/** * @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 {AotCompilerHost, StaticSymbol} from '@angular/compiler'; import {AngularCompilerOptions, CollectorOptions, MetadataCollector, ModuleMetadata} from '@angular/tsc-wrapped'; import * as fs from 'fs'; import * as path from 'path'; import * as ts from 'typescript'; const EXT = /(\.ts|\.d\.ts|\.js|\.jsx|\.tsx)$/; const DTS = /\.d\.ts$/; const NODE_MODULES = '/node_modules/'; const IS_GENERATED = /\.(ngfactory|ngstyle|ngsummary)$/; const GENERATED_FILES = /\.ngfactory\.ts$|\.ngstyle\.ts$|\.ngsummary\.ts$/; const GENERATED_OR_DTS_FILES = /\.d\.ts$|\.ngfactory\.ts$|\.ngstyle\.ts$|\.ngsummary\.ts$/; const SHALLOW_IMPORT = /^((\w|-)+|(@(\w|-)+(\/(\w|-)+)+))$/; export interface CompilerHostContext extends ts.ModuleResolutionHost { readResource(fileName: string): Promise; assumeFileExists(fileName: string): void; } export class CompilerHost implements AotCompilerHost { protected metadataCollector = new MetadataCollector(); private isGenDirChildOfRootDir: boolean; protected basePath: string; private genDir: string; private resolverCache = new Map(); private flatModuleIndexCache = new Map(); private flatModuleIndexNames = new Set(); private flatModuleIndexRedirectNames = new Set(); private moduleFileNames = new Map(); protected resolveModuleNameHost: CompilerHostContext; constructor( protected program: ts.Program, protected options: AngularCompilerOptions, protected context: CompilerHostContext, collectorOptions?: CollectorOptions) { // normalize the path so that it never ends with '/'. this.basePath = path.normalize(path.join(this.options.basePath, '.')).replace(/\\/g, '/'); this.genDir = path.normalize(path.join(this.options.genDir, '.')).replace(/\\/g, '/'); const genPath: string = path.relative(this.basePath, this.genDir); this.isGenDirChildOfRootDir = genPath === '' || !genPath.startsWith('..'); this.resolveModuleNameHost = Object.create(this.context); // When calling ts.resolveModuleName, // additional allow checks for .d.ts files to be done based on // checks for .ngsummary.json files, // so that our codegen depends on fewer inputs and requires to be called // less often. // This is needed as we use ts.resolveModuleName in reflector_host // and it should be able to resolve summary file names. this.resolveModuleNameHost.fileExists = (fileName: string): boolean => { if (this.context.fileExists(fileName)) { return true; } if (DTS.test(fileName)) { const base = fileName.substring(0, fileName.length - 5); return this.context.fileExists(base + '.ngsummary.json'); } return false; }; } // We use absolute paths on disk as canonical. getCanonicalFileName(fileName: string): string { return fileName; } moduleNameToFileName(m: string, containingFile: string): string|null { const key = m + ':' + (containingFile || ''); let result: string|null = this.moduleFileNames.get(key) || null; if (!result) { if (!containingFile || !containingFile.length) { if (m.indexOf('.') === 0) { throw new Error('Resolution of relative paths requires a containing file.'); } // Any containing file gives the same result for absolute imports containingFile = this.getCanonicalFileName(path.join(this.basePath, 'index.ts')); } m = m.replace(EXT, ''); const resolved = ts.resolveModuleName( m, containingFile.replace(/\\/g, '/'), this.options, this.resolveModuleNameHost) .resolvedModule; result = resolved ? this.getCanonicalFileName(resolved.resolvedFileName) : null; this.moduleFileNames.set(key, result); } return result; }; /** * We want a moduleId that will appear in import statements in the generated code. * These need to be in a form that system.js can load, so absolute file paths don't work. * * The `containingFile` is always in the `genDir`, where as the `importedFile` can be in * `genDir`, `node_module` or `basePath`. The `importedFile` is either a generated file or * existing file. * * | genDir | node_module | rootDir * --------------+----------+-------------+---------- * generated | relative | relative | n/a * existing file | n/a | absolute | relative(*) * * NOTE: (*) the relative path is computed depending on `isGenDirChildOfRootDir`. */ fileNameToModuleName(importedFile: string, containingFile: string): string { // If a file does not yet exist (because we compile it later), we still need to // assume it exists it so that the `resolve` method works! if (!this.context.fileExists(importedFile)) { this.context.assumeFileExists(importedFile); } containingFile = this.rewriteGenDirPath(containingFile); const containingDir = path.dirname(containingFile); // drop extension importedFile = importedFile.replace(EXT, ''); const nodeModulesIndex = importedFile.indexOf(NODE_MODULES); const importModule = nodeModulesIndex === -1 ? null : importedFile.substring(nodeModulesIndex + NODE_MODULES.length); const isGeneratedFile = IS_GENERATED.test(importedFile); if (isGeneratedFile) { // rewrite to genDir path if (importModule) { // it is generated, therefore we do a relative path to the factory return this.dotRelative(containingDir, this.genDir + NODE_MODULES + importModule); } else { // assume that import is also in `genDir` importedFile = this.rewriteGenDirPath(importedFile); return this.dotRelative(containingDir, importedFile); } } else { // user code import if (importModule) { return importModule; } else { if (!this.isGenDirChildOfRootDir) { // assume that they are on top of each other. importedFile = importedFile.replace(this.basePath, this.genDir); } if (SHALLOW_IMPORT.test(importedFile)) { return importedFile; } return this.dotRelative(containingDir, importedFile); } } } private dotRelative(from: string, to: string): string { const rPath: string = path.relative(from, to).replace(/\\/g, '/'); return rPath.startsWith('.') ? rPath : './' + rPath; } /** * Moves the path into `genDir` folder while preserving the `node_modules` directory. */ private rewriteGenDirPath(filepath: string) { const nodeModulesIndex = filepath.indexOf(NODE_MODULES); if (nodeModulesIndex !== -1) { // If we are in node_modulse, transplant them into `genDir`. return path.join(this.genDir, filepath.substring(nodeModulesIndex)); } else { // pretend that containing file is on top of the `genDir` to normalize the paths. // we apply the `genDir` => `rootDir` delta through `rootDirPrefix` later. return filepath.replace(this.basePath, this.genDir); } } protected getSourceFile(filePath: string): ts.SourceFile { const sf = this.program.getSourceFile(filePath); if (!sf) { if (this.context.fileExists(filePath)) { const sourceText = this.context.readFile(filePath); return ts.createSourceFile(filePath, sourceText, ts.ScriptTarget.Latest, true); } throw new Error(`Source file ${filePath} not present in program.`); } return sf; } getMetadataFor(filePath: string): ModuleMetadata[]|undefined { if (!this.context.fileExists(filePath)) { // If the file doesn't exists then we cannot return metadata for the file. // This will occur if the user refernced a declared module for which no file // exists for the module (i.e. jQuery or angularjs). return; } if (DTS.test(filePath)) { const metadataPath = filePath.replace(DTS, '.metadata.json'); if (this.context.fileExists(metadataPath)) { return this.readMetadata(metadataPath, filePath); } else { // If there is a .d.ts file but no metadata file we need to produce a // v3 metadata from the .d.ts file as v3 includes the exports we need // to resolve symbols. return [this.upgradeVersion1Metadata( {'__symbolic': 'module', 'version': 1, 'metadata': {}}, filePath)]; } } else { const sf = this.getSourceFile(filePath); const metadata = this.metadataCollector.getMetadata(sf); return metadata ? [metadata] : []; } } readMetadata(filePath: string, dtsFilePath: string): ModuleMetadata[] { let metadatas = this.resolverCache.get(filePath); if (metadatas) { return metadatas; } try { const metadataOrMetadatas = JSON.parse(this.context.readFile(filePath)); const metadatas: ModuleMetadata[] = metadataOrMetadatas ? (Array.isArray(metadataOrMetadatas) ? metadataOrMetadatas : [metadataOrMetadatas]) : []; const v1Metadata = metadatas.find(m => m.version === 1); let v3Metadata = metadatas.find(m => m.version === 3); if (!v3Metadata && v1Metadata) { metadatas.push(this.upgradeVersion1Metadata(v1Metadata, dtsFilePath)); } this.resolverCache.set(filePath, metadatas); return metadatas; } catch (e) { console.error(`Failed to read JSON file ${filePath}`); throw e; } } private upgradeVersion1Metadata(v1Metadata: ModuleMetadata, dtsFilePath: string): ModuleMetadata { // patch up v1 to v3 by merging the metadata with metadata collected from the d.ts file // as the only difference between the versions is whether all exports are contained in // the metadata and the `extends` clause. let v3Metadata: ModuleMetadata = {'__symbolic': 'module', 'version': 3, 'metadata': {}}; if (v1Metadata.exports) { v3Metadata.exports = v1Metadata.exports; } for (let prop in v1Metadata.metadata) { v3Metadata.metadata[prop] = v1Metadata.metadata[prop]; } const exports = this.metadataCollector.getMetadata(this.getSourceFile(dtsFilePath)); if (exports) { for (let prop in exports.metadata) { if (!v3Metadata.metadata[prop]) { v3Metadata.metadata[prop] = exports.metadata[prop]; } } if (exports.exports) { v3Metadata.exports = exports.exports; } } return v3Metadata; } loadResource(filePath: string): Promise { return this.context.readResource(filePath); } loadSummary(filePath: string): string|null { if (this.context.fileExists(filePath)) { return this.context.readFile(filePath); } return null; } getOutputFileName(sourceFilePath: string): string { return sourceFilePath.replace(EXT, '') + '.d.ts'; } isSourceFile(filePath: string): boolean { const excludeRegex = this.options.generateCodeForLibraries === false ? GENERATED_OR_DTS_FILES : GENERATED_FILES; if (excludeRegex.test(filePath)) { return false; } if (DTS.test(filePath)) { // Check for a bundle index. if (this.hasBundleIndex(filePath)) { const normalFilePath = path.normalize(filePath); return this.flatModuleIndexNames.has(normalFilePath) || this.flatModuleIndexRedirectNames.has(normalFilePath); } } return true; } calculateEmitPath(filePath: string): string { // Write codegen in a directory structure matching the sources. let root = this.options.basePath !; for (const eachRootDir of this.options.rootDirs || []) { if (this.options.trace) { console.error(`Check if ${filePath} is under rootDirs element ${eachRootDir}`); } if (path.relative(eachRootDir, filePath).indexOf('.') !== 0) { root = eachRootDir; } } // transplant the codegen path to be inside the `genDir` let relativePath: string = path.relative(root, filePath); while (relativePath.startsWith('..' + path.sep)) { // Strip out any `..` path such as: `../node_modules/@foo` as we want to put everything // into `genDir`. relativePath = relativePath.substr(3); } return path.join(this.options.genDir, relativePath); } private hasBundleIndex(filePath: string): boolean { const checkBundleIndex = (directory: string): boolean => { let result = this.flatModuleIndexCache.get(directory); if (result == null) { if (path.basename(directory) == 'node_module') { // Don't look outside the node_modules this package is installed in. result = false; } else { // A bundle index exists if the typings .d.ts file has a metadata.json that has an // importAs. try { const packageFile = path.join(directory, 'package.json'); if (this.context.fileExists(packageFile)) { // Once we see a package.json file, assume false until it we find the bundle index. result = false; const packageContent: any = JSON.parse(this.context.readFile(packageFile)); if (packageContent.typings) { const typings = path.normalize(path.join(directory, packageContent.typings)); if (DTS.test(typings)) { const metadataFile = typings.replace(DTS, '.metadata.json'); if (this.context.fileExists(metadataFile)) { const metadata = JSON.parse(this.context.readFile(metadataFile)); if (metadata.flatModuleIndexRedirect) { this.flatModuleIndexRedirectNames.add(typings); // Note: don't set result = true, // as this would mark this folder // as having a bundleIndex too early without // filling the bundleIndexNames. } else if (metadata.importAs) { this.flatModuleIndexNames.add(typings); result = true; } } } } } else { const parent = path.dirname(directory); if (parent != directory) { // Try the parent directory. result = checkBundleIndex(parent); } else { result = false; } } } catch (e) { // If we encounter any errors assume we this isn't a bundle index. result = false; } } this.flatModuleIndexCache.set(directory, result); } return result; }; return checkBundleIndex(path.dirname(filePath)); } } export class CompilerHostContextAdapter { protected assumedExists: {[fileName: string]: boolean} = {}; assumeFileExists(fileName: string): void { this.assumedExists[fileName] = true; } } export class ModuleResolutionHostAdapter extends CompilerHostContextAdapter implements CompilerHostContext { public directoryExists: ((directoryName: string) => boolean)|undefined; constructor(private host: ts.ModuleResolutionHost) { super(); if (host.directoryExists) { this.directoryExists = (directoryName: string) => host.directoryExists !(directoryName); } } fileExists(fileName: string): boolean { return this.assumedExists[fileName] || this.host.fileExists(fileName); } readFile(fileName: string): string { return this.host.readFile(fileName); } readResource(s: string) { if (!this.host.fileExists(s)) { // TODO: We should really have a test for error cases like this! throw new Error(`Compilation failed. Resource file not found: ${s}`); } return Promise.resolve(this.host.readFile(s)); } } export class NodeCompilerHostContext extends CompilerHostContextAdapter implements CompilerHostContext { fileExists(fileName: string): boolean { return this.assumedExists[fileName] || fs.existsSync(fileName); } directoryExists(directoryName: string): boolean { try { return fs.statSync(directoryName).isDirectory(); } catch (e) { return false; } } readFile(fileName: string): string { return fs.readFileSync(fileName, 'utf8'); } readResource(s: string) { if (!this.fileExists(s)) { // TODO: We should really have a test for error cases like this! throw new Error(`Compilation failed. Resource file not found: ${s}`); } return Promise.resolve(this.readFile(s)); } }