1
0
Fork 0
mirror of https://github.com/denoland/deno.git synced 2024-11-29 16:30:56 -05:00
denoland-deno/cli/js/compiler_util.ts
2020-01-27 21:12:25 -05:00

321 lines
9.8 KiB
TypeScript

// Copyright 2018-2020 the Deno authors. All rights reserved. MIT license.
import { bold, cyan, yellow } from "./colors.ts";
import { CompilerOptions } from "./compiler_api.ts";
import { buildBundle } from "./compiler_bundler.ts";
import { ConfigureResponse, Host } from "./compiler_host.ts";
import { SourceFile } from "./compiler_sourcefile.ts";
import { sendSync } from "./dispatch_json.ts";
import * as dispatch from "./dispatch.ts";
import { TextDecoder, TextEncoder } from "./text_encoding.ts";
import { core } from "./core.ts";
import * as util from "./util.ts";
import { assert } from "./util.ts";
import { writeFileSync } from "./write_file.ts";
/** Type for the write fall callback that allows delegation from the compiler
* host on writing files. */
export type WriteFileCallback = (
fileName: string,
data: string,
sourceFiles?: readonly ts.SourceFile[]
) => void;
/** An object which is passed to `createWriteFile` to be used to read and set
* state related to the emit of a program. */
export interface WriteFileState {
type: CompilerRequestType;
bundle?: boolean;
host?: Host;
outFile?: string;
rootNames: string[];
emitMap?: Record<string, string>;
emitBundle?: string;
sources?: Record<string, string>;
}
// Warning! The values in this enum are duplicated in `cli/msg.rs`
// Update carefully!
export enum CompilerRequestType {
Compile = 0,
RuntimeCompile = 1,
RuntimeTranspile = 2
}
export const OUT_DIR = "$deno$";
/** Cache the contents of a file on the trusted side. */
function cache(
moduleId: string,
emittedFileName: string,
contents: string,
checkJs = false
): void {
util.log("compiler::cache", { moduleId, emittedFileName, checkJs });
const sf = SourceFile.get(moduleId);
if (sf) {
// NOTE: If it's a `.json` file we don't want to write it to disk.
// JSON files are loaded and used by TS compiler to check types, but we don't want
// to emit them to disk because output file is the same as input file.
if (sf.extension === ts.Extension.Json) {
return;
}
// NOTE: JavaScript files are only cached to disk if `checkJs`
// option in on
if (sf.extension === ts.Extension.Js && !checkJs) {
return;
}
}
if (emittedFileName.endsWith(".map")) {
// Source Map
sendSync(dispatch.OP_CACHE, {
extension: ".map",
moduleId,
contents
});
} else if (
emittedFileName.endsWith(".js") ||
emittedFileName.endsWith(".json")
) {
// Compiled JavaScript
sendSync(dispatch.OP_CACHE, {
extension: ".js",
moduleId,
contents
});
} else {
assert(false, `Trying to cache unhandled file type "${emittedFileName}"`);
}
}
let OP_FETCH_ASSET: number;
/**
* This op is called only during snapshotting.
*
* We really don't want to depend on JSON dispatch
* during snapshotting, so this op exchanges strings with Rust
* as raw byte arrays.
*/
export function getAsset(name: string): string {
if (!OP_FETCH_ASSET) {
const ops = core.ops();
const opFetchAsset = ops["fetch_asset"];
assert(opFetchAsset, "OP_FETCH_ASSET is not registered");
OP_FETCH_ASSET = opFetchAsset;
}
const encoder = new TextEncoder();
const decoder = new TextDecoder();
const sourceCodeBytes = core.dispatch(OP_FETCH_ASSET, encoder.encode(name));
return decoder.decode(sourceCodeBytes!);
}
/** Generates a `writeFile` function which can be passed to the compiler `Host`
* to use when emitting files. */
export function createWriteFile(state: WriteFileState): WriteFileCallback {
const encoder = new TextEncoder();
if (state.type === CompilerRequestType.Compile) {
return function writeFile(
fileName: string,
data: string,
sourceFiles?: readonly ts.SourceFile[]
): void {
assert(
sourceFiles != null,
`Unexpected emit of "${fileName}" which isn't part of a program.`
);
assert(state.host);
if (!state.bundle) {
assert(sourceFiles.length === 1);
cache(
sourceFiles[0].fileName,
fileName,
data,
state.host.getCompilationSettings().checkJs
);
} else {
// if the fileName is set to an internal value, just noop, this is
// used in the Rust unit tests.
if (state.outFile && state.outFile.startsWith(OUT_DIR)) {
return;
}
// we only support single root names for bundles
assert(
state.rootNames.length === 1,
`Only one root name supported. Got "${JSON.stringify(
state.rootNames
)}"`
);
// this enriches the string with the loader and re-exports the
// exports of the root module
const content = buildBundle(state.rootNames[0], data, sourceFiles);
if (state.outFile) {
const encodedData = encoder.encode(content);
console.warn(`Emitting bundle to "${state.outFile}"`);
writeFileSync(state.outFile, encodedData);
console.warn(`${util.humanFileSize(encodedData.length)} emitted.`);
} else {
console.log(content);
}
}
};
}
return function writeFile(
fileName: string,
data: string,
sourceFiles?: readonly ts.SourceFile[]
): void {
assert(sourceFiles != null);
assert(state.host);
assert(state.emitMap);
if (!state.bundle) {
assert(sourceFiles.length === 1);
state.emitMap[fileName] = data;
// we only want to cache the compiler output if we are resolving
// modules externally
if (!state.sources) {
cache(
sourceFiles[0].fileName,
fileName,
data,
state.host.getCompilationSettings().checkJs
);
}
} else {
// we only support single root names for bundles
assert(state.rootNames.length === 1);
state.emitBundle = buildBundle(state.rootNames[0], data, sourceFiles);
}
};
}
/** Take a runtime set of compiler options as stringified JSON and convert it
* to a set of TypeScript compiler options. */
export function convertCompilerOptions(str: string): ts.CompilerOptions {
const options: CompilerOptions = JSON.parse(str);
const out: Record<string, unknown> = {};
const keys = Object.keys(options) as Array<keyof CompilerOptions>;
for (const key of keys) {
switch (key) {
case "jsx":
const value = options[key];
if (value === "preserve") {
out[key] = ts.JsxEmit.Preserve;
} else if (value === "react") {
out[key] = ts.JsxEmit.React;
} else {
out[key] = ts.JsxEmit.ReactNative;
}
break;
case "module":
switch (options[key]) {
case "amd":
out[key] = ts.ModuleKind.AMD;
break;
case "commonjs":
out[key] = ts.ModuleKind.CommonJS;
break;
case "es2015":
case "es6":
out[key] = ts.ModuleKind.ES2015;
break;
case "esnext":
out[key] = ts.ModuleKind.ESNext;
break;
case "none":
out[key] = ts.ModuleKind.None;
break;
case "system":
out[key] = ts.ModuleKind.System;
break;
case "umd":
out[key] = ts.ModuleKind.UMD;
break;
default:
throw new TypeError("Unexpected module type");
}
break;
case "target":
switch (options[key]) {
case "es3":
out[key] = ts.ScriptTarget.ES3;
break;
case "es5":
out[key] = ts.ScriptTarget.ES5;
break;
case "es6":
case "es2015":
out[key] = ts.ScriptTarget.ES2015;
break;
case "es2016":
out[key] = ts.ScriptTarget.ES2016;
break;
case "es2017":
out[key] = ts.ScriptTarget.ES2017;
break;
case "es2018":
out[key] = ts.ScriptTarget.ES2018;
break;
case "es2019":
out[key] = ts.ScriptTarget.ES2019;
break;
case "es2020":
out[key] = ts.ScriptTarget.ES2020;
break;
case "esnext":
out[key] = ts.ScriptTarget.ESNext;
break;
default:
throw new TypeError("Unexpected emit target.");
}
default:
out[key] = options[key];
}
}
return out as ts.CompilerOptions;
}
/** An array of TypeScript diagnostic types we ignore. */
export const ignoredDiagnostics = [
// TS1103: 'for-await-of' statement is only allowed within an async function
// or async generator.
1103,
// TS1308: 'await' expression is only allowed within an async function.
1308,
// TS2691: An import path cannot end with a '.ts' extension. Consider
// importing 'bad-module' instead.
2691,
// TS5009: Cannot find the common subdirectory path for the input files.
5009,
// TS5055: Cannot write file
// 'http://localhost:4545/tests/subdir/mt_application_x_javascript.j4.js'
// because it would overwrite input file.
5055,
// 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.
5070
];
/** When doing a host configuration, processing the response and logging out
* and options which were ignored. */
export function processConfigureResponse(
configResult: ConfigureResponse,
configPath: string
): ts.Diagnostic[] | undefined {
const { ignoredOptions, diagnostics } = configResult;
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(", ")}`
);
}
return diagnostics;
}