/** * BetterDiscord Utils Module * Copyright (c) 2015-present Jiiks/JsSucks - https://github.com/Jiiks / https://github.com/JsSucks * All rights reserved. * https://betterdiscord.net * * This source code is licensed under the MIT license found in the * LICENSE file in the root directory of this source tree. */ import fs from 'fs'; import _ from 'lodash'; import filetype from 'file-type'; import path from 'path'; export class Utils { static overload(fn, cb) { const orig = fn; return function (...args) { orig(...args); cb(...args); } } /** * Attempts to parse a string as JSON. * @param {String} json The string to parse * @return {Any} */ static async tryParseJson(jsonString) { try { return JSON.parse(jsonString); } catch (err) { throw ({ message: 'Failed to parse json', err }); } } /** * Returns a new object with normalised keys. * @param {Object} object * @return {Object} */ static toCamelCase(o) { const camelCased = {}; _.forEach(o, (value, key) => { if (_.isPlainObject(value) || _.isArray(value)) { value = this.toCamelCase(value); } camelCased[_.camelCase(key)] = value; }); return camelCased; } /** * Finds a value, subobject, or array from a tree that matches a specific filter. Great for patching render functions. * @param {object} tree React tree to look through. Can be a rendered object or an internal instance. * @param {callable} searchFilter Filter function to check subobjects against. */ static findInReactTree(tree, searchFilter) { return this.findInTree(tree, searchFilter, {walkable: ['props', 'children', 'child', 'sibling']}); } /** * Finds a value, subobject, or array from a tree that matches a specific filter. * @param {object} tree Tree that should be walked * @param {callable} searchFilter Filter to check against each object and subobject * @param {object} options Additional options to customize the search * @param {Array|null} [options.walkable=null] Array of strings to use as keys that are allowed to be walked on. Null value indicates all keys are walkable * @param {Array} [options.ignore=[]] Array of strings to use as keys to exclude from the search, most helpful when `walkable = null`. */ static findInTree(tree, searchFilter, { walkable = null, ignore = [] }) { if (typeof searchFilter === 'string') { if (tree.hasOwnProperty(searchFilter)) return tree[searchFilter]; } else if (searchFilter(tree)) return tree; if (typeof tree !== 'object' || tree == null) return undefined; let tempReturn = undefined; if (tree instanceof Array) { for (const value of tree) { tempReturn = this.findInTree(value, searchFilter, {walkable, ignore}); if (typeof tempReturn != 'undefined') return tempReturn; } } else { const toWalk = walkable == null ? Object.keys(tree) : walkable; for (const key of toWalk) { if (!tree.hasOwnProperty(key) || ignore.includes(key)) continue; tempReturn = this.findInTree(tree[key], searchFilter, {walkable, ignore}); if (typeof tempReturn != 'undefined') return tempReturn; } } return tempReturn; } /** * Checks if two or more values contain the same data. * @param {Any} ...value The value to compare * @return {Boolean} */ static compare(value1, value2, ...values) { // Check to see if value1 and value2 contain the same data if (typeof value1 !== typeof value2) return false; if (value1 === null && value2 === null) return true; if (value1 === null || value2 === null) return false; if (typeof value1 === 'object') { // Loop through the object and check if everything's the same if (Object.keys(value1).length !== Object.keys(value2).length) return false; for (const key in value1) { if (!this.compare(value1[key], value2[key])) return false; } } else if (value1 !== value2) return false; // value1 and value2 contain the same data // Check any more values for (const value3 of values) { if (!this.compare(value1, value3)) return false; } return true; } /** * Clones an object and all it's properties. * @param {Any} value The value to clone * @param {Function} exclude A function to filter objects that shouldn't be cloned * @return {Any} The cloned value */ static deepclone(value, exclude) { if (exclude && exclude(value)) return value; if (typeof value === 'object') { if (value instanceof Array) return value.map(i => this.deepclone(i, exclude)); const clone = Object.assign({}, value); for (const key in clone) { clone[key] = this.deepclone(clone[key], exclude); } return clone; } return value; } /** * Freezes an object and all it's properties. * @param {Any} object The object to freeze * @param {Function} exclude A function to filter objects that shouldn't be frozen */ static deepfreeze(object, exclude) { if (exclude && exclude(object)) return; if (typeof object === 'object' && object !== null) { const properties = Object.getOwnPropertyNames(object); for (const property of properties) { this.deepfreeze(object[property], exclude); } Object.freeze(object); } return object; } /** * Removes an item from an array. This differs from Array.prototype.filter as it mutates the original array instead of creating a new one. * @param {Array} array The array to filter * @param {Any} item The item to remove from the array * @return {Array} */ static removeFromArray(array, item) { let index; while ((index = array.indexOf(item)) > -1) array.splice(index, 1); return array; } /** * Defines a property with a getter that can be changed like a normal property. * @param {Object} object The object to define a property on * @param {String} property The property to define * @param {Function} getter The property's getter * @return {Object} */ static defineSoftGetter(object, property, get) { return Object.defineProperty(object, property, { get, set: value => Object.defineProperty(object, property, { value, writable: true, configurable: true, enumerable: true }), configurable: true, enumerable: true }); } static wait(time = 0) { return new Promise(resolve => setTimeout(resolve, time)); } static async until(check, time = 0) { let value, i; do { // Wait for the next tick await new Promise(resolve => setTimeout(resolve, time)); value = check(i); i++; } while (!value); return value; } /** * Finds the index of array of bytes in another array * @param {Array} haystack The array to find aob in * @param {Array} needle The aob to find * @return {Number} aob index, -1 if not found */ static aobscan(haystack, needle) { for (let h = 0; h < haystack.length - needle.length + 1; ++h) { let found = true; for (let n = 0; n < needle.length; ++n) { if (needle[n] === null || needle[n] === '??' || haystack[h + n] === needle[n]) continue; found = false; break; } if (found) return h; } return -1; } /** * Convert buffer to base64 encoded string * @param {any} buffer buffer to convert * @returns {String} base64 encoded string from buffer */ static arrayBufferToBase64(buffer) { let binary = ''; const bytes = buffer instanceof Uint8Array ? buffer : new Uint8Array(buffer); for (let i = 0; i < bytes.byteLength; i++) { binary += String.fromCharCode(bytes[i]); } return window.btoa(binary); } static async getImageFromBuffer(buffer) { if (!(buffer instanceof Blob)) buffer = new Blob([buffer]); const reader = new FileReader(); reader.readAsDataURL(buffer); await new Promise(r => { reader.onload = r }); const img = new Image(); img.src = reader.result; return new Promise(resolve => { img.onload = () => { resolve(img); } }); } static async canvasToArrayBuffer(canvas, mime = 'image/png') { const reader = new FileReader(); return new Promise(resolve => { canvas.toBlob(blob => { reader.addEventListener('loadend', () => { resolve(reader.result); }); reader.readAsArrayBuffer(blob); }, mime); }); } } export class FileUtils { /** * Gets information about a file. * @param {String} path The file's path * @return {Promise} */ static async stat(path) { return new Promise((resolve, reject) => { fs.stat(path, (err, stat) => { if (err) return reject({ message: `No such file or directory: ${err.path}`, err }); resolve(stat); }); }); } /** * Checks if a file exists and is a file. * @param {String} path The file's path * @return {Promise} */ static async fileExists(path) { const stats = await this.stat(path); if (!stats.isFile()) throw { message: `Not a file: ${path}`, stats }; } /** * Checks if a directory exists and is a directory. * @param {String} path The directory's path * @return {Promise} */ static async directoryExists(path) { const stats = await this.stat(path); if (!stats.isDirectory()) throw { message: `Not a directory: ${path}`, stats }; } /** * Creates a directory. * @param {String} path The directory's path * @return {Promise} */ static async createDirectory(path) { return new Promise((resolve, reject) => { fs.mkdir(path, err => { if (err) reject(err); else resolve(); }); }); } /** * Checks if a directory exists and creates it if it doesn't. * @param {String} path The directory's path * @return {Promise} */ static async ensureDirectory(path) { try { await this.directoryExists(path); return true; } catch (err) { await this.createDirectory(path); return true; } } /** * Returns the contents of a file. * @param {String} path The file's path * @return {Promise} */ static async readFile(path) { await this.fileExists(path); return new Promise((resolve, reject) => { fs.readFile(path, 'utf-8', (err, data) => { if (err) return reject({ message: `Could not read file: ${path}`, err }); resolve(data); }); }); } /** * Returns the contents of a file. * @param {String} path The file's path * @param {Object} options Additional options to pass to fs.readFile * @return {Promise} */ static async readFileBuffer(path, options) { await this.fileExists(path); return new Promise((resolve, reject) => { fs.readFile(path, options || {}, (err, data) => { if (err) reject(err); else resolve(data); }); }); } /** * Writes to a file. * @param {String} path The file's path * @param {String} data The file's new contents * @return {Promise} */ static async writeFile(path, data) { return new Promise((resolve, reject) => { fs.writeFile(path, data, err => { if (err) reject(err); else resolve(); }); }); } /** * Writes to the end of a file. * @param {String} path The file's path * @param {String} data The data to append to the file * @return {Promise} */ static async appendToFile(path, data) { return new Promise((resolve, reject) => { fs.appendFile(path, data, err => { if (err) reject(err); else resolve(); }); }); } /** * Returns the contents of a file parsed as JSON. * @param {String} path The file's path * @return {Promise} */ static async readJsonFromFile(path) { const readFile = await this.readFile(path); try { return await Utils.tryParseJson(readFile); } catch (err) { throw Object.assign(err, { path }); } } /** * Writes to a file as JSON. * @param {String} path The file's path * @param {Any} data The file's new contents * @param {Boolean} pretty Whether to pretty print the JSON object * @return {Promise} */ static async writeJsonToFile(path, json, pretty) { return this.writeFile(path, `${JSON.stringify(json, null, pretty ? 4 : 0)}\n`); } /** * Returns an array of items in a directory. * @param {String} path The directory's path * @return {Promise} */ static async listDirectory(path) { await this.directoryExists(path); return new Promise((resolve, reject) => { fs.readdir(path, (err, files) => { if (err) reject(err); else resolve(files); }); }); } static async readDir(path) { return this.listDirectory(path); } /** * Returns a file or buffer's MIME type and typical file extension. * @param {String|Buffer} buffer A buffer or the path of a file * @return {Promise} */ static async getFileType(buffer) { if (typeof buffer === 'string') buffer = await this.readFileBuffer(buffer); return filetype(buffer); } /** * Returns a file's contents as a data URI. * @param {String} path The directory's path * @return {Promise} */ static async toDataURI(buffer, type) { if (typeof buffer === 'string') buffer = await this.readFileBuffer(buffer); if (!type) type = (await this.getFileType(buffer)).mime; return `data:${type};base64,${buffer.toString('base64')}`; } /** * Delete a directory * @param {String} path The directory's path * @return {Promise} */ static async deleteDirectory(pathToDir) { try { await this.directoryExists(pathToDir); const files = await this.listDirectory(pathToDir); for (const file of files) { const pathToFile = path.join(pathToDir, file); try { await this.directoryExists(pathToFile); await this.deleteDirectory(pathToFile); } catch (err) { fs.unlinkSync(pathToFile); } } fs.rmdirSync(pathToDir); return true; } catch (err) { throw err; } } }