdx !== -1) { const directiveDef = tView.data[directiveDefIdx]; ngDevMode && assertDefined(directiveDef, "DirectiveDef not found."); ngDevMode && assertDefined(directiveDef.contentQueries, "contentQueries function should be defined"); setCurrentQueryIndex(queryStartIdx); directiveDef.contentQueries(2, lView[directiveDefIdx], directiveDefIdx); } } } finally { setActiveConsumer(prevConsumer); } } } function addToViewTree(lView, lViewOrLContainer) { if (lView[CHILD_HEAD]) { lView[CHILD_TAIL][NEXT] = lViewOrLContainer; } else { lView[CHILD_HEAD] = lViewOrLContainer; } lView[CHILD_TAIL] = lViewOrLContainer; return lViewOrLContainer; } function executeViewQueryFn(flags, viewQueryFn, component) { ngDevMode && assertDefined(viewQueryFn, "View queries function to execute must be defined."); setCurrentQueryIndex(0); const prevConsumer = setActiveConsumer(null); try { viewQueryFn(flags, component); } finally { setActiveConsumer(prevConsumer); } } function storePropertyBindingMetadata(tData, tNode, propertyName, bindingIndex, ...interpolationParts) { if (tData[bindingIndex] === null) { if (tNode.inputs == null || !tNode.inputs[propertyName]) { const propBindingIdxs = tNode.propertyBindings || (tNode.propertyBindings = []); propBindingIdxs.push(bindingIndex); let bindingMetadata = propertyName; if (interpolationParts.length > 0) { bindingMetadata += INTERPOLATION_DELIMITER + interpolationParts.join(INTERPOLATION_DELIMITER); } tData[bindingIndex] = bindingMetadata; } } } function getOrCreateLViewCleanup(view) { return view[CLEANUP] || (view[CLEANUP] = []); } function getOrCreateTViewCleanup(tView) { return tView.cleanup || (tView.cleanup = []); } function loadComponentRenderer(currentDef, tNode, lView) { if (currentDef === null || isComponentDef(currentDef)) { lView = unwrapLView(lView[tNode.index]); } return lView[RENDERER]; } function handleError(lView, error) { const injector = lView[INJECTOR$1]; const errorHandler = injector ? injector.get(ErrorHandler, null) : null; errorHandler && errorHandler.handleError(error); } function setInputsForProperty(tView, lView, inputs, publicName, value) { for (let i = 0; i < inputs.length; ) { const index = inputs[i++]; const privateName = inputs[i++]; const flags = inputs[i++]; const instance = lView[index]; ngDevMode && assertIndexInRange(lView, index); const def = tView.data[index]; writeToDirectiveInput(def, instance, publicName, privateName, flags, value); } } function textBindingInternal(lView, index, value) { ngDevMode && assertString(value, "Value should be a string"); ngDevMode && assertNotSame(value, NO_CHANGE, "value should not be NO_CHANGE"); ngDevMode && assertIndexInRange(lView, index); const element = getNativeByIndex(index, lView); ngDevMode && assertDefined(element, "native element should exist"); updateTextNode(lView[RENDERER], element, value); } function renderComponent(hostLView, componentHostIdx) { ngDevMode && assertEqual(isCreationMode(hostLView), true, "Should be run in creation mode"); const componentView = getComponentLViewByIndex(componentHostIdx, hostLView); const componentTView = componentView[TVIEW]; syncViewWithBlueprint(componentTView, componentView); const hostRNode = componentView[HOST]; if (hostRNode !== null && componentView[HYDRATION] === null) { componentView[HYDRATION] = retrieveHydrationInfo(hostRNode, componentView[INJECTOR$1]); } renderView(componentTView, componentView, componentView[CONTEXT]); } function syncViewWithBlueprint(tView, lView) { for (let i = lView.length; i < tView.blueprint.length; i++) { lView.push(tView.blueprint[i]); } } function renderView(tView, lView, context) { ngDevMode && assertEqual(isCreationMode(lView), true, "Should be run in creation mode"); enterView(lView); try { const viewQuery = tView.viewQuery; if (viewQuery !== null) { executeViewQueryFn(1, viewQuery, context); } const templateFn = tView.template; if (templateFn !== null) { executeTemplate(tView, lView, templateFn, 1, context); } if (tView.firstCreatePass) { tView.firstCreatePass = false; } lView[QUERIES]?.finishViewCreation(tView); if (tView.staticContentQueries) { refreshContentQueries(tView, lView); } if (tView.staticViewQueries) { executeViewQueryFn(2, tView.viewQuery, context); } const components = tView.components; if (components !== null) { renderChildComponents(lView, components); } } catch (error) { if (tView.firstCreatePass) { tView.incompleteFirstPass = true; tView.firstCreatePass = false; } throw error; } finally { lView[FLAGS] &= ~4; leaveView(); } } function renderChildComponents(hostLView, components) { for (let i = 0; i < components.length; i++) { renderComponent(hostLView, components[i]); } } function createAndRenderEmbeddedLView(declarationLView, templateTNode, context, options) { const embeddedTView = templateTNode.tView; ngDevMode && assertDefined(embeddedTView, "TView must be defined for a template node."); ngDevMode && assertTNodeForLView(templateTNode, declarationLView); const isSignalView = declarationLView[FLAGS] & 4096; const viewFlags = isSignalView ? 4096 : 16; const embeddedLView = createLView(declarationLView, embeddedTView, context, viewFlags, null, templateTNode, null, null, null, options?.injector ?? null, options?.dehydratedView ?? null); const declarationLContainer = declarationLView[templateTNode.index]; ngDevMode && assertLContainer(declarationLContainer); embeddedLView[DECLARATION_LCONTAINER] = declarationLContainer; const declarationViewLQueries = declarationLView[QUERIES]; if (declarationViewLQueries !== null) { embeddedLView[QUERIES] = declarationViewLQueries.createEmbeddedView(embeddedTView); } renderView(embeddedTView, embeddedLView, context); return embeddedLView; } function getLViewFromLContainer(lContainer, index) { const adjustedIndex = CONTAINER_HEADER_OFFSET + index; if (adjustedIndex < lContainer.length) { const lView = lContainer[adjustedIndex]; ngDevMode && assertLView(lView); return lView; } return void 0; } function shouldAddViewToDom(tNode, dehydratedView) { return !dehydratedView || dehydratedView.firstChild === null || hasInSkipHydrationBlockFlag(tNode); } function addLViewToLContainer(lContainer, lView, index, addToDOM = true) { const tView = lView[TVIEW]; insertView(tView, lView, lContainer, index); if (addToDOM) { const beforeNode = getBeforeNodeForView(index, lContainer); const renderer = lView[RENDERER]; const parentRNode = nativeParentNode(renderer, lContainer[NATIVE]); if (parentRNode !== null) { addViewToDOM(tView, lContainer[T_HOST], renderer, lView, parentRNode, beforeNode); } } const hydrationInfo = lView[HYDRATION]; if (hydrationInfo !== null && hydrationInfo.firstChild !== null) { hydrationInfo.firstChild = null; } } function removeLViewFromLContainer(lContainer, index) { const lView = detachView(lContainer, index); if (lView !== void 0) { destroyLView(lView[TVIEW], lView); } return lView; } function collectNativeNodes(tView, lView, tNode, result, isProjection = false) { while (tNode !== null) { ngDevMode && assertTNodeType( tNode, 3 | 12 | 16 | 32 /* TNodeType.Icu */ ); const lNode = lView[tNode.index]; if (lNode !== null) { result.push(unwrapRNode(lNode)); } if (isLContainer(lNode)) { collectNativeNodesInLContainer(lNode, result); } const tNodeType = tNode.type; if (tNodeType & 8) { collectNativeNodes(tView, lView, tNode.child, result); } else if (tNodeType & 32) { const nextRNode = icuContainerIterate(tNode, lView); let rNode; while (rNode = nextRNode()) { result.push(rNode); } } else if (tNodeType & 16) { const nodesInSlot = getProjectionNodes(lView, tNode); if (Array.isArray(nodesInSlot)) { result.push(...nodesInSlot); } else { const parentView = getLViewParent(lView[DECLARATION_COMPONENT_VIEW]); ngDevMode && assertParentView(parentView); collectNativeNodes(parentView[TVIEW], parentView, nodesInSlot, result, true); } } tNode = isProjection ? tNode.projectionNext : tNode.next; } return result; } function collectNativeNodesInLContainer(lContainer, result) { for (let i = CONTAINER_HEADER_OFFSET; i < lContainer.length; i++) { const lViewInAContainer = lContainer[i]; const lViewFirstChildTNode = lViewInAContainer[TVIEW].firstChild; if (lViewFirstChildTNode !== null) { collectNativeNodes(lViewInAContainer[TVIEW], lViewInAContainer, lViewFirstChildTNode, result); } } if (lContainer[NATIVE] !== lContainer[HOST]) { result.push(lContainer[NATIVE]); } } var freeConsumers = []; function getOrBorrowReactiveLViewConsumer(lView) { return lView[REACTIVE_TEMPLATE_CONSUMER] ?? borrowReactiveLViewConsumer(lView); } function borrowReactiveLViewConsumer(lView) { const consumer = freeConsumers.pop() ?? Object.create(REACTIVE_LVIEW_CONSUMER_NODE); consumer.lView = lView; return consumer; } function maybeReturnReactiveLViewConsumer(consumer) { if (consumer.lView[REACTIVE_TEMPLATE_CONSUMER] === consumer) { return; } consumer.lView = null; freeConsumers.push(consumer); } var REACTIVE_LVIEW_CONSUMER_NODE = __spreadProps(__spreadValues({}, REACTIVE_NODE), { consumerIsAlwaysLive: true, consumerMarkedDirty: (node) => { markAncestorsForTraversal(node.lView); }, consumerOnSignalRead() { this.lView[REACTIVE_TEMPLATE_CONSUMER] = this; } }); function getRootView(componentOrLView) { ngDevMode && assertDefined(componentOrLView, "component"); let lView = isLView(componentOrLView) ? componentOrLView : readPatchedLView(componentOrLView); while (lView && !(lView[FLAGS] & 512)) { lView = getLViewParent(lView); } ngDevMode && assertLView(lView); return lView; } function getRootContext(viewOrComponent) { const rootView = getRootView(viewOrComponent); ngDevMode && assertDefined(rootView[CONTEXT], "Root view has no context. Perhaps it is disconnected?"); return rootView[CONTEXT]; } function getFirstLContainer(lView) { return getNearestLContainer(lView[CHILD_HEAD]); } function getNextLContainer(container) { return getNearestLContainer(container[NEXT]); } function getNearestLContainer(viewOrContainer) { while (viewOrContainer !== null && !isLContainer(viewOrContainer)) { viewOrContainer = viewOrContainer[NEXT]; } return viewOrContainer; } var MAXIMUM_REFRESH_RERUNS = 100; function detectChangesInternal(lView, notifyErrorHandler = true, mode = 0) { const environment = lView[ENVIRONMENT]; const rendererFactory = environment.rendererFactory; const checkNoChangesMode = !!ngDevMode && isInCheckNoChangesMode(); if (!checkNoChangesMode) { rendererFactory.begin?.(); } try { detectChangesInViewWhileDirty(lView, mode); } catch (error) { if (notifyErrorHandler) { handleError(lView, error); } throw error; } finally { if (!checkNoChangesMode) { rendererFactory.end?.(); environment.inlineEffectRunner?.flush(); } } } function detectChangesInViewWhileDirty(lView, mode) { detectChangesInView(lView, mode); let retries = 0; while (requiresRefreshOrTraversal(lView)) { if (retries === MAXIMUM_REFRESH_RERUNS) { throw new RuntimeError(103, ngDevMode && "Infinite change detection while trying to refresh views. There may be components which each cause the other to require a refresh, causing an infinite loop."); } retries++; detectChangesInView( lView, 1 /* ChangeDetectionMode.Targeted */ ); } } function checkNoChangesInternal(lView, notifyErrorHandler = true) { setIsInCheckNoChangesMode(true); try { detectChangesInternal(lView, notifyErrorHandler); } finally { setIsInCheckNoChangesMode(false); } } function refreshView(tView, lView, templateFn, context) { ngDevMode && assertEqual(isCreationMode(lView), false, "Should be run in update mode"); const flags = lView[FLAGS]; if ((flags & 256) === 256) return; const isInCheckNoChangesPass = ngDevMode && isInCheckNoChangesMode(); !isInCheckNoChangesPass && lView[ENVIRONMENT].inlineEffectRunner?.flush(); enterView(lView); let prevConsumer = null; let currentConsumer = null; if (!isInCheckNoChangesPass && viewShouldHaveReactiveConsumer(tView)) { currentConsumer = getOrBorrowReactiveLViewConsumer(lView); prevConsumer = consumerBeforeComputation(currentConsumer); } try { resetPreOrderHookFlags(lView); setBindingIndex(tView.bindingStartIndex); if (templateFn !== null) { executeTemplate(tView, lView, templateFn, 2, context); } const hooksInitPhaseCompleted = (flags & 3) === 3; if (!isInCheckNoChangesPass) { if (hooksInitPhaseCompleted) { const preOrderCheckHooks = tView.preOrderCheckHooks; if (preOrderCheckHooks !== null) { executeCheckHooks(lView, preOrderCheckHooks, null); } } else { const preOrderHooks = tView.preOrderHooks; if (preOrderHooks !== null) { executeInitAndCheckHooks(lView, preOrderHooks, 0, null); } incrementInitPhaseFlags( lView, 0 /* InitPhaseState.OnInitHooksToBeRun */ ); } } markTransplantedViewsForRefresh(lView); detectChangesInEmbeddedViews( lView, 0 /* ChangeDetectionMode.Global */ ); if (tView.contentQueries !== null) { refreshContentQueries(tView, lView); } if (!isInCheckNoChangesPass) { if (hooksInitPhaseCompleted) { const contentCheckHooks = tView.contentCheckHooks; if (contentCheckHooks !== null) { executeCheckHooks(lView, contentCheckHooks); } } else { const contentHooks = tView.contentHooks; if (contentHooks !== null) { executeInitAndCheckHooks( lView, contentHooks, 1 /* InitPhaseState.AfterContentInitHooksToBeRun */ ); } incrementInitPhaseFlags( lView, 1 /* InitPhaseState.AfterContentInitHooksToBeRun */ ); } } processHostBindingOpCodes(tView, lView); const components = tView.components; if (components !== null) { detectChangesInChildComponents( lView, components, 0 /* ChangeDetectionMode.Global */ ); } const viewQuery = tView.viewQuery; if (viewQuery !== null) { executeViewQueryFn(2, viewQuery, context); } if (!isInCheckNoChangesPass) { if (hooksInitPhaseCompleted) { const viewCheckHooks = tView.viewCheckHooks; if (viewCheckHooks !== null) { executeCheckHooks(lView, viewCheckHooks); } } else { const viewHooks = tView.viewHooks; if (viewHooks !== null) { executeInitAndCheckHooks( lView, viewHooks, 2 /* InitPhaseState.AfterViewInitHooksToBeRun */ ); } incrementInitPhaseFlags( lView, 2 /* InitPhaseState.AfterViewInitHooksToBeRun */ ); } } if (tView.firstUpdatePass === true) { tView.firstUpdatePass = false; } if (lView[EFFECTS_TO_SCHEDULE]) { for (const notifyEffect of lView[EFFECTS_TO_SCHEDULE]) { notifyEffect(); } lView[EFFECTS_TO_SCHEDULE] = null; } if (!isInCheckNoChangesPass) { lView[FLAGS] &= ~(64 | 8); } } catch (e) { markAncestorsForTraversal(lView); throw e; } finally { if (currentConsumer !== null) { consumerAfterComputation(currentConsumer, prevConsumer); maybeReturnReactiveLViewConsumer(currentConsumer); } leaveView(); } } function viewShouldHaveReactiveConsumer(tView) { return tView.type !== 2; } function detectChangesInEmbeddedViews(lView, mode) { for (let lContainer = getFirstLContainer(lView); lContainer !== null; lContainer = getNextLContainer(lContainer)) { for (let i = CONTAINER_HEADER_OFFSET; i < lContainer.length; i++) { const embeddedLView = lContainer[i]; detectChangesInViewIfAttached(embeddedLView, mode); } } } function markTransplantedViewsForRefresh(lView) { for (let lContainer = getFirstLContainer(lView); lContainer !== null; lContainer = getNextLContainer(lContainer)) { if (!(lContainer[FLAGS] & LContainerFlags.HasTransplantedViews)) continue; const movedViews = lContainer[MOVED_VIEWS]; ngDevMode && assertDefined(movedViews, "Transplanted View flags set but missing MOVED_VIEWS"); for (let i = 0; i < movedViews.length; i++) { const movedLView = movedViews[i]; const insertionLContainer = movedLView[PARENT]; ngDevMode && assertLContainer(insertionLContainer); markViewForRefresh(movedLView); } } } function detectChangesInComponent(hostLView, componentHostIdx, mode) { ngDevMode && assertEqual(isCreationMode(hostLView), false, "Should be run in update mode"); const componentView = getComponentLViewByIndex(componentHostIdx, hostLView); detectChangesInViewIfAttached(componentView, mode); } function detectChangesInViewIfAttached(lView, mode) { if (!viewAttachedToChangeDetector(lView)) { return; } detectChangesInView(lView, mode); } function detectChangesInView(lView, mode) { const isInCheckNoChangesPass = ngDevMode && isInCheckNoChangesMode(); const tView = lView[TVIEW]; const flags = lView[FLAGS]; const consumer = lView[REACTIVE_TEMPLATE_CONSUMER]; let shouldRefreshView = !!(mode === 0 && flags & 16); shouldRefreshView ||= !!(flags & 64 && mode === 0 && !isInCheckNoChangesPass); shouldRefreshView ||= !!(flags & 1024); shouldRefreshView ||= !!(consumer?.dirty && consumerPollProducersForChange(consumer)); if (consumer) { consumer.dirty = false; } lView[FLAGS] &= ~(8192 | 1024); if (shouldRefreshView) { refreshView(tView, lView, tView.template, lView[CONTEXT]); } else if (flags & 8192) { detectChangesInEmbeddedViews( lView, 1 /* ChangeDetectionMode.Targeted */ ); const components = tView.components; if (components !== null) { detectChangesInChildComponents( lView, components, 1 /* ChangeDetectionMode.Targeted */ ); } } } function detectChangesInChildComponents(hostLView, components, mode) { for (let i = 0; i < components.length; i++) { detectChangesInComponent(hostLView, components[i], mode); } } function markViewDirty(lView) { lView[ENVIRONMENT].changeDetectionScheduler?.notify(); while (lView) { lView[FLAGS] |= 64; const parent = getLViewParent(lView); if (isRootView(lView) && !parent) { return lView; } lView = parent; } return null; } var ViewRef$1 = class { get rootNodes() { const lView = this._lView; const tView = lView[TVIEW]; return collectNativeNodes(tView, lView, tView.firstChild, []); } constructor(_lView, _cdRefInjectingView, notifyErrorHandler = true) { this._lView = _lView; this._cdRefInjectingView = _cdRefInjectingView; this.notifyErrorHandler = notifyErrorHandler; this._appRef = null; this._attachedToViewContainer = false; } get context() { return this._lView[CONTEXT]; } /** * @deprecated Replacing the full context object is not supported. Modify the context * directly, or consider using a `Proxy` if you need to replace the full object. * // TODO(devversion): Remove this. */ set context(value) { if (ngDevMode) { console.warn("Angular: Replacing the `context` object of an `EmbeddedViewRef` is deprecated."); } this._lView[CONTEXT] = value; } get destroyed() { return (this._lView[FLAGS] & 256) === 256; } destroy() { if (this._appRef) { this._appRef.detachView(this); } else if (this._attachedToViewContainer) { const parent = this._lView[PARENT]; if (isLContainer(parent)) { const viewRefs = parent[VIEW_REFS]; const index = viewRefs ? viewRefs.indexOf(this) : -1; if (index > -1) { ngDevMode && assertEqual(index, parent.indexOf(this._lView) - CONTAINER_HEADER_OFFSET, "An attached view should be in the same position within its container as its ViewRef in the VIEW_REFS array."); detachView(parent, index); removeFromArray(viewRefs, index); } } this._attachedToViewContainer = false; } destroyLView(this._lView[TVIEW], this._lView); } onDestroy(callback) { storeLViewOnDestroy(this._lView, callback); } /** * Marks a view and all of its ancestors dirty. * * This can be used to ensure an {@link ChangeDetectionStrategy#OnPush} component is * checked when it needs to be re-rendered but the two normal triggers haven't marked it * dirty (i.e. inputs haven't changed and events haven't fired in the view). * * * * @usageNotes * ### Example * * ```typescript * @Component({ * selector: 'app-root', * template: `Number of ticks: {{numberOfTicks}}` * changeDetection: ChangeDetectionStrategy.OnPush, * }) * class AppComponent { * numberOfTicks = 0; * * constructor(private ref: ChangeDetectorRef) { * setInterval(() => { * this.numberOfTicks++; * // the following is required, otherwise the view will not be updated * this.ref.markForCheck(); * }, 1000); * } * } * ``` */ markForCheck() { markViewDirty(this._cdRefInjectingView || this._lView); } /** * Detaches the view from the change detection tree. * * Detached views will not be checked during change detection runs until they are * re-attached, even if they are dirty. `detach` can be used in combination with * {@link ChangeDetectorRef#detectChanges} to implement local change * detection checks. * * * * * @usageNotes * ### Example * * The following example defines a component with a large list of readonly data. * Imagine the data changes constantly, many times per second. For performance reasons, * we want to check and update the list every five seconds. We can do that by detaching * the component's change detector and doing a local check every five seconds. * * ```typescript * class DataProvider { * // in a real application the returned data will be different every time * get data() { * return [1,2,3,4,5]; * } * } * * @Component({ * selector: 'giant-list', * template: ` *
  • Data {{d}}
    • * `, * }) * class GiantList { * constructor(private ref: ChangeDetectorRef, private dataProvider: DataProvider) { * ref.detach(); * setInterval(() => { * this.ref.detectChanges(); * }, 5000); * } * } * * @Component({ * selector: 'app', * providers: [DataProvider], * template: ` * * `, * }) * class App { * } * ``` */ detach() { this._lView[FLAGS] &= ~128; } /** * Re-attaches a view to the change detection tree. * * This can be used to re-attach views that were previously detached from the tree * using {@link ChangeDetectorRef#detach}. Views are attached to the tree by default. * * * * @usageNotes * ### Example * * The following example creates a component displaying `live` data. The component will detach * its change detector from the main change detector tree when the component's live property * is set to false. * * ```typescript * class DataProvider { * data = 1; * * constructor() { * setInterval(() => { * this.data = this.data * 2; * }, 500); * } * } * * @Component({ * selector: 'live-data', * inputs: ['live'], * template: 'Data: {{dataProvider.data}}' * }) * class LiveData { * constructor(private ref: ChangeDetectorRef, private dataProvider: DataProvider) {} * * set live(value) { * if (value) { * this.ref.reattach(); * } else { * this.ref.detach(); * } * } * } * * @Component({ * selector: 'app-root', * providers: [DataProvider], * template: ` * Live Update: * * `, * }) * class AppComponent { * live = true; * } * ``` */ reattach() { updateAncestorTraversalFlagsOnAttach(this._lView); this._lView[FLAGS] |= 128; } /** * Checks the view and its children. * * This can also be used in combination with {@link ChangeDetectorRef#detach} to implement * local change detection checks. * * * * * @usageNotes * ### Example * * The following example defines a component with a large list of readonly data. * Imagine, the data changes constantly, many times per second. For performance reasons, * we want to check and update the list every five seconds. * * We can do that by detaching the component's change detector and doing a local change detection * check every five seconds. * * See {@link ChangeDetectorRef#detach} for more information. */ detectChanges() { this._lView[FLAGS] |= 1024; detectChangesInternal(this._lView, this.notifyErrorHandler); } /** * Checks the change detector and its children, and throws if any changes are detected. * * This is used in development mode to verify that running change detection doesn't * introduce other changes. */ checkNoChanges() { if (ngDevMode) { checkNoChangesInternal(this._lView, this.notifyErrorHandler); } } attachToViewContainerRef() { if (this._appRef) { throw new RuntimeError(902, ngDevMode && "This view is already attached directly to the ApplicationRef!"); } this._attachedToViewContainer = true; } detachFromAppRef() { this._appRef = null; detachViewFromDOM(this._lView[TVIEW], this._lView); } attachToAppRef(appRef) { if (this._attachedToViewContainer) { throw new RuntimeError(902, ngDevMode && "This view is already attached to a ViewContainer!"); } this._appRef = appRef; updateAncestorTraversalFlagsOnAttach(this._lView); } }; var _TemplateRef = class _TemplateRef { }; _TemplateRef.__NG_ELEMENT_ID__ = injectTemplateRef; var TemplateRef = _TemplateRef; var ViewEngineTemplateRef = TemplateRef; var R3TemplateRef = class TemplateRef2 extends ViewEngineTemplateRef { constructor(_declarationLView, _declarationTContainer, elementRef) { super(); this._declarationLView = _declarationLView; this._declarationTContainer = _declarationTContainer; this.elementRef = elementRef; } /** * Returns an `ssrId` associated with a TView, which was used to * create this instance of the `TemplateRef`. * * @internal */ get ssrId() { return this._declarationTContainer.tView?.ssrId || null; } createEmbeddedView(context, injector) { return this.createEmbeddedViewImpl(context, injector); } /** * @internal */ createEmbeddedViewImpl(context, injector, dehydratedView) { const embeddedLView = createAndRenderEmbeddedLView(this._declarationLView, this._declarationTContainer, context, { injector, dehydratedView }); return new ViewRef$1(embeddedLView); } }; function injectTemplateRef() { return createTemplateRef(getCurrentTNode(), getLView()); } function createTemplateRef(hostTNode, hostLView) { if (hostTNode.type & 4) { ngDevMode && assertDefined(hostTNode.tView, "TView must be allocated"); return new R3TemplateRef(hostLView, hostTNode, createElementRef(hostTNode, hostLView)); } return null; } var AT_THIS_LOCATION = "<-- AT THIS LOCATION"; function getFriendlyStringFromTNodeType(tNodeType) { switch (tNodeType) { case 4: return "view container"; case 2: return "element"; case 8: return "ng-container"; case 32: return "icu"; case 64: return "i18n"; case 16: return "projection"; case 1: return "text"; default: return ""; } } function validateMatchingNode(node, nodeType, tagName, lView, tNode, isViewContainerAnchor = false) { if (!node || (node.nodeType !== nodeType || node.nodeType === Node.ELEMENT_NODE && node.tagName.toLowerCase() !== tagName?.toLowerCase())) { const expectedNode = shortRNodeDescription(nodeType, tagName, null); let header = `During hydration Angular expected ${expectedNode} but `; const hostComponentDef = getDeclarationComponentDef(lView); const componentClassName = hostComponentDef?.type?.name; const expectedDom = describeExpectedDom(lView, tNode, isViewContainerAnchor); const expected = `Angular expected this DOM: ${expectedDom} `; let actual = ""; if (!node) { header += `the node was not found. `; markRNodeAsHavingHydrationMismatch(unwrapRNode(lView[HOST]), expectedDom); } else { const actualNode = shortRNodeDescription(node.nodeType, node.tagName ?? null, node.textContent ?? null); header += `found ${actualNode}. `; const actualDom = describeDomFromNode(node); actual = `Actual DOM is: ${actualDom} `; markRNodeAsHavingHydrationMismatch(node, expectedDom, actualDom); } const footer = getHydrationErrorFooter(componentClassName); const message = header + expected + actual + getHydrationAttributeNote() + footer; throw new RuntimeError(-500, message); } } function validateSiblingNodeExists(node) { validateNodeExists(node); if (!node.nextSibling) { const header = "During hydration Angular expected more sibling nodes to be present.\n\n"; const actual = `Actual DOM is: ${describeDomFromNode(node)} `; const footer = getHydrationErrorFooter(); const message = header + actual + footer; markRNodeAsHavingHydrationMismatch(node, "", actual); throw new RuntimeError(-501, message); } } function validateNodeExists(node, lView = null, tNode = null) { if (!node) { const header = "During hydration, Angular expected an element to be present at this location.\n\n"; let expected = ""; let footer = ""; if (lView !== null && tNode !== null) { expected = describeExpectedDom(lView, tNode, false); footer = getHydrationErrorFooter(); markRNodeAsHavingHydrationMismatch(unwrapRNode(lView[HOST]), expected, ""); } throw new RuntimeError(-502, `${header}${expected} ${footer}`); } } function nodeNotFoundError(lView, tNode) { const header = "During serialization, Angular was unable to find an element in the DOM:\n\n"; const expected = `${describeExpectedDom(lView, tNode, false)} `; const footer = getHydrationErrorFooter(); throw new RuntimeError(-502, header + expected + footer); } function nodeNotFoundAtPathError(host, path) { const header = `During hydration Angular was unable to locate a node using the "${path}" path, starting from the ${describeRNode(host)} node. `; const footer = getHydrationErrorFooter(); markRNodeAsHavingHydrationMismatch(host); throw new RuntimeError(-502, header + footer); } function unsupportedProjectionOfDomNodes(rNode) { const header = "During serialization, Angular detected DOM nodes that were created outside of Angular context and provided as projectable nodes (likely via `ViewContainerRef.createComponent` or `createComponent` APIs). Hydration is not supported for such cases, consider refactoring the code to avoid this pattern or using `ngSkipHydration` on the host element of the component.\n\n"; const actual = `${describeDomFromNode(rNode)} `; const message = header + actual + getHydrationAttributeNote(); return new RuntimeError(-503, message); } function invalidSkipHydrationHost(rNode) { const header = "The `ngSkipHydration` flag is applied on a node that doesn't act as a component host. Hydration can be skipped only on per-component basis.\n\n"; const actual = `${describeDomFromNode(rNode)} `; const footer = "Please move the `ngSkipHydration` attribute to the component host element.\n\n"; const message = header + actual + footer; return new RuntimeError(-504, message); } function stringifyTNodeAttrs(tNode) { const results = []; if (tNode.attrs) { for (let i = 0; i < tNode.attrs.length; ) { const attrName = tNode.attrs[i++]; if (typeof attrName == "number") { break; } const attrValue = tNode.attrs[i++]; results.push(`${attrName}="${shorten(attrValue)}"`); } } return results.join(" "); } var internalAttrs = /* @__PURE__ */ new Set(["ngh", "ng-version", "ng-server-context"]); function stringifyRNodeAttrs(rNode) { const results = []; for (let i = 0; i < rNode.attributes.length; i++) { const attr = rNode.attributes[i]; if (internalAttrs.has(attr.name)) continue; results.push(`${attr.name}="${shorten(attr.value)}"`); } return results.join(" "); } function describeTNode(tNode, innerContent = "…") { switch (tNode.type) { case 1: const content = tNode.value ? `(${tNode.value})` : ""; return `#text${content}`; case 2: const attrs = stringifyTNodeAttrs(tNode); const tag = tNode.value.toLowerCase(); return `<${tag}${attrs ? " " + attrs : ""}>${innerContent}`; case 8: return ""; case 4: return ""; default: const typeAsString = getFriendlyStringFromTNodeType(tNode.type); return `#node(${typeAsString})`; } } function describeRNode(rNode, innerContent = "…") { const node = rNode; switch (node.nodeType) { case Node.ELEMENT_NODE: const tag = node.tagName.toLowerCase(); const attrs = stringifyRNodeAttrs(node); return `<${tag}${attrs ? " " + attrs : ""}>${innerContent}`; case Node.TEXT_NODE: const content = node.textContent ? shorten(node.textContent) : ""; return `#text${content ? `(${content})` : ""}`; case Node.COMMENT_NODE: return ``; default: return `#node(${node.nodeType})`; } } function describeExpectedDom(lView, tNode, isViewContainerAnchor) { const spacer = " "; let content = ""; if (tNode.prev) { content += spacer + "…\n"; content += spacer + describeTNode(tNode.prev) + "\n"; } else if (tNode.type && tNode.type & 12) { content += spacer + "…\n"; } if (isViewContainerAnchor) { content += spacer + describeTNode(tNode) + "\n"; content += spacer + ` ${AT_THIS_LOCATION} `; } else { content += spacer + describeTNode(tNode) + ` ${AT_THIS_LOCATION} `; } content += spacer + "…\n"; const parentRNode = tNode.type ? getParentRElement(lView[TVIEW], tNode, lView) : null; if (parentRNode) { content = describeRNode(parentRNode, "\n" + content); } return content; } function describeDomFromNode(node) { const spacer = " "; let content = ""; const currentNode = node; if (currentNode.previousSibling) { content += spacer + "…\n"; content += spacer + describeRNode(currentNode.previousSibling) + "\n"; } content += spacer + describeRNode(currentNode) + ` ${AT_THIS_LOCATION} `; if (node.nextSibling) { content += spacer + "…\n"; } if (node.parentNode) { content = describeRNode(currentNode.parentNode, "\n" + content); } return content; } function shortRNodeDescription(nodeType, tagName, textContent) { switch (nodeType) { case Node.ELEMENT_NODE: return `<${tagName.toLowerCase()}>`; case Node.TEXT_NODE: const content = textContent ? ` (with the "${shorten(textContent)}" content)` : ""; return `a text node${content}`; case Node.COMMENT_NODE: return "a comment node"; default: return `#node(nodeType=${nodeType})`; } } function getHydrationErrorFooter(componentClassName) { const componentInfo = componentClassName ? `the "${componentClassName}"` : "corresponding"; return `To fix this problem: * check ${componentInfo} component for hydration-related issues * check to see if your template has valid HTML structure * or skip hydration by adding the \`ngSkipHydration\` attribute to its host node in a template `; } function getHydrationAttributeNote() { return "Note: attributes are only displayed to better represent the DOM but have no effect on hydration mismatches.\n\n"; } function stripNewlines(input2) { return input2.replace(/\s+/gm, ""); } function shorten(input2, maxLength = 50) { if (!input2) { return ""; } input2 = stripNewlines(input2); return input2.length > maxLength ? `${input2.substring(0, maxLength - 1)}…` : input2; } function removeDehydratedViews(lContainer) { const views = lContainer[DEHYDRATED_VIEWS] ?? []; const parentLView = lContainer[PARENT]; const renderer = parentLView[RENDERER]; for (const view of views) { removeDehydratedView(view, renderer); ngDevMode && ngDevMode.dehydratedViewsRemoved++; } lContainer[DEHYDRATED_VIEWS] = EMPTY_ARRAY; } function removeDehydratedView(dehydratedView, renderer) { let nodesRemoved = 0; let currentRNode = dehydratedView.firstChild; if (currentRNode) { const numNodes = dehydratedView.data[NUM_ROOT_NODES]; while (nodesRemoved < numNodes) { ngDevMode && validateSiblingNodeExists(currentRNode); const nextSibling = currentRNode.nextSibling; nativeRemoveNode(renderer, currentRNode, false); currentRNode = nextSibling; nodesRemoved++; } } } function cleanupLContainer(lContainer) { removeDehydratedViews(lContainer); for (let i = CONTAINER_HEADER_OFFSET; i < lContainer.length; i++) { cleanupLView(lContainer[i]); } } function cleanupLView(lView) { const tView = lView[TVIEW]; for (let i = HEADER_OFFSET; i < tView.bindingStartIndex; i++) { if (isLContainer(lView[i])) { const lContainer = lView[i]; cleanupLContainer(lContainer); } else if (isLView(lView[i])) { cleanupLView(lView[i]); } } } function cleanupDehydratedViews(appRef) { const viewRefs = appRef._views; for (const viewRef of viewRefs) { const lNode = getLNodeForHydration(viewRef); if (lNode !== null && lNode[HOST] !== null) { if (isLView(lNode)) { cleanupLView(lNode); } else { const componentLView = lNode[HOST]; cleanupLView(componentLView); cleanupLContainer(lNode); } ngDevMode && ngDevMode.dehydratedViewsCleanupRuns++; } } } var REF_EXTRACTOR_REGEXP = new RegExp(`^(\\d+)*(${REFERENCE_NODE_BODY}|${REFERENCE_NODE_HOST})*(.*)`); function compressNodeLocation(referenceNode, path) { const result = [referenceNode]; for (const segment of path) { const lastIdx = result.length - 1; if (lastIdx > 0 && result[lastIdx - 1] === segment) { const value = result[lastIdx] || 1; result[lastIdx] = value + 1; } else { result.push(segment, ""); } } return result.join(""); } function decompressNodeLocation(path) { const matches = path.match(REF_EXTRACTOR_REGEXP); const [_, refNodeId, refNodeName, rest] = matches; const ref = refNodeId ? parseInt(refNodeId, 10) : refNodeName; const steps = []; for (const [_2, step, count2] of rest.matchAll(/(f|n)(\d*)/g)) { const repeat2 = parseInt(count2, 10) || 1; steps.push(step, repeat2); } return [ref, ...steps]; } function isFirstElementInNgContainer(tNode) { return !tNode.prev && tNode.parent?.type === 8; } function getNoOffsetIndex(tNode) { return tNode.index - HEADER_OFFSET; } function isDisconnectedNode(tNode, lView) { return !(tNode.type & 16) && !!lView[tNode.index] && !unwrapRNode(lView[tNode.index])?.isConnected; } function locateNextRNode(hydrationInfo, tView, lView, tNode) { let native = null; const noOffsetIndex = getNoOffsetIndex(tNode); const nodes = hydrationInfo.data[NODES]; if (nodes?.[noOffsetIndex]) { native = locateRNodeByPath(nodes[noOffsetIndex], lView); } else if (tView.firstChild === tNode) { native = hydrationInfo.firstChild; } else { const previousTNodeParent = tNode.prev === null; const previousTNode = tNode.prev ?? tNode.parent; ngDevMode && assertDefined(previousTNode, "Unexpected state: current TNode does not have a connection to the previous node or a parent node."); if (isFirstElementInNgContainer(tNode)) { const noOffsetParentIndex = getNoOffsetIndex(tNode.parent); native = getSegmentHead(hydrationInfo, noOffsetParentIndex); } else { let previousRElement = getNativeByTNode(previousTNode, lView); if (previousTNodeParent) { native = previousRElement.firstChild; } else { const noOffsetPrevSiblingIndex = getNoOffsetIndex(previousTNode); const segmentHead = getSegmentHead(hydrationInfo, noOffsetPrevSiblingIndex); if (previousTNode.type === 2 && segmentHead) { const numRootNodesToSkip = calcSerializedContainerSize(hydrationInfo, noOffsetPrevSiblingIndex); const nodesToSkip = numRootNodesToSkip + 1; native = siblingAfter(nodesToSkip, segmentHead); } else { native = previousRElement.nextSibling; } } } } return native; } function siblingAfter(skip2, from) { let currentNode = from; for (let i = 0; i < skip2; i++) { ngDevMode && validateSiblingNodeExists(currentNode); currentNode = currentNode.nextSibling; } return currentNode; } function stringifyNavigationInstructions(instructions) { const container = []; for (let i = 0; i < instructions.length; i += 2) { const step = instructions[i]; const repeat2 = instructions[i + 1]; for (let r = 0; r < repeat2; r++) { container.push(step === NodeNavigationStep.FirstChild ? "firstChild" : "nextSibling"); } } return container.join("."); } function navigateToNode(from, instructions) { let node = from; for (let i = 0; i < instructions.length; i += 2) { const step = instructions[i]; const repeat2 = instructions[i + 1]; for (let r = 0; r < repeat2; r++) { if (ngDevMode && !node) { throw nodeNotFoundAtPathError(from, stringifyNavigationInstructions(instructions)); } switch (step) { case NodeNavigationStep.FirstChild: node = node.firstChild; break; case NodeNavigationStep.NextSibling: node = node.nextSibling; break; } } } if (ngDevMode && !node) { throw nodeNotFoundAtPathError(from, stringifyNavigationInstructions(instructions)); } return node; } function locateRNodeByPath(path, lView) { const [referenceNode, ...navigationInstructions] = decompressNodeLocation(path); let ref; if (referenceNode === REFERENCE_NODE_HOST) { ref = lView[DECLARATION_COMPONENT_VIEW][HOST]; } else if (referenceNode === REFERENCE_NODE_BODY) { ref = ɵɵresolveBody(lView[DECLARATION_COMPONENT_VIEW][HOST]); } else { const parentElementId = Number(referenceNode); ref = unwrapRNode(lView[parentElementId + HEADER_OFFSET]); } return navigateToNode(ref, navigationInstructions); } function navigateBetween(start, finish) { if (start === finish) { return []; } else if (start.parentElement == null || finish.parentElement == null) { return null; } else if (start.parentElement === finish.parentElement) { return navigateBetweenSiblings(start, finish); } else { const parent = finish.parentElement; const parentPath = navigateBetween(start, parent); const childPath = navigateBetween(parent.firstChild, finish); if (!parentPath || !childPath) return null; return [ // First navigate to `finish`'s parent ...parentPath, // Then to its first child. NodeNavigationStep.FirstChild, // And finally from that node to `finish` (maybe a no-op if we're already there). ...childPath ]; } } function navigateBetweenSiblings(start, finish) { const nav = []; let node = null; for (node = start; node != null && node !== finish; node = node.nextSibling) { nav.push(NodeNavigationStep.NextSibling); } return node == null ? null : nav; } function calcPathBetween(from, to, fromNodeName) { const path = navigateBetween(from, to); return path === null ? null : compressNodeLocation(fromNodeName, path); } function calcPathForNode(tNode, lView) { let parentTNode = tNode.parent; let parentIndex; let parentRNode; let referenceNodeName; while (parentTNode !== null && isDisconnectedNode(parentTNode, lView)) { parentTNode = parentTNode.parent; } if (parentTNode === null || !(parentTNode.type & 3)) { parentIndex = referenceNodeName = REFERENCE_NODE_HOST; parentRNode = lView[DECLARATION_COMPONENT_VIEW][HOST]; } else { parentIndex = parentTNode.index; parentRNode = unwrapRNode(lView[parentIndex]); referenceNodeName = renderStringify(parentIndex - HEADER_OFFSET); } let rNode = unwrapRNode(lView[tNode.index]); if (tNode.type & 12) { const firstRNode = getFirstNativeNode(lView, tNode); if (firstRNode) { rNode = firstRNode; } } let path = calcPathBetween(parentRNode, rNode, referenceNodeName); if (path === null && parentRNode !== rNode) { const body = parentRNode.ownerDocument.body; path = calcPathBetween(body, rNode, REFERENCE_NODE_BODY); if (path === null) { throw nodeNotFoundError(lView, tNode); } } return path; } function locateDehydratedViewsInContainer(currentRNode, serializedViews) { const dehydratedViews = []; for (const serializedView of serializedViews) { for (let i = 0; i < (serializedView[MULTIPLIER] ?? 1); i++) { const view = { data: serializedView, firstChild: null }; if (serializedView[NUM_ROOT_NODES] > 0) { view.firstChild = currentRNode; currentRNode = siblingAfter(serializedView[NUM_ROOT_NODES], currentRNode); } dehydratedViews.push(view); } } return [currentRNode, dehydratedViews]; } var _findMatchingDehydratedViewImpl = () => null; function findMatchingDehydratedViewImpl(lContainer, template) { const views = lContainer[DEHYDRATED_VIEWS]; if (!template || views === null || views.length === 0) { return null; } const view = views[0]; if (view.data[TEMPLATE_ID] === template) { return views.shift(); } else { removeDehydratedViews(lContainer); return null; } } function enableFindMatchingDehydratedViewImpl() { _findMatchingDehydratedViewImpl = findMatchingDehydratedViewImpl; } function findMatchingDehydratedView(lContainer, template) { return _findMatchingDehydratedViewImpl(lContainer, template); } var ChangeDetectionScheduler = class { }; var ComponentRef$1 = class { }; var ComponentFactory$1 = class { }; function noComponentFactoryError(component) { const error = Error(`No component factory found for ${stringify(component)}.`); error[ERROR_COMPONENT] = component; return error; } var ERROR_COMPONENT = "ngComponent"; var _NullComponentFactoryResolver = class { resolveComponentFactory(component) { throw noComponentFactoryError(component); } }; var _ComponentFactoryResolver$1 = class _ComponentFactoryResolver$1 { }; _ComponentFactoryResolver$1.NULL = new _NullComponentFactoryResolver(); var ComponentFactoryResolver$1 = _ComponentFactoryResolver$1; var RendererFactory2 = class { }; var _Renderer2 = class _Renderer2 { constructor() { this.destroyNode = null; } }; _Renderer2.__NG_ELEMENT_ID__ = () => injectRenderer2(); var Renderer2 = _Renderer2; function injectRenderer2() { const lView = getLView(); const tNode = getCurrentTNode(); const nodeAtIndex = getComponentLViewByIndex(tNode.index, lView); return (isLView(nodeAtIndex) ? nodeAtIndex : lView)[RENDERER]; } var _Sanitizer = class _Sanitizer { }; _Sanitizer.ɵprov = ɵɵdefineInjectable({ token: _Sanitizer, providedIn: "root", factory: () => null }); var Sanitizer = _Sanitizer; var NOT_FOUND_CHECK_ONLY_ELEMENT_INJECTOR = {}; function isSignal(value) { return typeof value === "function" && value[SIGNAL] !== void 0; } function computed(computation, options) { const getter = createComputed(computation); if (options?.equal) { getter[SIGNAL].equal = options.equal; } if (ngDevMode) { getter.toString = () => `[Computed: ${getter()}]`; } return getter; } var WRITABLE_SIGNAL = Symbol("WRITABLE_SIGNAL"); function ɵunwrapWritableSignal(value) { return null; } function signal(initialValue, options) { const signalFn = createSignal(initialValue); const node = signalFn[SIGNAL]; if (options?.equal) { node.equal = options.equal; } signalFn.set = (newValue) => signalSetFn(node, newValue); signalFn.update = (updateFn) => signalUpdateFn(node, updateFn); signalFn.asReadonly = signalAsReadonlyFn.bind(signalFn); if (ngDevMode) { signalFn.toString = () => `[Signal: ${signalFn()}]`; } return signalFn; } function signalAsReadonlyFn() { const node = this[SIGNAL]; if (node.readonlyFn === void 0) { const readonlyFn = () => this(); readonlyFn[SIGNAL] = node; node.readonlyFn = readonlyFn; } return node.readonlyFn; } function isWritableSignal(value) { return isSignal(value) && typeof value.set === "function"; } function untracked(nonReactiveReadsFn) { const prevConsumer = setActiveConsumer(null); try { return nonReactiveReadsFn(); } finally { setActiveConsumer(prevConsumer); } } function isListLikeIterable(obj) { if (!isJsObject(obj)) return false; return Array.isArray(obj) || !(obj instanceof Map) && // JS Map are iterables but return entries as [k, v] Symbol.iterator in obj; } function areIterablesEqual(a, b, comparator) { const iterator1 = a[Symbol.iterator](); const iterator2 = b[Symbol.iterator](); while (true) { const item1 = iterator1.next(); const item2 = iterator2.next(); if (item1.done && item2.done) return true; if (item1.done || item2.done) return false; if (!comparator(item1.value, item2.value)) return false; } } function iterateListLike(obj, fn) { if (Array.isArray(obj)) { for (let i = 0; i < obj.length; i++) { fn(obj[i]); } } else { const iterator = obj[Symbol.iterator](); let item; while (!(item = iterator.next()).done) { fn(item.value); } } } function isJsObject(o) { return o !== null && (typeof o === "function" || typeof o === "object"); } var DefaultIterableDifferFactory = class { constructor() { } supports(obj) { return isListLikeIterable(obj); } create(trackByFn) { return new DefaultIterableDiffer(trackByFn); } }; var trackByIdentity = (index, item) => item; var DefaultIterableDiffer = class { constructor(trackByFn) { this.length = 0; this._linkedRecords = null; this._unlinkedRecords = null; this._previousItHead = null; this._itHead = null; this._itTail = null; this._additionsHead = null; this._additionsTail = null; this._movesHead = null; this._movesTail = null; this._removalsHead = null; this._removalsTail = null; this._identityChangesHead = null; this._identityChangesTail = null; this._trackByFn = trackByFn || trackByIdentity; } forEachItem(fn) { let record; for (record = this._itHead; record !== null; record = record._next) { fn(record); } } forEachOperation(fn) { let nextIt = this._itHead; let nextRemove = this._removalsHead; let addRemoveOffset = 0; let moveOffsets = null; while (nextIt || nextRemove) { const record = !nextRemove || nextIt && nextIt.currentIndex < getPreviousIndex(nextRemove, addRemoveOffset, moveOffsets) ? nextIt : nextRemove; const adjPreviousIndex = getPreviousIndex(record, addRemoveOffset, moveOffsets); const currentIndex = record.currentIndex; if (record === nextRemove) { addRemoveOffset--; nextRemove = nextRemove._nextRemoved; } else { nextIt = nextIt._next; if (record.previousIndex == null) { addRemoveOffset++; } else { if (!moveOffsets) moveOffsets = []; const localMovePreviousIndex = adjPreviousIndex - addRemoveOffset; const localCurrentIndex = currentIndex - addRemoveOffset; if (localMovePreviousIndex != localCurrentIndex) { for (let i = 0; i < localMovePreviousIndex; i++) { const offset = i < moveOffsets.length ? moveOffsets[i] : moveOffsets[i] = 0; const index = offset + i; if (localCurrentIndex <= index && index < localMovePreviousIndex) { moveOffsets[i] = offset + 1; } } const previousIndex = record.previousIndex; moveOffsets[previousIndex] = localCurrentIndex - localMovePreviousIndex; } } } if (adjPreviousIndex !== currentIndex) { fn(record, adjPreviousIndex, currentIndex); } } } forEachPreviousItem(fn) { let record; for (record = this._previousItHead; record !== null; record = record._nextPrevious) { fn(record); } } forEachAddedItem(fn) { let record; for (record = this._additionsHead; record !== null; record = record._nextAdded) { fn(record); } } forEachMovedItem(fn) { let record; for (record = this._movesHead; record !== null; record = record._nextMoved) { fn(record); } } forEachRemovedItem(fn) { let record; for (record = this._removalsHead; record !== null; record = record._nextRemoved) { fn(record); } } forEachIdentityChange(fn) { let record; for (record = this._identityChangesHead; record !== null; record = record._nextIdentityChange) { fn(record); } } diff(collection) { if (collection == null) collection = []; if (!isListLikeIterable(collection)) { throw new RuntimeError(900, ngDevMode && `Error trying to diff '${stringify(collection)}'. Only arrays and iterables are allowed`); } if (this.check(collection)) { return this; } else { return null; } } onDestroy() { } check(collection) { this._reset(); let record = this._itHead; let mayBeDirty = false; let index; let item; let itemTrackBy; if (Array.isArray(collection)) { this.length = collection.length; for (let index2 = 0; index2 < this.length; index2++) { item = collection[index2]; itemTrackBy = this._trackByFn(index2, item); if (record === null || !Object.is(record.trackById, itemTrackBy)) { record = this._mismatch(record, item, itemTrackBy, index2); mayBeDirty = true; } else { if (mayBeDirty) { record = this._verifyReinsertion(record, item, itemTrackBy, index2); } if (!Object.is(record.item, item)) this._addIdentityChange(record, item); } record = record._next; } } else { index = 0; iterateListLike(collection, (item2) => { itemTrackBy = this._trackByFn(index, item2); if (record === null || !Object.is(record.trackById, itemTrackBy)) { record = this._mismatch(record, item2, itemTrackBy, index); mayBeDirty = true; } else { if (mayBeDirty) { record = this._verifyReinsertion(record, item2, itemTrackBy, index); } if (!Object.is(record.item, item2)) this._addIdentityChange(record, item2); } record = record._next; index++; }); this.length = index; } this._truncate(record); this.collection = collection; return this.isDirty; } /* CollectionChanges is considered dirty if it has any additions, moves, removals, or identity * changes. */ get isDirty() { return this._additionsHead !== null || this._movesHead !== null || this._removalsHead !== null || this._identityChangesHead !== null; } /** * Reset the state of the change objects to show no changes. This means set previousKey to * currentKey, and clear all of the queues (additions, moves, removals). * Set the previousIndexes of moved and added items to their currentIndexes * Reset the list of additions, moves and removals * * @internal */ _reset() { if (this.isDirty) { let record; for (record = this._previousItHead = this._itHead; record !== null; record = record._next) { record._nextPrevious = record._next; } for (record = this._additionsHead; record !== null; record = record._nextAdded) { record.previousIndex = record.currentIndex; } this._additionsHead = this._additionsTail = null; for (record = this._movesHead; record !== null; record = record._nextMoved) { record.previousIndex = record.currentIndex; } this._movesHead = this._movesTail = null; this._removalsHead = this._removalsTail = null; this._identityChangesHead = this._identityChangesTail = null; } } /** * This is the core function which handles differences between collections. * * - `record` is the record which we saw at this position last time. If null then it is a new * item. * - `item` is the current item in the collection * - `index` is the position of the item in the collection * * @internal */ _mismatch(record, item, itemTrackBy, index) { let previousRecord; if (record === null) { previousRecord = this._itTail; } else { previousRecord = record._prev; this._remove(record); } record = this._unlinkedRecords === null ? null : this._unlinkedRecords.get(itemTrackBy, null); if (record !== null) { if (!Object.is(record.item, item)) this._addIdentityChange(record, item); this._reinsertAfter(record, previousRecord, index); } else { record = this._linkedRecords === null ? null : this._linkedRecords.get(itemTrackBy, index); if (record !== null) { if (!Object.is(record.item, item)) this._addIdentityChange(record, item); this._moveAfter(record, previousRecord, index); } else { record = this._addAfter(new IterableChangeRecord_(item, itemTrackBy), previousRecord, index); } } return record; } /** * This check is only needed if an array contains duplicates. (Short circuit of nothing dirty) * * Use case: `[a, a]` => `[b, a, a]` * * If we did not have this check then the insertion of `b` would: * 1) evict first `a` * 2) insert `b` at `0` index. * 3) leave `a` at index `1` as is. <-- this is wrong! * 3) reinsert `a` at index 2. <-- this is wrong! * * The correct behavior is: * 1) evict first `a` * 2) insert `b` at `0` index. * 3) reinsert `a` at index 1. * 3) move `a` at from `1` to `2`. * * * Double check that we have not evicted a duplicate item. We need to check if the item type may * have already been removed: * The insertion of b will evict the first 'a'. If we don't reinsert it now it will be reinserted * at the end. Which will show up as the two 'a's switching position. This is incorrect, since a * better way to think of it is as insert of 'b' rather then switch 'a' with 'b' and then add 'a' * at the end. * * @internal */ _verifyReinsertion(record, item, itemTrackBy, index) { let reinsertRecord = this._unlinkedRecords === null ? null : this._unlinkedRecords.get(itemTrackBy, null); if (reinsertRecord !== null) { record = this._reinsertAfter(reinsertRecord, record._prev, index); } else if (record.currentIndex != index) { record.currentIndex = index; this._addToMoves(record, index); } return record; } /** * Get rid of any excess {@link IterableChangeRecord_}s from the previous collection * * - `record` The first excess {@link IterableChangeRecord_}. * * @internal */ _truncate(record) { while (record !== null) { const nextRecord = record._next; this._addToRemovals(this._unlink(record)); record = nextRecord; } if (this._unlinkedRecords !== null) { this._unlinkedRecords.clear(); } if (this._additionsTail !== null) { this._additionsTail._nextAdded = null; } if (this._movesTail !== null) { this._movesTail._nextMoved = null; } if (this._itTail !== null) { this._itTail._next = null; } if (this._removalsTail !== null) { this._removalsTail._nextRemoved = null; } if (this._identityChangesTail !== null) { this._identityChangesTail._nextIdentityChange = null; } } /** @internal */ _reinsertAfter(record, prevRecord, index) { if (this._unlinkedRecords !== null) { this._unlinkedRecords.remove(record); } const prev = record._prevRemoved; const next = record._nextRemoved; if (prev === null) { this._removalsHead = next; } else { prev._nextRemoved = next; } if (next === null) { this._removalsTail = prev; } else { next._prevRemoved = prev; } this._insertAfter(record, prevRecord, index); this._addToMoves(record, index); return record; } /** @internal */ _moveAfter(record, prevRecord, index) { this._unlink(record); this._insertAfter(record, prevRecord, index); this._addToMoves(record, index); return record; } /** @internal */ _addAfter(record, prevRecord, index) { this._insertAfter(record, prevRecord, index); if (this._additionsTail === null) { this._additionsTail = this._additionsHead = record; } else { this._additionsTail = this._additionsTail._nextAdded = record; } return record; } /** @internal */ _insertAfter(record, prevRecord, index) { const next = prevRecord === null ? this._itHead : prevRecord._next; record._next = next; record._prev = prevRecord; if (next === null) { this._itTail = record; } else { next._prev = record; } if (prevRecord === null) { this._itHead = record; } else { prevRecord._next = record; } if (this._linkedRecords === null) { this._linkedRecords = new _DuplicateMap(); } this._linkedRecords.put(record); record.currentIndex = index; return record; } /** @internal */ _remove(record) { return this._addToRemovals(this._unlink(record)); } /** @internal */ _unlink(record) { if (this._linkedRecords !== null) { this._linkedRecords.remove(record); } const prev = record._prev; const next = record._next; if (prev === null) { this._itHead = next; } else { prev._next = next; } if (next === null) { this._itTail = prev; } else { next._prev = prev; } return record; } /** @internal */ _addToMoves(record, toIndex) { if (record.previousIndex === toIndex) { return record; } if (this._movesTail === null) { this._movesTail = this._movesHead = record; } else { this._movesTail = this._movesTail._nextMoved = record; } return record; } _addToRemovals(record) { if (this._unlinkedRecords === null) { this._unlinkedRecords = new _DuplicateMap(); } this._unlinkedRecords.put(record); record.currentIndex = null; record._nextRemoved = null; if (this._removalsTail === null) { this._removalsTail = this._removalsHead = record; record._prevRemoved = null; } else { record._prevRemoved = this._removalsTail; this._removalsTail = this._removalsTail._nextRemoved = record; } return record; } /** @internal */ _addIdentityChange(record, item) { record.item = item; if (this._identityChangesTail === null) { this._identityChangesTail = this._identityChangesHead = record; } else { this._identityChangesTail = this._identityChangesTail._nextIdentityChange = record; } return record; } }; var IterableChangeRecord_ = class { constructor(item, trackById) { this.item = item; this.trackById = trackById; this.currentIndex = null; this.previousIndex = null; this._nextPrevious = null; this._prev = null; this._next = null; this._prevDup = null; this._nextDup = null; this._prevRemoved = null; this._nextRemoved = null; this._nextAdded = null; this._nextMoved = null; this._nextIdentityChange = null; } }; var _DuplicateItemRecordList = class { constructor() { this._head = null; this._tail = null; } /** * Append the record to the list of duplicates. * * Note: by design all records in the list of duplicates hold the same value in record.item. */ add(record) { if (this._head === null) { this._head = this._tail = record; record._nextDup = null; record._prevDup = null; } else { this._tail._nextDup = record; record._prevDup = this._tail; record._nextDup = null; this._tail = record; } } // Returns a IterableChangeRecord_ having IterableChangeRecord_.trackById == trackById and // IterableChangeRecord_.currentIndex >= atOrAfterIndex get(trackById, atOrAfterIndex) { let record; for (record = this._head; record !== null; record = record._nextDup) { if ((atOrAfterIndex === null || atOrAfterIndex <= record.currentIndex) && Object.is(record.trackById, trackById)) { return record; } } return null; } /** * Remove one {@link IterableChangeRecord_} from the list of duplicates. * * Returns whether the list of duplicates is empty. */ remove(record) { const prev = record._prevDup; const next = record._nextDup; if (prev === null) { this._head = next; } else { prev._nextDup = next; } if (next === null) { this._tail = prev; } else { next._prevDup = prev; } return this._head === null; } }; var _DuplicateMap = class { constructor() { this.map = /* @__PURE__ */ new Map(); } put(record) { const key = record.trackById; let duplicates = this.map.get(key); if (!duplicates) { duplicates = new _DuplicateItemRecordList(); this.map.set(key, duplicates); } duplicates.add(record); } /** * Retrieve the `value` using key. Because the IterableChangeRecord_ value may be one which we * have already iterated over, we use the `atOrAfterIndex` to pretend it is not there. * * Use case: `[a, b, c, a, a]` if we are at index `3` which is the second `a` then asking if we * have any more `a`s needs to return the second `a`. */ get(trackById, atOrAfterIndex) { const key = trackById; const recordList = this.map.get(key); return recordList ? recordList.get(trackById, atOrAfterIndex) : null; } /** * Removes a {@link IterableChangeRecord_} from the list of duplicates. * * The list of duplicates also is removed from the map if it gets empty. */ remove(record) { const key = record.trackById; const recordList = this.map.get(key); if (recordList.remove(record)) { this.map.delete(key); } return record; } get isEmpty() { return this.map.size === 0; } clear() { this.map.clear(); } }; function getPreviousIndex(item, addRemoveOffset, moveOffsets) { const previousIndex = item.previousIndex; if (previousIndex === null) return previousIndex; let moveOffset = 0; if (moveOffsets && previousIndex < moveOffsets.length) { moveOffset = moveOffsets[previousIndex]; } return previousIndex + addRemoveOffset + moveOffset; } var DefaultKeyValueDifferFactory = class { constructor() { } supports(obj) { return obj instanceof Map || isJsObject(obj); } create() { return new DefaultKeyValueDiffer(); } }; var DefaultKeyValueDiffer = class { constructor() { this._records = /* @__PURE__ */ new Map(); this._mapHead = null; this._appendAfter = null; this._previousMapHead = null; this._changesHead = null; this._changesTail = null; this._additionsHead = null; this._additionsTail = null; this._removalsHead = null; this._removalsTail = null; } get isDirty() { return this._additionsHead !== null || this._changesHead !== null || this._removalsHead !== null; } forEachItem(fn) { let record; for (record = this._mapHead; record !== null; record = record._next) { fn(record); } } forEachPreviousItem(fn) { let record; for (record = this._previousMapHead; record !== null; record = record._nextPrevious) { fn(record); } } forEachChangedItem(fn) { let record; for (record = this._changesHead; record !== null; record = record._nextChanged) { fn(record); } } forEachAddedItem(fn) { let record; for (record = this._additionsHead; record !== null; record = record._nextAdded) { fn(record); } } forEachRemovedItem(fn) { let record; for (record = this._removalsHead; record !== null; record = record._nextRemoved) { fn(record); } } diff(map2) { if (!map2) { map2 = /* @__PURE__ */ new Map(); } else if (!(map2 instanceof Map || isJsObject(map2))) { throw new RuntimeError(900, ngDevMode && `Error trying to diff '${stringify(map2)}'. Only maps and objects are allowed`); } return this.check(map2) ? this : null; } onDestroy() { } /** * Check the current state of the map vs the previous. * The algorithm is optimised for when the keys do no change. */ check(map2) { this._reset(); let insertBefore = this._mapHead; this._appendAfter = null; this._forEach(map2, (value, key) => { if (insertBefore && insertBefore.key === key) { this._maybeAddToChanges(insertBefore, value); this._appendAfter = insertBefore; insertBefore = insertBefore._next; } else { const record = this._getOrCreateRecordForKey(key, value); insertBefore = this._insertBeforeOrAppend(insertBefore, record); } }); if (insertBefore) { if (insertBefore._prev) { insertBefore._prev._next = null; } this._removalsHead = insertBefore; for (let record = insertBefore; record !== null; record = record._nextRemoved) { if (record === this._mapHead) { this._mapHead = null; } this._records.delete(record.key); record._nextRemoved = record._next; record.previousValue = record.currentValue; record.currentValue = null; record._prev = null; record._next = null; } } if (this._changesTail) this._changesTail._nextChanged = null; if (this._additionsTail) this._additionsTail._nextAdded = null; return this.isDirty; } /** * Inserts a record before `before` or append at the end of the list when `before` is null. * * Notes: * - This method appends at `this._appendAfter`, * - This method updates `this._appendAfter`, * - The return value is the new value for the insertion pointer. */ _insertBeforeOrAppend(before, record) { if (before) { const prev = before._prev; record._next = before; record._prev = prev; before._prev = record; if (prev) { prev._next = record; } if (before === this._mapHead) { this._mapHead = record; } this._appendAfter = before; return before; } if (this._appendAfter) { this._appendAfter._next = record; record._prev = this._appendAfter; } else { this._mapHead = record; } this._appendAfter = record; return null; } _getOrCreateRecordForKey(key, value) { if (this._records.has(key)) { const record2 = this._records.get(key); this._maybeAddToChanges(record2, value); const prev = record2._prev; const next = record2._next; if (prev) { prev._next = next; } if (next) { next._prev = prev; } record2._next = null; record2._prev = null; return record2; } const record = new KeyValueChangeRecord_(key); this._records.set(key, record); record.currentValue = value; this._addToAdditions(record); return record; } /** @internal */ _reset() { if (this.isDirty) { let record; this._previousMapHead = this._mapHead; for (record = this._previousMapHead; record !== null; record = record._next) { record._nextPrevious = record._next; } for (record = this._changesHead; record !== null; record = record._nextChanged) { record.previousValue = record.currentValue; } for (record = this._additionsHead; record != null; record = record._nextAdded) { record.previousValue = record.currentValue; } this._changesHead = this._changesTail = null; this._additionsHead = this._additionsTail = null; this._removalsHead = null; } } // Add the record or a given key to the list of changes only when the value has actually changed _maybeAddToChanges(record, newValue) { if (!Object.is(newValue, record.currentValue)) { record.previousValue = record.currentValue; record.currentValue = newValue; this._addToChanges(record); } } _addToAdditions(record) { if (this._additionsHead === null) { this._additionsHead = this._additionsTail = record; } else { this._additionsTail._nextAdded = record; this._additionsTail = record; } } _addToChanges(record) { if (this._changesHead === null) { this._changesHead = this._changesTail = record; } else { this._changesTail._nextChanged = record; this._changesTail = record; } } /** @internal */ _forEach(obj, fn) { if (obj instanceof Map) { obj.forEach(fn); } else { Object.keys(obj).forEach((k) => fn(obj[k], k)); } } }; var KeyValueChangeRecord_ = class { constructor(key) { this.key = key; this.previousValue = null; this.currentValue = null; this._nextPrevious = null; this._next = null; this._prev = null; this._nextAdded = null; this._nextRemoved = null; this._nextChanged = null; } }; function defaultIterableDiffersFactory() { return new IterableDiffers([new DefaultIterableDifferFactory()]); } var _IterableDiffers = class _IterableDiffers { constructor(factories) { this.factories = factories; } static create(factories, parent) { if (parent != null) { const copied = parent.factories.slice(); factories = factories.concat(copied); } return new _IterableDiffers(factories); } /** * Takes an array of {@link IterableDifferFactory} and returns a provider used to extend the * inherited {@link IterableDiffers} instance with the provided factories and return a new * {@link IterableDiffers} instance. * * @usageNotes * ### Example * * The following example shows how to extend an existing list of factories, * which will only be applied to the injector for this component and its children. * This step is all that's required to make a new {@link IterableDiffer} available. * * ``` * @Component({ * viewProviders: [ * IterableDiffers.extend([new ImmutableListDiffer()]) * ] * }) * ``` */ static extend(factories) { return { provide: _IterableDiffers, useFactory: (parent) => { return _IterableDiffers.create(factories, parent || defaultIterableDiffersFactory()); }, // Dependency technically isn't optional, but we can provide a better error message this way. deps: [[_IterableDiffers, new SkipSelf(), new Optional()]] }; } find(iterable) { const factory = this.factories.find((f) => f.supports(iterable)); if (factory != null) { return factory; } else { throw new RuntimeError(901, ngDevMode && `Cannot find a differ supporting object '${iterable}' of type '${getTypeNameForDebugging(iterable)}'`); } } }; _IterableDiffers.ɵprov = ɵɵdefineInjectable({ token: _IterableDiffers, providedIn: "root", factory: defaultIterableDiffersFactory }); var IterableDiffers = _IterableDiffers; function getTypeNameForDebugging(type) { return type["name"] || typeof type; } function defaultKeyValueDiffersFactory() { return new KeyValueDiffers([new DefaultKeyValueDifferFactory()]); } var _KeyValueDiffers = class _KeyValueDiffers { constructor(factories) { this.factories = factories; } static create(factories, parent) { if (parent) { const copied = parent.factories.slice(); factories = factories.concat(copied); } return new _KeyValueDiffers(factories); } /** * Takes an array of {@link KeyValueDifferFactory} and returns a provider used to extend the * inherited {@link KeyValueDiffers} instance with the provided factories and return a new * {@link KeyValueDiffers} instance. * * @usageNotes * ### Example * * The following example shows how to extend an existing list of factories, * which will only be applied to the injector for this component and its children. * This step is all that's required to make a new {@link KeyValueDiffer} available. * * ``` * @Component({ * viewProviders: [ * KeyValueDiffers.extend([new ImmutableMapDiffer()]) * ] * }) * ``` */ static extend(factories) { return { provide: _KeyValueDiffers, useFactory: (parent) => { return _KeyValueDiffers.create(factories, parent || defaultKeyValueDiffersFactory()); }, // Dependency technically isn't optional, but we can provide a better error message this way. deps: [[_KeyValueDiffers, new SkipSelf(), new Optional()]] }; } find(kv) { const factory = this.factories.find((f) => f.supports(kv)); if (factory) { return factory; } throw new RuntimeError(901, ngDevMode && `Cannot find a differ supporting object '${kv}'`); } }; _KeyValueDiffers.ɵprov = ɵɵdefineInjectable({ token: _KeyValueDiffers, providedIn: "root", factory: defaultKeyValueDiffersFactory }); var KeyValueDiffers = _KeyValueDiffers; function devModeEqual(a, b) { const isListLikeIterableA = isListLikeIterable(a); const isListLikeIterableB = isListLikeIterable(b); if (isListLikeIterableA && isListLikeIterableB) { return areIterablesEqual(a, b, devModeEqual); } else { const isAObject = a && (typeof a === "object" || typeof a === "function"); const isBObject = b && (typeof b === "object" || typeof b === "function"); if (!isListLikeIterableA && isAObject && !isListLikeIterableB && isBObject) { return true; } else { return Object.is(a, b); } } } var _ChangeDetectorRef = class _ChangeDetectorRef { }; _ChangeDetectorRef.__NG_ELEMENT_ID__ = injectChangeDetectorRef; var ChangeDetectorRef = _ChangeDetectorRef; function injectChangeDetectorRef(flags) { return createViewRef( getCurrentTNode(), getLView(), (flags & 16) === 16 /* InternalInjectFlags.ForPipe */ ); } function createViewRef(tNode, lView, isPipe2) { if (isComponentHost(tNode) && !isPipe2) { const componentView = getComponentLViewByIndex(tNode.index, lView); return new ViewRef$1(componentView, componentView); } else if (tNode.type & (3 | 12 | 32)) { const hostComponentView = lView[DECLARATION_COMPONENT_VIEW]; return new ViewRef$1(hostComponentView, lView); } return null; } var keyValDiff = [new DefaultKeyValueDifferFactory()]; var iterableDiff = [new DefaultIterableDifferFactory()]; var defaultIterableDiffers = new IterableDiffers(iterableDiff); var defaultKeyValueDiffers = new KeyValueDiffers(keyValDiff); var _DestroyRef = class _DestroyRef { }; _DestroyRef.__NG_ELEMENT_ID__ = injectDestroyRef; _DestroyRef.__NG_ENV_ID__ = (injector) => injector; var DestroyRef = _DestroyRef; var NodeInjectorDestroyRef = class extends DestroyRef { constructor(_lView) { super(); this._lView = _lView; } onDestroy(callback) { storeLViewOnDestroy(this._lView, callback); return () => removeLViewOnDestroy(this._lView, callback); } }; function injectDestroyRef() { return new NodeInjectorDestroyRef(getLView()); } function assertNotInReactiveContext(debugFn, extraContext) { if (getActiveConsumer() !== null) { throw new RuntimeError(-602, ngDevMode && `${debugFn.name}() cannot be called from within a reactive context.${extraContext ? ` ${extraContext}` : ""}`); } } var APP_EFFECT_SCHEDULER = new InjectionToken("", { providedIn: "root", factory: () => inject(EffectScheduler) }); var _EffectScheduler = class _EffectScheduler { }; _EffectScheduler.ɵprov = ɵɵdefineInjectable({ token: _EffectScheduler, providedIn: "root", factory: () => new ZoneAwareEffectScheduler() }); var EffectScheduler = _EffectScheduler; var ZoneAwareEffectScheduler = class { constructor() { this.hasQueuedFlush = false; this.queuedEffectCount = 0; this.queues = /* @__PURE__ */ new Map(); } scheduleEffect(handle) { this.enqueue(handle); if (!this.hasQueuedFlush) { queueMicrotask(() => this.flush()); this.hasQueuedFlush = false; } } enqueue(handle) { const zone = handle.creationZone; if (!this.queues.has(zone)) { this.queues.set(zone, /* @__PURE__ */ new Set()); } const queue = this.queues.get(zone); if (queue.has(handle)) { return; } this.queuedEffectCount++; queue.add(handle); } /** * Run all scheduled effects. * * Execution order of effects within the same zone is guaranteed to be FIFO, but there is no * ordering guarantee between effects scheduled in different zones. */ flush() { while (this.queuedEffectCount > 0) { for (const [zone, queue] of this.queues) { if (zone === null) { this.flushQueue(queue); } else { zone.run(() => this.flushQueue(queue)); } } } } flushQueue(queue) { for (const handle of queue) { queue.delete(handle); this.queuedEffectCount--; handle.run(); } } }; var EffectHandle = class { constructor(scheduler, effectFn, creationZone, destroyRef, injector, allowSignalWrites) { this.scheduler = scheduler; this.effectFn = effectFn; this.creationZone = creationZone; this.injector = injector; this.watcher = createWatch((onCleanup) => this.runEffect(onCleanup), () => this.schedule(), allowSignalWrites); this.unregisterOnDestroy = destroyRef?.onDestroy(() => this.destroy()); } runEffect(onCleanup) { try { this.effectFn(onCleanup); } catch (err) { const errorHandler = this.injector.get(ErrorHandler, null, { optional: true }); errorHandler?.handleError(err); } } run() { this.watcher.run(); } schedule() { this.scheduler.scheduleEffect(this); } destroy() { this.watcher.destroy(); this.unregisterOnDestroy?.(); } }; function effect(effectFn, options) { ngDevMode && assertNotInReactiveContext(effect, "Call `effect` outside of a reactive context. For example, schedule the effect inside the component constructor."); !options?.injector && assertInInjectionContext(effect); const injector = options?.injector ?? inject(Injector); const destroyRef = options?.manualCleanup !== true ? injector.get(DestroyRef) : null; const handle = new EffectHandle(injector.get(APP_EFFECT_SCHEDULER), effectFn, typeof Zone === "undefined" ? null : Zone.current, destroyRef, injector, options?.allowSignalWrites ?? false); const cdr = injector.get(ChangeDetectorRef, null, { optional: true }); if (!cdr || !(cdr._lView[FLAGS] & 8)) { handle.watcher.notify(); } else { (cdr._lView[EFFECTS_TO_SCHEDULE] ??= []).push(handle.watcher.notify); } return handle; } var markedFeatures = /* @__PURE__ */ new Set(); function performanceMarkFeature(feature) { if (markedFeatures.has(feature)) { return; } markedFeatures.add(feature); performance?.mark?.("mark_feature_usage", { detail: { feature } }); } function noop(...args) { } function getNativeRequestAnimationFrame() { const isBrowser = typeof _global["requestAnimationFrame"] === "function"; let nativeRequestAnimationFrame = _global[isBrowser ? "requestAnimationFrame" : "setTimeout"]; let nativeCancelAnimationFrame = _global[isBrowser ? "cancelAnimationFrame" : "clearTimeout"]; if (typeof Zone !== "undefined" && nativeRequestAnimationFrame && nativeCancelAnimationFrame) { const unpatchedRequestAnimationFrame = nativeRequestAnimationFrame[Zone.__symbol__("OriginalDelegate")]; if (unpatchedRequestAnimationFrame) { nativeRequestAnimationFrame = unpatchedRequestAnimationFrame; } const unpatchedCancelAnimationFrame = nativeCancelAnimationFrame[Zone.__symbol__("OriginalDelegate")]; if (unpatchedCancelAnimationFrame) { nativeCancelAnimationFrame = unpatchedCancelAnimationFrame; } } return { nativeRequestAnimationFrame, nativeCancelAnimationFrame }; } var AsyncStackTaggingZoneSpec = class { constructor(namePrefix, consoleAsyncStackTaggingImpl = console) { this.name = "asyncStackTagging for " + namePrefix; this.createTask = consoleAsyncStackTaggingImpl?.createTask ?? (() => null); } onScheduleTask(delegate, _current, target, task) { task.consoleTask = this.createTask(`Zone - ${task.source || task.type}`); return delegate.scheduleTask(target, task); } onInvokeTask(delegate, _currentZone, targetZone, task, applyThis, applyArgs) { let ret; if (task.consoleTask) { ret = task.consoleTask.run(() => delegate.invokeTask(targetZone, task, applyThis, applyArgs)); } else { ret = delegate.invokeTask(targetZone, task, applyThis, applyArgs); } return ret; } }; var NgZone = class _NgZone { constructor({ enableLongStackTrace = false, shouldCoalesceEventChangeDetection = false, shouldCoalesceRunChangeDetection = false }) { this.hasPendingMacrotasks = false; this.hasPendingMicrotasks = false; this.isStable = true; this.onUnstable = new EventEmitter(false); this.onMicrotaskEmpty = new EventEmitter(false); this.onStable = new EventEmitter(false); this.onError = new EventEmitter(false); if (typeof Zone == "undefined") { throw new RuntimeError(908, ngDevMode && `In this configuration Angular requires Zone.js`); } Zone.assertZonePatched(); const self = this; self._nesting = 0; self._outer = self._inner = Zone.current; if (ngDevMode) { self._inner = self._inner.fork(new AsyncStackTaggingZoneSpec("Angular")); } if (Zone["TaskTrackingZoneSpec"]) { self._inner = self._inner.fork(new Zone["TaskTrackingZoneSpec"]()); } if (enableLongStackTrace && Zone["longStackTraceZoneSpec"]) { self._inner = self._inner.fork(Zone["longStackTraceZoneSpec"]); } self.shouldCoalesceEventChangeDetection = !shouldCoalesceRunChangeDetection && shouldCoalesceEventChangeDetection; self.shouldCoalesceRunChangeDetection = shouldCoalesceRunChangeDetection; self.lastRequestAnimationFrameId = -1; self.nativeRequestAnimationFrame = getNativeRequestAnimationFrame().nativeRequestAnimationFrame; forkInnerZoneWithAngularBehavior(self); } /** This method checks whether the method call happens within an Angular Zone instance. */ static isInAngularZone() { return typeof Zone !== "undefined" && Zone.current.get("isAngularZone") === true; } /** Assures that the method is called within the Angular Zone, otherwise throws an error. */ static assertInAngularZone() { if (!_NgZone.isInAngularZone()) { throw new RuntimeError(909, ngDevMode && "Expected to be in Angular Zone, but it is not!"); } } /** Assures that the method is called outside of the Angular Zone, otherwise throws an error. */ static assertNotInAngularZone() { if (_NgZone.isInAngularZone()) { throw new RuntimeError(909, ngDevMode && "Expected to not be in Angular Zone, but it is!"); } } /** * Executes the `fn` function synchronously within the Angular zone and returns value returned by * the function. * * Running functions via `run` allows you to reenter Angular zone from a task that was executed * outside of the Angular zone (typically started via {@link #runOutsideAngular}). * * Any future tasks or microtasks scheduled from within this function will continue executing from * within the Angular zone. * * If a synchronous error happens it will be rethrown and not reported via `onError`. */ run(fn, applyThis, applyArgs) { return this._inner.run(fn, applyThis, applyArgs); } /** * Executes the `fn` function synchronously within the Angular zone as a task and returns value * returned by the function. * * Running functions via `run` allows you to reenter Angular zone from a task that was executed * outside of the Angular zone (typically started via {@link #runOutsideAngular}). * * Any future tasks or microtasks scheduled from within this function will continue executing from * within the Angular zone. * * If a synchronous error happens it will be rethrown and not reported via `onError`. */ runTask(fn, applyThis, applyArgs, name) { const zone = this._inner; const task = zone.scheduleEventTask("NgZoneEvent: " + name, fn, EMPTY_PAYLOAD, noop, noop); try { return zone.runTask(task, applyThis, applyArgs); } finally { zone.cancelTask(task); } } /** * Same as `run`, except that synchronous errors are caught and forwarded via `onError` and not * rethrown. */ runGuarded(fn, applyThis, applyArgs) { return this._inner.runGuarded(fn, applyThis, applyArgs); } /** * Executes the `fn` function synchronously in Angular's parent zone and returns value returned by * the function. * * Running functions via {@link #runOutsideAngular} allows you to escape Angular's zone and do * work that * doesn't trigger Angular change-detection or is subject to Angular's error handling. * * Any future tasks or microtasks scheduled from within this function will continue executing from * outside of the Angular zone. * * Use {@link #run} to reenter the Angular zone and do work that updates the application model. */ runOutsideAngular(fn) { return this._outer.run(fn); } }; var EMPTY_PAYLOAD = {}; function checkStable(zone) { if (zone._nesting == 0 && !zone.hasPendingMicrotasks && !zone.isStable) { try { zone._nesting++; zone.onMicrotaskEmpty.emit(null); } finally { zone._nesting--; if (!zone.hasPendingMicrotasks) { try { zone.runOutsideAngular(() => zone.onStable.emit(null)); } finally { zone.isStable = true; } } } } } function delayChangeDetectionForEvents(zone) { if (zone.isCheckStableRunning || zone.lastRequestAnimationFrameId !== -1) { return; } zone.lastRequestAnimationFrameId = zone.nativeRequestAnimationFrame.call(_global, () => { if (!zone.fakeTopEventTask) { zone.fakeTopEventTask = Zone.root.scheduleEventTask("fakeTopEventTask", () => { zone.lastRequestAnimationFrameId = -1; updateMicroTaskStatus(zone); zone.isCheckStableRunning = true; checkStable(zone); zone.isCheckStableRunning = false; }, void 0, () => { }, () => { }); } zone.fakeTopEventTask.invoke(); }); updateMicroTaskStatus(zone); } function forkInnerZoneWithAngularBehavior(zone) { const delayChangeDetectionForEventsDelegate = () => { delayChangeDetectionForEvents(zone); }; zone._inner = zone._inner.fork({ name: "angular", properties: { "isAngularZone": true }, onInvokeTask: (delegate, current, target, task, applyThis, applyArgs) => { if (shouldBeIgnoredByZone(applyArgs)) { return delegate.invokeTask(target, task, applyThis, applyArgs); } try { onEnter(zone); return delegate.invokeTask(target, task, applyThis, applyArgs); } finally { if (zone.shouldCoalesceEventChangeDetection && task.type === "eventTask" || zone.shouldCoalesceRunChangeDetection) { delayChangeDetectionForEventsDelegate(); } onLeave(zone); } }, onInvoke: (delegate, current, target, callback, applyThis, applyArgs, source) => { try { onEnter(zone); return delegate.invoke(target, callback, applyThis, applyArgs, source); } finally { if (zone.shouldCoalesceRunChangeDetection) { delayChangeDetectionForEventsDelegate(); } onLeave(zone); } }, onHasTask: (delegate, current, target, hasTaskState) => { delegate.hasTask(target, hasTaskState); if (current === target) { if (hasTaskState.change == "microTask") { zone._hasPendingMicrotasks = hasTaskState.microTask; updateMicroTaskStatus(zone); checkStable(zone); } else if (hasTaskState.change == "macroTask") { zone.hasPendingMacrotasks = hasTaskState.macroTask; } } }, onHandleError: (delegate, current, target, error) => { delegate.handleError(target, error); zone.runOutsideAngular(() => zone.onError.emit(error)); return false; } }); } function updateMicroTaskStatus(zone) { if (zone._hasPendingMicrotasks || (zone.shouldCoalesceEventChangeDetection || zone.shouldCoalesceRunChangeDetection) && zone.lastRequestAnimationFrameId !== -1) { zone.hasPendingMicrotasks = true; } else { zone.hasPendingMicrotasks = false; } } function onEnter(zone) { zone._nesting++; if (zone.isStable) { zone.isStable = false; zone.onUnstable.emit(null); } } function onLeave(zone) { zone._nesting--; checkStable(zone); } var NoopNgZone = class { constructor() { this.hasPendingMicrotasks = false; this.hasPendingMacrotasks = false; this.isStable = true; this.onUnstable = new EventEmitter(); this.onMicrotaskEmpty = new EventEmitter(); this.onStable = new EventEmitter(); this.onError = new EventEmitter(); } run(fn, applyThis, applyArgs) { return fn.apply(applyThis, applyArgs); } runGuarded(fn, applyThis, applyArgs) { return fn.apply(applyThis, applyArgs); } runOutsideAngular(fn) { return fn(); } runTask(fn, applyThis, applyArgs, name) { return fn.apply(applyThis, applyArgs); } }; function shouldBeIgnoredByZone(applyArgs) { if (!Array.isArray(applyArgs)) { return false; } if (applyArgs.length !== 1) { return false; } return applyArgs[0].data?.["__ignore_ng_zone__"] === true; } function getNgZone(ngZoneToUse = "zone.js", options) { if (ngZoneToUse === "noop") { return new NoopNgZone(); } if (ngZoneToUse === "zone.js") { return new NgZone(options); } return ngZoneToUse; } var AfterRenderPhase; (function(AfterRenderPhase2) { AfterRenderPhase2[AfterRenderPhase2["EarlyRead"] = 0] = "EarlyRead"; AfterRenderPhase2[AfterRenderPhase2["Write"] = 1] = "Write"; AfterRenderPhase2[AfterRenderPhase2["MixedReadWrite"] = 2] = "MixedReadWrite"; AfterRenderPhase2[AfterRenderPhase2["Read"] = 3] = "Read"; })(AfterRenderPhase || (AfterRenderPhase = {})); var NOOP_AFTER_RENDER_REF = { destroy() { } }; function internalAfterNextRender(callback, options) { const injector = options?.injector ?? inject(Injector); if (!isPlatformBrowser(injector)) return; const afterRenderEventManager = injector.get(AfterRenderEventManager); afterRenderEventManager.internalCallbacks.push(callback); } function afterRender(callback, options) { ngDevMode && assertNotInReactiveContext(afterRender, "Call `afterRender` outside of a reactive context. For example, schedule the render callback inside the component constructor`."); !options && assertInInjectionContext(afterRender); const injector = options?.injector ?? inject(Injector); if (!isPlatformBrowser(injector)) { return NOOP_AFTER_RENDER_REF; } performanceMarkFeature("NgAfterRender"); const afterRenderEventManager = injector.get(AfterRenderEventManager); const callbackHandler = afterRenderEventManager.handler ??= new AfterRenderCallbackHandlerImpl(); const phase = options?.phase ?? AfterRenderPhase.MixedReadWrite; const destroy = () => { callbackHandler.unregister(instance); unregisterFn(); }; const unregisterFn = injector.get(DestroyRef).onDestroy(destroy); const instance = new AfterRenderCallback(injector, phase, callback); callbackHandler.register(instance); return { destroy }; } function afterNextRender(callback, options) { !options && assertInInjectionContext(afterNextRender); const injector = options?.injector ?? inject(Injector); if (!isPlatformBrowser(injector)) { return NOOP_AFTER_RENDER_REF; } performanceMarkFeature("NgAfterNextRender"); const afterRenderEventManager = injector.get(AfterRenderEventManager); const callbackHandler = afterRenderEventManager.handler ??= new AfterRenderCallbackHandlerImpl(); const phase = options?.phase ?? AfterRenderPhase.MixedReadWrite; const destroy = () => { callbackHandler.unregister(instance); unregisterFn(); }; const unregisterFn = injector.get(DestroyRef).onDestroy(destroy); const instance = new AfterRenderCallback(injector, phase, () => { destroy(); callback(); }); callbackHandler.register(instance); return { destroy }; } var AfterRenderCallback = class { constructor(injector, phase, callbackFn) { this.phase = phase; this.callbackFn = callbackFn; this.zone = injector.get(NgZone); this.errorHandler = injector.get(ErrorHandler, null, { optional: true }); } invoke() { try { this.zone.runOutsideAngular(this.callbackFn); } catch (err) { this.errorHandler?.handleError(err); } } }; var AfterRenderCallbackHandlerImpl = class { constructor() { this.executingCallbacks = false; this.buckets = { // Note: the order of these keys controls the order the phases are run. [AfterRenderPhase.EarlyRead]: /* @__PURE__ */ new Set(), [AfterRenderPhase.Write]: /* @__PURE__ */ new Set(), [AfterRenderPhase.MixedReadWrite]: /* @__PURE__ */ new Set(), [AfterRenderPhase.Read]: /* @__PURE__ */ new Set() }; this.deferredCallbacks = /* @__PURE__ */ new Set(); } register(callback) { const target = this.executingCallbacks ? this.deferredCallbacks : this.buckets[callback.phase]; target.add(callback); } unregister(callback) { this.buckets[callback.phase].delete(callback); this.deferredCallbacks.delete(callback); } execute() { this.executingCallbacks = true; for (const bucket of Object.values(this.buckets)) { for (const callback of bucket) { callback.invoke(); } } this.executingCallbacks = false; for (const callback of this.deferredCallbacks) { this.buckets[callback.phase].add(callback); } this.deferredCallbacks.clear(); } destroy() { for (const bucket of Object.values(this.buckets)) { bucket.clear(); } this.deferredCallbacks.clear(); } }; var _AfterRenderEventManager = class _AfterRenderEventManager { constructor() { this.handler = null; this.internalCallbacks = []; } /** * Executes callbacks. Returns `true` if any callbacks executed. */ execute() { const callbacks = [...this.internalCallbacks]; this.internalCallbacks.length = 0; for (const callback of callbacks) { callback(); } this.handler?.execute(); } ngOnDestroy() { this.handler?.destroy(); this.handler = null; this.internalCallbacks.length = 0; } }; _AfterRenderEventManager.ɵprov = ɵɵdefineInjectable({ token: _AfterRenderEventManager, providedIn: "root", factory: () => new _AfterRenderEventManager() }); var AfterRenderEventManager = _AfterRenderEventManager; function isModuleWithProviders(value) { return value.ngModule !== void 0; } function isNgModule(value) { return !!getNgModuleDef(value); } function isPipe(value) { return !!getPipeDef$1(value); } function isDirective(value) { return !!getDirectiveDef(value); } function isComponent(value) { return !!getComponentDef(value); } function getDependencyTypeForError(type) { if (getComponentDef(type)) return "component"; if (getDirectiveDef(type)) return "directive"; if (getPipeDef$1(type)) return "pipe"; return "type"; } function verifyStandaloneImport(depType, importingType) { if (isForwardRef(depType)) { depType = resolveForwardRef(depType); if (!depType) { throw new Error(`Expected forwardRef function, imported from "${stringifyForError(importingType)}", to return a standalone entity or NgModule but got "${stringifyForError(depType) || depType}".`); } } if (getNgModuleDef(depType) == null) { const def = getComponentDef(depType) || getDirectiveDef(depType) || getPipeDef$1(depType); if (def != null) { if (!def.standalone) { throw new Error(`The "${stringifyForError(depType)}" ${getDependencyTypeForError(depType)}, imported from "${stringifyForError(importingType)}", is not standalone. Did you forget to add the standalone: true flag?`); } } else { if (isModuleWithProviders(depType)) { throw new Error(`A module with providers was imported from "${stringifyForError(importingType)}". Modules with providers are not supported in standalone components imports.`); } else { throw new Error(`The "${stringifyForError(depType)}" type, imported from "${stringifyForError(importingType)}", must be a standalone component / directive / pipe or an NgModule. Did you forget to add the required @Component / @Directive / @Pipe or @NgModule annotation?`); } } } } var USE_RUNTIME_DEPS_TRACKER_FOR_JIT = true; var DepsTracker = class { constructor() { this.ownerNgModule = /* @__PURE__ */ new Map(); this.ngModulesWithSomeUnresolvedDecls = /* @__PURE__ */ new Set(); this.ngModulesScopeCache = /* @__PURE__ */ new Map(); this.standaloneComponentsScopeCache = /* @__PURE__ */ new Map(); } /** * Attempts to resolve ng module's forward ref declarations as much as possible and add them to * the `ownerNgModule` map. This method normally should be called after the initial parsing when * all the forward refs are resolved (e.g., when trying to render a component) */ resolveNgModulesDecls() { if (this.ngModulesWithSomeUnresolvedDecls.size === 0) { return; } for (const moduleType of this.ngModulesWithSomeUnresolvedDecls) { const def = getNgModuleDef(moduleType); if (def?.declarations) { for (const decl of maybeUnwrapFn(def.declarations)) { if (isComponent(decl)) { this.ownerNgModule.set(decl, moduleType); } } } } this.ngModulesWithSomeUnresolvedDecls.clear(); } /** @override */ getComponentDependencies(type, rawImports) { this.resolveNgModulesDecls(); const def = getComponentDef(type); if (def === null) { throw new Error(`Attempting to get component dependencies for a type that is not a component: ${type}`); } if (def.standalone) { const scope = this.getStandaloneComponentScope(type, rawImports); if (scope.compilation.isPoisoned) { return { dependencies: [] }; } return { dependencies: [ ...scope.compilation.directives, ...scope.compilation.pipes, ...scope.compilation.ngModules ] }; } else { if (!this.ownerNgModule.has(type)) { return { dependencies: [] }; } const scope = this.getNgModuleScope(this.ownerNgModule.get(type)); if (scope.compilation.isPoisoned) { return { dependencies: [] }; } return { dependencies: [ ...scope.compilation.directives, ...scope.compilation.pipes ] }; } } /** * @override * This implementation does not make use of param scopeInfo since it assumes the scope info is * already added to the type itself through methods like {@link ɵɵsetNgModuleScope} */ registerNgModule(type, scopeInfo) { if (!isNgModule(type)) { throw new Error(`Attempting to register a Type which is not NgModule as NgModule: ${type}`); } this.ngModulesWithSomeUnresolvedDecls.add(type); } /** @override */ clearScopeCacheFor(type) { this.ngModulesScopeCache.delete(type); this.standaloneComponentsScopeCache.delete(type); } /** @override */ getNgModuleScope(type) { if (this.ngModulesScopeCache.has(type)) { return this.ngModulesScopeCache.get(type); } const scope = this.computeNgModuleScope(type); this.ngModulesScopeCache.set(type, scope); return scope; } /** Compute NgModule scope afresh. */ computeNgModuleScope(type) { const def = getNgModuleDef(type, true); const scope = { exported: { directives: /* @__PURE__ */ new Set(), pipes: /* @__PURE__ */ new Set() }, compilation: { directives: /* @__PURE__ */ new Set(), pipes: /* @__PURE__ */ new Set() } }; for (const imported of maybeUnwrapFn(def.imports)) { if (isNgModule(imported)) { const importedScope = this.getNgModuleScope(imported); addSet(importedScope.exported.directives, scope.compilation.directives); addSet(importedScope.exported.pipes, scope.compilation.pipes); } else if (isStandalone(imported)) { if (isDirective(imported) || isComponent(imported)) { scope.compilation.directives.add(imported); } else if (isPipe(imported)) { scope.compilation.pipes.add(imported); } else { throw new RuntimeError(1e3, "The standalone imported type is neither a component nor a directive nor a pipe"); } } else { scope.compilation.isPoisoned = true; break; } } if (!scope.compilation.isPoisoned) { for (const decl of maybeUnwrapFn(def.declarations)) { if (isNgModule(decl) || isStandalone(decl)) { scope.compilation.isPoisoned = true; break; } if (isPipe(decl)) { scope.compilation.pipes.add(decl); } else { scope.compilation.directives.add(decl); } } } for (const exported of maybeUnwrapFn(def.exports)) { if (isNgModule(exported)) { const exportedScope = this.getNgModuleScope(exported); addSet(exportedScope.exported.directives, scope.exported.directives); addSet(exportedScope.exported.pipes, scope.exported.pipes); addSet(exportedScope.exported.directives, scope.compilation.directives); addSet(exportedScope.exported.pipes, scope.compilation.pipes); } else if (isPipe(exported)) { scope.exported.pipes.add(exported); } else { scope.exported.directives.add(exported); } } return scope; } /** @override */ getStandaloneComponentScope(type, rawImports) { if (this.standaloneComponentsScopeCache.has(type)) { return this.standaloneComponentsScopeCache.get(type); } const ans = this.computeStandaloneComponentScope(type, rawImports); this.standaloneComponentsScopeCache.set(type, ans); return ans; } computeStandaloneComponentScope(type, rawImports) { const ans = { compilation: { // Standalone components are always able to self-reference. directives: /* @__PURE__ */ new Set([type]), pipes: /* @__PURE__ */ new Set(), ngModules: /* @__PURE__ */ new Set() } }; for (const rawImport of flatten(rawImports ?? [])) { const imported = resolveForwardRef(rawImport); try { verifyStandaloneImport(imported, type); } catch (e) { ans.compilation.isPoisoned = true; return ans; } if (isNgModule(imported)) { ans.compilation.ngModules.add(imported); const importedScope = this.getNgModuleScope(imported); if (importedScope.exported.isPoisoned) { ans.compilation.isPoisoned = true; return ans; } addSet(importedScope.exported.directives, ans.compilation.directives); addSet(importedScope.exported.pipes, ans.compilation.pipes); } else if (isPipe(imported)) { ans.compilation.pipes.add(imported); } else if (isDirective(imported) || isComponent(imported)) { ans.compilation.directives.add(imported); } else { ans.compilation.isPoisoned = true; return ans; } } return ans; } /** @override */ isOrphanComponent(cmp) { const def = getComponentDef(cmp); if (!def || def.standalone) { return false; } this.resolveNgModulesDecls(); return !this.ownerNgModule.has(cmp); } }; function addSet(sourceSet, targetSet) { for (const m of sourceSet) { targetSet.add(m); } } var depsTracker = new DepsTracker(); function computeStaticStyling(tNode, attrs, writeToHost) { ngDevMode && assertFirstCreatePass(getTView(), "Expecting to be called in first template pass only"); let styles = writeToHost ? tNode.styles : null; let classes = writeToHost ? tNode.classes : null; let mode = 0; if (attrs !== null) { for (let i = 0; i < attrs.length; i++) { const value = attrs[i]; if (typeof value === "number") { mode = value; } else if (mode == 1) { classes = concatStringsWithSpace(classes, value); } else if (mode == 2) { const style = value; const styleValue = attrs[++i]; styles = concatStringsWithSpace(styles, style + ": " + styleValue + ";"); } } } writeToHost ? tNode.styles = styles : tNode.stylesWithoutHost = styles; writeToHost ? tNode.classes = classes : tNode.classesWithoutHost = classes; } var ComponentFactoryResolver = class extends ComponentFactoryResolver$1 { /** * @param ngModule The NgModuleRef to which all resolved factories are bound. */ constructor(ngModule) { super(); this.ngModule = ngModule; } resolveComponentFactory(component) { ngDevMode && assertComponentType(component); const componentDef = getComponentDef(component); return new ComponentFactory(componentDef, this.ngModule); } }; function toRefArray(map2) { const array = []; for (const publicName in map2) { if (!map2.hasOwnProperty(publicName)) { continue; } const value = map2[publicName]; if (value === void 0) { continue; } array.push({ propName: Array.isArray(value) ? value[0] : value, templateName: publicName }); } return array; } function getNamespace(elementName) { const name = elementName.toLowerCase(); return name === "svg" ? SVG_NAMESPACE : name === "math" ? MATH_ML_NAMESPACE : null; } var ChainedInjector = class { constructor(injector, parentInjector) { this.injector = injector; this.parentInjector = parentInjector; } get(token, notFoundValue, flags) { flags = convertToBitFlags(flags); const value = this.injector.get(token, NOT_FOUND_CHECK_ONLY_ELEMENT_INJECTOR, flags); if (value !== NOT_FOUND_CHECK_ONLY_ELEMENT_INJECTOR || notFoundValue === NOT_FOUND_CHECK_ONLY_ELEMENT_INJECTOR) { return value; } return this.parentInjector.get(token, notFoundValue, flags); } }; var ComponentFactory = class extends ComponentFactory$1 { get inputs() { const componentDef = this.componentDef; const inputTransforms = componentDef.inputTransforms; const refArray = toRefArray(componentDef.inputs); if (inputTransforms !== null) { for (const input2 of refArray) { if (inputTransforms.hasOwnProperty(input2.propName)) { input2.transform = inputTransforms[input2.propName]; } } } return refArray; } get outputs() { return toRefArray(this.componentDef.outputs); } /** * @param componentDef The component definition. * @param ngModule The NgModuleRef to which the factory is bound. */ constructor(componentDef, ngModule) { super(); this.componentDef = componentDef; this.ngModule = ngModule; this.componentType = componentDef.type; this.selector = stringifyCSSSelectorList(componentDef.selectors); this.ngContentSelectors = componentDef.ngContentSelectors ? componentDef.ngContentSelectors : []; this.isBoundToModule = !!ngModule; } create(injector, projectableNodes, rootSelectorOrNode, environmentInjector) { if (ngDevMode && (typeof ngJitMode === "undefined" || ngJitMode) && this.componentDef.debugInfo?.forbidOrphanRendering) { if (depsTracker.isOrphanComponent(this.componentType)) { throw new RuntimeError(1001, `Orphan component found! Trying to render the component ${debugStringifyTypeForError(this.componentType)} without first loading the NgModule that declares it. It is recommended to make this component standalone in order to avoid this error. If this is not possible now, import the component's NgModule in the appropriate NgModule, or the standalone component in which you are trying to render this component. If this is a lazy import, load the NgModule lazily as well and use its module injector.`); } } environmentInjector = environmentInjector || this.ngModule; let realEnvironmentInjector = environmentInjector instanceof EnvironmentInjector ? environmentInjector : environmentInjector?.injector; if (realEnvironmentInjector && this.componentDef.getStandaloneInjector !== null) { realEnvironmentInjector = this.componentDef.getStandaloneInjector(realEnvironmentInjector) || realEnvironmentInjector; } const rootViewInjector = realEnvironmentInjector ? new ChainedInjector(injector, realEnvironmentInjector) : injector; const rendererFactory = rootViewInjector.get(RendererFactory2, null); if (rendererFactory === null) { throw new RuntimeError(407, ngDevMode && "Angular was not able to inject a renderer (RendererFactory2). Likely this is due to a broken DI hierarchy. Make sure that any injector used to create this component has a correct parent."); } const sanitizer = rootViewInjector.get(Sanitizer, null); const afterRenderEventManager = rootViewInjector.get(AfterRenderEventManager, null); const changeDetectionScheduler = rootViewInjector.get(ChangeDetectionScheduler, null); const environment = { rendererFactory, sanitizer, // We don't use inline effects (yet). inlineEffectRunner: null, afterRenderEventManager, changeDetectionScheduler }; const hostRenderer = rendererFactory.createRenderer(null, this.componentDef); const elementName = this.componentDef.selectors[0][0] || "div"; const hostRNode = rootSelectorOrNode ? locateHostElement(hostRenderer, rootSelectorOrNode, this.componentDef.encapsulation, rootViewInjector) : createElementNode(hostRenderer, elementName, getNamespace(elementName)); let rootFlags = 512; if (this.componentDef.signals) { rootFlags |= 4096; } else if (!this.componentDef.onPush) { rootFlags |= 16; } let hydrationInfo = null; if (hostRNode !== null) { hydrationInfo = retrieveHydrationInfo( hostRNode, rootViewInjector, true /* isRootView */ ); } const rootTView = createTView(0, null, null, 1, 0, null, null, null, null, null, null); const rootLView = createLView(null, rootTView, null, rootFlags, null, null, environment, hostRenderer, rootViewInjector, null, hydrationInfo); enterView(rootLView); let component; let tElementNode; try { const rootComponentDef = this.componentDef; let rootDirectives; let hostDirectiveDefs = null; if (rootComponentDef.findHostDirectiveDefs) { rootDirectives = []; hostDirectiveDefs = /* @__PURE__ */ new Map(); rootComponentDef.findHostDirectiveDefs(rootComponentDef, rootDirectives, hostDirectiveDefs); rootDirectives.push(rootComponentDef); ngDevMode && assertNoDuplicateDirectives(rootDirectives); } else { rootDirectives = [rootComponentDef]; } const hostTNode = createRootComponentTNode(rootLView, hostRNode); const componentView = createRootComponentView(hostTNode, hostRNode, rootComponentDef, rootDirectives, rootLView, environment, hostRenderer); tElementNode = getTNode(rootTView, HEADER_OFFSET); if (hostRNode) { setRootNodeAttributes(hostRenderer, rootComponentDef, hostRNode, rootSelectorOrNode); } if (projectableNodes !== void 0) { projectNodes(tElementNode, this.ngContentSelectors, projectableNodes); } component = createRootComponent(componentView, rootComponentDef, rootDirectives, hostDirectiveDefs, rootLView, [LifecycleHooksFeature]); renderView(rootTView, rootLView, null); } finally { leaveView(); } return new ComponentRef(this.componentType, component, createElementRef(tElementNode, rootLView), rootLView, tElementNode); } }; var ComponentRef = class extends ComponentRef$1 { constructor(componentType, instance, location2, _rootLView, _tNode) { super(); this.location = location2; this._rootLView = _rootLView; this._tNode = _tNode; this.previousInputValues = null; this.instance = instance; this.hostView = this.changeDetectorRef = new ViewRef$1( _rootLView, void 0, /* _cdRefInjectingView */ false ); this.componentType = componentType; } setInput(name, value) { const inputData = this._tNode.inputs; let dataValue; if (inputData !== null && (dataValue = inputData[name])) { this.previousInputValues ??= /* @__PURE__ */ new Map(); if (this.previousInputValues.has(name) && Object.is(this.previousInputValues.get(name), value)) { return; } const lView = this._rootLView; setInputsForProperty(lView[TVIEW], lView, dataValue, name, value); this.previousInputValues.set(name, value); const childComponentLView = getComponentLViewByIndex(this._tNode.index, lView); markViewDirty(childComponentLView); } else { if (ngDevMode) { const cmpNameForError = stringifyForError(this.componentType); let message = `Can't set value of the '${name}' input on the '${cmpNameForError}' component. `; message += `Make sure that the '${name}' property is annotated with @Input() or a mapped @Input('${name}') exists.`; reportUnknownPropertyError(message); } } } get injector() { return new NodeInjector(this._tNode, this._rootLView); } destroy() { this.hostView.destroy(); } onDestroy(callback) { this.hostView.onDestroy(callback); } }; function createRootComponentTNode(lView, rNode) { const tView = lView[TVIEW]; const index = HEADER_OFFSET; ngDevMode && assertIndexInRange(lView, index); lView[index] = rNode; return getOrCreateTNode(tView, index, 2, "#host", null); } function createRootComponentView(tNode, hostRNode, rootComponentDef, rootDirectives, rootView, environment, hostRenderer) { const tView = rootView[TVIEW]; applyRootComponentStyling(rootDirectives, tNode, hostRNode, hostRenderer); let hydrationInfo = null; if (hostRNode !== null) { hydrationInfo = retrieveHydrationInfo(hostRNode, rootView[INJECTOR$1]); } const viewRenderer = environment.rendererFactory.createRenderer(hostRNode, rootComponentDef); let lViewFlags = 16; if (rootComponentDef.signals) { lViewFlags = 4096; } else if (rootComponentDef.onPush) { lViewFlags = 64; } const componentView = createLView(rootView, getOrCreateComponentTView(rootComponentDef), null, lViewFlags, rootView[tNode.index], tNode, environment, viewRenderer, null, null, hydrationInfo); if (tView.firstCreatePass) { markAsComponentHost(tView, tNode, rootDirectives.length - 1); } addToViewTree(rootView, componentView); return rootView[tNode.index] = componentView; } function applyRootComponentStyling(rootDirectives, tNode, rNode, hostRenderer) { for (const def of rootDirectives) { tNode.mergedAttrs = mergeHostAttrs(tNode.mergedAttrs, def.hostAttrs); } if (tNode.mergedAttrs !== null) { computeStaticStyling(tNode, tNode.mergedAttrs, true); if (rNode !== null) { setupStaticAttributes(hostRenderer, rNode, tNode); } } } function createRootComponent(componentView, rootComponentDef, rootDirectives, hostDirectiveDefs, rootLView, hostFeatures) { const rootTNode = getCurrentTNode(); ngDevMode && assertDefined(rootTNode, "tNode should have been already created"); const tView = rootLView[TVIEW]; const native = getNativeByTNode(rootTNode, rootLView); initializeDirectives(tView, rootLView, rootTNode, rootDirectives, null, hostDirectiveDefs); for (let i = 0; i < rootDirectives.length; i++) { const directiveIndex = rootTNode.directiveStart + i; const directiveInstance = getNodeInjectable(rootLView, tView, directiveIndex, rootTNode); attachPatchData(directiveInstance, rootLView); } invokeDirectivesHostBindings(tView, rootLView, rootTNode); if (native) { attachPatchData(native, rootLView); } ngDevMode && assertGreaterThan(rootTNode.componentOffset, -1, "componentOffset must be great than -1"); const component = getNodeInjectable(rootLView, tView, rootTNode.directiveStart + rootTNode.componentOffset, rootTNode); componentView[CONTEXT] = rootLView[CONTEXT] = component; if (hostFeatures !== null) { for (const feature of hostFeatures) { feature(component, rootComponentDef); } } executeContentQueries(tView, rootTNode, rootLView); return component; } function setRootNodeAttributes(hostRenderer, componentDef, hostRNode, rootSelectorOrNode) { if (rootSelectorOrNode) { setUpAttributes(hostRenderer, hostRNode, ["ng-version", "17.2.2"]); } else { const { attrs, classes } = extractAttrsAndClassesFromSelector(componentDef.selectors[0]); if (attrs) { setUpAttributes(hostRenderer, hostRNode, attrs); } if (classes && classes.length > 0) { writeDirectClass(hostRenderer, hostRNode, classes.join(" ")); } } } function projectNodes(tNode, ngContentSelectors, projectableNodes) { const projection = tNode.projection = []; for (let i = 0; i < ngContentSelectors.length; i++) { const nodesforSlot = projectableNodes[i]; projection.push(nodesforSlot != null ? Array.from(nodesforSlot) : null); } } function LifecycleHooksFeature() { const tNode = getCurrentTNode(); ngDevMode && assertDefined(tNode, "TNode is required"); registerPostOrderHooks(getLView()[TVIEW], tNode); } var _ViewContainerRef = class _ViewContainerRef { }; _ViewContainerRef.__NG_ELEMENT_ID__ = injectViewContainerRef; var ViewContainerRef = _ViewContainerRef; function injectViewContainerRef() { const previousTNode = getCurrentTNode(); return createContainerRef(previousTNode, getLView()); } var VE_ViewContainerRef = ViewContainerRef; var R3ViewContainerRef = class ViewContainerRef2 extends VE_ViewContainerRef { constructor(_lContainer, _hostTNode, _hostLView) { super(); this._lContainer = _lContainer; this._hostTNode = _hostTNode; this._hostLView = _hostLView; } get element() { return createElementRef(this._hostTNode, this._hostLView); } get injector() { return new NodeInjector(this._hostTNode, this._hostLView); } /** @deprecated No replacement */ get parentInjector() { const parentLocation = getParentInjectorLocation(this._hostTNode, this._hostLView); if (hasParentInjector(parentLocation)) { const parentView = getParentInjectorView(parentLocation, this._hostLView); const injectorIndex = getParentInjectorIndex(parentLocation); ngDevMode && assertNodeInjector(parentView, injectorIndex); const parentTNode = parentView[TVIEW].data[ injectorIndex + 8 /* NodeInjectorOffset.TNODE */ ]; return new NodeInjector(parentTNode, parentView); } else { return new NodeInjector(null, this._hostLView); } } clear() { while (this.length > 0) { this.remove(this.length - 1); } } get(index) { const viewRefs = getViewRefs(this._lContainer); return viewRefs !== null && viewRefs[index] || null; } get length() { return this._lContainer.length - CONTAINER_HEADER_OFFSET; } createEmbeddedView(templateRef, context, indexOrOptions) { let index; let injector; if (typeof indexOrOptions === "number") { index = indexOrOptions; } else if (indexOrOptions != null) { index = indexOrOptions.index; injector = indexOrOptions.injector; } const dehydratedView = findMatchingDehydratedView(this._lContainer, templateRef.ssrId); const viewRef = templateRef.createEmbeddedViewImpl(context || {}, injector, dehydratedView); this.insertImpl(viewRef, index, shouldAddViewToDom(this._hostTNode, dehydratedView)); return viewRef; } createComponent(componentFactoryOrType, indexOrOptions, injector, projectableNodes, environmentInjector) { const isComponentFactory = componentFactoryOrType && !isType(componentFactoryOrType); let index; if (isComponentFactory) { if (ngDevMode) { assertEqual(typeof indexOrOptions !== "object", true, "It looks like Component factory was provided as the first argument and an options object as the second argument. This combination of arguments is incompatible. You can either change the first argument to provide Component type or change the second argument to be a number (representing an index at which to insert the new component's host view into this container)"); } index = indexOrOptions; } else { if (ngDevMode) { assertDefined(getComponentDef(componentFactoryOrType), `Provided Component class doesn't contain Component definition. Please check whether provided class has @Component decorator.`); assertEqual(typeof indexOrOptions !== "number", true, "It looks like Component type was provided as the first argument and a number (representing an index at which to insert the new component's host view into this container as the second argument. This combination of arguments is incompatible. Please use an object as the second argument instead."); } const options = indexOrOptions || {}; if (ngDevMode && options.environmentInjector && options.ngModuleRef) { throwError(`Cannot pass both environmentInjector and ngModuleRef options to createComponent().`); } index = options.index; injector = options.injector; projectableNodes = options.projectableNodes; environmentInjector = options.environmentInjector || options.ngModuleRef; } const componentFactory = isComponentFactory ? componentFactoryOrType : new ComponentFactory(getComponentDef(componentFactoryOrType)); const contextInjector = injector || this.parentInjector; if (!environmentInjector && componentFactory.ngModule == null) { const _injector = isComponentFactory ? contextInjector : this.parentInjector; const result = _injector.get(EnvironmentInjector, null); if (result) { environmentInjector = result; } } const componentDef = getComponentDef(componentFactory.componentType ?? {}); const dehydratedView = findMatchingDehydratedView(this._lContainer, componentDef?.id ?? null); const rNode = dehydratedView?.firstChild ?? null; const componentRef = componentFactory.create(contextInjector, projectableNodes, rNode, environmentInjector); this.insertImpl(componentRef.hostView, index, shouldAddViewToDom(this._hostTNode, dehydratedView)); return componentRef; } insert(viewRef, index) { return this.insertImpl(viewRef, index, true); } insertImpl(viewRef, index, addToDOM) { const lView = viewRef._lView; if (ngDevMode && viewRef.destroyed) { throw new Error("Cannot insert a destroyed View in a ViewContainer!"); } if (viewAttachedToContainer(lView)) { const prevIdx = this.indexOf(viewRef); if (prevIdx !== -1) { this.detach(prevIdx); } else { const prevLContainer = lView[PARENT]; ngDevMode && assertEqual(isLContainer(prevLContainer), true, "An attached view should have its PARENT point to a container."); const prevVCRef = new R3ViewContainerRef(prevLContainer, prevLContainer[T_HOST], prevLContainer[PARENT]); prevVCRef.detach(prevVCRef.indexOf(viewRef)); } } const adjustedIdx = this._adjustIndex(index); const lContainer = this._lContainer; addLViewToLContainer(lContainer, lView, adjustedIdx, addToDOM); viewRef.attachToViewContainerRef(); addToArray(getOrCreateViewRefs(lContainer), adjustedIdx, viewRef); return viewRef; } move(viewRef, newIndex) { if (ngDevMode && viewRef.destroyed) { throw new Error("Cannot move a destroyed View in a ViewContainer!"); } return this.insert(viewRef, newIndex); } indexOf(viewRef) { const viewRefsArr = getViewRefs(this._lContainer); return viewRefsArr !== null ? viewRefsArr.indexOf(viewRef) : -1; } remove(index) { const adjustedIdx = this._adjustIndex(index, -1); const detachedView = detachView(this._lContainer, adjustedIdx); if (detachedView) { removeFromArray(getOrCreateViewRefs(this._lContainer), adjustedIdx); destroyLView(detachedView[TVIEW], detachedView); } } detach(index) { const adjustedIdx = this._adjustIndex(index, -1); const view = detachView(this._lContainer, adjustedIdx); const wasDetached = view && removeFromArray(getOrCreateViewRefs(this._lContainer), adjustedIdx) != null; return wasDetached ? new ViewRef$1(view) : null; } _adjustIndex(index, shift = 0) { if (index == null) { return this.length + shift; } if (ngDevMode) { assertGreaterThan(index, -1, `ViewRef index must be positive, got ${index}`); assertLessThan(index, this.length + 1 + shift, "index"); } return index; } }; function getViewRefs(lContainer) { return lContainer[VIEW_REFS]; } function getOrCreateViewRefs(lContainer) { return lContainer[VIEW_REFS] || (lContainer[VIEW_REFS] = []); } function createContainerRef(hostTNode, hostLView) { ngDevMode && assertTNodeType( hostTNode, 12 | 3 /* TNodeType.AnyRNode */ ); let lContainer; const slotValue = hostLView[hostTNode.index]; if (isLContainer(slotValue)) { lContainer = slotValue; } else { lContainer = createLContainer(slotValue, hostLView, null, hostTNode); hostLView[hostTNode.index] = lContainer; addToViewTree(hostLView, lContainer); } _locateOrCreateAnchorNode(lContainer, hostLView, hostTNode, slotValue); return new R3ViewContainerRef(lContainer, hostTNode, hostLView); } function insertAnchorNode(hostLView, hostTNode) { const renderer = hostLView[RENDERER]; ngDevMode && ngDevMode.rendererCreateComment++; const commentNode = renderer.createComment(ngDevMode ? "container" : ""); const hostNative = getNativeByTNode(hostTNode, hostLView); const parentOfHostNative = nativeParentNode(renderer, hostNative); nativeInsertBefore(renderer, parentOfHostNative, commentNode, nativeNextSibling(renderer, hostNative), false); return commentNode; } var _locateOrCreateAnchorNode = createAnchorNode; var _populateDehydratedViewsInLContainer = () => false; function populateDehydratedViewsInLContainer(lContainer, tNode, hostLView) { return _populateDehydratedViewsInLContainer(lContainer, tNode, hostLView); } function createAnchorNode(lContainer, hostLView, hostTNode, slotValue) { if (lContainer[NATIVE]) return; let commentNode; if (hostTNode.type & 8) { commentNode = unwrapRNode(slotValue); } else { commentNode = insertAnchorNode(hostLView, hostTNode); } lContainer[NATIVE] = commentNode; } function populateDehydratedViewsInLContainerImpl(lContainer, tNode, hostLView) { if (lContainer[NATIVE] && lContainer[DEHYDRATED_VIEWS]) { return true; } const hydrationInfo = hostLView[HYDRATION]; const noOffsetIndex = tNode.index - HEADER_OFFSET; const isNodeCreationMode = !hydrationInfo || isInSkipHydrationBlock(tNode) || isDisconnectedNode$1(hydrationInfo, noOffsetIndex); if (isNodeCreationMode) { return false; } const currentRNode = getSegmentHead(hydrationInfo, noOffsetIndex); const serializedViews = hydrationInfo.data[CONTAINERS]?.[noOffsetIndex]; ngDevMode && assertDefined(serializedViews, "Unexpected state: no hydration info available for a given TNode, which represents a view container."); const [commentNode, dehydratedViews] = locateDehydratedViewsInContainer(currentRNode, serializedViews); if (ngDevMode) { validateMatchingNode(commentNode, Node.COMMENT_NODE, null, hostLView, tNode, true); markRNodeAsClaimedByHydration(commentNode, false); } lContainer[NATIVE] = commentNode; lContainer[DEHYDRATED_VIEWS] = dehydratedViews; return true; } function locateOrCreateAnchorNode(lContainer, hostLView, hostTNode, slotValue) { if (!_populateDehydratedViewsInLContainer(lContainer, hostTNode, hostLView)) { createAnchorNode(lContainer, hostLView, hostTNode, slotValue); } } function enableLocateOrCreateContainerRefImpl() { _locateOrCreateAnchorNode = locateOrCreateAnchorNode; _populateDehydratedViewsInLContainer = populateDehydratedViewsInLContainerImpl; } var LQuery_ = class _LQuery_ { constructor(queryList) { this.queryList = queryList; this.matches = null; } clone() { return new _LQuery_(this.queryList); } setDirty() { this.queryList.setDirty(); } }; var LQueries_ = class _LQueries_ { constructor(queries = []) { this.queries = queries; } createEmbeddedView(tView) { const tQueries = tView.queries; if (tQueries !== null) { const noOfInheritedQueries = tView.contentQueries !== null ? tView.contentQueries[0] : tQueries.length; const viewLQueries = []; for (let i = 0; i < noOfInheritedQueries; i++) { const tQuery = tQueries.getByIndex(i); const parentLQuery = this.queries[tQuery.indexInDeclarationView]; viewLQueries.push(parentLQuery.clone()); } return new _LQueries_(viewLQueries); } return null; } insertView(tView) { this.dirtyQueriesWithMatches(tView); } detachView(tView) { this.dirtyQueriesWithMatches(tView); } finishViewCreation(tView) { this.dirtyQueriesWithMatches(tView); } dirtyQueriesWithMatches(tView) { for (let i = 0; i < this.queries.length; i++) { if (getTQuery(tView, i).matches !== null) { this.queries[i].setDirty(); } } } }; var TQueryMetadata_ = class { constructor(predicate, flags, read = null) { this.flags = flags; this.read = read; if (typeof predicate === "string") { this.predicate = splitQueryMultiSelectors(predicate); } else { this.predicate = predicate; } } }; var TQueries_ = class _TQueries_ { constructor(queries = []) { this.queries = queries; } elementStart(tView, tNode) { ngDevMode && assertFirstCreatePass(tView, "Queries should collect results on the first template pass only"); for (let i = 0; i < this.queries.length; i++) { this.queries[i].elementStart(tView, tNode); } } elementEnd(tNode) { for (let i = 0; i < this.queries.length; i++) { this.queries[i].elementEnd(tNode); } } embeddedTView(tNode) { let queriesForTemplateRef = null; for (let i = 0; i < this.length; i++) { const childQueryIndex = queriesForTemplateRef !== null ? queriesForTemplateRef.length : 0; const tqueryClone = this.getByIndex(i).embeddedTView(tNode, childQueryIndex); if (tqueryClone) { tqueryClone.indexInDeclarationView = i; if (queriesForTemplateRef !== null) { queriesForTemplateRef.push(tqueryClone); } else { queriesForTemplateRef = [tqueryClone]; } } } return queriesForTemplateRef !== null ? new _TQueries_(queriesForTemplateRef) : null; } template(tView, tNode) { ngDevMode && assertFirstCreatePass(tView, "Queries should collect results on the first template pass only"); for (let i = 0; i < this.queries.length; i++) { this.queries[i].template(tView, tNode); } } getByIndex(index) { ngDevMode && assertIndexInRange(this.queries, index); return this.queries[index]; } get length() { return this.queries.length; } track(tquery) { this.queries.push(tquery); } }; var TQuery_ = class _TQuery_ { constructor(metadata, nodeIndex = -1) { this.metadata = metadata; this.matches = null; this.indexInDeclarationView = -1; this.crossesNgTemplate = false; this._appliesToNextNode = true; this._declarationNodeIndex = nodeIndex; } elementStart(tView, tNode) { if (this.isApplyingToNode(tNode)) { this.matchTNode(tView, tNode); } } elementEnd(tNode) { if (this._declarationNodeIndex === tNode.index) { this._appliesToNextNode = false; } } template(tView, tNode) { this.elementStart(tView, tNode); } embeddedTView(tNode, childQueryIndex) { if (this.isApplyingToNode(tNode)) { this.crossesNgTemplate = true; this.addMatch(-tNode.index, childQueryIndex); return new _TQuery_(this.metadata); } return null; } isApplyingToNode(tNode) { if (this._appliesToNextNode && (this.metadata.flags & 1) !== 1) { const declarationNodeIdx = this._declarationNodeIndex; let parent = tNode.parent; while (parent !== null && parent.type & 8 && parent.index !== declarationNodeIdx) { parent = parent.parent; } return declarationNodeIdx === (parent !== null ? parent.index : -1); } return this._appliesToNextNode; } matchTNode(tView, tNode) { const predicate = this.metadata.predicate; if (Array.isArray(predicate)) { for (let i = 0; i < predicate.length; i++) { const name = predicate[i]; this.matchTNodeWithReadOption(tView, tNode, getIdxOfMatchingSelector(tNode, name)); this.matchTNodeWithReadOption(tView, tNode, locateDirectiveOrProvider(tNode, tView, name, false, false)); } } else { if (predicate === TemplateRef) { if (tNode.type & 4) { this.matchTNodeWithReadOption(tView, tNode, -1); } } else { this.matchTNodeWithReadOption(tView, tNode, locateDirectiveOrProvider(tNode, tView, predicate, false, false)); } } } matchTNodeWithReadOption(tView, tNode, nodeMatchIdx) { if (nodeMatchIdx !== null) { const read = this.metadata.read; if (read !== null) { if (read === ElementRef || read === ViewContainerRef || read === TemplateRef && tNode.type & 4) { this.addMatch(tNode.index, -2); } else { const directiveOrProviderIdx = locateDirectiveOrProvider(tNode, tView, read, false, false); if (directiveOrProviderIdx !== null) { this.addMatch(tNode.index, directiveOrProviderIdx); } } } else { this.addMatch(tNode.index, nodeMatchIdx); } } } addMatch(tNodeIdx, matchIdx) { if (this.matches === null) { this.matches = [tNodeIdx, matchIdx]; } else { this.matches.push(tNodeIdx, matchIdx); } } }; function getIdxOfMatchingSelector(tNode, selector) { const localNames = tNode.localNames; if (localNames !== null) { for (let i = 0; i < localNames.length; i += 2) { if (localNames[i] === selector) { return localNames[i + 1]; } } } return null; } function createResultByTNodeType(tNode, currentView) { if (tNode.type & (3 | 8)) { return createElementRef(tNode, currentView); } else if (tNode.type & 4) { return createTemplateRef(tNode, currentView); } return null; } function createResultForNode(lView, tNode, matchingIdx, read) { if (matchingIdx === -1) { return createResultByTNodeType(tNode, lView); } else if (matchingIdx === -2) { return createSpecialToken(lView, tNode, read); } else { return getNodeInjectable(lView, lView[TVIEW], matchingIdx, tNode); } } function createSpecialToken(lView, tNode, read) { if (read === ElementRef) { return createElementRef(tNode, lView); } else if (read === TemplateRef) { return createTemplateRef(tNode, lView); } else if (read === ViewContainerRef) { ngDevMode && assertTNodeType( tNode, 3 | 12 /* TNodeType.AnyContainer */ ); return createContainerRef(tNode, lView); } else { ngDevMode && throwError(`Special token to read should be one of ElementRef, TemplateRef or ViewContainerRef but got ${stringify(read)}.`); } } function materializeViewResults(tView, lView, tQuery, queryIndex) { const lQuery = lView[QUERIES].queries[queryIndex]; if (lQuery.matches === null) { const tViewData = tView.data; const tQueryMatches = tQuery.matches; const result = []; for (let i = 0; tQueryMatches !== null && i < tQueryMatches.length; i += 2) { const matchedNodeIdx = tQueryMatches[i]; if (matchedNodeIdx < 0) { result.push(null); } else { ngDevMode && assertIndexInRange(tViewData, matchedNodeIdx); const tNode = tViewData[matchedNodeIdx]; result.push(createResultForNode(lView, tNode, tQueryMatches[i + 1], tQuery.metadata.read)); } } lQuery.matches = result; } return lQuery.matches; } function collectQueryResults(tView, lView, queryIndex, result) { const tQuery = tView.queries.getByIndex(queryIndex); const tQueryMatches = tQuery.matches; if (tQueryMatches !== null) { const lViewResults = materializeViewResults(tView, lView, tQuery, queryIndex); for (let i = 0; i < tQueryMatches.length; i += 2) { const tNodeIdx = tQueryMatches[i]; if (tNodeIdx > 0) { result.push(lViewResults[i / 2]); } else { const childQueryIndex = tQueryMatches[i + 1]; const declarationLContainer = lView[-tNodeIdx]; ngDevMode && assertLContainer(declarationLContainer); for (let i2 = CONTAINER_HEADER_OFFSET; i2 < declarationLContainer.length; i2++) { const embeddedLView = declarationLContainer[i2]; if (embeddedLView[DECLARATION_LCONTAINER] === embeddedLView[PARENT]) { collectQueryResults(embeddedLView[TVIEW], embeddedLView, childQueryIndex, result); } } if (declarationLContainer[MOVED_VIEWS] !== null) { const embeddedLViews = declarationLContainer[MOVED_VIEWS]; for (let i2 = 0; i2 < embeddedLViews.length; i2++) { const embeddedLView = embeddedLViews[i2]; collectQueryResults(embeddedLView[TVIEW], embeddedLView, childQueryIndex, result); } } } } } return result; } function loadQueryInternal(lView, queryIndex) { ngDevMode && assertDefined(lView[QUERIES], "LQueries should be defined when trying to load a query"); ngDevMode && assertIndexInRange(lView[QUERIES].queries, queryIndex); return lView[QUERIES].queries[queryIndex].queryList; } function createLQuery(tView, lView, flags) { const queryList = new QueryList( (flags & 4) === 4 /* QueryFlags.emitDistinctChangesOnly */ ); storeCleanupWithContext(tView, lView, queryList, queryList.destroy); const lQueries = (lView[QUERIES] ??= new LQueries_()).queries; return lQueries.push(new LQuery_(queryList)) - 1; } function createViewQuery(predicate, flags, read) { ngDevMode && assertNumber(flags, "Expecting flags"); const tView = getTView(); if (tView.firstCreatePass) { createTQuery(tView, new TQueryMetadata_(predicate, flags, read), -1); if ((flags & 2) === 2) { tView.staticViewQueries = true; } } return createLQuery(tView, getLView(), flags); } function createContentQuery(directiveIndex, predicate, flags, read) { ngDevMode && assertNumber(flags, "Expecting flags"); const tView = getTView(); if (tView.firstCreatePass) { const tNode = getCurrentTNode(); createTQuery(tView, new TQueryMetadata_(predicate, flags, read), tNode.index); saveContentQueryAndDirectiveIndex(tView, directiveIndex); if ((flags & 2) === 2) { tView.staticContentQueries = true; } } return createLQuery(tView, getLView(), flags); } function splitQueryMultiSelectors(locator) { return locator.split(",").map((s) => s.trim()); } function createTQuery(tView, metadata, nodeIndex) { if (tView.queries === null) tView.queries = new TQueries_(); tView.queries.track(new TQuery_(metadata, nodeIndex)); } function saveContentQueryAndDirectiveIndex(tView, directiveIndex) { const tViewContentQueries = tView.contentQueries || (tView.contentQueries = []); const lastSavedDirectiveIndex = tViewContentQueries.length ? tViewContentQueries[tViewContentQueries.length - 1] : -1; if (directiveIndex !== lastSavedDirectiveIndex) { tViewContentQueries.push(tView.queries.length - 1, directiveIndex); } } function getTQuery(tView, index) { ngDevMode && assertDefined(tView.queries, "TQueries must be defined to retrieve a TQuery"); return tView.queries.getByIndex(index); } function getQueryResults(lView, queryIndex) { const tView = lView[TVIEW]; const tQuery = getTQuery(tView, queryIndex); return tQuery.crossesNgTemplate ? collectQueryResults(tView, lView, queryIndex, []) : materializeViewResults(tView, lView, tQuery, queryIndex); } function createQuerySignalFn(firstOnly, required) { let node; const signalFn = createComputed(() => { node._dirtyCounter(); const value = refreshSignalQuery(node, firstOnly); if (required && value === void 0) { throw new RuntimeError(-951, ngDevMode && "Child query result is required but no value is available."); } return value; }); node = signalFn[SIGNAL]; node._dirtyCounter = signal(0); node._flatValue = void 0; if (ngDevMode) { signalFn.toString = () => `[Query Signal]`; } return signalFn; } function createSingleResultOptionalQuerySignalFn() { return createQuerySignalFn( /* firstOnly */ true, /* required */ false ); } function createSingleResultRequiredQuerySignalFn() { return createQuerySignalFn( /* firstOnly */ true, /* required */ true ); } function createMultiResultQuerySignalFn() { return createQuerySignalFn( /* firstOnly */ false, /* required */ false ); } function bindQueryToSignal(target, queryIndex) { const node = target[SIGNAL]; node._lView = getLView(); node._queryIndex = queryIndex; node._queryList = loadQueryInternal(node._lView, queryIndex); node._queryList.onDirty(() => node._dirtyCounter.update((v) => v + 1)); } function refreshSignalQuery(node, firstOnly) { const lView = node._lView; const queryIndex = node._queryIndex; if (lView === void 0 || queryIndex === void 0 || lView[FLAGS] & 4) { return firstOnly ? void 0 : EMPTY_ARRAY; } const queryList = loadQueryInternal(lView, queryIndex); const results = getQueryResults(lView, queryIndex); queryList.reset(results, unwrapElementRef); if (firstOnly) { return queryList.first; } else { const resultChanged = queryList._changesDetected; if (resultChanged || node._flatValue === void 0) { return node._flatValue = queryList.toArray(); } return node._flatValue; } } function viewChildFn(locator, opts) { return createSingleResultOptionalQuerySignalFn(); } function viewChildRequiredFn(locator, opts) { return createSingleResultRequiredQuerySignalFn(); } var viewChild = (() => { viewChildFn.required = viewChildRequiredFn; return viewChildFn; })(); function viewChildren(locator, opts) { return createMultiResultQuerySignalFn(); } function contentChildFn(locator, opts) { return createSingleResultOptionalQuerySignalFn(); } function contentChildRequiredFn(locator, opts) { return createSingleResultRequiredQuerySignalFn(); } var contentChild = (() => { contentChildFn.required = contentChildRequiredFn; return contentChildFn; })(); function contentChildren(locator, opts) { return createMultiResultQuerySignalFn(); } function createModelSignal(initialValue) { const subscriptions = []; const node = Object.create(INPUT_SIGNAL_NODE); node.value = initialValue; function getter() { producerAccessed(node); assertModelSet(node.value); return node.value; } function notifySubscribers(value) { for (let i = 0; i < subscriptions.length; i++) { subscriptions[i](value); } } getter[SIGNAL] = node; getter.asReadonly = () => getter(); getter.set = (newValue) => { if (!node.equal(node.value, newValue)) { signalSetFn(node, newValue); notifySubscribers(newValue); } }; getter.update = (updateFn) => { assertModelSet(node.value); getter.set(updateFn(node.value)); }; getter.subscribe = (callback) => { subscriptions.push(callback); return () => { const index = subscriptions.indexOf(callback); if (index > -1) { subscriptions.splice(index, 1); } }; }; if (ngDevMode) { getter.toString = () => `[Model Signal: ${getter()}]`; } return getter; } function assertModelSet(value) { if (value === REQUIRED_UNSET_VALUE) { throw new RuntimeError(-952, ngDevMode && "Model is required but no value is available yet."); } } function modelFunction(initialValue) { return createModelSignal(initialValue); } function modelRequiredFunction() { return createModelSignal(REQUIRED_UNSET_VALUE); } var model = (() => { modelFunction.required = modelRequiredFunction; return modelFunction; })(); var emitDistinctChangesOnlyDefaultValue = true; var Query = class { }; var ContentChildren = makePropDecorator("ContentChildren", (selector, opts = {}) => __spreadValues({ selector, first: false, isViewQuery: false, descendants: false, emitDistinctChangesOnly: emitDistinctChangesOnlyDefaultValue }, opts), Query); var ContentChild = makePropDecorator("ContentChild", (selector, opts = {}) => __spreadValues({ selector, first: true, isViewQuery: false, descendants: true }, opts), Query); var ViewChildren = makePropDecorator("ViewChildren", (selector, opts = {}) => __spreadValues({ selector, first: false, isViewQuery: true, descendants: true, emitDistinctChangesOnly: emitDistinctChangesOnlyDefaultValue }, opts), Query); var ViewChild = makePropDecorator("ViewChild", (selector, opts) => __spreadValues({ selector, first: true, isViewQuery: true, descendants: true }, opts), Query); function resolveComponentResources(resourceResolver) { const componentResolved = []; const urlMap = /* @__PURE__ */ new Map(); function cachedResourceResolve(url) { let promise = urlMap.get(url); if (!promise) { const resp = resourceResolver(url); urlMap.set(url, promise = resp.then(unwrapResponse)); } return promise; } componentResourceResolutionQueue.forEach((component, type) => { const promises = []; if (component.templateUrl) { promises.push(cachedResourceResolve(component.templateUrl).then((template) => { component.template = template; })); } const styles = typeof component.styles === "string" ? [component.styles] : component.styles || []; component.styles = styles; if (component.styleUrl && component.styleUrls?.length) { throw new Error("@Component cannot define both `styleUrl` and `styleUrls`. Use `styleUrl` if the component has one stylesheet, or `styleUrls` if it has multiple"); } else if (component.styleUrls?.length) { const styleOffset = component.styles.length; const styleUrls = component.styleUrls; component.styleUrls.forEach((styleUrl, index) => { styles.push(""); promises.push(cachedResourceResolve(styleUrl).then((style) => { styles[styleOffset + index] = style; styleUrls.splice(styleUrls.indexOf(styleUrl), 1); if (styleUrls.length == 0) { component.styleUrls = void 0; } })); }); } else if (component.styleUrl) { promises.push(cachedResourceResolve(component.styleUrl).then((style) => { styles.push(style); component.styleUrl = void 0; })); } const fullyResolved = Promise.all(promises).then(() => componentDefResolved(type)); componentResolved.push(fullyResolved); }); clearResolutionOfComponentResourcesQueue(); return Promise.all(componentResolved).then(() => void 0); } var componentResourceResolutionQueue = /* @__PURE__ */ new Map(); var componentDefPendingResolution = /* @__PURE__ */ new Set(); function maybeQueueResolutionOfComponentResources(type, metadata) { if (componentNeedsResolution(metadata)) { componentResourceResolutionQueue.set(type, metadata); componentDefPendingResolution.add(type); } } function isComponentDefPendingResolution(type) { return componentDefPendingResolution.has(type); } function componentNeedsResolution(component) { return !!(component.templateUrl && !component.hasOwnProperty("template") || component.styleUrls && component.styleUrls.length || component.styleUrl); } function clearResolutionOfComponentResourcesQueue() { const old = componentResourceResolutionQueue; componentResourceResolutionQueue = /* @__PURE__ */ new Map(); return old; } function restoreComponentResolutionQueue(queue) { componentDefPendingResolution.clear(); queue.forEach((_, type) => componentDefPendingResolution.add(type)); componentResourceResolutionQueue = queue; } function isComponentResourceResolutionQueueEmpty() { return componentResourceResolutionQueue.size === 0; } function unwrapResponse(response) { return typeof response == "string" ? response : response.text(); } function componentDefResolved(type) { componentDefPendingResolution.delete(type); } var modules = /* @__PURE__ */ new Map(); var checkForDuplicateNgModules = true; function assertSameOrNotExisting(id, type, incoming) { if (type && type !== incoming && checkForDuplicateNgModules) { throw new Error(`Duplicate module registered for ${id} - ${stringify(type)} vs ${stringify(type.name)}`); } } function registerNgModuleType(ngModuleType, id) { const existing = modules.get(id) || null; assertSameOrNotExisting(id, existing, ngModuleType); modules.set(id, ngModuleType); } function getRegisteredNgModuleType(id) { return modules.get(id); } function setAllowDuplicateNgModuleIdsForTest(allowDuplicates) { checkForDuplicateNgModules = !allowDuplicates; } function ɵɵvalidateIframeAttribute(attrValue, tagName, attrName) { const lView = getLView(); const tNode = getSelectedTNode(); const element = getNativeByTNode(tNode, lView); if (tNode.type === 2 && tagName.toLowerCase() === "iframe") { const iframe = element; iframe.src = ""; iframe.srcdoc = trustedHTMLFromString(""); nativeRemoveNode(lView[RENDERER], iframe); const errorMessage = ngDevMode && `Angular has detected that the \`${attrName}\` was applied as a binding to an