/*---------------------------------------------------------------------------------------------
* Copyright (c) Microsoft Corporation. All rights reserved.
* Licensed under the MIT License. See License.txt in the project root for license information.
*--------------------------------------------------------------------------------------------*/
import { Event, Disposable, EventEmitter } from 'vscode';
import { dirname, sep } from 'path';
import { Readable } from 'stream';
import { promises as fs, createReadStream } from 'fs';
import * as byline from 'byline';
export function log(...args: any[]): void {
console.log.apply(console, ['git:', ...args]);
}
export interface IDisposable {
dispose(): void;
export function dispose<T extends IDisposable>(disposables: T[]): T[] {
disposables.forEach(d => d.dispose());
return [];
export function toDisposable(dispose: () => void): IDisposable {
return { dispose };
export function combinedDisposable(disposables: IDisposable[]): IDisposable {
return toDisposable(() => dispose(disposables));
export const EmptyDisposable = toDisposable(() => null);
export function fireEvent<T>(event: Event<T>): Event<T> {
return (listener: (e: T) => any, thisArgs?: any, disposables?: Disposable[]) => event(_ => (listener as any).call(thisArgs), null, disposables);
export function mapEvent<I, O>(event: Event<I>, map: (i: I) => O): Event<O> {
return (listener: (e: O) => any, thisArgs?: any, disposables?: Disposable[]) => event(i => listener.call(thisArgs, map(i)), null, disposables);
export function filterEvent<T>(event: Event<T>, filter: (e: T) => boolean): Event<T> {
return (listener: (e: T) => any, thisArgs?: any, disposables?: Disposable[]) => event(e => filter(e) && listener.call(thisArgs, e), null, disposables);
export function anyEvent<T>(...events: Event<T>[]): Event<T> {
return (listener: (e: T) => any, thisArgs?: any, disposables?: Disposable[]) => {
const result = combinedDisposable(events.map(event => event(i => listener.call(thisArgs, i))));
if (disposables) {
disposables.push(result);
return result;
};
export function done<T>(promise: Promise<T>): Promise<void> {
return promise.then<void>(() => undefined);
export function onceEvent<T>(event: Event<T>): Event<T> {
const result = event(e => {
result.dispose();
return listener.call(thisArgs, e);
}, null, disposables);
export function debounceEvent<T>(event: Event<T>, delay: number): Event<T> {
let timer: NodeJS.Timer;
return event(e => {
clearTimeout(timer);
timer = setTimeout(() => listener.call(thisArgs, e), delay);
export function eventToPromise<T>(event: Event<T>): Promise<T> {
return new Promise<T>(c => onceEvent(event)(c));
export function once(fn: (...args: any[]) => any): (...args: any[]) => any {
let didRun = false;
return (...args) => {
if (didRun) {
return;
return fn(...args);
export function assign<T>(destination: T, ...sources: any[]): T {
for (const source of sources) {
Object.keys(source).forEach(key => (destination as any)[key] = source[key]);
return destination;
export function uniqBy<T>(arr: T[], fn: (el: T) => string): T[] {
const seen = Object.create(null);
return arr.filter(el => {
const key = fn(el);
if (seen[key]) {
return false;
seen[key] = true;
return true;
});
export function groupBy<T>(arr: T[], fn: (el: T) => string): { [key: string]: T[] } {
return arr.reduce((result, el) => {
result[key] = [...(result[key] || []), el];
}, Object.create(null));
export async function mkdirp(path: string, mode?: number): Promise<boolean> {
const mkdir = async () => {
try {
await fs.mkdir(path, mode);
} catch (err) {
if (err.code === 'EEXIST') {
const stat = await fs.stat(path);
if (stat.isDirectory()) {
throw new Error(`'${path}' exists and is not a directory.`);
throw err;
// is root?
if (path === dirname(path)) {
await mkdir();
if (err.code !== 'ENOENT') {
await mkdirp(dirname(path), mode);
export function uniqueFilter<T>(keyFn: (t: T) => string): (t: T) => boolean {
const seen: { [key: string]: boolean; } = Object.create(null);
return element => {
const key = keyFn(element);
export function find<T>(array: T[], fn: (t: T) => boolean): T | undefined {
let result: T | undefined = undefined;
array.some(e => {
if (fn(e)) {
result = e;
export async function grep(filename: string, pattern: RegExp): Promise<boolean> {
return new Promise<boolean>((c, e) => {
const fileStream = createReadStream(filename, { encoding: 'utf8' });
const stream = byline(fileStream);
stream.on('data', (line: string) => {
if (pattern.test(line)) {
fileStream.close();
c(true);
stream.on('error', e);
stream.on('end', () => c(false));
export function readBytes(stream: Readable, bytes: number): Promise<Buffer> {
return new Promise<Buffer>((complete, error) => {
let done = false;
let buffer = Buffer.allocUnsafe(bytes);
let bytesRead = 0;
stream.on('data', (data: Buffer) => {
let bytesToRead = Math.min(bytes - bytesRead, data.length);
data.copy(buffer, bytesRead, 0, bytesToRead);
bytesRead += bytesToRead;
if (bytesRead === bytes) {
(stream as any).destroy(); // Will trigger the close event eventually
stream.on('error', (e: Error) => {
if (!done) {
done = true;
error(e);
stream.on('close', () => {
complete(buffer.slice(0, bytesRead));
export const enum Encoding {
UTF8 = 'utf8',
UTF16be = 'utf16be',
UTF16le = 'utf16le'
export function detectUnicodeEncoding(buffer: Buffer): Encoding | null {
if (buffer.length < 2) {
return null;
const b0 = buffer.readUInt8(0);
const b1 = buffer.readUInt8(1);
if (b0 === 0xFE && b1 === 0xFF) {
return Encoding.UTF16be;
if (b0 === 0xFF && b1 === 0xFE) {
return Encoding.UTF16le;
if (buffer.length < 3) {
const b2 = buffer.readUInt8(2);
if (b0 === 0xEF && b1 === 0xBB && b2 === 0xBF) {
return Encoding.UTF8;
function isWindowsPath(path: string): boolean {
return /^[a-zA-Z]:\\/.test(path);
export function isDescendant(parent: string, descendant: string): boolean {
if (parent === descendant) {
if (parent.charAt(parent.length - 1) !== sep) {
parent += sep;
// Windows is case insensitive
if (isWindowsPath(parent)) {
parent = parent.toLowerCase();
descendant = descendant.toLowerCase();
return descendant.startsWith(parent);
export function pathEquals(a: string, b: string): boolean {
if (isWindowsPath(a)) {
a = a.toLowerCase();
b = b.toLowerCase();
return a === b;
export function* splitInChunks(array: string[], maxChunkLength: number): IterableIterator<string[]> {
let current: string[] = [];
let length = 0;
for (const value of array) {
let newLength = length + value.length;
if (newLength > maxChunkLength && current.length > 0) {
yield current;
current = [];
newLength = value.length;
current.push(value);
length = newLength;
if (current.length > 0) {
interface ILimitedTaskFactory<T> {
factory: () => Promise<T>;
c: (value: T | Promise<T>) => void;
e: (error?: any) => void;
export class Limiter<T> {
private runningPromises: number;
private maxDegreeOfParalellism: number;
private outstandingPromises: ILimitedTaskFactory<T>[];
constructor(maxDegreeOfParalellism: number) {
this.maxDegreeOfParalellism = maxDegreeOfParalellism;
this.outstandingPromises = [];
this.runningPromises = 0;
queue(factory: () => Promise<T>): Promise<T> {
return new Promise<T>((c, e) => {
this.outstandingPromises.push({ factory, c, e });
this.consume();
private consume(): void {
while (this.outstandingPromises.length && this.runningPromises < this.maxDegreeOfParalellism) {
const iLimitedTask = this.outstandingPromises.shift()!;
this.runningPromises++;
const promise = iLimitedTask.factory();
promise.then(iLimitedTask.c, iLimitedTask.e);
promise.then(() => this.consumed(), () => this.consumed());
private consumed(): void {
this.runningPromises--;
if (this.outstandingPromises.length > 0) {
type Completion<T> = { success: true, value: T } | { success: false, err: any };
export class PromiseSource<T> {
private _onDidComplete = new EventEmitter<Completion<T>>();
private _promise: Promise<T> | undefined;
get promise(): Promise<T> {
if (this._promise) {
return this._promise;
return eventToPromise(this._onDidComplete.event).then(completion => {
if (completion.success) {
return completion.value;
} else {
throw completion.err;
resolve(value: T): void {
if (!this._promise) {
this._promise = Promise.resolve(value);
this._onDidComplete.fire({ success: true, value });
reject(err: any): void {
this._promise = Promise.reject(err);
this._onDidComplete.fire({ success: false, err });
export namespace Versions {
declare type VersionComparisonResult = -1 | 0 | 1;
export interface Version {
major: number;
minor: number;
patch: number;
pre?: string;
export function compare(v1: string | Version, v2: string | Version): VersionComparisonResult {
if (typeof v1 === 'string') {
v1 = fromString(v1);
if (typeof v2 === 'string') {
v2 = fromString(v2);
if (v1.major > v2.major) { return 1; }
if (v1.major < v2.major) { return -1; }
if (v1.minor > v2.minor) { return 1; }
if (v1.minor < v2.minor) { return -1; }
if (v1.patch > v2.patch) { return 1; }
if (v1.patch < v2.patch) { return -1; }
if (v1.pre === undefined && v2.pre !== undefined) { return 1; }
if (v1.pre !== undefined && v2.pre === undefined) { return -1; }
if (v1.pre !== undefined && v2.pre !== undefined) {
return v1.pre.localeCompare(v2.pre) as VersionComparisonResult;
return 0;
export function from(major: string | number, minor: string | number, patch?: string | number, pre?: string): Version {
return {
major: typeof major === 'string' ? parseInt(major, 10) : major,
minor: typeof minor === 'string' ? parseInt(minor, 10) : minor,
patch: patch === undefined || patch === null ? 0 : typeof patch === 'string' ? parseInt(patch, 10) : patch,
pre: pre,
export function fromString(version: string): Version {
const [ver, pre] = version.split('-');
const [major, minor, patch] = ver.split('.');
return from(major, minor, patch, pre);