/// /// /// /// /// /// namespace ts.server { export enum ProjectKind { Inferred, Configured, External } function remove(items: T[], item: T) { const index = items.indexOf(item); if (index >= 0) { items.splice(index, 1); } } function countEachFileTypes(infos: ScriptInfo[]): { js: number, jsx: number, ts: number, tsx: number, dts: number } { const result = { js: 0, jsx: 0, ts: 0, tsx: 0, dts: 0 }; for (const info of infos) { switch (info.scriptKind) { case ScriptKind.JS: result.js += 1; break; case ScriptKind.JSX: result.jsx += 1; break; case ScriptKind.TS: fileExtensionIs(info.fileName, ".d.ts") ? result.dts += 1 : result.ts += 1; break; case ScriptKind.TSX: result.tsx += 1; break; } } return result; } function hasOneOrMoreJsAndNoTsFiles(project: Project) { const counts = countEachFileTypes(project.getScriptInfos()); return counts.js > 0 && counts.ts === 0 && counts.tsx === 0; } export function allRootFilesAreJsOrDts(project: Project): boolean { const counts = countEachFileTypes(project.getRootScriptInfos()); return counts.ts === 0 && counts.tsx === 0; } export function allFilesAreJsOrDts(project: Project): boolean { const counts = countEachFileTypes(project.getScriptInfos()); return counts.ts === 0 && counts.tsx === 0; } export interface ProjectFilesWithTSDiagnostics extends protocol.ProjectFiles { projectErrors: Diagnostic[]; } export class UnresolvedImportsMap { readonly perFileMap = createFileMap>(); private version = 0; public clear() { this.perFileMap.clear(); this.version = 0; } public getVersion() { return this.version; } public remove(path: Path) { this.perFileMap.remove(path); this.version++; } public get(path: Path) { return this.perFileMap.get(path); } public set(path: Path, value: ReadonlyArray) { this.perFileMap.set(path, value); this.version++; } } export abstract class Project { private rootFiles: ScriptInfo[] = []; private rootFilesMap: FileMap = createFileMap(); private lsHost: LSHost; private program: ts.Program; private cachedUnresolvedImportsPerFile = new UnresolvedImportsMap(); private lastCachedUnresolvedImportsList: SortedReadonlyArray; private readonly languageService: LanguageService; public languageServiceEnabled = true; builder: Builder; /** * Set of files names that were updated since the last call to getChangesSinceVersion. */ private updatedFileNames: Map; /** * Set of files that was returned from the last call to getChangesSinceVersion. */ private lastReportedFileNames: Map; /** * Last version that was reported. */ private lastReportedVersion = 0; /** * Current project structure version. * This property is changed in 'updateGraph' based on the set of files in program */ private projectStructureVersion = 0; /** * Current version of the project state. It is changed when: * - new root file was added/removed * - edit happen in some file that is currently included in the project. * This property is different from projectStructureVersion since in most cases edits don't affect set of files in the project */ private projectStateVersion = 0; private typingFiles: SortedReadonlyArray; protected projectErrors: Diagnostic[]; public typesVersion = 0; public isNonTsProject() { this.updateGraph(); return allFilesAreJsOrDts(this); } public isJsOnlyProject() { this.updateGraph(); return hasOneOrMoreJsAndNoTsFiles(this); } public getCachedUnresolvedImportsPerFile_TestOnly() { return this.cachedUnresolvedImportsPerFile; } constructor( private readonly projectName: string, readonly projectKind: ProjectKind, readonly projectService: ProjectService, private documentRegistry: ts.DocumentRegistry, hasExplicitListOfFiles: boolean, languageServiceEnabled: boolean, private compilerOptions: CompilerOptions, public compileOnSaveEnabled: boolean) { if (!this.compilerOptions) { this.compilerOptions = ts.getDefaultCompilerOptions(); this.compilerOptions.allowNonTsExtensions = true; this.compilerOptions.allowJs = true; } else if (hasExplicitListOfFiles) { // If files are listed explicitly, allow all extensions this.compilerOptions.allowNonTsExtensions = true; } this.setInternalCompilerOptionsForEmittingJsFiles(); this.lsHost = new LSHost(this.projectService.host, this, this.projectService.cancellationToken); this.lsHost.setCompilationSettings(this.compilerOptions); this.languageService = ts.createLanguageService(this.lsHost, this.documentRegistry); if (!languageServiceEnabled) { this.disableLanguageService(); } this.builder = createBuilder(this); this.markAsDirty(); } private setInternalCompilerOptionsForEmittingJsFiles() { if (this.projectKind === ProjectKind.Inferred || this.projectKind === ProjectKind.External) { this.compilerOptions.noEmitForJsFiles = true; } } getProjectErrors() { return this.projectErrors; } getLanguageService(ensureSynchronized = true): LanguageService { if (ensureSynchronized) { this.updateGraph(); } return this.languageService; } getCompileOnSaveAffectedFileList(scriptInfo: ScriptInfo): string[] { if (!this.languageServiceEnabled) { return []; } this.updateGraph(); return this.builder.getFilesAffectedBy(scriptInfo); } getProjectVersion() { return this.projectStateVersion.toString(); } enableLanguageService() { if (this.languageServiceEnabled) { return; } this.languageServiceEnabled = true; this.projectService.onUpdateLanguageServiceStateForProject(this, /*languageServiceEnabled*/ true); } disableLanguageService() { if (!this.languageServiceEnabled) { return; } this.languageService.cleanupSemanticCache(); this.languageServiceEnabled = false; this.projectService.onUpdateLanguageServiceStateForProject(this, /*languageServiceEnabled*/ false); } getProjectName() { return this.projectName; } abstract getProjectRootPath(): string | undefined; abstract getTypeAcquisition(): TypeAcquisition; getSourceFile(path: Path) { if (!this.program) { return undefined; } return this.program.getSourceFileByPath(path); } updateTypes() { this.typesVersion++; this.markAsDirty(); this.updateGraph(); } close() { if (this.program) { // if we have a program - release all files that are enlisted in program for (const f of this.program.getSourceFiles()) { const info = this.projectService.getScriptInfo(f.fileName); info.detachFromProject(this); } } if (!this.program || !this.languageServiceEnabled) { // release all root files either if there is no program or language service is disabled. // in the latter case set of root files can be larger than the set of files in program. for (const root of this.rootFiles) { root.detachFromProject(this); } } this.rootFiles = undefined; this.rootFilesMap = undefined; this.program = undefined; // signal language service to release source files acquired from document registry this.languageService.dispose(); } getCompilerOptions() { return this.compilerOptions; } hasRoots() { return this.rootFiles && this.rootFiles.length > 0; } getRootFiles() { return this.rootFiles && this.rootFiles.map(info => info.fileName); } getRootFilesLSHost() { const result: string[] = []; if (this.rootFiles) { for (const f of this.rootFiles) { if (this.languageServiceEnabled || f.isScriptOpen()) { // if language service is disabled - process only files that are open result.push(f.fileName); } } if (this.typingFiles) { for (const f of this.typingFiles) { result.push(f); } } } return result; } getRootScriptInfos() { return this.rootFiles; } getScriptInfos() { if (!this.languageServiceEnabled) { // if language service is not enabled - return just root files return this.rootFiles; } return map(this.program.getSourceFiles(), sourceFile => { const scriptInfo = this.projectService.getScriptInfoForPath(sourceFile.path); if (!scriptInfo) { Debug.assert(false, `scriptInfo for a file '${sourceFile.fileName}' is missing.`); } return scriptInfo; }); } getFileEmitOutput(info: ScriptInfo, emitOnlyDtsFiles: boolean) { if (!this.languageServiceEnabled) { return undefined; } return this.getLanguageService().getEmitOutput(info.fileName, emitOnlyDtsFiles); } getFileNames(excludeFilesFromExternalLibraries?: boolean) { if (!this.program) { return []; } if (!this.languageServiceEnabled) { // if language service is disabled assume that all files in program are root files + default library let rootFiles = this.getRootFiles(); if (this.compilerOptions) { const defaultLibrary = getDefaultLibFilePath(this.compilerOptions); if (defaultLibrary) { (rootFiles || (rootFiles = [])).push(asNormalizedPath(defaultLibrary)); } } return rootFiles; } const result: NormalizedPath[] = []; for (const f of this.program.getSourceFiles()) { if (excludeFilesFromExternalLibraries && this.program.isSourceFileFromExternalLibrary(f)) { continue; } result.push(asNormalizedPath(f.fileName)); } return result; } getAllEmittableFiles() { if (!this.languageServiceEnabled) { return []; } const defaultLibraryFileName = getDefaultLibFileName(this.compilerOptions); const infos = this.getScriptInfos(); const result: string[] = []; for (const info of infos) { if (getBaseFileName(info.fileName) !== defaultLibraryFileName && shouldEmitFile(info)) { result.push(info.fileName); } } return result; } containsScriptInfo(info: ScriptInfo): boolean { return this.isRoot(info) || (this.program && this.program.getSourceFileByPath(info.path) !== undefined); } containsFile(filename: NormalizedPath, requireOpen?: boolean) { const info = this.projectService.getScriptInfoForNormalizedPath(filename); if (info && (info.isScriptOpen() || !requireOpen)) { return this.containsScriptInfo(info); } } isRoot(info: ScriptInfo) { return this.rootFilesMap && this.rootFilesMap.contains(info.path); } // add a root file to project addRoot(info: ScriptInfo) { if (!this.isRoot(info)) { this.rootFiles.push(info); this.rootFilesMap.set(info.path, info); info.attachToProject(this); this.markAsDirty(); } } removeFile(info: ScriptInfo, detachFromProject = true) { this.removeRootFileIfNecessary(info); this.lsHost.notifyFileRemoved(info); this.cachedUnresolvedImportsPerFile.remove(info.path); if (detachFromProject) { info.detachFromProject(this); } this.markAsDirty(); } registerFileUpdate(fileName: string) { (this.updatedFileNames || (this.updatedFileNames = createMap()))[fileName] = fileName; } markAsDirty() { this.projectStateVersion++; } private extractUnresolvedImportsFromSourceFile(file: SourceFile, result: string[]) { const cached = this.cachedUnresolvedImportsPerFile.get(file.path); if (cached) { // found cached result - use it and return for (const f of cached) { result.push(f); } return; } let unresolvedImports: string[]; if (file.resolvedModules) { for (const name in file.resolvedModules) { // pick unresolved non-relative names if (!file.resolvedModules[name] && !isExternalModuleNameRelative(name)) { // for non-scoped names extract part up-to the first slash // for scoped names - extract up to the second slash let trimmed = name.trim(); let i = trimmed.indexOf("/"); if (i !== -1 && trimmed.charCodeAt(0) === CharacterCodes.at) { i = trimmed.indexOf("/", i + 1); } if (i !== -1) { trimmed = trimmed.substr(0, i); } (unresolvedImports || (unresolvedImports = [])).push(trimmed); result.push(trimmed); } } } this.cachedUnresolvedImportsPerFile.set(file.path, unresolvedImports || emptyArray); } /** * Updates set of files that contribute to this project * @returns: true if set of files in the project stays the same and false - otherwise. */ updateGraph(): boolean { this.lsHost.startRecordingFilesWithChangedResolutions(); let hasChanges = this.updateGraphWorker(); const changedFiles: ReadonlyArray = this.lsHost.finishRecordingFilesWithChangedResolutions() || emptyArray; for (const file of changedFiles) { // delete cached information for changed files this.cachedUnresolvedImportsPerFile.remove(file); } // 1. no changes in structure, no changes in unresolved imports - do nothing // 2. no changes in structure, unresolved imports were changed - collect unresolved imports for all files // (can reuse cached imports for files that were not changed) // 3. new files were added/removed, but compilation settings stays the same - collect unresolved imports for all new/modified files // (can reuse cached imports for files that were not changed) // 4. compilation settings were changed in the way that might affect module resolution - drop all caches and collect all data from the scratch let unresolvedImports: SortedReadonlyArray; if (hasChanges || changedFiles.length) { const result: string[] = []; for (const sourceFile of this.program.getSourceFiles()) { this.extractUnresolvedImportsFromSourceFile(sourceFile, result); } this.lastCachedUnresolvedImportsList = toSortedReadonlyArray(result); } unresolvedImports = this.lastCachedUnresolvedImportsList; const cachedTypings = this.projectService.typingsCache.getTypingsForProject(this, unresolvedImports, hasChanges); if (this.setTypings(cachedTypings)) { hasChanges = this.updateGraphWorker() || hasChanges; } // update builder only if language service is enabled // otherwise tell it to drop its internal state if (this.languageServiceEnabled) { this.builder.onProjectUpdateGraph(); } else { this.builder.clear(); } if (hasChanges) { this.projectStructureVersion++; } return !hasChanges; } private setTypings(typings: SortedReadonlyArray): boolean { if (arrayIsEqualTo(this.typingFiles, typings)) { return false; } this.typingFiles = typings; this.markAsDirty(); return true; } private updateGraphWorker() { const oldProgram = this.program; this.program = this.languageService.getProgram(); let hasChanges = false; // bump up the version if // - oldProgram is not set - this is a first time updateGraph is called // - newProgram is different from the old program and structure of the old program was not reused. if (!oldProgram || (this.program !== oldProgram && !oldProgram.structureIsReused)) { hasChanges = true; if (oldProgram) { for (const f of oldProgram.getSourceFiles()) { if (this.program.getSourceFileByPath(f.path)) { continue; } // new program does not contain this file - detach it from the project const scriptInfoToDetach = this.projectService.getScriptInfo(f.fileName); if (scriptInfoToDetach) { scriptInfoToDetach.detachFromProject(this); } } } } return hasChanges; } getScriptInfoLSHost(fileName: string) { const scriptInfo = this.projectService.getOrCreateScriptInfo(fileName, /*openedByClient*/ false); if (scriptInfo) { scriptInfo.attachToProject(this); } return scriptInfo; } getScriptInfoForNormalizedPath(fileName: NormalizedPath) { const scriptInfo = this.projectService.getOrCreateScriptInfoForNormalizedPath(fileName, /*openedByClient*/ false); if (scriptInfo && !scriptInfo.isAttached(this)) { return Errors.ThrowProjectDoesNotContainDocument(fileName, this); } return scriptInfo; } getScriptInfo(uncheckedFileName: string) { return this.getScriptInfoForNormalizedPath(toNormalizedPath(uncheckedFileName)); } filesToString() { if (!this.program) { return ""; } let strBuilder = ""; for (const file of this.program.getSourceFiles()) { strBuilder += `${file.fileName}\n`; } return strBuilder; } setCompilerOptions(compilerOptions: CompilerOptions) { if (compilerOptions) { if (this.projectKind === ProjectKind.Inferred) { compilerOptions.allowJs = true; } compilerOptions.allowNonTsExtensions = true; if (changesAffectModuleResolution(this.compilerOptions, compilerOptions)) { // reset cached unresolved imports if changes in compiler options affected module resolution this.cachedUnresolvedImportsPerFile.clear(); this.lastCachedUnresolvedImportsList = undefined; } this.compilerOptions = compilerOptions; this.setInternalCompilerOptionsForEmittingJsFiles(); this.lsHost.setCompilationSettings(compilerOptions); this.markAsDirty(); } } reloadScript(filename: NormalizedPath, tempFileName?: NormalizedPath): boolean { const script = this.projectService.getScriptInfoForNormalizedPath(filename); if (script) { Debug.assert(script.isAttached(this)); script.reloadFromFile(tempFileName); return true; } return false; } getChangesSinceVersion(lastKnownVersion?: number): ProjectFilesWithTSDiagnostics { this.updateGraph(); const info = { projectName: this.getProjectName(), version: this.projectStructureVersion, isInferred: this.projectKind === ProjectKind.Inferred, options: this.getCompilerOptions(), languageServiceDisabled: !this.languageServiceEnabled }; const updatedFileNames = this.updatedFileNames; this.updatedFileNames = undefined; // check if requested version is the same that we have reported last time if (this.lastReportedFileNames && lastKnownVersion === this.lastReportedVersion) { // if current structure version is the same - return info without any changes if (this.projectStructureVersion == this.lastReportedVersion && !updatedFileNames) { return { info, projectErrors: this.projectErrors }; } // compute and return the difference const lastReportedFileNames = this.lastReportedFileNames; const currentFiles = arrayToMap(this.getFileNames(), x => x); const added: string[] = []; const removed: string[] = []; const updated: string[] = getOwnKeys(updatedFileNames); for (const id in currentFiles) { if (!hasProperty(lastReportedFileNames, id)) { added.push(id); } } for (const id in lastReportedFileNames) { if (!hasProperty(currentFiles, id)) { removed.push(id); } } this.lastReportedFileNames = currentFiles; this.lastReportedVersion = this.projectStructureVersion; return { info, changes: { added, removed, updated }, projectErrors: this.projectErrors }; } else { // unknown version - return everything const projectFileNames = this.getFileNames(); this.lastReportedFileNames = arrayToMap(projectFileNames, x => x); this.lastReportedVersion = this.projectStructureVersion; return { info, files: projectFileNames, projectErrors: this.projectErrors }; } } getReferencedFiles(path: Path): Path[] { if (!this.languageServiceEnabled) { return []; } const sourceFile = this.getSourceFile(path); if (!sourceFile) { return []; } // We need to use a set here since the code can contain the same import twice, // but that will only be one dependency. // To avoid invernal conversion, the key of the referencedFiles map must be of type Path const referencedFiles = createMap(); if (sourceFile.imports && sourceFile.imports.length > 0) { const checker: TypeChecker = this.program.getTypeChecker(); for (const importName of sourceFile.imports) { const symbol = checker.getSymbolAtLocation(importName); if (symbol && symbol.declarations && symbol.declarations[0]) { const declarationSourceFile = symbol.declarations[0].getSourceFile(); if (declarationSourceFile) { referencedFiles[declarationSourceFile.path] = true; } } } } const currentDirectory = getDirectoryPath(path); const getCanonicalFileName = createGetCanonicalFileName(this.projectService.host.useCaseSensitiveFileNames); // Handle triple slash references if (sourceFile.referencedFiles && sourceFile.referencedFiles.length > 0) { for (const referencedFile of sourceFile.referencedFiles) { const referencedPath = toPath(referencedFile.fileName, currentDirectory, getCanonicalFileName); referencedFiles[referencedPath] = true; } } // Handle type reference directives if (sourceFile.resolvedTypeReferenceDirectiveNames) { for (const typeName in sourceFile.resolvedTypeReferenceDirectiveNames) { const resolvedTypeReferenceDirective = sourceFile.resolvedTypeReferenceDirectiveNames[typeName]; if (!resolvedTypeReferenceDirective) { continue; } const fileName = resolvedTypeReferenceDirective.resolvedFileName; const typeFilePath = toPath(fileName, currentDirectory, getCanonicalFileName); referencedFiles[typeFilePath] = true; } } const allFileNames = map(Object.keys(referencedFiles), key => key); return filter(allFileNames, file => this.projectService.host.fileExists(file)); } // remove a root file from project private removeRootFileIfNecessary(info: ScriptInfo): void { if (this.isRoot(info)) { remove(this.rootFiles, info); this.rootFilesMap.remove(info.path); } } } export class InferredProject extends Project { private static newName = (() => { let nextId = 1; return () => { const id = nextId; nextId++; return makeInferredProjectName(id); } })(); // Used to keep track of what directories are watched for this project directoriesWatchedForTsconfig: string[] = []; constructor(projectService: ProjectService, documentRegistry: ts.DocumentRegistry, compilerOptions: CompilerOptions) { super(InferredProject.newName(), ProjectKind.Inferred, projectService, documentRegistry, /*files*/ undefined, /*languageServiceEnabled*/ true, compilerOptions, /*compileOnSaveEnabled*/ false); } getProjectRootPath() { // Single inferred project does not have a project root. if (this.projectService.useSingleInferredProject) { return undefined; } const rootFiles = this.getRootFiles(); return getDirectoryPath(rootFiles[0]); } close() { super.close(); for (const directory of this.directoriesWatchedForTsconfig) { this.projectService.stopWatchingDirectory(directory); } } getTypeAcquisition(): TypeAcquisition { return { enable: allRootFilesAreJsOrDts(this), include: [], exclude: [] }; } } export class ConfiguredProject extends Project { private typeAcquisition: TypeAcquisition; private projectFileWatcher: FileWatcher; private directoryWatcher: FileWatcher; private directoriesWatchedForWildcards: Map; private typeRootsWatchers: FileWatcher[]; readonly canonicalConfigFilePath: NormalizedPath; /** Used for configured projects which may have multiple open roots */ openRefCount = 0; constructor(configFileName: NormalizedPath, projectService: ProjectService, documentRegistry: ts.DocumentRegistry, hasExplicitListOfFiles: boolean, compilerOptions: CompilerOptions, private wildcardDirectories: Map, languageServiceEnabled: boolean, public compileOnSaveEnabled: boolean) { super(configFileName, ProjectKind.Configured, projectService, documentRegistry, hasExplicitListOfFiles, languageServiceEnabled, compilerOptions, compileOnSaveEnabled); this.canonicalConfigFilePath = asNormalizedPath(projectService.toCanonicalFileName(configFileName)); } getConfigFilePath() { return this.getProjectName(); } getProjectRootPath() { return getDirectoryPath(this.getConfigFilePath()); } setProjectErrors(projectErrors: Diagnostic[]) { this.projectErrors = projectErrors; } setTypeAcquisition(newTypeAcquisition: TypeAcquisition): void { this.typeAcquisition = newTypeAcquisition; } getTypeAcquisition() { return this.typeAcquisition; } watchConfigFile(callback: (project: ConfiguredProject) => void) { this.projectFileWatcher = this.projectService.host.watchFile(this.getConfigFilePath(), _ => callback(this)); } watchTypeRoots(callback: (project: ConfiguredProject, path: string) => void) { const roots = this.getEffectiveTypeRoots(); const watchers: FileWatcher[] = []; for (const root of roots) { this.projectService.logger.info(`Add type root watcher for: ${root}`); watchers.push(this.projectService.host.watchDirectory(root, path => callback(this, path), /*recursive*/ false)); } this.typeRootsWatchers = watchers; } watchConfigDirectory(callback: (project: ConfiguredProject, path: string) => void) { if (this.directoryWatcher) { return; } const directoryToWatch = getDirectoryPath(this.getConfigFilePath()); this.projectService.logger.info(`Add recursive watcher for: ${directoryToWatch}`); this.directoryWatcher = this.projectService.host.watchDirectory(directoryToWatch, path => callback(this, path), /*recursive*/ true); } watchWildcards(callback: (project: ConfiguredProject, path: string) => void) { if (!this.wildcardDirectories) { return; } const configDirectoryPath = getDirectoryPath(this.getConfigFilePath()); this.directoriesWatchedForWildcards = reduceProperties(this.wildcardDirectories, (watchers, flag, directory) => { if (comparePaths(configDirectoryPath, directory, ".", !this.projectService.host.useCaseSensitiveFileNames) !== Comparison.EqualTo) { const recursive = (flag & WatchDirectoryFlags.Recursive) !== 0; this.projectService.logger.info(`Add ${recursive ? "recursive " : ""}watcher for: ${directory}`); watchers[directory] = this.projectService.host.watchDirectory( directory, path => callback(this, path), recursive ); } return watchers; }, >{}); } stopWatchingDirectory() { if (this.directoryWatcher) { this.directoryWatcher.close(); this.directoryWatcher = undefined; } } close() { super.close(); if (this.projectFileWatcher) { this.projectFileWatcher.close(); } if (this.typeRootsWatchers) { for (const watcher of this.typeRootsWatchers) { watcher.close(); } this.typeRootsWatchers = undefined; } for (const id in this.directoriesWatchedForWildcards) { this.directoriesWatchedForWildcards[id].close(); } this.directoriesWatchedForWildcards = undefined; this.stopWatchingDirectory(); } addOpenRef() { this.openRefCount++; } deleteOpenRef() { this.openRefCount--; return this.openRefCount; } getEffectiveTypeRoots() { return ts.getEffectiveTypeRoots(this.getCompilerOptions(), this.projectService.host) || []; } } export class ExternalProject extends Project { private typeAcquisition: TypeAcquisition; constructor(externalProjectName: string, projectService: ProjectService, documentRegistry: ts.DocumentRegistry, compilerOptions: CompilerOptions, languageServiceEnabled: boolean, public compileOnSaveEnabled: boolean, private readonly projectFilePath?: string) { super(externalProjectName, ProjectKind.External, projectService, documentRegistry, /*hasExplicitListOfFiles*/ true, languageServiceEnabled, compilerOptions, compileOnSaveEnabled); } getProjectRootPath() { if (this.projectFilePath) { return getDirectoryPath(this.projectFilePath); } // if the projectFilePath is not given, we make the assumption that the project name // is the path of the project file. AS the project name is provided by VS, we need to // normalize slashes before using it as a file name. return getDirectoryPath(normalizeSlashes(this.getProjectName())); } getTypeAcquisition() { return this.typeAcquisition; } setProjectErrors(projectErrors: Diagnostic[]) { this.projectErrors = projectErrors; } setTypeAcquisition(newTypeAcquisition: TypeAcquisition): void { if (!newTypeAcquisition) { // set default typings options newTypeAcquisition = { enable: allRootFilesAreJsOrDts(this), include: [], exclude: [] }; } else { if (newTypeAcquisition.enable === undefined) { // if autoDiscovery was not specified by the caller - set it based on the content of the project newTypeAcquisition.enable = allRootFilesAreJsOrDts(this); } if (!newTypeAcquisition.include) { newTypeAcquisition.include = []; } if (!newTypeAcquisition.exclude) { newTypeAcquisition.exclude = []; } } this.typeAcquisition = newTypeAcquisition; } } }