mirror of
https://github.com/denoland/deno.git
synced 2024-11-01 09:24:20 -04:00
667 lines
20 KiB
TypeScript
667 lines
20 KiB
TypeScript
// Copyright 2018-2019 the Deno authors. All rights reserved. MIT license.
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// TODO(ry) Combine this implementation with //deno_typescript/compiler_main.js
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import "./globals.ts";
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import "./ts_global.d.ts";
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import { bold, cyan, yellow } from "./colors.ts";
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import { Console } from "./console.ts";
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import { core } from "./core.ts";
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import { Diagnostic, fromTypeScriptDiagnostic } from "./diagnostics.ts";
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import { cwd } from "./dir.ts";
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import * as dispatch from "./dispatch.ts";
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import { sendAsync, sendSync } from "./dispatch_json.ts";
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import * as os from "./os.ts";
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import { TextEncoder } from "./text_encoding.ts";
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import { getMappedModuleName, parseTypeDirectives } from "./type_directives.ts";
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import { assert, notImplemented } from "./util.ts";
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import * as util from "./util.ts";
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import { window } from "./window.ts";
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import { postMessage, workerClose, workerMain } from "./workers.ts";
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import { writeFileSync } from "./write_file.ts";
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// Warning! The values in this enum are duplicated in cli/msg.rs
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// Update carefully!
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enum MediaType {
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JavaScript = 0,
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JSX = 1,
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TypeScript = 2,
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TSX = 3,
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Json = 4,
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Unknown = 5
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}
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// Startup boilerplate. This is necessary because the compiler has its own
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// snapshot. (It would be great if we could remove these things or centralize
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// them somewhere else.)
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const console = new Console(core.print);
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window.console = console;
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window.workerMain = workerMain;
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function denoMain(): void {
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os.start(true, "TS");
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}
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window["denoMain"] = denoMain;
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const ASSETS = "$asset$";
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const OUT_DIR = "$deno$";
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/** The format of the work message payload coming from the privileged side */
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interface CompilerReq {
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rootNames: string[];
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bundle?: string;
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// TODO(ry) add compiler config to this interface.
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// options: ts.CompilerOptions;
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configPath?: string;
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config?: string;
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}
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interface ConfigureResponse {
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ignoredOptions?: string[];
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diagnostics?: ts.Diagnostic[];
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}
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/** Options that either do nothing in Deno, or would cause undesired behavior
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* if modified. */
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const ignoredCompilerOptions: readonly string[] = [
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"allowSyntheticDefaultImports",
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"baseUrl",
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"build",
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"composite",
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"declaration",
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"declarationDir",
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"declarationMap",
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"diagnostics",
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"downlevelIteration",
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"emitBOM",
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"emitDeclarationOnly",
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"esModuleInterop",
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"extendedDiagnostics",
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"forceConsistentCasingInFileNames",
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"help",
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"importHelpers",
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"incremental",
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"inlineSourceMap",
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"inlineSources",
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"init",
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"isolatedModules",
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"lib",
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"listEmittedFiles",
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"listFiles",
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"mapRoot",
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"maxNodeModuleJsDepth",
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"module",
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"moduleResolution",
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"newLine",
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"noEmit",
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"noEmitHelpers",
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"noEmitOnError",
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"noLib",
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"noResolve",
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"out",
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"outDir",
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"outFile",
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"paths",
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"preserveSymlinks",
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"preserveWatchOutput",
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"pretty",
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"rootDir",
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"rootDirs",
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"showConfig",
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"skipDefaultLibCheck",
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"skipLibCheck",
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"sourceMap",
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"sourceRoot",
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"stripInternal",
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"target",
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"traceResolution",
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"tsBuildInfoFile",
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"types",
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"typeRoots",
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"version",
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"watch"
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];
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/** The shape of the SourceFile that comes from the privileged side */
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interface SourceFileJson {
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url: string;
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filename: string;
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mediaType: MediaType;
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sourceCode: string;
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}
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/** A self registering abstraction of source files. */
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class SourceFile {
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extension!: ts.Extension;
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filename!: string;
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/** An array of tuples which represent the imports for the source file. The
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* first element is the one that will be requested at compile time, the
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* second is the one that should be actually resolved. This provides the
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* feature of type directives for Deno. */
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importedFiles?: Array<[string, string]>;
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mediaType!: MediaType;
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processed = false;
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sourceCode!: string;
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tsSourceFile?: ts.SourceFile;
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url!: string;
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constructor(json: SourceFileJson) {
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if (SourceFile._moduleCache.has(json.url)) {
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throw new TypeError("SourceFile already exists");
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}
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Object.assign(this, json);
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this.extension = getExtension(this.url, this.mediaType);
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SourceFile._moduleCache.set(this.url, this);
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}
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/** Cache the source file to be able to be retrieved by `moduleSpecifier` and
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* `containingFile`. */
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cache(moduleSpecifier: string, containingFile: string): void {
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let innerCache = SourceFile._specifierCache.get(containingFile);
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if (!innerCache) {
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innerCache = new Map();
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SourceFile._specifierCache.set(containingFile, innerCache);
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}
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innerCache.set(moduleSpecifier, this);
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}
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/** Process the imports for the file and return them. */
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imports(): Array<[string, string]> {
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if (this.processed) {
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throw new Error("SourceFile has already been processed.");
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}
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assert(this.sourceCode != null);
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const preProcessedFileInfo = ts.preProcessFile(
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this.sourceCode!,
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true,
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true
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);
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this.processed = true;
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const files = (this.importedFiles = [] as Array<[string, string]>);
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function process(references: ts.FileReference[]): void {
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for (const { fileName } of references) {
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files.push([fileName, fileName]);
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}
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}
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const {
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importedFiles,
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referencedFiles,
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libReferenceDirectives,
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typeReferenceDirectives
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} = preProcessedFileInfo;
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const typeDirectives = parseTypeDirectives(this.sourceCode);
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if (typeDirectives) {
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for (const importedFile of importedFiles) {
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files.push([
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importedFile.fileName,
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getMappedModuleName(importedFile, typeDirectives)
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]);
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}
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} else {
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process(importedFiles);
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}
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process(referencedFiles);
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process(libReferenceDirectives);
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process(typeReferenceDirectives);
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return files;
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}
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/** A cache of all the source files which have been loaded indexed by the
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* url. */
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private static _moduleCache: Map<string, SourceFile> = new Map();
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/** A cache of source files based on module specifiers and containing files
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* which is used by the TypeScript compiler to resolve the url */
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private static _specifierCache: Map<
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string,
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Map<string, SourceFile>
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> = new Map();
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/** Retrieve a `SourceFile` based on a `moduleSpecifier` and `containingFile`
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* or return `undefined` if not preset. */
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static getUrl(
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moduleSpecifier: string,
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containingFile: string
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): string | undefined {
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const containingCache = this._specifierCache.get(containingFile);
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if (containingCache) {
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const sourceFile = containingCache.get(moduleSpecifier);
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return sourceFile && sourceFile.url;
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}
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return undefined;
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}
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/** Retrieve a `SourceFile` based on a `url` */
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static get(url: string): SourceFile | undefined {
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return this._moduleCache.get(url);
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}
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}
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interface EmitResult {
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emitSkipped: boolean;
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diagnostics?: Diagnostic;
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}
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/** Ops to Rust to resolve special static assets. */
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function fetchAsset(name: string): string {
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return sendSync(dispatch.OP_FETCH_ASSET, { name });
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}
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/** Ops to Rust to resolve and fetch modules meta data. */
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function fetchSourceFiles(
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specifiers: string[],
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referrer: string
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): Promise<SourceFileJson[]> {
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util.log("compiler::fetchSourceFiles", { specifiers, referrer });
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return sendAsync(dispatch.OP_FETCH_SOURCE_FILES, {
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specifiers,
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referrer
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});
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}
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/** Recursively process the imports of modules, generating `SourceFile`s of any
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* imported files.
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*
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* Specifiers are supplied in an array of tupples where the first is the
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* specifier that will be requested in the code and the second is the specifier
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* that should be actually resolved. */
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async function processImports(
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specifiers: Array<[string, string]>,
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referrer = ""
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): Promise<void> {
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if (!specifiers.length) {
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return;
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}
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const sources = specifiers.map(([, moduleSpecifier]) => moduleSpecifier);
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const sourceFiles = await fetchSourceFiles(sources, referrer);
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assert(sourceFiles.length === specifiers.length);
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for (let i = 0; i < sourceFiles.length; i++) {
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const sourceFileJson = sourceFiles[i];
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const sourceFile =
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SourceFile.get(sourceFileJson.url) || new SourceFile(sourceFileJson);
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sourceFile.cache(specifiers[i][0], referrer);
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if (!sourceFile.processed) {
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await processImports(sourceFile.imports(), sourceFile.url);
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}
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}
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}
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/** Utility function to turn the number of bytes into a human readable
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* unit */
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function humanFileSize(bytes: number): string {
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const thresh = 1000;
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if (Math.abs(bytes) < thresh) {
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return bytes + " B";
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}
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const units = ["kB", "MB", "GB", "TB", "PB", "EB", "ZB", "YB"];
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let u = -1;
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do {
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bytes /= thresh;
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++u;
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} while (Math.abs(bytes) >= thresh && u < units.length - 1);
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return `${bytes.toFixed(1)} ${units[u]}`;
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}
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/** Ops to rest for caching source map and compiled js */
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function cache(extension: string, moduleId: string, contents: string): void {
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util.log("compiler::cache", { extension, moduleId });
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sendSync(dispatch.OP_CACHE, { extension, moduleId, contents });
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}
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const encoder = new TextEncoder();
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/** Given a fileName and the data, emit the file to the file system. */
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function emitBundle(fileName: string, data: string): void {
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// For internal purposes, when trying to emit to `$deno$` just no-op
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if (fileName.startsWith("$deno$")) {
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console.warn("skipping emitBundle", fileName);
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return;
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}
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const encodedData = encoder.encode(data);
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console.log(`Emitting bundle to "${fileName}"`);
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writeFileSync(fileName, encodedData);
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console.log(`${humanFileSize(encodedData.length)} emitted.`);
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}
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/** Returns the TypeScript Extension enum for a given media type. */
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function getExtension(fileName: string, mediaType: MediaType): ts.Extension {
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switch (mediaType) {
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case MediaType.JavaScript:
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return ts.Extension.Js;
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case MediaType.JSX:
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return ts.Extension.Jsx;
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case MediaType.TypeScript:
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return fileName.endsWith(".d.ts") ? ts.Extension.Dts : ts.Extension.Ts;
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case MediaType.TSX:
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return ts.Extension.Tsx;
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case MediaType.Json:
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return ts.Extension.Json;
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case MediaType.Unknown:
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default:
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throw TypeError("Cannot resolve extension.");
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}
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}
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class Host implements ts.CompilerHost {
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private readonly _options: ts.CompilerOptions = {
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allowJs: true,
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allowNonTsExtensions: true,
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checkJs: false,
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esModuleInterop: true,
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module: ts.ModuleKind.ESNext,
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outDir: OUT_DIR,
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resolveJsonModule: true,
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sourceMap: true,
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stripComments: true,
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target: ts.ScriptTarget.ESNext,
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jsx: ts.JsxEmit.React
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};
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private _getAsset(filename: string): SourceFile {
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const sourceFile = SourceFile.get(filename);
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if (sourceFile) {
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return sourceFile;
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}
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const url = filename.split("/").pop()!;
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const assetName = url.includes(".") ? url : `${url}.d.ts`;
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const sourceCode = fetchAsset(assetName);
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return new SourceFile({
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url,
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filename,
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mediaType: MediaType.TypeScript,
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sourceCode
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});
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}
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/* Deno specific APIs */
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/** Provides the `ts.HostCompiler` interface for Deno.
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*
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* @param _bundle Set to a string value to configure the host to write out a
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* bundle instead of caching individual files.
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*/
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constructor(private _bundle?: string) {
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if (this._bundle) {
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// options we need to change when we are generating a bundle
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const bundlerOptions: ts.CompilerOptions = {
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module: ts.ModuleKind.AMD,
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inlineSourceMap: true,
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outDir: undefined,
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outFile: `${OUT_DIR}/bundle.js`,
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sourceMap: false
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};
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Object.assign(this._options, bundlerOptions);
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}
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}
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/** Take a configuration string, parse it, and use it to merge with the
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* compiler's configuration options. The method returns an array of compiler
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* options which were ignored, or `undefined`. */
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configure(path: string, configurationText: string): ConfigureResponse {
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util.log("compiler::host.configure", path);
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const { config, error } = ts.parseConfigFileTextToJson(
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path,
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configurationText
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);
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if (error) {
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return { diagnostics: [error] };
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}
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const { options, errors } = ts.convertCompilerOptionsFromJson(
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config.compilerOptions,
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cwd()
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);
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const ignoredOptions: string[] = [];
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for (const key of Object.keys(options)) {
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if (
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ignoredCompilerOptions.includes(key) &&
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(!(key in this._options) || options[key] !== this._options[key])
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) {
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ignoredOptions.push(key);
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delete options[key];
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}
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}
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Object.assign(this._options, options);
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return {
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ignoredOptions: ignoredOptions.length ? ignoredOptions : undefined,
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diagnostics: errors.length ? errors : undefined
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};
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}
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/* TypeScript CompilerHost APIs */
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fileExists(_fileName: string): boolean {
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return notImplemented();
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}
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getCanonicalFileName(fileName: string): string {
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return fileName;
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}
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getCompilationSettings(): ts.CompilerOptions {
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util.log("compiler::host.getCompilationSettings()");
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return this._options;
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}
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getCurrentDirectory(): string {
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return "";
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}
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getDefaultLibFileName(_options: ts.CompilerOptions): string {
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return ASSETS + "/lib.deno_runtime.d.ts";
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}
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getNewLine(): string {
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return "\n";
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}
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getSourceFile(
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fileName: string,
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languageVersion: ts.ScriptTarget,
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onError?: (message: string) => void,
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shouldCreateNewSourceFile?: boolean
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): ts.SourceFile | undefined {
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util.log("compiler::host.getSourceFile", fileName);
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try {
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assert(!shouldCreateNewSourceFile);
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const sourceFile = fileName.startsWith(ASSETS)
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? this._getAsset(fileName)
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: SourceFile.get(fileName);
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assert(sourceFile != null);
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if (!sourceFile!.tsSourceFile) {
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sourceFile!.tsSourceFile = ts.createSourceFile(
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fileName,
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sourceFile!.sourceCode,
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languageVersion
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);
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}
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return sourceFile!.tsSourceFile;
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} catch (e) {
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if (onError) {
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onError(String(e));
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} else {
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throw e;
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}
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return undefined;
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}
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}
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readFile(_fileName: string): string | undefined {
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return notImplemented();
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}
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resolveModuleNames(
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moduleNames: string[],
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containingFile: string
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): Array<ts.ResolvedModuleFull | undefined> {
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util.log("compiler::host.resolveModuleNames", {
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moduleNames,
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containingFile
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});
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return moduleNames.map(specifier => {
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const url = SourceFile.getUrl(specifier, containingFile);
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const sourceFile = specifier.startsWith(ASSETS)
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? this._getAsset(specifier)
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: url
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? SourceFile.get(url)
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: undefined;
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if (!sourceFile) {
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return undefined;
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}
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return {
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resolvedFileName: sourceFile.url,
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isExternalLibraryImport: specifier.startsWith(ASSETS),
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extension: sourceFile.extension
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};
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});
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}
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useCaseSensitiveFileNames(): boolean {
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return true;
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}
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writeFile(
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fileName: string,
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data: string,
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_writeByteOrderMark: boolean,
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onError?: (message: string) => void,
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sourceFiles?: readonly ts.SourceFile[]
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): void {
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util.log("compiler::host.writeFile", fileName);
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try {
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if (this._bundle) {
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emitBundle(this._bundle, data);
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} else {
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assert(sourceFiles != null && sourceFiles.length == 1);
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const url = sourceFiles![0].fileName;
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const sourceFile = SourceFile.get(url);
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if (sourceFile) {
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// NOTE: If it's a `.json` file we don't want to write it to disk.
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// JSON files are loaded and used by TS compiler to check types, but we don't want
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// to emit them to disk because output file is the same as input file.
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if (sourceFile.extension === ts.Extension.Json) {
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return;
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}
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// NOTE: JavaScript files are only emitted to disk if `checkJs` option in on
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if (
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sourceFile.extension === ts.Extension.Js &&
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!this._options.checkJs
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) {
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return;
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}
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}
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|
|
if (fileName.endsWith(".map")) {
|
|
// Source Map
|
|
cache(".map", url, data);
|
|
} else if (fileName.endsWith(".js") || fileName.endsWith(".json")) {
|
|
// Compiled JavaScript
|
|
cache(".js", url, data);
|
|
} else {
|
|
assert(false, "Trying to cache unhandled file type " + fileName);
|
|
}
|
|
}
|
|
} catch (e) {
|
|
if (onError) {
|
|
onError(String(e));
|
|
} else {
|
|
throw e;
|
|
}
|
|
}
|
|
}
|
|
}
|
|
|
|
// provide the "main" function that will be called by the privileged side when
|
|
// lazy instantiating the compiler web worker
|
|
window.compilerMain = function compilerMain(): void {
|
|
// workerMain should have already been called since a compiler is a worker.
|
|
window.onmessage = async ({ data }: { data: CompilerReq }): Promise<void> => {
|
|
const { rootNames, configPath, config, bundle } = data;
|
|
util.log(">>> compile start", { rootNames, bundle });
|
|
|
|
// This will recursively analyse all the code for other imports, requesting
|
|
// those from the privileged side, populating the in memory cache which
|
|
// will be used by the host, before resolving.
|
|
await processImports(rootNames.map(rootName => [rootName, rootName]));
|
|
|
|
const host = new Host(bundle);
|
|
let emitSkipped = true;
|
|
let diagnostics: ts.Diagnostic[] | undefined;
|
|
|
|
// if there is a configuration supplied, we need to parse that
|
|
if (config && config.length && configPath) {
|
|
const configResult = host.configure(configPath, config);
|
|
const ignoredOptions = configResult.ignoredOptions;
|
|
diagnostics = configResult.diagnostics;
|
|
if (ignoredOptions) {
|
|
console.warn(
|
|
yellow(`Unsupported compiler options in "${configPath}"\n`) +
|
|
cyan(` The following options were ignored:\n`) +
|
|
` ${ignoredOptions
|
|
.map((value): string => bold(value))
|
|
.join(", ")}`
|
|
);
|
|
}
|
|
}
|
|
|
|
// if there was a configuration and no diagnostics with it, we will continue
|
|
// to generate the program and possibly emit it.
|
|
if (!diagnostics || (diagnostics && diagnostics.length === 0)) {
|
|
const options = host.getCompilationSettings();
|
|
const program = ts.createProgram(rootNames, options, host);
|
|
|
|
diagnostics = ts.getPreEmitDiagnostics(program).filter(
|
|
({ code }): boolean => {
|
|
// TS1308: 'await' expression is only allowed within an async
|
|
// function.
|
|
if (code === 1308) return false;
|
|
// TS2691: An import path cannot end with a '.ts' extension. Consider
|
|
// importing 'bad-module' instead.
|
|
if (code === 2691) return false;
|
|
// TS5009: Cannot find the common subdirectory path for the input files.
|
|
if (code === 5009) return false;
|
|
// TS5055: Cannot write file
|
|
// 'http://localhost:4545/tests/subdir/mt_application_x_javascript.j4.js'
|
|
// because it would overwrite input file.
|
|
if (code === 5055) return false;
|
|
// TypeScript is overly opinionated that only CommonJS modules kinds can
|
|
// support JSON imports. Allegedly this was fixed in
|
|
// Microsoft/TypeScript#26825 but that doesn't seem to be working here,
|
|
// so we will ignore complaints about this compiler setting.
|
|
if (code === 5070) return false;
|
|
return true;
|
|
}
|
|
);
|
|
|
|
// We will only proceed with the emit if there are no diagnostics.
|
|
if (diagnostics && diagnostics.length === 0) {
|
|
if (bundle) {
|
|
console.log(`Bundling "${bundle}"`);
|
|
}
|
|
const emitResult = program.emit();
|
|
emitSkipped = emitResult.emitSkipped;
|
|
// emitResult.diagnostics is `readonly` in TS3.5+ and can't be assigned
|
|
// without casting.
|
|
diagnostics = emitResult.diagnostics as ts.Diagnostic[];
|
|
}
|
|
}
|
|
|
|
const result: EmitResult = {
|
|
emitSkipped,
|
|
diagnostics: diagnostics.length
|
|
? fromTypeScriptDiagnostic(diagnostics)
|
|
: undefined
|
|
};
|
|
|
|
postMessage(result);
|
|
|
|
util.log("<<< compile end", { rootNames, bundle });
|
|
|
|
// The compiler isolate exits after a single message.
|
|
workerClose();
|
|
};
|
|
};
|