mirror of
https://github.com/denoland/deno.git
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ee9c627cc5
Speeds up startup time, reduces runtime heap size.
549 lines
19 KiB
TypeScript
549 lines
19 KiB
TypeScript
// Copyright 2018-2019 the Deno authors. All rights reserved. MIT license.
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import * as ts from "typescript";
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import * as msg from "gen/msg_generated";
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import { assetSourceCode } from "./assets";
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import { Console } from "./console";
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import { globalEval } from "./global_eval";
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import { libdeno } from "./libdeno";
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import * as os from "./os";
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import { clearTimer, setTimeout } from "./timers";
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import { TextDecoder, TextEncoder } from "./text_encoding";
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import { postMessage, workerClose, workerMain } from "./workers";
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import { assert, log, notImplemented } from "./util";
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const EOL = "\n";
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const ASSETS = "$asset$";
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const LIB_RUNTIME = "lib.deno_runtime.d.ts";
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const window = globalEval("this");
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const console = new Console(libdeno.print);
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/** The location that a module is being loaded from. This could be a directory,
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* like `.`, or it could be a module specifier like
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* `http://gist.github.com/somefile.ts`
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*/
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type ContainingFile = string;
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/** The internal local filename of a compiled module. It will often be something
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* like `/home/ry/.deno/gen/f7b4605dfbc4d3bb356e98fda6ceb1481e4a8df5.js`
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*/
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type ModuleFileName = string;
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/** The original resolved resource name.
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* Path to cached module file or URL from which dependency was retrieved
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*/
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type ModuleId = string;
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/** The external name of a module - could be a URL or could be a relative path.
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* Examples `http://gist.github.com/somefile.ts` or `./somefile.ts`
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*/
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type ModuleSpecifier = string;
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/** The compiled source code which is cached in `.deno/gen/` */
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type OutputCode = string;
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/** The original source code */
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type SourceCode = string;
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/** The output source map */
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type SourceMap = string;
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/** The format of the work message payload coming from the privilaged side */
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interface CompilerLookup {
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specifier: ModuleSpecifier;
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referrer: ContainingFile;
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}
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/** Abstraction of the APIs required from the `os` module so they can be
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* easily mocked.
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*/
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interface Os {
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codeCache: typeof os.codeCache;
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codeFetch: typeof os.codeFetch;
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exit: typeof os.exit;
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}
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/** Abstraction of the APIs required from the `typescript` module so they can
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* be easily mocked.
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*/
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interface Ts {
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createLanguageService: typeof ts.createLanguageService;
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/* tslint:disable-next-line:max-line-length */
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formatDiagnosticsWithColorAndContext: typeof ts.formatDiagnosticsWithColorAndContext;
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}
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/** A simple object structure for caching resolved modules and their contents.
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*
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* Named `ModuleMetaData` to clarify it is just a representation of meta data of
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* the module, not the actual module instance.
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*/
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class ModuleMetaData implements ts.IScriptSnapshot {
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public scriptVersion = "";
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constructor(
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public readonly moduleId: ModuleId,
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public readonly fileName: ModuleFileName,
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public readonly mediaType: msg.MediaType,
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public readonly sourceCode: SourceCode = "",
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public outputCode: OutputCode = "",
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public sourceMap: SourceMap = ""
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) {
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if (outputCode !== "" || fileName.endsWith(".d.ts")) {
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this.scriptVersion = "1";
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}
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}
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public getText(start: number, end: number): string {
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return this.sourceCode.substring(start, end);
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}
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public getLength(): number {
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return this.sourceCode.length;
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}
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public getChangeRange(): undefined {
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// Required `IScriptSnapshot` API, but not implemented/needed in deno
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return undefined;
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}
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}
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function getExtension(
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fileName: ModuleFileName,
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mediaType: msg.MediaType
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): ts.Extension | undefined {
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switch (mediaType) {
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case msg.MediaType.JavaScript:
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return ts.Extension.Js;
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case msg.MediaType.TypeScript:
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return fileName.endsWith(".d.ts") ? ts.Extension.Dts : ts.Extension.Ts;
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case msg.MediaType.Json:
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return ts.Extension.Json;
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case msg.MediaType.Unknown:
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default:
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return undefined;
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}
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}
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/** Generate output code for a provided JSON string along with its source. */
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function jsonEsmTemplate(
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jsonString: string,
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sourceFileName: string
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): OutputCode {
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// tslint:disable-next-line:max-line-length
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return `const _json = JSON.parse(\`${jsonString}\`)\nexport default _json;\n//# sourceURL=${sourceFileName}`;
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}
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/** A singleton class that combines the TypeScript Language Service host API
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* with Deno specific APIs to provide an interface for compiling and running
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* TypeScript and JavaScript modules.
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*/
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class Compiler implements ts.LanguageServiceHost, ts.FormatDiagnosticsHost {
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// Modules are usually referenced by their ModuleSpecifier and ContainingFile,
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// and keeping a map of the resolved module file name allows more efficient
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// future resolution
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private readonly _fileNamesMap = new Map<
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ContainingFile,
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Map<ModuleSpecifier, ModuleFileName>
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>();
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// A reference to the log utility, so it can be monkey patched during testing
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private _log = log;
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// A map of module file names to module meta data
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private readonly _moduleMetaDataMap = new Map<
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ModuleFileName,
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ModuleMetaData
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>();
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// TODO ideally this are not static and can be influenced by command line
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// arguments
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private readonly _options: ts.CompilerOptions = {
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allowJs: true,
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checkJs: true,
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esModuleInterop: true,
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module: ts.ModuleKind.ESNext,
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outDir: "$deno$",
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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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};
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// A reference to the `./os.ts` module, so it can be monkey patched during
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// testing
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private _os: Os = os;
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// Used to contain the script file we are currently running
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private _scriptFileNames: string[] = [];
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// A reference to the TypeScript LanguageService instance so it can be
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// monkey patched during testing
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private _service: ts.LanguageService;
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// A reference to `typescript` module so it can be monkey patched during
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// testing
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private _ts: Ts = ts;
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// Flags forcing recompilation of TS code
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public recompile = false;
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/** The TypeScript language service often refers to the resolved fileName of
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* a module, this is a shortcut to avoid unnecessary module resolution logic
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* for modules that may have been initially resolved by a `moduleSpecifier`
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* and `containingFile`. Also, `resolveModule()` throws when the module
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* cannot be resolved, which isn't always valid when dealing with the
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* TypeScript compiler, but the TypeScript compiler shouldn't be asking about
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* external modules that we haven't told it about yet.
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*/
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private _getModuleMetaData(
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fileName: ModuleFileName
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): ModuleMetaData | undefined {
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return this._moduleMetaDataMap.has(fileName)
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? this._moduleMetaDataMap.get(fileName)
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: fileName.startsWith(ASSETS)
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? this.resolveModule(fileName, "")
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: undefined;
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}
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/** Given a `moduleSpecifier` and `containingFile` retrieve the cached
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* `fileName` for a given module. If the module has yet to be resolved
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* this will return `undefined`.
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*/
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private _resolveFileName(
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moduleSpecifier: ModuleSpecifier,
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containingFile: ContainingFile
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): ModuleFileName | undefined {
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this._log("compiler.resolveFileName", { moduleSpecifier, containingFile });
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const innerMap = this._fileNamesMap.get(containingFile);
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if (innerMap) {
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return innerMap.get(moduleSpecifier);
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}
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return undefined;
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}
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/** Caches the resolved `fileName` in relationship to the `moduleSpecifier`
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* and `containingFile` in order to reduce calls to the privileged side
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* to retrieve the contents of a module.
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*/
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private _setFileName(
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moduleSpecifier: ModuleSpecifier,
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containingFile: ContainingFile,
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fileName: ModuleFileName
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): void {
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this._log("compiler.setFileName", { moduleSpecifier, containingFile });
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let innerMap = this._fileNamesMap.get(containingFile);
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if (!innerMap) {
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innerMap = new Map();
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this._fileNamesMap.set(containingFile, innerMap);
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}
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innerMap.set(moduleSpecifier, fileName);
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}
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constructor() {
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this._service = this._ts.createLanguageService(this);
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}
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// Deno specific compiler API
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/** Retrieve the output of the TypeScript compiler for a given module and
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* cache the result. Re-compilation can be forced using '--recompile' flag.
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*/
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compile(
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moduleSpecifier: ModuleSpecifier,
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containingFile: ContainingFile
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): ModuleMetaData {
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const moduleMetaData = this.resolveModule(moduleSpecifier, containingFile);
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this._scriptFileNames = [moduleMetaData.fileName];
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const recompile = !!this.recompile;
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if (!recompile && moduleMetaData.outputCode) {
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return moduleMetaData;
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}
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const { fileName, sourceCode, mediaType, moduleId } = moduleMetaData;
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console.warn("Compiling", moduleId);
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// Instead of using TypeScript to transpile JSON modules, we will just do
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// it directly.
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if (mediaType === msg.MediaType.Json) {
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moduleMetaData.outputCode = jsonEsmTemplate(sourceCode, fileName);
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} else {
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const service = this._service;
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assert(
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mediaType === msg.MediaType.TypeScript ||
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mediaType === msg.MediaType.JavaScript
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);
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const output = service.getEmitOutput(fileName);
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// Get the relevant diagnostics - this is 3x faster than
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// `getPreEmitDiagnostics`.
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const diagnostics = [
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// TypeScript is overly opinionated that only CommonJS modules kinds can
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// support JSON imports. Allegedly this was fixed in
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// Microsoft/TypeScript#26825 but that doesn't seem to be working here,
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// so we will ignore complaints about this compiler setting.
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...service
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.getCompilerOptionsDiagnostics()
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.filter(diagnostic => diagnostic.code !== 5070),
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...service.getSyntacticDiagnostics(fileName),
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...service.getSemanticDiagnostics(fileName)
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];
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if (diagnostics.length > 0) {
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const errMsg = this._ts.formatDiagnosticsWithColorAndContext(
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diagnostics,
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this
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);
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console.log(errMsg);
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// All TypeScript errors are terminal for deno
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this._os.exit(1);
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}
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assert(
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!output.emitSkipped,
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"The emit was skipped for an unknown reason."
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);
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assert(
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output.outputFiles.length === 2,
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`Expected 2 files to be emitted, got ${output.outputFiles.length}.`
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);
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const [sourceMapFile, outputFile] = output.outputFiles;
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assert(
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sourceMapFile.name.endsWith(".map"),
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"Expected first emitted file to be a source map"
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);
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assert(
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outputFile.name.endsWith(".js"),
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"Expected second emitted file to be JavaScript"
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);
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moduleMetaData.outputCode = `${
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outputFile.text
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}\n//# sourceURL=${fileName}`;
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moduleMetaData.sourceMap = sourceMapFile.text;
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}
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moduleMetaData.scriptVersion = "1";
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this._os.codeCache(
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fileName,
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sourceCode,
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moduleMetaData.outputCode,
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moduleMetaData.sourceMap
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);
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return moduleMetaData;
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}
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/** Given a `moduleSpecifier` and `containingFile`, resolve the module and
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* return the `ModuleMetaData`.
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*/
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resolveModule(
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moduleSpecifier: ModuleSpecifier,
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containingFile: ContainingFile
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): ModuleMetaData {
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this._log("compiler.resolveModule", { moduleSpecifier, containingFile });
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assert(moduleSpecifier != null && moduleSpecifier.length > 0);
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let fileName = this._resolveFileName(moduleSpecifier, containingFile);
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if (fileName && this._moduleMetaDataMap.has(fileName)) {
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return this._moduleMetaDataMap.get(fileName)!;
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}
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let moduleId: ModuleId | undefined;
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let mediaType = msg.MediaType.Unknown;
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let sourceCode: SourceCode | undefined;
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let outputCode: OutputCode | undefined;
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let sourceMap: SourceMap | undefined;
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if (
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moduleSpecifier.startsWith(ASSETS) ||
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containingFile.startsWith(ASSETS)
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) {
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// Assets are compiled into the runtime javascript bundle.
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// we _know_ `.pop()` will return a string, but TypeScript doesn't so
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// not null assertion
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moduleId = moduleSpecifier.split("/").pop()!;
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const assetName = moduleId.includes(".") ? moduleId : `${moduleId}.d.ts`;
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assert(assetName in assetSourceCode, `No such asset "${assetName}"`);
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mediaType = msg.MediaType.TypeScript;
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sourceCode = assetSourceCode[assetName];
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fileName = `${ASSETS}/${assetName}`;
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outputCode = "";
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sourceMap = "";
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} else {
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// We query Rust with a CodeFetch message. It will load the sourceCode,
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// and if there is any outputCode cached, will return that as well.
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const fetchResponse = this._os.codeFetch(moduleSpecifier, containingFile);
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moduleId = fetchResponse.moduleName;
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fileName = fetchResponse.filename;
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mediaType = fetchResponse.mediaType;
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sourceCode = fetchResponse.sourceCode;
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outputCode = fetchResponse.outputCode;
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sourceMap =
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fetchResponse.sourceMap && JSON.parse(fetchResponse.sourceMap);
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}
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assert(moduleId != null, "No module ID.");
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assert(fileName != null, "No file name.");
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assert(
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mediaType !== msg.MediaType.Unknown,
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`Unknown media type for: "${moduleSpecifier}" from "${containingFile}".`
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);
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this._log(
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"resolveModule sourceCode length:",
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sourceCode && sourceCode.length
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);
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this._log("resolveModule has outputCode:", outputCode != null);
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this._log("resolveModule has source map:", sourceMap != null);
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this._log("resolveModule has media type:", msg.MediaType[mediaType]);
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// fileName is asserted above, but TypeScript does not track so not null
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this._setFileName(moduleSpecifier, containingFile, fileName!);
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if (fileName && this._moduleMetaDataMap.has(fileName)) {
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return this._moduleMetaDataMap.get(fileName)!;
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}
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const moduleMetaData = new ModuleMetaData(
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moduleId!,
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fileName!,
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mediaType,
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sourceCode,
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outputCode,
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sourceMap
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);
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this._moduleMetaDataMap.set(fileName!, moduleMetaData);
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return moduleMetaData;
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}
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// TypeScript Language Service and Format Diagnostic Host API
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getCanonicalFileName(fileName: string): string {
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this._log("getCanonicalFileName", fileName);
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return fileName;
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}
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getCompilationSettings(): ts.CompilerOptions {
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this._log("getCompilationSettings()");
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return this._options;
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}
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getNewLine(): string {
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return EOL;
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}
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getScriptFileNames(): string[] {
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// This is equal to `"files"` in the `tsconfig.json`, therefore we only need
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// to include the actual base source files we are evaluating at the moment,
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// which would be what is set during the `.run()`
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return this._scriptFileNames;
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}
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getScriptKind(fileName: ModuleFileName): ts.ScriptKind {
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this._log("getScriptKind()", fileName);
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const moduleMetaData = this._getModuleMetaData(fileName);
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if (moduleMetaData) {
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switch (moduleMetaData.mediaType) {
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case msg.MediaType.TypeScript:
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return ts.ScriptKind.TS;
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case msg.MediaType.JavaScript:
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return ts.ScriptKind.JS;
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case msg.MediaType.Json:
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return ts.ScriptKind.JSON;
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default:
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return this._options.allowJs ? ts.ScriptKind.JS : ts.ScriptKind.TS;
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}
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} else {
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return this._options.allowJs ? ts.ScriptKind.JS : ts.ScriptKind.TS;
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}
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}
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getScriptVersion(fileName: ModuleFileName): string {
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this._log("getScriptVersion()", fileName);
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const moduleMetaData = this._getModuleMetaData(fileName);
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return (moduleMetaData && moduleMetaData.scriptVersion) || "";
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}
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getScriptSnapshot(fileName: ModuleFileName): ts.IScriptSnapshot | undefined {
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this._log("getScriptSnapshot()", fileName);
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return this._getModuleMetaData(fileName);
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}
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getCurrentDirectory(): string {
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this._log("getCurrentDirectory()");
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return "";
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}
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getDefaultLibFileName(): string {
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this._log("getDefaultLibFileName()");
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const moduleSpecifier = LIB_RUNTIME;
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const moduleMetaData = this.resolveModule(moduleSpecifier, ASSETS);
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return moduleMetaData.fileName;
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}
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useCaseSensitiveFileNames(): boolean {
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this._log("useCaseSensitiveFileNames()");
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return true;
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}
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readFile(path: string): string | undefined {
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this._log("readFile()", path);
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return notImplemented();
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}
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fileExists(fileName: string): boolean {
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const moduleMetaData = this._getModuleMetaData(fileName);
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const exists = moduleMetaData != null;
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this._log("fileExists()", fileName, exists);
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return exists;
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}
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resolveModuleNames(
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moduleNames: ModuleSpecifier[],
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containingFile: ContainingFile
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): Array<ts.ResolvedModuleFull | ts.ResolvedModule> {
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this._log("resolveModuleNames()", { moduleNames, containingFile });
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return moduleNames.map(name => {
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let moduleMetaData: ModuleMetaData;
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if (name === "deno") {
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// builtin modules are part of the runtime lib
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moduleMetaData = this.resolveModule(LIB_RUNTIME, ASSETS);
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} else if (name === "typescript") {
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moduleMetaData = this.resolveModule("typescript.d.ts", ASSETS);
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} else {
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moduleMetaData = this.resolveModule(name, containingFile);
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}
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// According to the interface we shouldn't return `undefined` but if we
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// fail to return the same length of modules to those we cannot resolve
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// then TypeScript fails on an assertion that the lengths can't be
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// different, so we have to return an "empty" resolved module
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// TODO: all this does is push the problem downstream, and TypeScript
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// will complain it can't identify the type of the file and throw
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// a runtime exception, so we need to handle missing modules better
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const resolvedFileName = moduleMetaData.fileName || "";
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// This flags to the compiler to not go looking to transpile functional
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// code, anything that is in `/$asset$/` is just library code
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const isExternalLibraryImport = resolvedFileName.startsWith(ASSETS);
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return {
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resolvedFileName,
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isExternalLibraryImport,
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extension: getExtension(resolvedFileName, moduleMetaData.mediaType)
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};
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});
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}
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}
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const compiler = new Compiler();
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let startResMsg: msg.StartRes;
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// set global objects for compiler web worker
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window.clearTimeout = clearTimer;
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window.console = console;
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window.postMessage = postMessage;
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window.setTimeout = setTimeout;
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window.workerMain = workerMain;
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window.close = workerClose;
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window.TextDecoder = TextDecoder;
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window.TextEncoder = TextEncoder;
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// provide the "main" function that will be called by the privilaged side when
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// lazy instantiating the compiler web worker
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|
window.compilerMain = function compilerMain() {
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// workerMain should have already been called since a compiler is a worker.
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const encoder = new TextEncoder();
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const decoder = new TextDecoder();
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compiler.recompile = startResMsg.recompileFlag();
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log(`recompile ${compiler.recompile}`);
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window.onmessage = ({ data }: { data: Uint8Array }) => {
|
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const json = decoder.decode(data);
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const lookup = JSON.parse(json) as CompilerLookup;
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|
|
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const moduleMetaData = compiler.compile(lookup.specifier, lookup.referrer);
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|
|
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const responseJson = JSON.stringify(moduleMetaData);
|
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const response = encoder.encode(responseJson);
|
|
postMessage(response);
|
|
};
|
|
};
|
|
|
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/* tslint:disable-next-line:no-default-export */
|
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export default function denoMain() {
|
|
startResMsg = os.start();
|
|
}
|