export class Utils { static GUID() { const s4 = function () { return Math.floor((1 + Math.random()) * 0x10000) .toString(16) .substring(1); }; return s4() + s4() + '-' + s4() + s4(); } static chunkArrays(arr: T[], chunkSize: number): T[][] { const R = []; for (let i = 0; i < arr.length; i += chunkSize) { R.push(arr.slice(i, i + chunkSize)); } return R; } static wait(time: number) { return new Promise((resolve) => { setTimeout(resolve, time); }); } static removeNullOrEmptyObj(obj: any) { if (typeof obj !== 'object' || obj == null) { return obj; } const keys = Object.keys(obj); for (let i = 0; i < keys.length; i++) { const key = keys[i]; if (obj[key] !== null && typeof obj[key] === 'object') { if (Utils.removeNullOrEmptyObj(obj[key])) { if (Object.keys(obj[key]).length === 0) { delete obj[key]; } } } else if (obj[key] === null) { delete obj[key]; } } return obj; } static clone(object: T): T { return JSON.parse(JSON.stringify(object)); } static zeroPrefix(value: string | number, length: number) { const ret = '00000' + value; return ret.substr(ret.length - length); } /** * Checks if the two input (let them be objects or arrays or just primitives) are equal * @param object * @param filter */ static equalsFilter(object: any, filter: any): boolean { if (typeof filter !== 'object' || filter == null) { return object === filter; } if (!object) { return false; } if (Array.isArray(object) && object.length !== filter.length) { return false; } const keys = Object.keys(filter); for (let i = 0; i < keys.length; i++) { const key = keys[i]; if (typeof filter[key] === 'object') { if (Utils.equalsFilter(object[key], filter[key]) === false) { return false; } } else if (object[key] !== filter[key]) { return false; } } return true; } static renderDataSize(size: number) { const postFixes = ['B', 'KB', 'MB', 'GB', 'TB']; let index = 0; while (size > 1000 && index < postFixes.length - 1) { size /= 1000; index++; } return size.toFixed(2) + postFixes[index]; } /** * * @param from * @param to inclusive * @returns {Array} */ static createRange(from: number, to: number): Array { const arr = new Array(to - from + 1); let c = to - from + 1; while (c--) { arr[c] = to--; } return arr; } public static canonizePath(path: string) { return path .replace(new RegExp('\\\\', 'g'), '/') .replace(new RegExp('/+', 'g'), '/'); } static concatUrls(...args: Array) { let url = ''; for (let i = 0; i < args.length; i++) { if (args[i] === '' || typeof args[i] === 'undefined') { continue; } const part = args[i].replace(new RegExp('\\\\', 'g'), '/'); if (part === '/' || part === './') { continue; } url += part + '/'; } url = url.replace(new RegExp('/+', 'g'), '/'); if (url.trim() === '') { url = './'; } return url.substring(0, url.length - 1); } public static updateKeys(targetObject: any, sourceObject: any) { Object.keys(sourceObject).forEach((key) => { if (typeof targetObject[key] === 'undefined') { return; } if (typeof targetObject[key] === 'object') { Utils.updateKeys(targetObject[key], sourceObject[key]); } else { targetObject[key] = sourceObject[key]; } }); } public static setKeys(targetObject: any, sourceObject: any) { Object.keys(sourceObject).forEach((key) => { if (typeof targetObject[key] === 'object') { Utils.setKeys(targetObject[key], sourceObject[key]); } else { targetObject[key] = sourceObject[key]; } }); } public static setKeysForced(targetObject: any, sourceObject: any) { Object.keys(sourceObject).forEach((key) => { if (typeof sourceObject[key] === 'object') { if (typeof targetObject[key] === 'undefined') { targetObject[key] = {}; } Utils.setKeysForced(targetObject[key], sourceObject[key]); } else { targetObject[key] = sourceObject[key]; } }); } public static enumToArray(EnumType: any): { key: number; value: string }[] { const arr: Array<{ key: number; value: string; }> = []; for (const enumMember in EnumType) { if (!EnumType.hasOwnProperty(enumMember)) { continue; } const key = parseInt(enumMember, 10); if (key >= 0) { arr.push({key: key, value: EnumType[enumMember]}); } } return arr; } public static findClosest(number: number, arr: number[]): number { let curr = arr[0]; let diff = Math.abs(number - curr); arr.forEach((value) => { const newDiff = Math.abs(number - value); if (newDiff < diff) { diff = newDiff; curr = value; } }); return curr; } public static findClosestinSorted(number: number, arr: number[]): number { let curr = arr[0]; let diff = Math.abs(number - curr); for (let i = 0; i < arr.length; ++i) { const newDiff = Math.abs(number - arr[i]); if (newDiff > diff) { break; } diff = newDiff; curr = arr[i]; } return curr; } public static isUInt32(value: number, max: number = 4294967295) { return !isNaN(value) && value >= 0 && value <= max; } public static isInt32(value: number) { return !isNaN(value) && value >= -2147483648 && value <= 2147483647; } public static isFloat32(value: number) { const E = Math.pow(10, 38); const nE = Math.pow(10, -38); return !isNaN(value) && ((value >= -3.402823466 * E && value <= -1.175494351 * nE) || (value <= 3.402823466 * E && value >= 1.175494351 * nE)); } public static getAnyX(num: number, arr: any[], start = 0): any[][] { if (num <= 0 || num > arr.length || start >= arr.length) { return []; } if (num <= 1) { return arr.slice(start).map(e => [e]); } if (num === arr.length - start) { return [arr.slice(start)]; } const ret: any[][] = []; for (let i = start; i < arr.length; ++i) { Utils.getAnyX(num - 1, arr, i + 1).forEach(a => { a.push(arr[i]); ret.push(a); }); } return ret; } }