// Copyright 2018 the Deno authors. All rights reserved. MIT license. // Glossary // outputCode = generated javascript code // sourceCode = typescript code (or input javascript code) // moduleName = a resolved module name // fileName = an unresolved raw fileName. // for http modules , its the path to the locally downloaded // version. import * as ts from "typescript"; import * as util from "./util"; import { log } from "./util"; import { assetSourceCode } from "./assets"; import * as os from "./os"; import * as sourceMaps from "./v8_source_maps"; import { window, globalEval } from "./globals"; //import * as deno from "./deno"; const EOL = "\n"; // tslint:disable-next-line:no-any export type AmdFactory = (...args: any[]) => undefined | object; export type AmdDefine = (deps: string[], factory: AmdFactory) => void; // Uncaught exceptions are sent to window.onerror by the privlaged binding. window.onerror = ( message: string, source: string, lineno: number, colno: number, error: Error ) => { // TODO Currently there is a bug in v8_source_maps.ts that causes a segfault // if it is used within window.onerror. To workaround we uninstall the // Error.prepareStackTrace handler. Users will get unmapped stack traces on // uncaught exceptions until this issue is fixed. //Error.prepareStackTrace = null; console.log(error.stack); os.exit(1); }; // This is called during snapshot creation with the contents of // out/debug/gen/bundle/main.js.map. import { RawSourceMap } from "source-map"; let mainSourceMap: RawSourceMap = null; function setMainSourceMap(rawSourceMap: RawSourceMap) { util.assert(Number(rawSourceMap.version) === 3); mainSourceMap = rawSourceMap; } window["setMainSourceMap"] = setMainSourceMap; export function setup(): void { sourceMaps.install({ installPrepareStackTrace: true, getGeneratedContents: (filename: string): string | RawSourceMap => { util.log("getGeneratedContents", filename); if (filename === "gen/bundle/main.js") { util.assert(window["mainSource"].length > 0); return window["mainSource"]; } else if (filename === "main.js.map") { return mainSourceMap; } else if (filename === "deno_main.js") { return ""; } else { const mod = FileModule.load(filename); if (!mod) { util.log("getGeneratedContents cannot find", filename); return null; } return mod.outputCode; } } }); } // This class represents a module. We call it FileModule to make it explicit // that each module represents a single file. // Access to FileModule instances should only be done thru the static method // FileModule.load(). FileModules are NOT executed upon first load, only when // compileAndRun is called. export class FileModule { scriptVersion: string; readonly exports = {}; private static readonly map = new Map(); constructor( readonly fileName: string, readonly sourceCode = "", public outputCode = "" ) { util.assert( !FileModule.map.has(fileName), `FileModule.map already has ${fileName}` ); FileModule.map.set(fileName, this); if (outputCode !== "") { this.scriptVersion = "1"; } } compileAndRun(): void { util.log("compileAndRun", this.sourceCode); if (!this.outputCode) { // If there is no cached outputCode, then compile the code. util.assert( this.sourceCode != null && this.sourceCode.length > 0, `Have no source code from ${this.fileName}` ); const compiler = Compiler.instance(); this.outputCode = compiler.compile(this.fileName); os.codeCache(this.fileName, this.sourceCode, this.outputCode); } execute(this.fileName, this.outputCode); } static load(fileName: string): FileModule { return this.map.get(fileName); } static getScriptsWithSourceCode(): string[] { const out = []; for (const fn of this.map.keys()) { const m = this.map.get(fn); if (m.sourceCode) { out.push(fn); } } return out; } } export function makeDefine(fileName: string): AmdDefine { const localDefine = (deps: string[], factory: AmdFactory): void => { const localRequire = (x: string) => { log("localRequire", x); }; const currentModule = FileModule.load(fileName); const localExports = currentModule.exports; log("localDefine", fileName, deps, localExports); const args = deps.map(dep => { if (dep === "require") { return localRequire; } else if (dep === "exports") { return localExports; } else if (dep === "typescript") { return ts; } else if (dep === "deno") { return deno; } else { const resolved = resolveModuleName(dep, fileName); const depModule = FileModule.load(resolved); depModule.compileAndRun(); return depModule.exports; } }); factory(...args); }; return localDefine; } export function resolveModule( moduleSpecifier: string, containingFile: string ): null | FileModule { util.log("resolveModule", { moduleSpecifier, containingFile }); util.assert(moduleSpecifier != null && moduleSpecifier.length > 0); let filename: string, sourceCode: string, outputCode: string; if ( moduleSpecifier.startsWith("/$asset$/") || containingFile.startsWith("/$asset$/") ) { // Assets are compiled into the runtime javascript bundle. const assetName = moduleSpecifier.split("/").pop(); sourceCode = assetSourceCode[assetName]; filename = "/$asset$/" + assetName; } else { // We query Rust with a CodeFetch message. It will load the sourceCode, and // if there is any outputCode cached, will return that as well. let fetchResponse; try { fetchResponse = os.codeFetch(moduleSpecifier, containingFile); } catch (e) { // TODO Only catch "no such file or directory" errors. Need error codes. util.log("os.codeFetch error ignored", e.message); return null; } filename = fetchResponse.filename; sourceCode = fetchResponse.sourceCode; outputCode = fetchResponse.outputCode; } if (sourceCode == null || sourceCode.length === 0) { return null; } util.log("resolveModule sourceCode length ", sourceCode.length); const m = FileModule.load(filename); if (m != null) { return m; } else { return new FileModule(filename, sourceCode, outputCode); } } function resolveModuleName( moduleSpecifier: string, containingFile: string ): string | undefined { const mod = resolveModule(moduleSpecifier, containingFile); if (mod) { return mod.fileName; } else { return undefined; } } function execute(fileName: string, outputCode: string): void { util.assert(outputCode && outputCode.length > 0); window["define"] = makeDefine(fileName); outputCode += `\n//# sourceURL=${fileName}`; globalEval(outputCode); window["define"] = null; } // This is a singleton class. Use Compiler.instance() to access. class Compiler { options: ts.CompilerOptions = { allowJs: true, module: ts.ModuleKind.AMD, outDir: "$deno$", inlineSourceMap: true, inlineSources: true, target: ts.ScriptTarget.ESNext }; /* allowJs: true, module: ts.ModuleKind.AMD, noEmit: false, outDir: '$deno$', */ private service: ts.LanguageService; private constructor() { const host = new TypeScriptHost(this.options); this.service = ts.createLanguageService(host); } private static _instance: Compiler; static instance(): Compiler { return this._instance || (this._instance = new this()); } compile(fileName: string): string { const output = this.service.getEmitOutput(fileName); // Get the relevant diagnostics - this is 3x faster than // `getPreEmitDiagnostics`. const diagnostics = this.service .getCompilerOptionsDiagnostics() .concat(this.service.getSyntacticDiagnostics(fileName)) .concat(this.service.getSemanticDiagnostics(fileName)); if (diagnostics.length > 0) { const errMsg = ts.formatDiagnosticsWithColorAndContext( diagnostics, formatDiagnosticsHost ); console.log(errMsg); os.exit(1); } util.assert(!output.emitSkipped); const outputCode = output.outputFiles[0].text; // let sourceMapCode = output.outputFiles[0].text; return outputCode; } } // Create the compiler host for type checking. class TypeScriptHost implements ts.LanguageServiceHost { constructor(readonly options: ts.CompilerOptions) {} getScriptFileNames(): string[] { const keys = FileModule.getScriptsWithSourceCode(); util.log("getScriptFileNames", keys); return keys; } getScriptVersion(fileName: string): string { util.log("getScriptVersion", fileName); const m = FileModule.load(fileName); return m.scriptVersion; } getScriptSnapshot(fileName: string): ts.IScriptSnapshot | undefined { util.log("getScriptSnapshot", fileName); const m = resolveModule(fileName, "."); if (m == null) { util.log("getScriptSnapshot", fileName, "NOT FOUND"); return undefined; } //const m = resolveModule(fileName, "."); util.assert(m.sourceCode.length > 0); return ts.ScriptSnapshot.fromString(m.sourceCode); } fileExists(fileName: string): boolean { const m = resolveModule(fileName, "."); const exists = m != null; util.log("fileExist", fileName, exists); return exists; } readFile(path: string, encoding?: string): string | undefined { util.log("readFile", path); throw Error("not implemented"); } getNewLine() { return EOL; } getCurrentDirectory() { util.log("getCurrentDirectory"); return "."; } getCompilationSettings() { util.log("getCompilationSettings"); return this.options; } getDefaultLibFileName(options: ts.CompilerOptions): string { const fn = "lib.deno.d.ts"; // ts.getDefaultLibFileName(options); util.log("getDefaultLibFileName", fn); const m = resolveModule(fn, "/$asset$/"); return m.fileName; } resolveModuleNames( moduleNames: string[], containingFile: string, reusedNames?: string[] ): Array { //util.log("resolveModuleNames", { moduleNames, reusedNames }); return moduleNames.map((name: string) => { let resolvedFileName; if (name === "deno") { resolvedFileName = resolveModuleName("deno.d.ts", "/$asset$/"); } else if (name === "typescript") { resolvedFileName = resolveModuleName("typescript.d.ts", "/$asset$/"); } else { resolvedFileName = resolveModuleName(name, containingFile); if (resolvedFileName == null) { return undefined; } } const isExternalLibraryImport = false; return { resolvedFileName, isExternalLibraryImport }; }); } } const formatDiagnosticsHost: ts.FormatDiagnosticsHost = { getCurrentDirectory(): string { return "."; }, getCanonicalFileName(fileName: string): string { return fileName; }, getNewLine(): string { return EOL; } };