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ghostfolio/node_modules/@angular/core/fesm2022/testing.mjs

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/**
* @license Angular v21.1.1
* (c) 2010-2026 Google LLC. https://angular.dev/
* License: MIT
*/
import * as i0 from '@angular/core';
import { Injectable, DeferBlockState, triggerResourceLoading, renderDeferBlockState, getDeferBlocks, DeferBlockBehavior, ApplicationRef, getDebugNode, RendererFactory2, Directive, Component, Pipe, NgModule, ReflectionCapabilities, depsTracker, isComponentDefPendingResolution, resolveComponentResources, NgModuleRef, ApplicationInitStatus, LOCALE_ID, DEFAULT_LOCALE_ID, setLocaleId, ComponentFactory, getAsyncClassMetadataFn, compileComponent, compileDirective, compilePipe, patchComponentDefWithScope, compileNgModuleDefs, clearResolutionOfComponentResourcesQueue, restoreComponentResolutionQueue, provideZonelessChangeDetectionInternal, COMPILER_OPTIONS, generateStandaloneInDeclarationsError, transitiveScopesFor, Compiler, DEFER_BLOCK_CONFIG, ANIMATIONS_DISABLED, NgModuleFactory, ModuleWithComponentFactories, resetCompiledComponents, ɵsetUnknownElementStrictMode as _setUnknownElementStrictMode, ɵsetUnknownPropertyStrictMode as _setUnknownPropertyStrictMode, ɵgetUnknownElementStrictMode as _getUnknownElementStrictMode, ɵgetUnknownPropertyStrictMode as _getUnknownPropertyStrictMode, inferTagNameFromDefinition, flushModuleScopingQueueAsMuchAsPossible, setAllowDuplicateNgModuleIdsForTest } from './_debug_node-chunk.mjs';
import { Subscription } from 'rxjs';
import { inject as inject$1, NgZone, EnvironmentInjector, ErrorHandler, CONTAINER_HEADER_OFFSET, InjectionToken, NoopNgZone, PendingTasksInternal, ZONELESS_ENABLED, ChangeDetectionScheduler, EffectScheduler, stringify, getInjectableDef, resolveForwardRef, NG_COMP_DEF, NG_DIR_DEF, NG_PIPE_DEF, NG_INJ_DEF, NG_MOD_DEF, ENVIRONMENT_INITIALIZER, Injector, isEnvironmentProviders, INTERNAL_APPLICATION_ERROR_HANDLER, runInInjectionContext, getComponentDef as getComponentDef$1 } from './_untracked-chunk.mjs';
import { ResourceLoader } from '@angular/compiler';
import './_effect-chunk.mjs';
import '@angular/core/primitives/signals';
import 'rxjs/operators';
import './_attribute-chunk.mjs';
import './_not_found-chunk.mjs';
import '@angular/core/primitives/di';
function waitForAsync(fn) {
const _Zone = typeof Zone !== 'undefined' ? Zone : null;
if (!_Zone) {
return function () {
return Promise.reject('Zone is needed for the waitForAsync() test helper but could not be found. ' + 'Please make sure that your environment includes zone.js');
};
}
const asyncTest = _Zone && _Zone[_Zone.__symbol__('asyncTest')];
if (typeof asyncTest === 'function') {
return asyncTest(fn);
}
return function () {
return Promise.reject('zone-testing.js is needed for the async() test helper but could not be found. ' + 'Please make sure that your environment includes zone.js/testing');
};
}
const RETHROW_APPLICATION_ERRORS_DEFAULT = true;
class TestBedApplicationErrorHandler {
zone = inject$1(NgZone);
injector = inject$1(EnvironmentInjector);
userErrorHandler;
whenStableRejectFunctions = new Set();
handleError(e) {
try {
this.zone.runOutsideAngular(() => {
this.userErrorHandler ??= this.injector.get(ErrorHandler);
this.userErrorHandler.handleError(e);
});
} catch (userError) {
e = userError;
}
if (this.whenStableRejectFunctions.size > 0) {
for (const fn of this.whenStableRejectFunctions.values()) {
fn(e);
}
this.whenStableRejectFunctions.clear();
} else {
throw e;
}
}
static ɵfac = function TestBedApplicationErrorHandler_Factory(__ngFactoryType__) {
return new (__ngFactoryType__ || TestBedApplicationErrorHandler)();
};
static ɵprov = /*@__PURE__*/i0.ɵɵdefineInjectable({
token: TestBedApplicationErrorHandler,
factory: TestBedApplicationErrorHandler.ɵfac
});
}
(() => {
(typeof ngDevMode === "undefined" || ngDevMode) && i0.ɵsetClassMetadata(TestBedApplicationErrorHandler, [{
type: Injectable
}], null, null);
})();
class DeferBlockFixture {
block;
componentFixture;
constructor(block, componentFixture) {
this.block = block;
this.componentFixture = componentFixture;
}
async render(state) {
if (!hasStateTemplate(state, this.block)) {
const stateAsString = getDeferBlockStateNameFromEnum(state);
throw new Error(`Tried to render this defer block in the \`${stateAsString}\` state, ` + `but there was no @${stateAsString.toLowerCase()} block defined in a template.`);
}
if (state === DeferBlockState.Complete) {
await triggerResourceLoading(this.block.tDetails, this.block.lView, this.block.tNode);
}
const skipTimerScheduling = true;
renderDeferBlockState(state, this.block.tNode, this.block.lContainer, skipTimerScheduling);
this.componentFixture.detectChanges();
}
getDeferBlocks() {
const deferBlocks = [];
const deferBlockFixtures = [];
if (this.block.lContainer.length >= CONTAINER_HEADER_OFFSET) {
const lView = this.block.lContainer[CONTAINER_HEADER_OFFSET];
getDeferBlocks(lView, deferBlocks);
for (const block of deferBlocks) {
deferBlockFixtures.push(new DeferBlockFixture(block, this.componentFixture));
}
}
return Promise.resolve(deferBlockFixtures);
}
}
function hasStateTemplate(state, block) {
switch (state) {
case DeferBlockState.Placeholder:
return block.tDetails.placeholderTmplIndex !== null;
case DeferBlockState.Loading:
return block.tDetails.loadingTmplIndex !== null;
case DeferBlockState.Error:
return block.tDetails.errorTmplIndex !== null;
case DeferBlockState.Complete:
return true;
default:
return false;
}
}
function getDeferBlockStateNameFromEnum(state) {
switch (state) {
case DeferBlockState.Placeholder:
return 'Placeholder';
case DeferBlockState.Loading:
return 'Loading';
case DeferBlockState.Error:
return 'Error';
default:
return 'Main';
}
}
const TEARDOWN_TESTING_MODULE_ON_DESTROY_DEFAULT = true;
const THROW_ON_UNKNOWN_ELEMENTS_DEFAULT = false;
const THROW_ON_UNKNOWN_PROPERTIES_DEFAULT = false;
const DEFER_BLOCK_DEFAULT_BEHAVIOR = DeferBlockBehavior.Playthrough;
const ANIMATIONS_ENABLED_DEFAULT = false;
class TestComponentRenderer {
insertRootElement(rootElementId, tagName) {}
removeAllRootElements() {}
}
const ComponentFixtureAutoDetect = new InjectionToken('ComponentFixtureAutoDetect');
const ComponentFixtureNoNgZone = new InjectionToken('ComponentFixtureNoNgZone');
class ComponentFixture {
componentRef;
debugElement;
componentInstance;
nativeElement;
elementRef;
changeDetectorRef;
_renderer;
_isDestroyed = false;
_noZoneOptionIsSet = inject$1(ComponentFixtureNoNgZone, {
optional: true
});
_ngZone = this._noZoneOptionIsSet ? new NoopNgZone() : inject$1(NgZone);
_appRef = inject$1(ApplicationRef);
_testAppRef = this._appRef;
pendingTasks = inject$1(PendingTasksInternal);
appErrorHandler = inject$1(TestBedApplicationErrorHandler);
zonelessEnabled = inject$1(ZONELESS_ENABLED);
scheduler = inject$1(ChangeDetectionScheduler);
rootEffectScheduler = inject$1(EffectScheduler);
autoDetectDefault = this.zonelessEnabled ? true : false;
autoDetect = inject$1(ComponentFixtureAutoDetect, {
optional: true
}) ?? this.autoDetectDefault;
subscriptions = new Subscription();
ngZone = this._noZoneOptionIsSet ? null : this._ngZone;
constructor(componentRef) {
this.componentRef = componentRef;
this.changeDetectorRef = componentRef.changeDetectorRef;
this.elementRef = componentRef.location;
this.debugElement = getDebugNode(this.elementRef.nativeElement);
this.componentInstance = componentRef.instance;
this.nativeElement = this.elementRef.nativeElement;
this.componentRef = componentRef;
this._testAppRef.allTestViews.add(this.componentRef.hostView);
if (this.autoDetect) {
this._testAppRef.autoDetectTestViews.add(this.componentRef.hostView);
this.scheduler?.notify(8);
this.scheduler?.notify(0);
}
this.componentRef.hostView.onDestroy(() => {
this._testAppRef.allTestViews.delete(this.componentRef.hostView);
this._testAppRef.autoDetectTestViews.delete(this.componentRef.hostView);
});
this._ngZone.runOutsideAngular(() => {
this.subscriptions.add(this._ngZone.onError.subscribe({
next: error => {
if (typeof Zone === 'undefined' || Zone.current.get('FakeAsyncTestZoneSpec')) {
return;
}
throw error;
}
}));
});
}
detectChanges(checkNoChanges = true) {
const originalCheckNoChanges = this.componentRef.changeDetectorRef.checkNoChanges;
try {
if (!checkNoChanges) {
this.componentRef.changeDetectorRef.checkNoChanges = () => {};
}
if (this.zonelessEnabled) {
try {
this._testAppRef.includeAllTestViews = true;
this._appRef.tick();
} finally {
this._testAppRef.includeAllTestViews = false;
}
} else {
this._ngZone.run(() => {
this.rootEffectScheduler.flush();
this.changeDetectorRef.detectChanges();
this.checkNoChanges();
});
}
} finally {
this.componentRef.changeDetectorRef.checkNoChanges = originalCheckNoChanges;
}
}
checkNoChanges() {
this.changeDetectorRef.checkNoChanges();
}
autoDetectChanges(autoDetect = true) {
if (!autoDetect && this.zonelessEnabled) {
throw new Error('Cannot set autoDetect to false with zoneless change detection.');
}
if (this._noZoneOptionIsSet && !this.zonelessEnabled) {
throw new Error('Cannot call autoDetectChanges when ComponentFixtureNoNgZone is set.');
}
if (autoDetect) {
this._testAppRef.autoDetectTestViews.add(this.componentRef.hostView);
} else {
this._testAppRef.autoDetectTestViews.delete(this.componentRef.hostView);
}
this.autoDetect = autoDetect;
this.detectChanges();
}
isStable() {
return !this.pendingTasks.hasPendingTasks;
}
whenStable() {
if (this.isStable()) {
return Promise.resolve(false);
}
return new Promise((resolve, reject) => {
this.appErrorHandler.whenStableRejectFunctions.add(reject);
this._appRef.whenStable().then(() => {
this.appErrorHandler.whenStableRejectFunctions.delete(reject);
resolve(true);
});
});
}
getDeferBlocks() {
const deferBlocks = [];
const lView = this.componentRef.hostView['_lView'];
getDeferBlocks(lView, deferBlocks);
const deferBlockFixtures = [];
for (const block of deferBlocks) {
deferBlockFixtures.push(new DeferBlockFixture(block, this));
}
return Promise.resolve(deferBlockFixtures);
}
_getRenderer() {
if (this._renderer === undefined) {
this._renderer = this.componentRef.injector.get(RendererFactory2, null);
}
return this._renderer;
}
whenRenderingDone() {
const renderer = this._getRenderer();
if (renderer && renderer.whenRenderingDone) {
return renderer.whenRenderingDone();
}
return this.whenStable();
}
destroy() {
this.subscriptions.unsubscribe();
this._testAppRef.autoDetectTestViews.delete(this.componentRef.hostView);
this._testAppRef.allTestViews.delete(this.componentRef.hostView);
if (!this._isDestroyed) {
this.componentRef.destroy();
this._isDestroyed = true;
}
}
}
const _Zone = typeof Zone !== 'undefined' ? Zone : null;
function getFakeAsyncTestModule() {
return _Zone && _Zone[_Zone.__symbol__('fakeAsyncTest')];
}
function withFakeAsyncTestModule(fn) {
const fakeAsyncTestModule = getFakeAsyncTestModule();
if (!fakeAsyncTestModule) {
throw new Error(`zone-testing.js is needed for the fakeAsync() test helper but could not be found.
Please make sure that your environment includes zone.js/testing`);
}
return fn(fakeAsyncTestModule);
}
function resetFakeAsyncZone() {
withFakeAsyncTestModule(v => v.resetFakeAsyncZone());
}
function resetFakeAsyncZoneIfExists() {
if (getFakeAsyncTestModule() && Zone['ProxyZoneSpec']?.isLoaded()) {
getFakeAsyncTestModule().resetFakeAsyncZone();
}
}
function fakeAsync(fn, options) {
return withFakeAsyncTestModule(v => v.fakeAsync(fn, options));
}
function tick(millis = 0, tickOptions = {
processNewMacroTasksSynchronously: true
}) {
return withFakeAsyncTestModule(m => m.tick(millis, tickOptions));
}
function flush(maxTurns) {
return withFakeAsyncTestModule(m => m.flush(maxTurns));
}
function discardPeriodicTasks() {
return withFakeAsyncTestModule(m => m.discardPeriodicTasks());
}
function flushMicrotasks() {
return withFakeAsyncTestModule(m => m.flushMicrotasks());
}
let _nextReferenceId = 0;
class MetadataOverrider {
_references = new Map();
overrideMetadata(metadataClass, oldMetadata, override) {
const props = {};
if (oldMetadata) {
_valueProps(oldMetadata).forEach(prop => props[prop] = oldMetadata[prop]);
}
if (override.set) {
if (override.remove || override.add) {
throw new Error(`Cannot set and add/remove ${stringify(metadataClass)} at the same time!`);
}
setMetadata(props, override.set);
}
if (override.remove) {
removeMetadata(props, override.remove, this._references);
}
if (override.add) {
addMetadata(props, override.add);
}
return new metadataClass(props);
}
}
function removeMetadata(metadata, remove, references) {
const removeObjects = new Set();
for (const prop in remove) {
const removeValue = remove[prop];
if (Array.isArray(removeValue)) {
removeValue.forEach(value => {
removeObjects.add(_propHashKey(prop, value, references));
});
} else {
removeObjects.add(_propHashKey(prop, removeValue, references));
}
}
for (const prop in metadata) {
const propValue = metadata[prop];
if (Array.isArray(propValue)) {
metadata[prop] = propValue.filter(value => !removeObjects.has(_propHashKey(prop, value, references)));
} else {
if (removeObjects.has(_propHashKey(prop, propValue, references))) {
metadata[prop] = undefined;
}
}
}
}
function addMetadata(metadata, add) {
for (const prop in add) {
const addValue = add[prop];
const propValue = metadata[prop];
if (propValue != null && Array.isArray(propValue)) {
metadata[prop] = propValue.concat(addValue);
} else {
metadata[prop] = addValue;
}
}
}
function setMetadata(metadata, set) {
for (const prop in set) {
metadata[prop] = set[prop];
}
}
function _propHashKey(propName, propValue, references) {
let nextObjectId = 0;
const objectIds = new Map();
const replacer = (key, value) => {
if (value !== null && typeof value === 'object') {
if (objectIds.has(value)) {
return objectIds.get(value);
}
objectIds.set(value, `ɵobj#${nextObjectId++}`);
return value;
} else if (typeof value === 'function') {
value = _serializeReference(value, references);
}
return value;
};
return `${propName}:${JSON.stringify(propValue, replacer)}`;
}
function _serializeReference(ref, references) {
let id = references.get(ref);
if (!id) {
id = `${stringify(ref)}${_nextReferenceId++}`;
references.set(ref, id);
}
return id;
}
function _valueProps(obj) {
const props = [];
Object.keys(obj).forEach(prop => {
if (!prop.startsWith('_')) {
props.push(prop);
}
});
let proto = obj;
while (proto = Object.getPrototypeOf(proto)) {
Object.keys(proto).forEach(protoProp => {
const desc = Object.getOwnPropertyDescriptor(proto, protoProp);
if (!protoProp.startsWith('_') && desc && 'get' in desc) {
props.push(protoProp);
}
});
}
return props;
}
const reflection = new ReflectionCapabilities();
class OverrideResolver {
overrides = new Map();
resolved = new Map();
addOverride(type, override) {
const overrides = this.overrides.get(type) || [];
overrides.push(override);
this.overrides.set(type, overrides);
this.resolved.delete(type);
}
setOverrides(overrides) {
this.overrides.clear();
overrides.forEach(([type, override]) => {
this.addOverride(type, override);
});
}
getAnnotation(type) {
const annotations = reflection.annotations(type);
for (let i = annotations.length - 1; i >= 0; i--) {
const annotation = annotations[i];
const isKnownType = annotation instanceof Directive || annotation instanceof Component || annotation instanceof Pipe || annotation instanceof NgModule;
if (isKnownType) {
return annotation instanceof this.type ? annotation : null;
}
}
return null;
}
resolve(type) {
let resolved = this.resolved.get(type) || null;
if (!resolved) {
resolved = this.getAnnotation(type);
if (resolved) {
const overrides = this.overrides.get(type);
if (overrides) {
const overrider = new MetadataOverrider();
overrides.forEach(override => {
resolved = overrider.overrideMetadata(this.type, resolved, override);
});
}
}
this.resolved.set(type, resolved);
}
return resolved;
}
}
class DirectiveResolver extends OverrideResolver {
get type() {
return Directive;
}
}
class ComponentResolver extends OverrideResolver {
get type() {
return Component;
}
}
class PipeResolver extends OverrideResolver {
get type() {
return Pipe;
}
}
class NgModuleResolver extends OverrideResolver {
get type() {
return NgModule;
}
}
var TestingModuleOverride;
(function (TestingModuleOverride) {
TestingModuleOverride[TestingModuleOverride["DECLARATION"] = 0] = "DECLARATION";
TestingModuleOverride[TestingModuleOverride["OVERRIDE_TEMPLATE"] = 1] = "OVERRIDE_TEMPLATE";
})(TestingModuleOverride || (TestingModuleOverride = {}));
function isTestingModuleOverride(value) {
return value === TestingModuleOverride.DECLARATION || value === TestingModuleOverride.OVERRIDE_TEMPLATE;
}
function assertNoStandaloneComponents(types, resolver, location) {
types.forEach(type => {
if (!getAsyncClassMetadataFn(type)) {
const component = resolver.resolve(type);
if (component && (component.standalone == null || component.standalone)) {
throw new Error(generateStandaloneInDeclarationsError(type, location));
}
}
});
}
class TestBedCompiler {
platform;
additionalModuleTypes;
originalComponentResolutionQueue = null;
declarations = [];
imports = [];
providers = [];
schemas = [];
pendingComponents = new Set();
pendingDirectives = new Set();
pendingPipes = new Set();
componentsWithAsyncMetadata = new Set();
seenComponents = new Set();
seenDirectives = new Set();
overriddenModules = new Set();
existingComponentStyles = new Map();
resolvers = initResolvers();
componentToModuleScope = new Map();
initialNgDefs = new Map();
defCleanupOps = [];
_injector = null;
compilerProviders = null;
providerOverrides = [];
rootProviderOverrides = [];
providerOverridesByModule = new Map();
providerOverridesByToken = new Map();
scopesWithOverriddenProviders = new Set();
testModuleType;
testModuleRef = null;
animationsEnabled = ANIMATIONS_ENABLED_DEFAULT;
deferBlockBehavior = DEFER_BLOCK_DEFAULT_BEHAVIOR;
rethrowApplicationTickErrors = RETHROW_APPLICATION_ERRORS_DEFAULT;
constructor(platform, additionalModuleTypes) {
this.platform = platform;
this.additionalModuleTypes = additionalModuleTypes;
class DynamicTestModule {}
this.testModuleType = DynamicTestModule;
}
setCompilerProviders(providers) {
this.compilerProviders = providers;
this._injector = null;
}
configureTestingModule(moduleDef) {
if (moduleDef.declarations !== undefined) {
assertNoStandaloneComponents(moduleDef.declarations, this.resolvers.component, '"TestBed.configureTestingModule" call');
this.queueTypeArray(moduleDef.declarations, TestingModuleOverride.DECLARATION);
this.declarations.push(...moduleDef.declarations);
}
if (moduleDef.imports !== undefined) {
this.queueTypesFromModulesArray(moduleDef.imports);
this.imports.push(...moduleDef.imports);
}
if (moduleDef.providers !== undefined) {
this.providers.push(...moduleDef.providers);
}
if (moduleDef.schemas !== undefined) {
this.schemas.push(...moduleDef.schemas);
}
this.deferBlockBehavior = moduleDef.deferBlockBehavior ?? DEFER_BLOCK_DEFAULT_BEHAVIOR;
this.animationsEnabled = moduleDef.animationsEnabled ?? ANIMATIONS_ENABLED_DEFAULT;
this.rethrowApplicationTickErrors = moduleDef.rethrowApplicationErrors ?? RETHROW_APPLICATION_ERRORS_DEFAULT;
}
overrideModule(ngModule, override) {
depsTracker.clearScopeCacheFor(ngModule);
this.overriddenModules.add(ngModule);
this.resolvers.module.addOverride(ngModule, override);
const metadata = this.resolvers.module.resolve(ngModule);
if (metadata === null) {
throw invalidTypeError(ngModule.name, 'NgModule');
}
this.recompileNgModule(ngModule, metadata);
this.queueTypesFromModulesArray([ngModule]);
}
overrideComponent(component, override) {
this.verifyNoStandaloneFlagOverrides(component, override);
this.resolvers.component.addOverride(component, override);
this.pendingComponents.add(component);
this.maybeRegisterComponentWithAsyncMetadata(component);
}
overrideDirective(directive, override) {
this.verifyNoStandaloneFlagOverrides(directive, override);
this.resolvers.directive.addOverride(directive, override);
this.pendingDirectives.add(directive);
}
overridePipe(pipe, override) {
this.verifyNoStandaloneFlagOverrides(pipe, override);
this.resolvers.pipe.addOverride(pipe, override);
this.pendingPipes.add(pipe);
}
verifyNoStandaloneFlagOverrides(type, override) {
if (override.add?.hasOwnProperty('standalone') || override.set?.hasOwnProperty('standalone') || override.remove?.hasOwnProperty('standalone')) {
throw new Error(`An override for the ${type.name} class has the \`standalone\` flag. ` + `Changing the \`standalone\` flag via TestBed overrides is not supported.`);
}
}
overrideProvider(token, provider) {
let providerDef;
if (provider.useFactory !== undefined) {
providerDef = {
provide: token,
useFactory: provider.useFactory,
deps: provider.deps || [],
multi: provider.multi
};
} else if (provider.useValue !== undefined) {
providerDef = {
provide: token,
useValue: provider.useValue,
multi: provider.multi
};
} else {
providerDef = {
provide: token
};
}
const injectableDef = typeof token !== 'string' ? getInjectableDef(token) : null;
const providedIn = injectableDef === null ? null : resolveForwardRef(injectableDef.providedIn);
const overridesBucket = providedIn === 'root' ? this.rootProviderOverrides : this.providerOverrides;
overridesBucket.push(providerDef);
this.providerOverridesByToken.set(token, providerDef);
if (injectableDef !== null && providedIn !== null && typeof providedIn !== 'string') {
const existingOverrides = this.providerOverridesByModule.get(providedIn);
if (existingOverrides !== undefined) {
existingOverrides.push(providerDef);
} else {
this.providerOverridesByModule.set(providedIn, [providerDef]);
}
}
}
overrideTemplateUsingTestingModule(type, template) {
const def = type[NG_COMP_DEF];
const hasStyleUrls = () => {
const metadata = this.resolvers.component.resolve(type);
return !!metadata.styleUrl || !!metadata.styleUrls?.length;
};
const overrideStyleUrls = !!def && !isComponentDefPendingResolution(type) && hasStyleUrls();
const override = overrideStyleUrls ? {
template,
styles: [],
styleUrls: [],
styleUrl: undefined
} : {
template
};
this.overrideComponent(type, {
set: override
});
if (overrideStyleUrls && def.styles && def.styles.length > 0) {
this.existingComponentStyles.set(type, def.styles);
}
this.componentToModuleScope.set(type, TestingModuleOverride.OVERRIDE_TEMPLATE);
}
async resolvePendingComponentsWithAsyncMetadata() {
if (this.componentsWithAsyncMetadata.size === 0) return;
const promises = [];
for (const component of this.componentsWithAsyncMetadata) {
const asyncMetadataFn = getAsyncClassMetadataFn(component);
if (asyncMetadataFn) {
promises.push(asyncMetadataFn());
}
}
this.componentsWithAsyncMetadata.clear();
const resolvedDeps = await Promise.all(promises);
const flatResolvedDeps = resolvedDeps.flat(2);
this.queueTypesFromModulesArray(flatResolvedDeps);
for (const component of flatResolvedDeps) {
this.applyProviderOverridesInScope(component);
}
}
async compileComponents() {
this.clearComponentResolutionQueue();
await this.resolvePendingComponentsWithAsyncMetadata();
assertNoStandaloneComponents(this.declarations, this.resolvers.component, '"TestBed.configureTestingModule" call');
let needsAsyncResources = this.compileTypesSync();
if (needsAsyncResources) {
let resourceLoader;
let resolver = url => {
if (!resourceLoader) {
resourceLoader = this.injector.get(ResourceLoader);
}
return Promise.resolve(resourceLoader.get(url));
};
await resolveComponentResources(resolver);
}
}
finalize() {
this.compileTypesSync();
this.compileTestModule();
this.applyTransitiveScopes();
this.applyProviderOverrides();
this.patchComponentsWithExistingStyles();
this.componentToModuleScope.clear();
const parentInjector = this.platform.injector;
this.testModuleRef = new NgModuleRef(this.testModuleType, parentInjector, []);
this.testModuleRef.injector.get(ApplicationInitStatus).runInitializers();
const localeId = this.testModuleRef.injector.get(LOCALE_ID, DEFAULT_LOCALE_ID);
setLocaleId(localeId);
return this.testModuleRef;
}
_compileNgModuleSync(moduleType) {
this.queueTypesFromModulesArray([moduleType]);
this.compileTypesSync();
this.applyProviderOverrides();
this.applyProviderOverridesInScope(moduleType);
this.applyTransitiveScopes();
}
async _compileNgModuleAsync(moduleType) {
this.queueTypesFromModulesArray([moduleType]);
await this.compileComponents();
this.applyProviderOverrides();
this.applyProviderOverridesInScope(moduleType);
this.applyTransitiveScopes();
}
_getModuleResolver() {
return this.resolvers.module;
}
_getComponentFactories(moduleType) {
return maybeUnwrapFn(moduleType.ɵmod.declarations).reduce((factories, declaration) => {
const componentDef = declaration.ɵcmp;
componentDef && factories.push(new ComponentFactory(componentDef, this.testModuleRef));
return factories;
}, []);
}
compileTypesSync() {
let needsAsyncResources = false;
this.pendingComponents.forEach(declaration => {
if (getAsyncClassMetadataFn(declaration)) {
throw new Error(`Component '${declaration.name}' has unresolved metadata. ` + `Please call \`await TestBed.compileComponents()\` before running this test.`);
}
needsAsyncResources = needsAsyncResources || isComponentDefPendingResolution(declaration);
const metadata = this.resolvers.component.resolve(declaration);
if (metadata === null) {
throw invalidTypeError(declaration.name, 'Component');
}
this.maybeStoreNgDef(NG_COMP_DEF, declaration);
depsTracker.clearScopeCacheFor(declaration);
compileComponent(declaration, metadata);
});
this.pendingComponents.clear();
this.pendingDirectives.forEach(declaration => {
const metadata = this.resolvers.directive.resolve(declaration);
if (metadata === null) {
throw invalidTypeError(declaration.name, 'Directive');
}
this.maybeStoreNgDef(NG_DIR_DEF, declaration);
compileDirective(declaration, metadata);
});
this.pendingDirectives.clear();
this.pendingPipes.forEach(declaration => {
const metadata = this.resolvers.pipe.resolve(declaration);
if (metadata === null) {
throw invalidTypeError(declaration.name, 'Pipe');
}
this.maybeStoreNgDef(NG_PIPE_DEF, declaration);
compilePipe(declaration, metadata);
});
this.pendingPipes.clear();
return needsAsyncResources;
}
applyTransitiveScopes() {
if (this.overriddenModules.size > 0) {
const testingModuleDef = this.testModuleType[NG_MOD_DEF];
const affectedModules = this.collectModulesAffectedByOverrides(testingModuleDef.imports);
if (affectedModules.size > 0) {
affectedModules.forEach(moduleType => {
depsTracker.clearScopeCacheFor(moduleType);
});
}
}
const moduleToScope = new Map();
const getScopeOfModule = moduleType => {
if (!moduleToScope.has(moduleType)) {
const isTestingModule = isTestingModuleOverride(moduleType);
const realType = isTestingModule ? this.testModuleType : moduleType;
moduleToScope.set(moduleType, transitiveScopesFor(realType));
}
return moduleToScope.get(moduleType);
};
this.componentToModuleScope.forEach((moduleType, componentType) => {
if (moduleType !== null) {
const moduleScope = getScopeOfModule(moduleType);
this.storeFieldOfDefOnType(componentType, NG_COMP_DEF, 'directiveDefs');
this.storeFieldOfDefOnType(componentType, NG_COMP_DEF, 'pipeDefs');
patchComponentDefWithScope(getComponentDef(componentType), moduleScope);
}
this.storeFieldOfDefOnType(componentType, NG_COMP_DEF, 'tView');
});
this.componentToModuleScope.clear();
}
applyProviderOverrides() {
const maybeApplyOverrides = field => type => {
const resolver = field === NG_COMP_DEF ? this.resolvers.component : this.resolvers.directive;
const metadata = resolver.resolve(type);
if (this.hasProviderOverrides(metadata.providers)) {
this.patchDefWithProviderOverrides(type, field);
}
};
this.seenComponents.forEach(maybeApplyOverrides(NG_COMP_DEF));
this.seenDirectives.forEach(maybeApplyOverrides(NG_DIR_DEF));
this.seenComponents.clear();
this.seenDirectives.clear();
}
applyProviderOverridesInScope(type) {
const hasScope = isStandaloneComponent(type) || isNgModule(type);
if (!hasScope || this.scopesWithOverriddenProviders.has(type)) {
return;
}
this.scopesWithOverriddenProviders.add(type);
const injectorDef = type[NG_INJ_DEF];
if (this.providerOverridesByToken.size === 0) return;
if (isStandaloneComponent(type)) {
const def = getComponentDef(type);
const dependencies = maybeUnwrapFn(def.dependencies ?? []);
for (const dependency of dependencies) {
this.applyProviderOverridesInScope(dependency);
}
} else {
const providers = [...injectorDef.providers, ...(this.providerOverridesByModule.get(type) || [])];
if (this.hasProviderOverrides(providers)) {
this.maybeStoreNgDef(NG_INJ_DEF, type);
this.storeFieldOfDefOnType(type, NG_INJ_DEF, 'providers');
injectorDef.providers = this.getOverriddenProviders(providers);
}
const moduleDef = type[NG_MOD_DEF];
const imports = maybeUnwrapFn(moduleDef.imports);
for (const importedModule of imports) {
this.applyProviderOverridesInScope(importedModule);
}
for (const importedModule of flatten(injectorDef.imports)) {
if (isModuleWithProviders(importedModule)) {
this.defCleanupOps.push({
object: importedModule,
fieldName: 'providers',
originalValue: importedModule.providers
});
importedModule.providers = this.getOverriddenProviders(importedModule.providers);
}
}
}
}
patchComponentsWithExistingStyles() {
this.existingComponentStyles.forEach((styles, type) => type[NG_COMP_DEF].styles = styles);
this.existingComponentStyles.clear();
}
queueTypeArray(arr, moduleType) {
for (const value of arr) {
if (Array.isArray(value)) {
this.queueTypeArray(value, moduleType);
} else {
this.queueType(value, moduleType);
}
}
}
recompileNgModule(ngModule, metadata) {
this.maybeStoreNgDef(NG_MOD_DEF, ngModule);
this.maybeStoreNgDef(NG_INJ_DEF, ngModule);
compileNgModuleDefs(ngModule, metadata);
}
maybeRegisterComponentWithAsyncMetadata(type) {
const asyncMetadataFn = getAsyncClassMetadataFn(type);
if (asyncMetadataFn) {
this.componentsWithAsyncMetadata.add(type);
}
}
queueType(type, moduleType) {
this.maybeRegisterComponentWithAsyncMetadata(type);
const component = this.resolvers.component.resolve(type);
if (component) {
if (isComponentDefPendingResolution(type) || !type.hasOwnProperty(NG_COMP_DEF)) {
this.pendingComponents.add(type);
}
this.seenComponents.add(type);
if (!this.componentToModuleScope.has(type) || this.componentToModuleScope.get(type) === TestingModuleOverride.DECLARATION) {
this.componentToModuleScope.set(type, moduleType);
}
return;
}
const directive = this.resolvers.directive.resolve(type);
if (directive) {
if (!type.hasOwnProperty(NG_DIR_DEF)) {
this.pendingDirectives.add(type);
}
this.seenDirectives.add(type);
return;
}
const pipe = this.resolvers.pipe.resolve(type);
if (pipe && !type.hasOwnProperty(NG_PIPE_DEF)) {
this.pendingPipes.add(type);
return;
}
}
queueTypesFromModulesArray(arr) {
const processedDefs = new Set();
const queueTypesFromModulesArrayRecur = arr => {
for (const value of arr) {
if (Array.isArray(value)) {
queueTypesFromModulesArrayRecur(value);
} else if (hasNgModuleDef(value)) {
const def = value.ɵmod;
if (processedDefs.has(def)) {
continue;
}
processedDefs.add(def);
this.queueTypeArray(maybeUnwrapFn(def.declarations), value);
queueTypesFromModulesArrayRecur(maybeUnwrapFn(def.imports));
queueTypesFromModulesArrayRecur(maybeUnwrapFn(def.exports));
} else if (isModuleWithProviders(value)) {
queueTypesFromModulesArrayRecur([value.ngModule]);
} else if (isStandaloneComponent(value)) {
this.queueType(value, null);
const def = getComponentDef(value);
if (processedDefs.has(def)) {
continue;
}
processedDefs.add(def);
const dependencies = maybeUnwrapFn(def.dependencies ?? []);
dependencies.forEach(dependency => {
if (isStandaloneComponent(dependency) || hasNgModuleDef(dependency)) {
queueTypesFromModulesArrayRecur([dependency]);
} else {
this.queueType(dependency, null);
}
});
}
}
};
queueTypesFromModulesArrayRecur(arr);
}
collectModulesAffectedByOverrides(arr) {
const seenModules = new Set();
const affectedModules = new Set();
const calcAffectedModulesRecur = (arr, path) => {
for (const value of arr) {
if (Array.isArray(value)) {
calcAffectedModulesRecur(value, path);
} else if (hasNgModuleDef(value)) {
if (seenModules.has(value)) {
if (affectedModules.has(value)) {
path.forEach(item => affectedModules.add(item));
}
continue;
}
seenModules.add(value);
if (this.overriddenModules.has(value)) {
path.forEach(item => affectedModules.add(item));
}
const moduleDef = value[NG_MOD_DEF];
calcAffectedModulesRecur(maybeUnwrapFn(moduleDef.imports), path.concat(value));
}
}
};
calcAffectedModulesRecur(arr, []);
return affectedModules;
}
maybeStoreNgDef(prop, type) {
if (!this.initialNgDefs.has(type)) {
this.initialNgDefs.set(type, new Map());
}
const currentDefs = this.initialNgDefs.get(type);
if (!currentDefs.has(prop)) {
const currentDef = Object.getOwnPropertyDescriptor(type, prop);
currentDefs.set(prop, currentDef);
}
}
storeFieldOfDefOnType(type, defField, fieldName) {
const def = type[defField];
const originalValue = def[fieldName];
this.defCleanupOps.push({
object: def,
fieldName,
originalValue
});
}
clearComponentResolutionQueue() {
if (this.originalComponentResolutionQueue === null) {
this.originalComponentResolutionQueue = new Map();
}
clearResolutionOfComponentResourcesQueue().forEach((value, key) => this.originalComponentResolutionQueue.set(key, value));
}
restoreComponentResolutionQueue() {
if (this.originalComponentResolutionQueue !== null) {
restoreComponentResolutionQueue(this.originalComponentResolutionQueue);
this.originalComponentResolutionQueue = null;
}
}
restoreOriginalState() {
forEachRight(this.defCleanupOps, op => {
op.object[op.fieldName] = op.originalValue;
});
this.initialNgDefs.forEach((defs, type) => {
depsTracker.clearScopeCacheFor(type);
defs.forEach((descriptor, prop) => {
if (!descriptor) {
delete type[prop];
} else {
Object.defineProperty(type, prop, descriptor);
}
});
});
this.initialNgDefs.clear();
this.scopesWithOverriddenProviders.clear();
this.restoreComponentResolutionQueue();
setLocaleId(DEFAULT_LOCALE_ID);
}
compileTestModule() {
class RootScopeModule {}
compileNgModuleDefs(RootScopeModule, {
providers: [...this.rootProviderOverrides, provideZonelessChangeDetectionInternal(), TestBedApplicationErrorHandler, {
provide: ENVIRONMENT_INITIALIZER,
multi: true,
useValue: () => {
inject$1(ErrorHandler);
}
}]
});
const providers = [{
provide: Compiler,
useFactory: () => new R3TestCompiler(this)
}, {
provide: DEFER_BLOCK_CONFIG,
useValue: {
behavior: this.deferBlockBehavior
}
}, {
provide: ANIMATIONS_DISABLED,
useValue: !this.animationsEnabled
}, {
provide: INTERNAL_APPLICATION_ERROR_HANDLER,
useFactory: () => {
if (this.rethrowApplicationTickErrors) {
const handler = inject$1(TestBedApplicationErrorHandler);
return e => {
handler.handleError(e);
};
} else {
const userErrorHandler = inject$1(ErrorHandler);
const ngZone = inject$1(NgZone);
return e => ngZone.runOutsideAngular(() => userErrorHandler.handleError(e));
}
}
}, ...this.providers, ...this.providerOverrides];
const imports = [RootScopeModule, this.additionalModuleTypes, this.imports || []];
compileNgModuleDefs(this.testModuleType, {
declarations: this.declarations,
imports,
schemas: this.schemas,
providers
}, true);
this.applyProviderOverridesInScope(this.testModuleType);
}
get injector() {
if (this._injector !== null) {
return this._injector;
}
const providers = [];
const compilerOptions = this.platform.injector.get(COMPILER_OPTIONS, []);
compilerOptions.forEach(opts => {
if (opts.providers) {
providers.push(opts.providers);
}
});
if (this.compilerProviders !== null) {
providers.push(...this.compilerProviders);
}
this._injector = Injector.create({
providers,
parent: this.platform.injector
});
return this._injector;
}
getSingleProviderOverrides(provider) {
const token = getProviderToken(provider);
return this.providerOverridesByToken.get(token) || null;
}
getProviderOverrides(providers) {
if (!providers || !providers.length || this.providerOverridesByToken.size === 0) return [];
return flatten(flattenProviders(providers, provider => this.getSingleProviderOverrides(provider) || []));
}
getOverriddenProviders(providers) {
if (!providers || !providers.length || this.providerOverridesByToken.size === 0) return [];
const flattenedProviders = flattenProviders(providers);
const overrides = this.getProviderOverrides(flattenedProviders);
const overriddenProviders = [...flattenedProviders, ...overrides];
const final = [];
const seenOverriddenProviders = new Set();
forEachRight(overriddenProviders, provider => {
const token = getProviderToken(provider);
if (this.providerOverridesByToken.has(token)) {
if (!seenOverriddenProviders.has(token)) {
seenOverriddenProviders.add(token);
final.unshift({
...provider,
multi: false
});
}
} else {
final.unshift(provider);
}
});
return final;
}
hasProviderOverrides(providers) {
return this.getProviderOverrides(providers).length > 0;
}
patchDefWithProviderOverrides(declaration, field) {
const def = declaration[field];
if (!def) {
return;
}
if (def.viewProvidersResolver) {
this.maybeStoreNgDef(field, declaration);
const viewProvidersResolver = def.viewProvidersResolver;
this.storeFieldOfDefOnType(declaration, field, 'viewProvidersResolver');
def.viewProvidersResolver = ngDef => viewProvidersResolver(ngDef, this.processProviderOverrides);
}
if (def.providersResolver) {
this.maybeStoreNgDef(field, declaration);
const providersResolver = def.providersResolver;
this.storeFieldOfDefOnType(declaration, field, 'providersResolver');
def.providersResolver = ngDef => providersResolver(ngDef, this.processProviderOverrides);
}
}
processProviderOverrides = providers => this.getOverriddenProviders(providers);
}
function initResolvers() {
return {
module: new NgModuleResolver(),
component: new ComponentResolver(),
directive: new DirectiveResolver(),
pipe: new PipeResolver()
};
}
function isStandaloneComponent(value) {
const def = getComponentDef(value);
return !!def?.standalone;
}
function getComponentDef(value) {
return value.ɵcmp ?? null;
}
function hasNgModuleDef(value) {
return value.hasOwnProperty('ɵmod');
}
function isNgModule(value) {
return hasNgModuleDef(value);
}
function maybeUnwrapFn(maybeFn) {
return maybeFn instanceof Function ? maybeFn() : maybeFn;
}
function flatten(values) {
const out = [];
values.forEach(value => {
if (Array.isArray(value)) {
out.push(...flatten(value));
} else {
out.push(value);
}
});
return out;
}
function identityFn(value) {
return value;
}
function flattenProviders(providers, mapFn = identityFn) {
const out = [];
for (let provider of providers) {
if (isEnvironmentProviders(provider)) {
provider = provider.ɵproviders;
}
if (Array.isArray(provider)) {
out.push(...flattenProviders(provider, mapFn));
} else {
out.push(mapFn(provider));
}
}
return out;
}
function getProviderField(provider, field) {
return provider && typeof provider === 'object' && provider[field];
}
function getProviderToken(provider) {
return getProviderField(provider, 'provide') || provider;
}
function isModuleWithProviders(value) {
return value.hasOwnProperty('ngModule');
}
function forEachRight(values, fn) {
for (let idx = values.length - 1; idx >= 0; idx--) {
fn(values[idx], idx);
}
}
function invalidTypeError(name, expectedType) {
return new Error(`${name} class doesn't have @${expectedType} decorator or is missing metadata.`);
}
class R3TestCompiler {
testBed;
constructor(testBed) {
this.testBed = testBed;
}
compileModuleSync(moduleType) {
this.testBed._compileNgModuleSync(moduleType);
return new NgModuleFactory(moduleType);
}
async compileModuleAsync(moduleType) {
await this.testBed._compileNgModuleAsync(moduleType);
return new NgModuleFactory(moduleType);
}
compileModuleAndAllComponentsSync(moduleType) {
const ngModuleFactory = this.compileModuleSync(moduleType);
const componentFactories = this.testBed._getComponentFactories(moduleType);
return new ModuleWithComponentFactories(ngModuleFactory, componentFactories);
}
async compileModuleAndAllComponentsAsync(moduleType) {
const ngModuleFactory = await this.compileModuleAsync(moduleType);
const componentFactories = this.testBed._getComponentFactories(moduleType);
return new ModuleWithComponentFactories(ngModuleFactory, componentFactories);
}
clearCache() {}
clearCacheFor(type) {}
getModuleId(moduleType) {
const meta = this.testBed._getModuleResolver().resolve(moduleType);
return meta && meta.id || undefined;
}
}
let _nextRootElementId = 0;
function getTestBed() {
return TestBedImpl.INSTANCE;
}
class TestBedImpl {
static _INSTANCE = null;
static get INSTANCE() {
return TestBedImpl._INSTANCE = TestBedImpl._INSTANCE || new TestBedImpl();
}
static _environmentTeardownOptions;
static _environmentErrorOnUnknownElementsOption;
static _environmentErrorOnUnknownPropertiesOption;
_instanceTeardownOptions;
_instanceDeferBlockBehavior = DEFER_BLOCK_DEFAULT_BEHAVIOR;
_instanceAnimationsEnabled = ANIMATIONS_ENABLED_DEFAULT;
_instanceErrorOnUnknownElementsOption;
_instanceErrorOnUnknownPropertiesOption;
_previousErrorOnUnknownElementsOption;
_previousErrorOnUnknownPropertiesOption;
_instanceInferTagName;
static initTestEnvironment(ngModule, platform, options) {
const testBed = TestBedImpl.INSTANCE;
testBed.initTestEnvironment(ngModule, platform, options);
return testBed;
}
static resetTestEnvironment() {
TestBedImpl.INSTANCE.resetTestEnvironment();
}
static configureCompiler(config) {
return TestBedImpl.INSTANCE.configureCompiler(config);
}
static configureTestingModule(moduleDef) {
return TestBedImpl.INSTANCE.configureTestingModule(moduleDef);
}
static compileComponents() {
return TestBedImpl.INSTANCE.compileComponents();
}
static overrideModule(ngModule, override) {
return TestBedImpl.INSTANCE.overrideModule(ngModule, override);
}
static overrideComponent(component, override) {
return TestBedImpl.INSTANCE.overrideComponent(component, override);
}
static overrideDirective(directive, override) {
return TestBedImpl.INSTANCE.overrideDirective(directive, override);
}
static overridePipe(pipe, override) {
return TestBedImpl.INSTANCE.overridePipe(pipe, override);
}
static overrideTemplate(component, template) {
return TestBedImpl.INSTANCE.overrideTemplate(component, template);
}
static overrideTemplateUsingTestingModule(component, template) {
return TestBedImpl.INSTANCE.overrideTemplateUsingTestingModule(component, template);
}
static overrideProvider(token, provider) {
return TestBedImpl.INSTANCE.overrideProvider(token, provider);
}
static inject(token, notFoundValue, options) {
return TestBedImpl.INSTANCE.inject(token, notFoundValue, options);
}
static runInInjectionContext(fn) {
return TestBedImpl.INSTANCE.runInInjectionContext(fn);
}
static createComponent(component, options) {
return TestBedImpl.INSTANCE.createComponent(component, options);
}
static resetTestingModule() {
return TestBedImpl.INSTANCE.resetTestingModule();
}
static execute(tokens, fn, context) {
return TestBedImpl.INSTANCE.execute(tokens, fn, context);
}
static get platform() {
return TestBedImpl.INSTANCE.platform;
}
static get ngModule() {
return TestBedImpl.INSTANCE.ngModule;
}
static flushEffects() {
return TestBedImpl.INSTANCE.tick();
}
static tick() {
return TestBedImpl.INSTANCE.tick();
}
platform = null;
ngModule = null;
_compiler = null;
_testModuleRef = null;
_activeFixtures = [];
globalCompilationChecked = false;
initTestEnvironment(ngModule, platform, options) {
if (this.platform || this.ngModule) {
throw new Error('Cannot set base providers because it has already been called');
}
TestBedImpl._environmentTeardownOptions = options?.teardown;
TestBedImpl._environmentErrorOnUnknownElementsOption = options?.errorOnUnknownElements;
TestBedImpl._environmentErrorOnUnknownPropertiesOption = options?.errorOnUnknownProperties;
this.platform = platform;
this.ngModule = ngModule;
this._compiler = new TestBedCompiler(this.platform, this.ngModule);
setAllowDuplicateNgModuleIdsForTest(true);
}
resetTestEnvironment() {
this.resetTestingModule();
this._compiler = null;
this.platform = null;
this.ngModule = null;
TestBedImpl._environmentTeardownOptions = undefined;
setAllowDuplicateNgModuleIdsForTest(false);
}
resetTestingModule() {
this.checkGlobalCompilationFinished();
resetCompiledComponents();
if (this._compiler !== null) {
this.compiler.restoreOriginalState();
}
this._compiler = new TestBedCompiler(this.platform, this.ngModule);
_setUnknownElementStrictMode(this._previousErrorOnUnknownElementsOption ?? THROW_ON_UNKNOWN_ELEMENTS_DEFAULT);
_setUnknownPropertyStrictMode(this._previousErrorOnUnknownPropertiesOption ?? THROW_ON_UNKNOWN_PROPERTIES_DEFAULT);
try {
this.destroyActiveFixtures();
} finally {
try {
if (this.shouldTearDownTestingModule()) {
this.tearDownTestingModule();
}
} finally {
this._testModuleRef = null;
this._instanceTeardownOptions = undefined;
this._instanceErrorOnUnknownElementsOption = undefined;
this._instanceErrorOnUnknownPropertiesOption = undefined;
this._instanceInferTagName = undefined;
this._instanceDeferBlockBehavior = DEFER_BLOCK_DEFAULT_BEHAVIOR;
this._instanceAnimationsEnabled = ANIMATIONS_ENABLED_DEFAULT;
}
}
return this;
}
configureCompiler(config) {
if (config.useJit != null) {
throw new Error('JIT compiler is not configurable via TestBed APIs.');
}
if (config.providers !== undefined) {
this.compiler.setCompilerProviders(config.providers);
}
return this;
}
configureTestingModule(moduleDef) {
this.assertNotInstantiated('TestBed.configureTestingModule', 'configure the test module');
this.checkGlobalCompilationFinished();
this._instanceTeardownOptions = moduleDef.teardown;
this._instanceErrorOnUnknownElementsOption = moduleDef.errorOnUnknownElements;
this._instanceErrorOnUnknownPropertiesOption = moduleDef.errorOnUnknownProperties;
this._instanceInferTagName = moduleDef.inferTagName;
this._instanceDeferBlockBehavior = moduleDef.deferBlockBehavior ?? DEFER_BLOCK_DEFAULT_BEHAVIOR;
this._instanceAnimationsEnabled = moduleDef.animationsEnabled ?? ANIMATIONS_ENABLED_DEFAULT;
this._previousErrorOnUnknownElementsOption = _getUnknownElementStrictMode();
_setUnknownElementStrictMode(this.shouldThrowErrorOnUnknownElements());
this._previousErrorOnUnknownPropertiesOption = _getUnknownPropertyStrictMode();
_setUnknownPropertyStrictMode(this.shouldThrowErrorOnUnknownProperties());
this.compiler.configureTestingModule(moduleDef);
return this;
}
compileComponents() {
return this.compiler.compileComponents();
}
inject(token, notFoundValue, options) {
if (token === TestBed) {
return this;
}
const UNDEFINED = {};
const result = this.testModuleRef.injector.get(token, UNDEFINED, options);
return result === UNDEFINED ? this.compiler.injector.get(token, notFoundValue, options) : result;
}
runInInjectionContext(fn) {
return runInInjectionContext(this.inject(EnvironmentInjector), fn);
}
execute(tokens, fn, context) {
const params = tokens.map(t => this.inject(t));
return fn.apply(context, params);
}
overrideModule(ngModule, override) {
this.assertNotInstantiated('overrideModule', 'override module metadata');
this.compiler.overrideModule(ngModule, override);
return this;
}
overrideComponent(component, override) {
this.assertNotInstantiated('overrideComponent', 'override component metadata');
this.compiler.overrideComponent(component, override);
return this;
}
overrideTemplateUsingTestingModule(component, template) {
this.assertNotInstantiated('TestBed.overrideTemplateUsingTestingModule', 'Cannot override template when the test module has already been instantiated');
this.compiler.overrideTemplateUsingTestingModule(component, template);
return this;
}
overrideDirective(directive, override) {
this.assertNotInstantiated('overrideDirective', 'override directive metadata');
this.compiler.overrideDirective(directive, override);
return this;
}
overridePipe(pipe, override) {
this.assertNotInstantiated('overridePipe', 'override pipe metadata');
this.compiler.overridePipe(pipe, override);
return this;
}
overrideProvider(token, provider) {
this.assertNotInstantiated('overrideProvider', 'override provider');
this.compiler.overrideProvider(token, provider);
return this;
}
overrideTemplate(component, template) {
return this.overrideComponent(component, {
set: {
template,
templateUrl: null
}
});
}
createComponent(type, options) {
if (getAsyncClassMetadataFn(type)) {
throw new Error(`Component '${type.name}' has unresolved metadata. ` + `Please call \`await TestBed.compileComponents()\` before running this test.`);
}
const testComponentRenderer = this.inject(TestComponentRenderer);
const shouldInferTagName = options?.inferTagName ?? this._instanceInferTagName ?? false;
const componentDef = getComponentDef$1(type);
const rootElId = `root${_nextRootElementId++}`;
if (!componentDef) {
throw new Error(`It looks like '${stringify(type)}' has not been compiled.`);
}
testComponentRenderer.insertRootElement(rootElId, shouldInferTagName ? inferTagNameFromDefinition(componentDef) : undefined);
const componentFactory = new ComponentFactory(componentDef);
const initComponent = () => {
const componentRef = componentFactory.create(Injector.NULL, [], `#${rootElId}`, this.testModuleRef, undefined, options?.bindings);
return this.runInInjectionContext(() => new ComponentFixture(componentRef));
};
const noNgZone = this.inject(ComponentFixtureNoNgZone, false);
const ngZone = noNgZone ? null : this.inject(NgZone, null);
const fixture = ngZone ? ngZone.run(initComponent) : initComponent();
this._activeFixtures.push(fixture);
return fixture;
}
get compiler() {
if (this._compiler === null) {
throw new Error(`Need to call TestBed.initTestEnvironment() first`);
}
return this._compiler;
}
get testModuleRef() {
if (this._testModuleRef === null) {
this._testModuleRef = this.compiler.finalize();
}
return this._testModuleRef;
}
assertNotInstantiated(methodName, methodDescription) {
if (this._testModuleRef !== null) {
throw new Error(`Cannot ${methodDescription} when the test module has already been instantiated. ` + `Make sure you are not using \`inject\` before \`${methodName}\`.`);
}
}
checkGlobalCompilationFinished() {
if (!this.globalCompilationChecked && this._testModuleRef === null) {
flushModuleScopingQueueAsMuchAsPossible();
}
this.globalCompilationChecked = true;
}
destroyActiveFixtures() {
let errorCount = 0;
this._activeFixtures.forEach(fixture => {
try {
fixture.destroy();
} catch (e) {
errorCount++;
console.error('Error during cleanup of component', {
component: fixture.componentInstance,
stacktrace: e
});
}
});
this._activeFixtures = [];
if (errorCount > 0 && this.shouldRethrowTeardownErrors()) {
throw Error(`${errorCount} ${errorCount === 1 ? 'component' : 'components'} ` + `threw errors during cleanup`);
}
}
shouldRethrowTeardownErrors() {
const instanceOptions = this._instanceTeardownOptions;
const environmentOptions = TestBedImpl._environmentTeardownOptions;
if (!instanceOptions && !environmentOptions) {
return TEARDOWN_TESTING_MODULE_ON_DESTROY_DEFAULT;
}
return instanceOptions?.rethrowErrors ?? environmentOptions?.rethrowErrors ?? this.shouldTearDownTestingModule();
}
shouldThrowErrorOnUnknownElements() {
return this._instanceErrorOnUnknownElementsOption ?? TestBedImpl._environmentErrorOnUnknownElementsOption ?? THROW_ON_UNKNOWN_ELEMENTS_DEFAULT;
}
shouldThrowErrorOnUnknownProperties() {
return this._instanceErrorOnUnknownPropertiesOption ?? TestBedImpl._environmentErrorOnUnknownPropertiesOption ?? THROW_ON_UNKNOWN_PROPERTIES_DEFAULT;
}
shouldTearDownTestingModule() {
return this._instanceTeardownOptions?.destroyAfterEach ?? TestBedImpl._environmentTeardownOptions?.destroyAfterEach ?? TEARDOWN_TESTING_MODULE_ON_DESTROY_DEFAULT;
}
getDeferBlockBehavior() {
return this._instanceDeferBlockBehavior;
}
getAnimationsEnabled() {
return this._instanceAnimationsEnabled;
}
tearDownTestingModule() {
if (this._testModuleRef === null) {
return;
}
const testRenderer = this.inject(TestComponentRenderer);
try {
this._testModuleRef.destroy();
} catch (e) {
if (this.shouldRethrowTeardownErrors()) {
throw e;
} else {
console.error('Error during cleanup of a testing module', {
component: this._testModuleRef.instance,
stacktrace: e
});
}
} finally {
testRenderer.removeAllRootElements?.();
}
}
flushEffects() {
this.tick();
}
tick() {
const appRef = this.inject(ApplicationRef);
try {
appRef.includeAllTestViews = true;
appRef.tick();
} finally {
appRef.includeAllTestViews = false;
}
}
}
const TestBed = TestBedImpl;
function inject(tokens, fn) {
const testBed = TestBedImpl.INSTANCE;
return function () {
return testBed.execute(tokens, fn, this);
};
}
class InjectSetupWrapper {
_moduleDef;
constructor(_moduleDef) {
this._moduleDef = _moduleDef;
}
_addModule() {
const moduleDef = this._moduleDef();
if (moduleDef) {
TestBedImpl.configureTestingModule(moduleDef);
}
}
inject(tokens, fn) {
const self = this;
return function () {
self._addModule();
return inject(tokens, fn).call(this);
};
}
}
function withModule(moduleDef, fn) {
if (fn) {
return function () {
const testBed = TestBedImpl.INSTANCE;
if (moduleDef) {
testBed.configureTestingModule(moduleDef);
}
return fn.apply(this);
};
}
return new InjectSetupWrapper(() => moduleDef);
}
class FakeNavigation {
entriesArr = [];
currentEntryIndex = 0;
navigateEvent = null;
traversalQueue = new Map();
nextTraversal = Promise.resolve();
propsectiveTraversalDestinations = [];
synchronousTraversals = false;
canSetInitialEntry = true;
eventTarget;
nextId = 0;
nextKey = 0;
disposed = false;
get currentEntry() {
return this.entriesArr[this.currentEntryIndex];
}
get canGoBack() {
return this.currentEntryIndex > 0;
}
get canGoForward() {
return this.currentEntryIndex < this.entriesArr.length - 1;
}
createEventTarget;
_window;
get window() {
return this._window;
}
constructor(doc, startURL) {
this.createEventTarget = () => {
try {
return doc.createElement('div');
} catch {
return new EventTarget();
}
};
this._window = doc.defaultView ?? this.createEventTarget();
this.eventTarget = this.createEventTarget();
this.setInitialEntryForTesting(startURL);
}
setInitialEntryForTesting(url, options = {
historyState: null
}) {
if (!this.canSetInitialEntry) {
throw new Error('setInitialEntryForTesting can only be called before any ' + 'navigation has occurred');
}
const currentInitialEntry = this.entriesArr[0];
this.entriesArr[0] = new FakeNavigationHistoryEntry(this.eventTarget, new URL(url).toString(), {
index: 0,
key: currentInitialEntry?.key ?? String(this.nextKey++),
id: currentInitialEntry?.id ?? String(this.nextId++),
sameDocument: true,
historyState: options?.historyState,
state: options.state
});
}
canSetInitialEntryForTesting() {
return this.canSetInitialEntry;
}
setSynchronousTraversalsForTesting(synchronousTraversals) {
this.synchronousTraversals = synchronousTraversals;
}
entries() {
return this.entriesArr.slice();
}
navigate(url, options) {
const fromUrl = new URL(this.currentEntry.url);
const toUrl = new URL(url, this.currentEntry.url);
let navigationType;
if (!options?.history || options.history === 'auto') {
if (fromUrl.toString() === toUrl.toString()) {
navigationType = 'replace';
} else {
navigationType = 'push';
}
} else {
navigationType = options.history;
}
const hashChange = isHashChange(fromUrl, toUrl);
const destination = new FakeNavigationDestination({
url: toUrl.toString(),
state: options?.state,
sameDocument: hashChange,
historyState: null
});
const result = new InternalNavigationResult(this);
const intercepted = this.userAgentNavigate(destination, result, {
navigationType,
cancelable: true,
canIntercept: true,
userInitiated: false,
hashChange,
info: options?.info
});
if (!intercepted) {
this.updateNavigationEntriesForSameDocumentNavigation(this.navigateEvent);
}
return {
committed: result.committed,
finished: result.finished
};
}
pushState(data, title, url) {
this.pushOrReplaceState('push', data, title, url);
}
replaceState(data, title, url) {
this.pushOrReplaceState('replace', data, title, url);
}
pushOrReplaceState(navigationType, data, _title, url) {
const fromUrl = new URL(this.currentEntry.url);
const toUrl = url ? new URL(url, this.currentEntry.url) : fromUrl;
const hashChange = isHashChange(fromUrl, toUrl);
const destination = new FakeNavigationDestination({
url: toUrl.toString(),
sameDocument: true,
historyState: data,
state: undefined
});
const result = new InternalNavigationResult(this);
const intercepted = this.userAgentNavigate(destination, result, {
navigationType,
cancelable: true,
canIntercept: true,
userInitiated: false,
hashChange
});
if (intercepted) {
return;
}
this.updateNavigationEntriesForSameDocumentNavigation(this.navigateEvent);
}
traverseTo(key, options) {
const fromUrl = new URL(this.currentEntry.url);
const entry = this.findEntry(key);
if (!entry) {
const domException = new DOMException('Invalid key', 'InvalidStateError');
const committed = Promise.reject(domException);
const finished = Promise.reject(domException);
committed.catch(() => {});
finished.catch(() => {});
return {
committed,
finished
};
}
if (entry === this.currentEntry) {
return {
committed: Promise.resolve(this.currentEntry),
finished: Promise.resolve(this.currentEntry)
};
}
if (this.traversalQueue.has(entry.key)) {
const existingResult = this.traversalQueue.get(entry.key);
return {
committed: existingResult.committed,
finished: existingResult.finished
};
}
const hashChange = isHashChange(fromUrl, new URL(entry.url, this.currentEntry.url));
const destination = new FakeNavigationDestination({
url: entry.url,
state: entry.getState(),
historyState: entry.getHistoryState(),
key: entry.key,
id: entry.id,
index: entry.index,
sameDocument: entry.sameDocument
});
this.propsectiveTraversalDestinations.push(entry.index);
const result = new InternalNavigationResult(this);
this.traversalQueue.set(entry.key, result);
this.runTraversal(() => {
this.traversalQueue.delete(entry.key);
const intercepted = this.userAgentNavigate(destination, result, {
navigationType: 'traverse',
cancelable: true,
canIntercept: true,
userInitiated: false,
hashChange,
info: options?.info
});
if (!intercepted) {
this.userAgentTraverse(this.navigateEvent);
}
});
return {
committed: result.committed,
finished: result.finished
};
}
back(options) {
if (this.currentEntryIndex === 0) {
const domException = new DOMException('Cannot go back', 'InvalidStateError');
const committed = Promise.reject(domException);
const finished = Promise.reject(domException);
committed.catch(() => {});
finished.catch(() => {});
return {
committed,
finished
};
}
const entry = this.entriesArr[this.currentEntryIndex - 1];
return this.traverseTo(entry.key, options);
}
forward(options) {
if (this.currentEntryIndex === this.entriesArr.length - 1) {
const domException = new DOMException('Cannot go forward', 'InvalidStateError');
const committed = Promise.reject(domException);
const finished = Promise.reject(domException);
committed.catch(() => {});
finished.catch(() => {});
return {
committed,
finished
};
}
const entry = this.entriesArr[this.currentEntryIndex + 1];
return this.traverseTo(entry.key, options);
}
go(direction) {
const targetIndex = (this.propsectiveTraversalDestinations[this.propsectiveTraversalDestinations.length - 1] ?? this.currentEntryIndex) + direction;
if (targetIndex >= this.entriesArr.length || targetIndex < 0) {
return;
}
this.propsectiveTraversalDestinations.push(targetIndex);
this.runTraversal(() => {
if (targetIndex >= this.entriesArr.length || targetIndex < 0) {
return;
}
const fromUrl = new URL(this.currentEntry.url);
const entry = this.entriesArr[targetIndex];
const hashChange = isHashChange(fromUrl, new URL(entry.url, this.currentEntry.url));
const destination = new FakeNavigationDestination({
url: entry.url,
state: entry.getState(),
historyState: entry.getHistoryState(),
key: entry.key,
id: entry.id,
index: entry.index,
sameDocument: entry.sameDocument
});
const result = new InternalNavigationResult(this);
const intercepted = this.userAgentNavigate(destination, result, {
navigationType: 'traverse',
cancelable: true,
canIntercept: true,
userInitiated: false,
hashChange
});
if (!intercepted) {
this.userAgentTraverse(this.navigateEvent);
}
});
}
runTraversal(traversal) {
if (this.synchronousTraversals) {
traversal();
this.propsectiveTraversalDestinations.shift();
return;
}
this.nextTraversal = this.nextTraversal.then(() => {
return new Promise(resolve => {
setTimeout(() => {
resolve();
traversal();
this.propsectiveTraversalDestinations.shift();
});
});
});
}
addEventListener(type, callback, options) {
this.eventTarget.addEventListener(type, callback, options);
}
removeEventListener(type, callback, options) {
this.eventTarget.removeEventListener(type, callback, options);
}
dispatchEvent(event) {
return this.eventTarget.dispatchEvent(event);
}
dispose() {
this.eventTarget = this.createEventTarget();
this.disposed = true;
}
isDisposed() {
return this.disposed;
}
abortOngoingNavigation(eventToAbort, reason) {
if (this.navigateEvent !== eventToAbort) {
return;
}
if (this.navigateEvent.abortController.signal.aborted) {
return;
}
const abortReason = reason ?? new DOMException('Navigation aborted', 'AbortError');
this.navigateEvent.abort(abortReason);
}
userAgentNavigate(destination, result, options) {
this.canSetInitialEntry = false;
if (this.navigateEvent) {
this.abortOngoingNavigation(this.navigateEvent, new DOMException('Navigation superseded by a new navigation.', 'AbortError'));
}
const dispatchResultIsTrueIfNoInterception = dispatchNavigateEvent({
navigationType: options.navigationType,
cancelable: options.cancelable,
canIntercept: options.canIntercept,
userInitiated: options.userInitiated,
hashChange: options.hashChange,
destination,
info: options.info,
sameDocument: destination.sameDocument,
result
});
return !dispatchResultIsTrueIfNoInterception;
}
urlAndHistoryUpdateSteps(navigateEvent) {
this.updateNavigationEntriesForSameDocumentNavigation(navigateEvent);
}
userAgentTraverse(navigateEvent) {
const oldUrl = this.currentEntry.url;
this.updateNavigationEntriesForSameDocumentNavigation(navigateEvent);
const popStateEvent = createPopStateEvent({
state: navigateEvent.destination.getHistoryState()
});
this._window.dispatchEvent(popStateEvent);
if (navigateEvent.hashChange) {
const hashchangeEvent = createHashChangeEvent(oldUrl, this.currentEntry.url);
this._window.dispatchEvent(hashchangeEvent);
}
}
updateNavigationEntriesForSameDocumentNavigation({
destination,
navigationType,
result
}) {
const oldCurrentNHE = this.currentEntry;
const disposedNHEs = [];
if (navigationType === 'traverse') {
this.currentEntryIndex = destination.index;
if (this.currentEntryIndex === -1) {
throw new Error('unexpected current entry index');
}
} else if (navigationType === 'push') {
this.currentEntryIndex++;
this.propsectiveTraversalDestinations = [];
disposedNHEs.push(...this.entriesArr.splice(this.currentEntryIndex));
} else if (navigationType === 'replace') {
disposedNHEs.push(oldCurrentNHE);
}
if (navigationType === 'push' || navigationType === 'replace') {
const index = this.currentEntryIndex;
const key = navigationType === 'push' ? String(this.nextKey++) : oldCurrentNHE?.key ?? String(this.nextKey++);
const newNHE = new FakeNavigationHistoryEntry(this.eventTarget, destination.url, {
id: String(this.nextId++),
key,
index,
sameDocument: true,
state: destination.getState(),
historyState: destination.getHistoryState()
});
this.entriesArr[this.currentEntryIndex] = newNHE;
}
result.committedResolve(this.currentEntry);
const currentEntryChangeEvent = createFakeNavigationCurrentEntryChangeEvent({
from: oldCurrentNHE,
navigationType: navigationType
});
this.eventTarget.dispatchEvent(currentEntryChangeEvent);
for (const disposedNHE of disposedNHEs) {
disposedNHE.dispose();
}
}
findEntry(key) {
for (const entry of this.entriesArr) {
if (entry.key === key) return entry;
}
return undefined;
}
set onnavigate(_handler) {
throw new Error('unimplemented');
}
get onnavigate() {
throw new Error('unimplemented');
}
set oncurrententrychange(_handler) {
throw new Error('unimplemented');
}
get oncurrententrychange() {
throw new Error('unimplemented');
}
set onnavigatesuccess(_handler) {
throw new Error('unimplemented');
}
get onnavigatesuccess() {
throw new Error('unimplemented');
}
set onnavigateerror(_handler) {
throw new Error('unimplemented');
}
get onnavigateerror() {
throw new Error('unimplemented');
}
_transition = null;
set transition(t) {
this._transition = t;
}
get transition() {
return this._transition;
}
updateCurrentEntry(_options) {
throw new Error('unimplemented');
}
reload(_options) {
throw new Error('unimplemented');
}
}
class FakeNavigationHistoryEntry {
eventTarget;
url;
sameDocument;
id;
key;
index;
state;
historyState;
ondispose = null;
constructor(eventTarget, url, {
id,
key,
index,
sameDocument,
state,
historyState
}) {
this.eventTarget = eventTarget;
this.url = url;
this.id = id;
this.key = key;
this.index = index;
this.sameDocument = sameDocument;
this.state = state;
this.historyState = historyState;
}
getState() {
return this.state ? JSON.parse(JSON.stringify(this.state)) : this.state;
}
getHistoryState() {
return this.historyState ? JSON.parse(JSON.stringify(this.historyState)) : this.historyState;
}
addEventListener(type, callback, options) {
this.eventTarget.addEventListener(type, callback, options);
}
removeEventListener(type, callback, options) {
this.eventTarget.removeEventListener(type, callback, options);
}
dispatchEvent(event) {
return this.eventTarget.dispatchEvent(event);
}
dispose() {
const disposeEvent = new Event('disposed');
this.dispatchEvent(disposeEvent);
this.eventTarget = null;
}
}
function dispatchNavigateEvent({
cancelable,
canIntercept,
userInitiated,
hashChange,
navigationType,
destination,
info,
sameDocument,
result
}) {
const {
navigation
} = result;
const eventAbortController = new AbortController();
const event = new Event('navigate', {
bubbles: false,
cancelable
});
event.navigationType = navigationType;
event.destination = destination;
event.canIntercept = canIntercept;
event.userInitiated = userInitiated;
event.hashChange = hashChange;
event.signal = eventAbortController.signal;
event.abortController = eventAbortController;
event.info = info;
event.focusResetBehavior = null;
event.scrollBehavior = null;
event.interceptionState = 'none';
event.downloadRequest = null;
event.formData = null;
event.result = result;
event.sameDocument = sameDocument;
let precommitHandlers = [];
let handlers = [];
event.intercept = function (options) {
if (!this.canIntercept) {
throw new DOMException(`Cannot intercept when canIntercept is 'false'`, 'SecurityError');
}
this.interceptionState = 'intercepted';
event.sameDocument = true;
const precommitHandler = options?.precommitHandler;
if (precommitHandler) {
if (!this.cancelable) {
throw new DOMException(`Cannot use precommitHandler when cancelable is 'false'`, 'InvalidStateError');
}
precommitHandlers.push(precommitHandler);
}
if (event.interceptionState !== 'none' && event.interceptionState !== 'intercepted') {
throw new Error('Event interceptionState should be "none" or "intercepted"');
}
event.interceptionState = 'intercepted';
const handler = options?.handler;
if (handler) {
handlers.push(handler);
}
event.focusResetBehavior = options?.focusReset ?? event.focusResetBehavior;
event.scrollBehavior = options?.scroll ?? event.scrollBehavior;
};
event.scroll = function () {
if (event.interceptionState !== 'committed') {
throw new DOMException(`Failed to execute 'scroll' on 'NavigateEvent': scroll() must be ` + `called after commit() and interception options must specify manual scroll.`, 'InvalidStateError');
}
processScrollBehavior(event);
};
function redirect(url, options = {}) {
if (event.interceptionState === 'none') {
throw new Error('cannot redirect when event is not intercepted');
}
if (event.interceptionState !== 'intercepted') {
throw new DOMException(`cannot redirect when event is not in 'intercepted' state`, 'InvalidStateError');
}
if (event.navigationType !== 'push' && event.navigationType !== 'replace') {
throw new DOMException(`cannot redirect when navigationType is not 'push' or 'replace`, 'InvalidStateError');
}
const destinationUrl = new URL(url, navigation.currentEntry.url);
if (options.history === 'push' || options.history === 'replace') {
event.navigationType = options.history;
}
if (options.hasOwnProperty('state')) {
event.destination.state = options.state;
}
event.destination.url = destinationUrl.href;
if (options.hasOwnProperty('info')) {
event.info = options.info;
}
}
function processNavigateEventHandlerFailure(reason) {
if (event.abortController.signal.aborted) {
return;
}
if (event !== navigation.navigateEvent) {
throw new Error('Event is no longer the current navigation event');
}
if (event.interceptionState !== 'intercepted') {
finishNavigationEvent(event, false);
}
event.abort(reason);
}
function commit() {
if (result.signal.aborted) {
return;
}
if (event.interceptionState !== 'none') {
event.interceptionState = 'committed';
switch (event.navigationType) {
case 'push':
case 'replace':
{
navigation.urlAndHistoryUpdateSteps(event);
break;
}
case 'reload':
{
navigation.updateNavigationEntriesForSameDocumentNavigation(event);
break;
}
case 'traverse':
{
navigation.userAgentTraverse(event);
break;
}
}
}
navigation.transition?.committedResolve();
const promisesList = handlers.map(handler => handler());
promisesList.push(result.committed);
Promise.all(promisesList).then(() => {
if (result.signal.aborted) {
return;
}
if (event !== navigation.navigateEvent) {
if (!result.signal.aborted && result.committedTo) {
result.finishedReject(new DOMException('Navigation superseded before handler completion', 'AbortError'));
}
return;
}
navigation.navigateEvent = null;
finishNavigationEvent(event, true);
result.finishedResolve();
const navigatesuccessEvent = new Event('navigatesuccess', {
bubbles: false,
cancelable: false
});
navigation.eventTarget.dispatchEvent(navigatesuccessEvent);
navigation.transition?.finishedResolve();
navigation.transition = null;
}).catch(processNavigateEventHandlerFailure);
}
event.abort = function (reason) {
this.abortController.abort(reason);
navigation.navigateEvent = null;
result.finishedReject(reason);
const navigateerrorEvent = new Event('navigateerror', {
bubbles: false,
cancelable
});
navigateerrorEvent.error = reason;
navigation.eventTarget.dispatchEvent(navigateerrorEvent);
const transition = navigation.transition;
transition?.committedReject(reason);
transition?.finishedReject(reason);
navigation.transition = null;
};
function dispatch() {
navigation.navigateEvent = event;
const dispatchResult = navigation.eventTarget.dispatchEvent(event);
if (event.interceptionState === 'intercepted') {
if (!navigation.currentEntry) {
event.abort(new DOMException('Cannot create transition without a currentEntry for intercepted navigation.', 'InvalidStateError'));
return;
}
const transition = new InternalNavigationTransition(navigation.currentEntry, event.destination, navigationType);
navigation.transition = transition;
transition.finished.catch(() => {});
transition.committed.catch(() => {});
}
if (!dispatchResult && event.cancelable) {
if (!event.abortController.signal.aborted) {
event.abort(new DOMException('Navigation prevented by event.preventDefault()', 'AbortError'));
}
} else {
if (precommitHandlers.length === 0) {
commit();
} else {
const precommitController = {
redirect
};
const precommitPromisesList = precommitHandlers.map(handler => {
let p;
try {
p = handler(precommitController);
} catch (e) {
p = Promise.reject(e);
}
p.catch(() => {});
return p;
});
Promise.all(precommitPromisesList).then(() => commit()).catch(processNavigateEventHandlerFailure);
}
}
}
dispatch();
return event.interceptionState === 'none';
}
function finishNavigationEvent(event, didFulfill) {
if (event.interceptionState === 'finished') {
throw new Error('Attempting to finish navigation event that was already finished');
}
if (event.interceptionState === 'intercepted') {
if (didFulfill === true) {
throw new Error('didFulfill should be false');
}
event.interceptionState = 'finished';
return;
}
if (event.interceptionState === 'none') {
return;
}
potentiallyResetFocus(event);
if (didFulfill) {
potentiallyResetScroll(event);
}
event.interceptionState = 'finished';
}
function potentiallyResetFocus(event) {
if (event.interceptionState !== 'committed' && event.interceptionState !== 'scrolled') {
throw new Error('cannot reset focus if navigation event is not committed or scrolled');
}
if (event.focusResetBehavior === 'manual') {
return;
}
}
function potentiallyResetScroll(event) {
if (event.interceptionState !== 'committed' && event.interceptionState !== 'scrolled') {
throw new Error('cannot reset scroll if navigation event is not committed or scrolled');
}
if (event.interceptionState === 'scrolled' || event.scrollBehavior === 'manual') {
return;
}
processScrollBehavior(event);
}
function processScrollBehavior(event) {
if (event.interceptionState !== 'committed') {
throw new Error('invalid event interception state when processing scroll behavior');
}
event.interceptionState = 'scrolled';
}
function createFakeNavigationCurrentEntryChangeEvent({
from,
navigationType
}) {
const event = new Event('currententrychange', {
bubbles: false,
cancelable: false
});
event.from = from;
event.navigationType = navigationType;
return event;
}
function createPopStateEvent({
state
}) {
const event = new Event('popstate', {
bubbles: false,
cancelable: false
});
event.state = state;
return event;
}
function createHashChangeEvent(newURL, oldURL) {
const event = new Event('hashchange', {
bubbles: false,
cancelable: false
});
event.newURL = newURL;
event.oldURL = oldURL;
return event;
}
class FakeNavigationDestination {
url;
sameDocument;
key;
id;
index;
state;
historyState;
constructor({
url,
sameDocument,
historyState,
state,
key = null,
id = null,
index = -1
}) {
this.url = url;
this.sameDocument = sameDocument;
this.state = state;
this.historyState = historyState;
this.key = key;
this.id = id;
this.index = index;
}
getState() {
return this.state;
}
getHistoryState() {
return this.historyState;
}
}
function isHashChange(from, to) {
return to.hash !== from.hash && to.hostname === from.hostname && to.pathname === from.pathname && to.search === from.search;
}
class InternalNavigationTransition {
from;
to;
navigationType;
finished;
committed;
finishedResolve;
finishedReject;
committedResolve;
committedReject;
constructor(from, to, navigationType) {
this.from = from;
this.to = to;
this.navigationType = navigationType;
this.finished = new Promise((resolve, reject) => {
this.finishedReject = reject;
this.finishedResolve = resolve;
});
this.committed = new Promise((resolve, reject) => {
this.committedReject = reject;
this.committedResolve = resolve;
});
this.finished.catch(() => {});
this.committed.catch(() => {});
}
}
class InternalNavigationResult {
navigation;
committedTo = null;
committedResolve;
committedReject;
finishedResolve;
finishedReject;
committed;
finished;
get signal() {
return this.abortController.signal;
}
abortController = new AbortController();
constructor(navigation) {
this.navigation = navigation;
this.committed = new Promise((resolve, reject) => {
this.committedResolve = entry => {
this.committedTo = entry;
resolve(entry);
};
this.committedReject = reject;
});
this.finished = new Promise((resolve, reject) => {
this.finishedResolve = () => {
if (this.committedTo === null) {
throw new Error('NavigateEvent should have been committed before resolving finished promise.');
}
resolve(this.committedTo);
};
this.finishedReject = reason => {
this.committedReject(reason);
reject(reason);
};
});
this.committed.catch(() => {});
this.finished.catch(() => {});
}
}
globalThis.beforeEach?.(getCleanupHook(false));
globalThis.afterEach?.(getCleanupHook(true));
function getCleanupHook(expectedTeardownValue) {
return () => {
const testBed = TestBedImpl.INSTANCE;
if (testBed.shouldTearDownTestingModule() === expectedTeardownValue) {
testBed.resetTestingModule();
resetFakeAsyncZoneIfExists();
}
};
}
class Log {
logItems;
constructor() {
this.logItems = [];
}
add(value) {
this.logItems.push(value);
}
fn(value) {
return () => {
this.logItems.push(value);
};
}
clear() {
this.logItems = [];
}
result() {
return this.logItems.join('; ');
}
static ɵfac = function Log_Factory(__ngFactoryType__) {
return new (__ngFactoryType__ || Log)();
};
static ɵprov = /*@__PURE__*/i0.ɵɵdefineInjectable({
token: Log,
factory: Log.ɵfac
});
}
(() => {
(typeof ngDevMode === "undefined" || ngDevMode) && i0.ɵsetClassMetadata(Log, [{
type: Injectable
}], () => [], null);
})();
export { ComponentFixture, ComponentFixtureAutoDetect, ComponentFixtureNoNgZone, DeferBlockBehavior, DeferBlockFixture, DeferBlockState, InjectSetupWrapper, TestBed, TestComponentRenderer, discardPeriodicTasks, fakeAsync, flush, flushMicrotasks, getTestBed, inject, resetFakeAsyncZone, tick, waitForAsync, withModule, FakeNavigation as ɵFakeNavigation, Log as ɵLog, MetadataOverrider as ɵMetadataOverrider, getCleanupHook as ɵgetCleanupHook };
//# sourceMappingURL=testing.mjs.map