/** * @license * Copyright Google Inc. All Rights Reserved. * * Use of this source code is governed by an MIT-style license that can be * found in the LICENSE file at https://angular.io/license */ import {AnimationAnimateMetadata, AnimationEntryMetadata, AnimationGroupMetadata, AnimationKeyframesSequenceMetadata, AnimationMetadata, AnimationStateDeclarationMetadata, AnimationStateMetadata, AnimationStateTransitionMetadata, AnimationStyleMetadata, AnimationWithStepsMetadata, Attribute, ChangeDetectionStrategy, Component, Host, Inject, Injectable, ModuleWithProviders, Optional, Provider, Query, SchemaMetadata, Self, SkipSelf, Type, resolveForwardRef} from '@angular/core'; import {assertArrayOfStrings, assertInterpolationSymbols} from './assertions'; import * as cpl from './compile_metadata'; import {DirectiveNormalizer} from './directive_normalizer'; import {DirectiveResolver} from './directive_resolver'; import {ListWrapper, StringMapWrapper} from './facade/collection'; import {isBlank, isPresent, stringify} from './facade/lang'; import {Identifiers, resolveIdentifierToken} from './identifiers'; import {hasLifecycleHook} from './lifecycle_reflector'; import {NgModuleResolver} from './ng_module_resolver'; import {PipeResolver} from './pipe_resolver'; import {ComponentStillLoadingError, LIFECYCLE_HOOKS_VALUES, ReflectorReader, reflector} from './private_import_core'; import {ElementSchemaRegistry} from './schema/element_schema_registry'; import {getUrlScheme} from './url_resolver'; import {MODULE_SUFFIX, SyncAsyncResult, ValueTransformer, sanitizeIdentifier, visitValue} from './util'; // Design notes: // - don't lazily create metadata: // For some metadata, we need to do async work sometimes, // so the user has to kick off this loading. // But we want to report errors even when the async work is // not required to check that the user would have been able // to wait correctly. @Injectable() export class CompileMetadataResolver { private _directiveCache = new Map, cpl.CompileDirectiveMetadata>(); private _directiveSummaryCache = new Map, cpl.CompileDirectiveSummary>(); private _pipeCache = new Map, cpl.CompilePipeMetadata>(); private _pipeSummaryCache = new Map, cpl.CompilePipeSummary>(); private _ngModuleCache = new Map, cpl.CompileNgModuleMetadata>(); private _ngModuleOfTypes = new Map, Type>(); private _anonymousTypes = new Map(); private _anonymousTypeIndex = 0; constructor( private _ngModuleResolver: NgModuleResolver, private _directiveResolver: DirectiveResolver, private _pipeResolver: PipeResolver, private _schemaRegistry: ElementSchemaRegistry, private _directiveNormalizer: DirectiveNormalizer, private _reflector: ReflectorReader = reflector) {} private sanitizeTokenName(token: any): string { let identifier = stringify(token); if (identifier.indexOf('(') >= 0) { // case: anonymous functions! let found = this._anonymousTypes.get(token); if (!found) { this._anonymousTypes.set(token, this._anonymousTypeIndex++); found = this._anonymousTypes.get(token); } identifier = `anonymous_token_${found}_`; } return sanitizeIdentifier(identifier); } clearCacheFor(type: Type) { const dirMeta = this._directiveCache.get(type); this._directiveCache.delete(type); this._directiveSummaryCache.delete(type); this._pipeCache.delete(type); this._pipeSummaryCache.delete(type); this._ngModuleOfTypes.delete(type); // Clear all of the NgModule as they contain transitive information! this._ngModuleCache.clear(); if (dirMeta) { this._directiveNormalizer.clearCacheFor(dirMeta); } } clearCache() { this._directiveCache.clear(); this._directiveSummaryCache.clear(); this._pipeCache.clear(); this._pipeSummaryCache.clear(); this._ngModuleCache.clear(); this._ngModuleOfTypes.clear(); this._directiveNormalizer.clearCache(); } getAnimationEntryMetadata(entry: AnimationEntryMetadata): cpl.CompileAnimationEntryMetadata { const defs = entry.definitions.map(def => this._getAnimationStateMetadata(def)); return new cpl.CompileAnimationEntryMetadata(entry.name, defs); } private _getAnimationStateMetadata(value: AnimationStateMetadata): cpl.CompileAnimationStateMetadata { if (value instanceof AnimationStateDeclarationMetadata) { const styles = this._getAnimationStyleMetadata(value.styles); return new cpl.CompileAnimationStateDeclarationMetadata(value.stateNameExpr, styles); } if (value instanceof AnimationStateTransitionMetadata) { return new cpl.CompileAnimationStateTransitionMetadata( value.stateChangeExpr, this._getAnimationMetadata(value.steps)); } return null; } private _getAnimationStyleMetadata(value: AnimationStyleMetadata): cpl.CompileAnimationStyleMetadata { return new cpl.CompileAnimationStyleMetadata(value.offset, value.styles); } private _getAnimationMetadata(value: AnimationMetadata): cpl.CompileAnimationMetadata { if (value instanceof AnimationStyleMetadata) { return this._getAnimationStyleMetadata(value); } if (value instanceof AnimationKeyframesSequenceMetadata) { return new cpl.CompileAnimationKeyframesSequenceMetadata( value.steps.map(entry => this._getAnimationStyleMetadata(entry))); } if (value instanceof AnimationAnimateMetadata) { const animateData = this ._getAnimationMetadata(value.styles); return new cpl.CompileAnimationAnimateMetadata(value.timings, animateData); } if (value instanceof AnimationWithStepsMetadata) { const steps = value.steps.map(step => this._getAnimationMetadata(step)); if (value instanceof AnimationGroupMetadata) { return new cpl.CompileAnimationGroupMetadata(steps); } return new cpl.CompileAnimationSequenceMetadata(steps); } return null; } private _loadDirectiveMetadata(directiveType: any, isSync: boolean): Promise { if (this._directiveCache.has(directiveType)) { return; } directiveType = resolveForwardRef(directiveType); const dirMeta = this._directiveResolver.resolve(directiveType); if (!dirMeta) { return null; } let moduleUrl = staticTypeModuleUrl(directiveType); const createDirectiveMetadata = (templateMeta: cpl.CompileTemplateMetadata) => { let changeDetectionStrategy: ChangeDetectionStrategy = null; let viewProviders: Array = []; let entryComponentMetadata: cpl.CompileIdentifierMetadata[] = []; let selector = dirMeta.selector; if (dirMeta instanceof Component) { // Component changeDetectionStrategy = dirMeta.changeDetection; if (dirMeta.viewProviders) { viewProviders = this._getProvidersMetadata( dirMeta.viewProviders, entryComponentMetadata, `viewProviders for "${stringify(directiveType)}"`); } if (dirMeta.entryComponents) { entryComponentMetadata = flattenAndDedupeArray(dirMeta.entryComponents) .map((type) => this._getIdentifierMetadata(type, staticTypeModuleUrl(type))) .concat(entryComponentMetadata); } if (!selector) { selector = this._schemaRegistry.getDefaultComponentElementName(); } } else { // Directive if (!selector) { throw new Error(`Directive ${stringify(directiveType)} has no selector, please add it!`); } } let providers: Array = []; if (isPresent(dirMeta.providers)) { providers = this._getProvidersMetadata( dirMeta.providers, entryComponentMetadata, `providers for "${stringify(directiveType)}"`); } let queries: cpl.CompileQueryMetadata[] = []; let viewQueries: cpl.CompileQueryMetadata[] = []; if (isPresent(dirMeta.queries)) { queries = this._getQueriesMetadata(dirMeta.queries, false, directiveType); viewQueries = this._getQueriesMetadata(dirMeta.queries, true, directiveType); } const meta = cpl.CompileDirectiveMetadata.create({ selector: selector, exportAs: dirMeta.exportAs, isComponent: !!templateMeta, type: this._getTypeMetadata(directiveType, moduleUrl), template: templateMeta, changeDetection: changeDetectionStrategy, inputs: dirMeta.inputs, outputs: dirMeta.outputs, host: dirMeta.host, providers: providers, viewProviders: viewProviders, queries: queries, viewQueries: viewQueries, entryComponents: entryComponentMetadata }); this._directiveCache.set(directiveType, meta); this._directiveSummaryCache.set(directiveType, meta.toSummary()); return meta; }; if (dirMeta instanceof Component) { // component moduleUrl = componentModuleUrl(this._reflector, directiveType, dirMeta); assertArrayOfStrings('styles', dirMeta.styles); assertArrayOfStrings('styleUrls', dirMeta.styleUrls); assertInterpolationSymbols('interpolation', dirMeta.interpolation); const animations = dirMeta.animations ? dirMeta.animations.map(e => this.getAnimationEntryMetadata(e)) : null; const templateMeta = this._directiveNormalizer.normalizeTemplate({ componentType: directiveType, moduleUrl: moduleUrl, encapsulation: dirMeta.encapsulation, template: dirMeta.template, templateUrl: dirMeta.templateUrl, styles: dirMeta.styles, styleUrls: dirMeta.styleUrls, animations: animations, interpolation: dirMeta.interpolation }); if (templateMeta.syncResult) { createDirectiveMetadata(templateMeta.syncResult); return null; } else { if (isSync) { throw new ComponentStillLoadingError(directiveType); } return templateMeta.asyncResult.then(createDirectiveMetadata); } } else { // directive createDirectiveMetadata(null); return null; } } /** * Gets the metadata for the given directive. * This assumes `loadNgModuleMetadata` has been called first. */ getDirectiveMetadata(directiveType: any): cpl.CompileDirectiveMetadata { const dirMeta = this._directiveCache.get(directiveType); if (!dirMeta) { throw new Error( `Illegal state: getDirectiveMetadata can only be called after loadNgModuleMetadata for a module that declares it. Directive ${stringify(directiveType)}.`); } return dirMeta; } getDirectiveSummary(dirType: any): cpl.CompileDirectiveSummary { const dirSummary = this._directiveSummaryCache.get(dirType); if (!dirSummary) { throw new Error( `Illegal state: getDirectiveSummary can only be called after loadNgModuleMetadata for a module that imports it. Directive ${stringify(dirType)}.`); } return dirSummary; } isDirective(type: any) { return this._directiveResolver.isDirective(type); } isPipe(type: any) { return this._pipeResolver.isPipe(type); } /** * Gets the metadata for the given module. * This assumes `loadNgModuleMetadata` has been called first. */ getNgModuleMetadata(moduleType: any): cpl.CompileNgModuleMetadata { const modMeta = this._ngModuleCache.get(moduleType); if (!modMeta) { throw new Error( `Illegal state: getNgModuleMetadata can only be called after loadNgModuleMetadata. Module ${stringify(moduleType)}.`); } return modMeta; } private _loadNgModuleSummary(moduleType: any, isSync: boolean): cpl.CompileNgModuleSummary { // TODO(tbosch): add logic to read summary files! // - needs to add directive / pipe summaries to this._directiveSummaryCache / // this._pipeSummaryCache as well! const moduleMeta = this._loadNgModuleMetadata(moduleType, isSync, false); return moduleMeta ? moduleMeta.toSummary() : null; } /** * Loads an NgModule and all of its directives. This includes loading the exported directives of * imported modules, * but not private directives of imported modules. */ loadNgModuleMetadata(moduleType: any, isSync: boolean, throwIfNotFound = true): {ngModule: cpl.CompileNgModuleMetadata, loading: Promise} { const ngModule = this._loadNgModuleMetadata(moduleType, isSync, throwIfNotFound); const loading = ngModule ? Promise.all(ngModule.transitiveModule.loadingPromises) : Promise.resolve(null); return {ngModule, loading}; } private _loadNgModuleMetadata(moduleType: any, isSync: boolean, throwIfNotFound = true): cpl.CompileNgModuleMetadata { moduleType = resolveForwardRef(moduleType); let compileMeta = this._ngModuleCache.get(moduleType); if (compileMeta) { return compileMeta; } const meta = this._ngModuleResolver.resolve(moduleType, throwIfNotFound); if (!meta) { return null; } const declaredDirectives: cpl.CompileIdentifierMetadata[] = []; const exportedNonModuleIdentifiers: cpl.CompileIdentifierMetadata[] = []; const declaredPipes: cpl.CompileIdentifierMetadata[] = []; const importedModules: cpl.CompileNgModuleSummary[] = []; const exportedModules: cpl.CompileNgModuleSummary[] = []; const providers: any[] = []; const entryComponents: cpl.CompileIdentifierMetadata[] = []; const bootstrapComponents: cpl.CompileIdentifierMetadata[] = []; const schemas: SchemaMetadata[] = []; if (meta.imports) { flattenAndDedupeArray(meta.imports).forEach((importedType) => { let importedModuleType: Type; if (isValidType(importedType)) { importedModuleType = importedType; } else if (importedType && importedType.ngModule) { const moduleWithProviders: ModuleWithProviders = importedType; importedModuleType = moduleWithProviders.ngModule; if (moduleWithProviders.providers) { providers.push(...this._getProvidersMetadata( moduleWithProviders.providers, entryComponents, `provider for the NgModule '${stringify(importedModuleType)}'`)); } } if (importedModuleType) { const importedModuleSummary = this._loadNgModuleSummary(importedModuleType, isSync); if (!importedModuleSummary) { throw new Error( `Unexpected ${this._getTypeDescriptor(importedType)} '${stringify(importedType)}' imported by the module '${stringify(moduleType)}'`); } importedModules.push(importedModuleSummary); } else { throw new Error( `Unexpected value '${stringify(importedType)}' imported by the module '${stringify(moduleType)}'`); } }); } if (meta.exports) { flattenAndDedupeArray(meta.exports).forEach((exportedType) => { if (!isValidType(exportedType)) { throw new Error( `Unexpected value '${stringify(exportedType)}' exported by the module '${stringify(moduleType)}'`); } const exportedModuleSummary = this._loadNgModuleSummary(exportedType, isSync); if (exportedModuleSummary) { exportedModules.push(exportedModuleSummary); } else { exportedNonModuleIdentifiers.push( this._getIdentifierMetadata(exportedType, staticTypeModuleUrl(exportedType))); } }); } // Note: This will be modified later, so we rely on // getting a new instance every time! const transitiveModule = this._getTransitiveNgModuleMetadata(importedModules, exportedModules); if (meta.declarations) { flattenAndDedupeArray(meta.declarations).forEach((declaredType) => { if (!isValidType(declaredType)) { throw new Error( `Unexpected value '${stringify(declaredType)}' declared by the module '${stringify(moduleType)}'`); } const declaredIdentifier = this._getIdentifierMetadata(declaredType, staticTypeModuleUrl(declaredType)); if (this._directiveResolver.isDirective(declaredType)) { transitiveModule.directivesSet.add(declaredType); transitiveModule.directives.push(declaredIdentifier); declaredDirectives.push(declaredIdentifier); this._addTypeToModule(declaredType, moduleType); const loadingPromise = this._loadDirectiveMetadata(declaredType, isSync); if (loadingPromise) { transitiveModule.loadingPromises.push(loadingPromise); } } else if (this._pipeResolver.isPipe(declaredType)) { transitiveModule.pipesSet.add(declaredType); transitiveModule.pipes.push(declaredIdentifier); declaredPipes.push(declaredIdentifier); this._addTypeToModule(declaredType, moduleType); this._loadPipeMetadata(declaredType); } else { throw new Error( `Unexpected ${this._getTypeDescriptor(declaredType)} '${stringify(declaredType)}' declared by the module '${stringify(moduleType)}'`); } }); } const exportedDirectives: cpl.CompileIdentifierMetadata[] = []; const exportedPipes: cpl.CompileIdentifierMetadata[] = []; exportedNonModuleIdentifiers.forEach((exportedId) => { if (transitiveModule.directivesSet.has(exportedId.reference)) { exportedDirectives.push(exportedId); } else if (transitiveModule.pipesSet.has(exportedId.reference)) { exportedPipes.push(exportedId); } else { throw new Error( `Can't export ${this._getTypeDescriptor(exportedId.reference)} ${stringify(exportedId.reference)} from ${stringify(moduleType)} as it was neither declared nor imported!`); } }); // The providers of the module have to go last // so that they overwrite any other provider we already added. if (meta.providers) { providers.push(...this._getProvidersMetadata( meta.providers, entryComponents, `provider for the NgModule '${stringify(moduleType)}'`)); } if (meta.entryComponents) { entryComponents.push( ...flattenAndDedupeArray(meta.entryComponents) .map(type => this._getTypeMetadata(type, staticTypeModuleUrl(type)))); } if (meta.bootstrap) { const typeMetadata = flattenAndDedupeArray(meta.bootstrap).map(type => { if (!isValidType(type)) { throw new Error( `Unexpected value '${stringify(type)}' used in the bootstrap property of module '${stringify(moduleType)}'`); } return this._getTypeMetadata(type, staticTypeModuleUrl(type)); }); bootstrapComponents.push(...typeMetadata); } entryComponents.push(...bootstrapComponents); if (meta.schemas) { schemas.push(...flattenAndDedupeArray(meta.schemas)); } transitiveModule.entryComponents.push(...entryComponents); transitiveModule.providers.push(...providers); compileMeta = new cpl.CompileNgModuleMetadata({ type: this._getTypeMetadata(moduleType, staticTypeModuleUrl(moduleType)), providers, entryComponents, bootstrapComponents, schemas, declaredDirectives, exportedDirectives, declaredPipes, exportedPipes, importedModules, exportedModules, transitiveModule, id: meta.id, }); transitiveModule.modules.push(compileMeta.toInjectorSummary()); this._ngModuleCache.set(moduleType, compileMeta); return compileMeta; } private _getTypeDescriptor(type: Type): string { if (this._directiveResolver.isDirective(type)) { return 'directive'; } if (this._pipeResolver.isPipe(type)) { return 'pipe'; } if (this._ngModuleResolver.isNgModule(type)) { return 'module'; } if ((type as any).provide) { return 'provider'; } return 'value'; } private _addTypeToModule(type: Type, moduleType: Type) { const oldModule = this._ngModuleOfTypes.get(type); if (oldModule && oldModule !== moduleType) { throw new Error( `Type ${stringify(type)} is part of the declarations of 2 modules: ${stringify(oldModule)} and ${stringify(moduleType)}! ` + `Please consider moving ${stringify(type)} to a higher module that imports ${stringify(oldModule)} and ${stringify(moduleType)}. ` + `You can also create a new NgModule that exports and includes ${stringify(type)} then import that NgModule in ${stringify(oldModule)} and ${stringify(moduleType)}.`); } this._ngModuleOfTypes.set(type, moduleType); } private _getTransitiveNgModuleMetadata( importedModules: cpl.CompileNgModuleSummary[], exportedModules: cpl.CompileNgModuleSummary[]): cpl.TransitiveCompileNgModuleMetadata { // collect `providers` / `entryComponents` from all imported and all exported modules const transitiveModules = getTransitiveImportedModules(importedModules.concat(exportedModules)); const providers = flattenArray(transitiveModules.map((ngModule) => ngModule.providers)); const entryComponents = flattenArray(transitiveModules.map((ngModule) => ngModule.entryComponents)); const transitiveExportedModules = getTransitiveExportedModules(importedModules); const directives = flattenArray(transitiveExportedModules.map((ngModule) => ngModule.exportedDirectives)); const pipes = flattenArray(transitiveExportedModules.map((ngModule) => ngModule.exportedPipes)); const loadingPromises = ListWrapper.flatten(transitiveExportedModules.map(ngModule => ngModule.loadingPromises)); return new cpl.TransitiveCompileNgModuleMetadata( transitiveModules, providers, entryComponents, directives, pipes, loadingPromises); } private _getIdentifierMetadata(type: Type, moduleUrl: string): cpl.CompileIdentifierMetadata { type = resolveForwardRef(type); return new cpl.CompileIdentifierMetadata( {name: this.sanitizeTokenName(type), moduleUrl, reference: type}); } private _getTypeMetadata(type: Type, moduleUrl: string, dependencies: any[] = null): cpl.CompileTypeMetadata { const identifier = this._getIdentifierMetadata(type, moduleUrl); return new cpl.CompileTypeMetadata({ name: identifier.name, moduleUrl: identifier.moduleUrl, reference: identifier.reference, diDeps: this._getDependenciesMetadata(identifier.reference, dependencies), lifecycleHooks: LIFECYCLE_HOOKS_VALUES.filter(hook => hasLifecycleHook(hook, identifier.reference)), }); } private _getFactoryMetadata(factory: Function, moduleUrl: string, dependencies: any[] = null): cpl.CompileFactoryMetadata { factory = resolveForwardRef(factory); return new cpl.CompileFactoryMetadata({ name: this.sanitizeTokenName(factory), moduleUrl, reference: factory, diDeps: this._getDependenciesMetadata(factory, dependencies) }); } /** * Gets the metadata for the given pipe. * This assumes `loadNgModuleMetadata` has been called first. */ getPipeMetadata(pipeType: any): cpl.CompilePipeMetadata { const pipeMeta = this._pipeCache.get(pipeType); if (!pipeMeta) { throw new Error( `Illegal state: getPipeMetadata can only be called after loadNgModuleMetadata for a module that declares it. Pipe ${stringify(pipeType)}.`); } return pipeMeta; } getPipeSummary(pipeType: any): cpl.CompilePipeSummary { const pipeSummary = this._pipeSummaryCache.get(pipeType); if (!pipeSummary) { throw new Error( `Illegal state: getPipeSummary can only be called after loadNgModuleMetadata for a module that imports it. Pipe ${stringify(pipeType)}.`); } return pipeSummary; } private _loadPipeMetadata(pipeType: Type): void { pipeType = resolveForwardRef(pipeType); const pipeMeta = this._pipeResolver.resolve(pipeType); if (!pipeMeta) { return null; } const meta = new cpl.CompilePipeMetadata({ type: this._getTypeMetadata(pipeType, staticTypeModuleUrl(pipeType)), name: pipeMeta.name, pure: pipeMeta.pure }); this._pipeCache.set(pipeType, meta); this._pipeSummaryCache.set(pipeType, meta.toSummary()); } private _getDependenciesMetadata(typeOrFunc: Type|Function, dependencies: any[]): cpl.CompileDiDependencyMetadata[] { let hasUnknownDeps = false; let params = dependencies || this._reflector.parameters(typeOrFunc) || []; let dependenciesMetadata: cpl.CompileDiDependencyMetadata[] = params.map((param) => { let isAttribute = false; let isHost = false; let isSelf = false; let isSkipSelf = false; let isOptional = false; let token: any = null; if (Array.isArray(param)) { param.forEach((paramEntry) => { if (paramEntry instanceof Host) { isHost = true; } else if (paramEntry instanceof Self) { isSelf = true; } else if (paramEntry instanceof SkipSelf) { isSkipSelf = true; } else if (paramEntry instanceof Optional) { isOptional = true; } else if (paramEntry instanceof Attribute) { isAttribute = true; token = paramEntry.attributeName; } else if (paramEntry instanceof Inject) { token = paramEntry.token; } else if (isValidType(paramEntry) && isBlank(token)) { token = paramEntry; } }); } else { token = param; } if (isBlank(token)) { hasUnknownDeps = true; return null; } return new cpl.CompileDiDependencyMetadata({ isAttribute, isHost, isSelf, isSkipSelf, isOptional, token: this._getTokenMetadata(token) }); }); if (hasUnknownDeps) { let depsTokens = dependenciesMetadata.map((dep) => dep ? stringify(dep.token) : '?').join(', '); throw new Error( `Can't resolve all parameters for ${stringify(typeOrFunc)}: (${depsTokens}).`); } return dependenciesMetadata; } private _getTokenMetadata(token: any): cpl.CompileTokenMetadata { token = resolveForwardRef(token); let compileToken: cpl.CompileTokenMetadata; if (typeof token === 'string') { compileToken = new cpl.CompileTokenMetadata({value: token}); } else { compileToken = new cpl.CompileTokenMetadata({ identifier: new cpl.CompileIdentifierMetadata({ reference: token, name: this.sanitizeTokenName(token), moduleUrl: staticTypeModuleUrl(token) }) }); } return compileToken; } private _getProvidersMetadata( providers: Provider[], targetEntryComponents: cpl.CompileIdentifierMetadata[], debugInfo?: string): Array { const compileProviders: Array = []; providers.forEach((provider: any, providerIdx: number) => { provider = resolveForwardRef(provider); if (provider && typeof provider == 'object' && provider.hasOwnProperty('provide')) { provider = new cpl.ProviderMeta(provider.provide, provider); } let compileProvider: cpl.CompileProviderMetadata|cpl.CompileTypeMetadata|any[]; if (Array.isArray(provider)) { compileProvider = this._getProvidersMetadata(provider, targetEntryComponents, debugInfo); } else if (provider instanceof cpl.ProviderMeta) { let tokenMeta = this._getTokenMetadata(provider.token); if (tokenMeta.reference === resolveIdentifierToken(Identifiers.ANALYZE_FOR_ENTRY_COMPONENTS).reference) { targetEntryComponents.push(...this._getEntryComponentsFromProvider(provider)); } else { compileProvider = this.getProviderMetadata(provider); } } else if (isValidType(provider)) { compileProvider = this._getTypeMetadata(provider, staticTypeModuleUrl(provider)); } else { const providersInfo = (providers.reduce( (soFar: string[], seenProvider: any, seenProviderIdx: number) => { if (seenProviderIdx < providerIdx) { soFar.push(`${stringify(seenProvider)}`); } else if (seenProviderIdx == providerIdx) { soFar.push(`?${stringify(seenProvider)}?`); } else if (seenProviderIdx == providerIdx + 1) { soFar.push('...'); } return soFar; }, [])) .join(', '); throw new Error( `Invalid ${debugInfo ? debugInfo : 'provider'} - only instances of Provider and Type are allowed, got: [${providersInfo}]`); } if (compileProvider) { compileProviders.push(compileProvider); } }); return compileProviders; } private _getEntryComponentsFromProvider(provider: cpl.ProviderMeta): cpl.CompileIdentifierMetadata[] { const components: cpl.CompileIdentifierMetadata[] = []; const collectedIdentifiers: cpl.CompileIdentifierMetadata[] = []; if (provider.useFactory || provider.useExisting || provider.useClass) { throw new Error(`The ANALYZE_FOR_ENTRY_COMPONENTS token only supports useValue!`); } if (!provider.multi) { throw new Error(`The ANALYZE_FOR_ENTRY_COMPONENTS token only supports 'multi = true'!`); } convertToCompileValue(provider.useValue, collectedIdentifiers); collectedIdentifiers.forEach((identifier) => { if (this._directiveResolver.isDirective(identifier.reference)) { components.push(identifier); } }); return components; } getProviderMetadata(provider: cpl.ProviderMeta): cpl.CompileProviderMetadata { let compileDeps: cpl.CompileDiDependencyMetadata[]; let compileTypeMetadata: cpl.CompileTypeMetadata = null; let compileFactoryMetadata: cpl.CompileFactoryMetadata = null; if (provider.useClass) { compileTypeMetadata = this._getTypeMetadata( provider.useClass, staticTypeModuleUrl(provider.useClass), provider.dependencies); compileDeps = compileTypeMetadata.diDeps; } else if (provider.useFactory) { compileFactoryMetadata = this._getFactoryMetadata( provider.useFactory, staticTypeModuleUrl(provider.useFactory), provider.dependencies); compileDeps = compileFactoryMetadata.diDeps; } return new cpl.CompileProviderMetadata({ token: this._getTokenMetadata(provider.token), useClass: compileTypeMetadata, useValue: convertToCompileValue(provider.useValue, []), useFactory: compileFactoryMetadata, useExisting: provider.useExisting ? this._getTokenMetadata(provider.useExisting) : null, deps: compileDeps, multi: provider.multi }); } private _getQueriesMetadata( queries: {[key: string]: Query}, isViewQuery: boolean, directiveType: Type): cpl.CompileQueryMetadata[] { const res: cpl.CompileQueryMetadata[] = []; Object.keys(queries).forEach((propertyName: string) => { const query = queries[propertyName]; if (query.isViewQuery === isViewQuery) { res.push(this._getQueryMetadata(query, propertyName, directiveType)); } }); return res; } private _queryVarBindings(selector: any): string[] { return selector.split(/\s*,\s*/); } private _getQueryMetadata(q: Query, propertyName: string, typeOrFunc: Type|Function): cpl.CompileQueryMetadata { var selectors: cpl.CompileTokenMetadata[]; if (typeof q.selector === 'string') { selectors = this._queryVarBindings(q.selector).map(varName => this._getTokenMetadata(varName)); } else { if (!q.selector) { throw new Error( `Can't construct a query for the property "${propertyName}" of "${stringify(typeOrFunc)}" since the query selector wasn't defined.`); } selectors = [this._getTokenMetadata(q.selector)]; } return new cpl.CompileQueryMetadata({ selectors, first: q.first, descendants: q.descendants, propertyName, read: q.read ? this._getTokenMetadata(q.read) : null }); } } function getTransitiveExportedModules( modules: cpl.CompileNgModuleDirectiveSummary[], targetModules: cpl.CompileNgModuleDirectiveSummary[] = [], visitedModules = new Set>()): cpl.CompileNgModuleDirectiveSummary[] { modules.forEach((ngModule) => { if (!visitedModules.has(ngModule.type.reference)) { visitedModules.add(ngModule.type.reference); getTransitiveExportedModules(ngModule.exportedModules, targetModules, visitedModules); // Add after recursing so imported/exported modules are before the module itself. // This is important for overwriting providers of imported modules! targetModules.push(ngModule); } }); return targetModules; } function getTransitiveImportedModules( modules: cpl.CompileNgModuleInjectorSummary[], targetModules: cpl.CompileNgModuleInjectorSummary[] = [], visitedModules = new Set>()): cpl.CompileNgModuleInjectorSummary[] { modules.forEach((ngModule) => { if (!visitedModules.has(ngModule.type.reference)) { visitedModules.add(ngModule.type.reference); const nestedModules = ngModule.importedModules.concat(ngModule.exportedModules); getTransitiveImportedModules(nestedModules, targetModules, visitedModules); // Add after recursing so imported/exported modules are before the module itself. // This is important for overwriting providers of imported modules! targetModules.push(ngModule); } }); return targetModules; } function flattenArray(tree: any[], out: Array = []): Array { if (tree) { for (let i = 0; i < tree.length; i++) { const item = resolveForwardRef(tree[i]); if (Array.isArray(item)) { flattenArray(item, out); } else { out.push(item); } } } return out; } function dedupeArray(array: any[]): Array { if (array) { return Array.from(new Set(array)); } return []; } function flattenAndDedupeArray(tree: any[]): Array { return dedupeArray(flattenArray(tree)); } function isValidType(value: any): boolean { return cpl.isStaticSymbol(value) || (value instanceof Type); } function staticTypeModuleUrl(value: any): string { return cpl.isStaticSymbol(value) ? value.filePath : null; } function componentModuleUrl( reflector: ReflectorReader, type: Type, cmpMetadata: Component): string { if (cpl.isStaticSymbol(type)) { return staticTypeModuleUrl(type); } const moduleId = cmpMetadata.moduleId; if (typeof moduleId === 'string') { const scheme = getUrlScheme(moduleId); return scheme ? moduleId : `package:${moduleId}${MODULE_SUFFIX}`; } else if (moduleId !== null && moduleId !== void 0) { throw new Error( `moduleId should be a string in "${stringify(type)}". See https://goo.gl/wIDDiL for more information.\n` + `If you're using Webpack you should inline the template and the styles, see https://goo.gl/X2J8zc.`); } return reflector.importUri(type); } function convertToCompileValue( value: any, targetIdentifiers: cpl.CompileIdentifierMetadata[]): any { return visitValue(value, new _CompileValueConverter(), targetIdentifiers); } class _CompileValueConverter extends ValueTransformer { visitOther(value: any, targetIdentifiers: cpl.CompileIdentifierMetadata[]): any { let identifier: cpl.CompileIdentifierMetadata; if (cpl.isStaticSymbol(value)) { identifier = new cpl.CompileIdentifierMetadata( {name: value.name, moduleUrl: value.filePath, reference: value}); } else { identifier = new cpl.CompileIdentifierMetadata({reference: value}); } targetIdentifiers.push(identifier); return identifier; } }