import type { IDataObject, IDisplayOptions, INodeExecutionData, INodeProperties, } from 'n8n-workflow'; import { jsonParse } from 'n8n-workflow'; import { isEqual, isNull, merge } from 'lodash'; /** * Creates an array of elements split into groups the length of `size`. * If `array` can't be split evenly, the final chunk will be the remaining * elements. * * @param {Array} array The array to process. * @param {number} [size=1] The length of each chunk * @example * * chunk(['a', 'b', 'c', 'd'], 2) * // => [['a', 'b'], ['c', 'd']] * * chunk(['a', 'b', 'c', 'd'], 3) * // => [['a', 'b', 'c'], ['d']] */ export function chunk(array: T[], size = 1) { const length = array === null ? 0 : array.length; if (!length || size < 1) { return []; } let index = 0; let resIndex = 0; const result = new Array(Math.ceil(length / size)); while (index < length) { result[resIndex++] = array.slice(index, (index += size)); } return result as T[][]; } /** * Takes a multidimensional array and converts it to a one-dimensional array. * * @param {Array} nestedArray The array to be flattened. * @example * * flatten([['a', 'b'], ['c', 'd']]) * // => ['a', 'b', 'c', 'd'] * */ export function flatten(nestedArray: T[][]) { const result = []; (function loop(array: T[] | T[][]) { for (let i = 0; i < array.length; i++) { if (Array.isArray(array[i])) { loop(array[i] as T[]); } else { result.push(array[i]); } } })(nestedArray); //TODO: check logic in MicrosoftSql.node.ts return result as any; } export function updateDisplayOptions( displayOptions: IDisplayOptions, properties: INodeProperties[], ) { return properties.map((nodeProperty) => { return { ...nodeProperty, displayOptions: merge({}, nodeProperty.displayOptions, displayOptions), }; }); } export function processJsonInput(jsonData: T, inputName?: string) { let values; const input = `'${inputName}' ` || ''; if (typeof jsonData === 'string') { try { values = jsonParse(jsonData); } catch (error) { throw new Error(`Input ${input}must contain a valid JSON`); } } else if (typeof jsonData === 'object') { values = jsonData; } else { throw new Error(`Input ${input}must contain a valid JSON`); } return values; } function isFalsy(value: T) { if (isNull(value)) return true; if (typeof value === 'string' && value === '') return true; if (Array.isArray(value) && value.length === 0) return true; return false; } const parseStringAndCompareToObject = (str: string, arr: IDataObject) => { try { const parsedArray = jsonParse(str); return isEqual(parsedArray, arr); } catch (error) { return false; } }; export const fuzzyCompare = (useFuzzyCompare: boolean, compareVersion = 1) => { if (!useFuzzyCompare) { //Fuzzy compare is false we do strict comparison return (item1: T, item2: U) => isEqual(item1, item2); } return (item1: T, item2: U) => { //Both types are the same, so we do strict comparison if (!isNull(item1) && !isNull(item2) && typeof item1 === typeof item2) { return isEqual(item1, item2); } if (compareVersion >= 2) { //Null, 0 and "0" treated as equal if (isNull(item1) && (isNull(item2) || item2 === 0 || item2 === '0')) { return true; } if (isNull(item2) && (isNull(item1) || item1 === 0 || item1 === '0')) { return true; } } //Null, empty strings, empty arrays all treated as the same if (isFalsy(item1) && isFalsy(item2)) return true; //When a field is missing in one branch and isFalsy() in another, treat them as matching if (isFalsy(item1) && item2 === undefined) return true; if (item1 === undefined && isFalsy(item2)) return true; //Compare numbers and strings representing that number if (typeof item1 === 'number' && typeof item2 === 'string') { return item1.toString() === item2; } if (typeof item1 === 'string' && typeof item2 === 'number') { return item1 === item2.toString(); } //Compare objects/arrays and their stringified version if (!isNull(item1) && typeof item1 === 'object' && typeof item2 === 'string') { return parseStringAndCompareToObject(item2, item1 as IDataObject); } if (!isNull(item2) && typeof item1 === 'string' && typeof item2 === 'object') { return parseStringAndCompareToObject(item1, item2 as IDataObject); } //Compare booleans and strings representing the boolean (’true’, ‘True’, ‘TRUE’) if (typeof item1 === 'boolean' && typeof item2 === 'string') { if (item1 === true && item2.toLocaleLowerCase() === 'true') return true; if (item1 === false && item2.toLocaleLowerCase() === 'false') return true; } if (typeof item2 === 'boolean' && typeof item1 === 'string') { if (item2 === true && item1.toLocaleLowerCase() === 'true') return true; if (item2 === false && item1.toLocaleLowerCase() === 'false') return true; } //Compare booleans and the numbers/string 0 and 1 if (typeof item1 === 'boolean' && typeof item2 === 'number') { if (item1 === true && item2 === 1) return true; if (item1 === false && item2 === 0) return true; } if (typeof item2 === 'boolean' && typeof item1 === 'number') { if (item2 === true && item1 === 1) return true; if (item2 === false && item1 === 0) return true; } if (typeof item1 === 'boolean' && typeof item2 === 'string') { if (item1 === true && item2 === '1') return true; if (item1 === false && item2 === '0') return true; } if (typeof item2 === 'boolean' && typeof item1 === 'string') { if (item2 === true && item1 === '1') return true; if (item2 === false && item1 === '0') return true; } return isEqual(item1, item2); }; }; export function wrapData(data: IDataObject | IDataObject[]): INodeExecutionData[] { if (!Array.isArray(data)) { return [{ json: data }]; } return data.map((item) => ({ json: item, })); } export const keysToLowercase = (headers: T) => { if (typeof headers !== 'object' || Array.isArray(headers) || headers === null) return headers; return Object.entries(headers).reduce((acc, [key, value]) => { acc[key.toLowerCase()] = value as IDataObject; return acc; }, {} as IDataObject); }; /** * Formats a private key by removing unnecessary whitespace and adding line breaks. * @param privateKey - The private key to format. * @returns The formatted private key. */ export function formatPrivateKey(privateKey: string): string { if (!privateKey || /\n/.test(privateKey)) { return privateKey; } let formattedPrivateKey = ''; const parts = privateKey.split('-----').filter((item) => item !== ''); parts.forEach((part) => { const regex = /(PRIVATE KEY|CERTIFICATE)/; if (regex.test(part)) { formattedPrivateKey += `-----${part}-----`; } else { const passRegex = /Proc-Type|DEK-Info/; if (passRegex.test(part)) { part = part.replace(/:\s+/g, ':'); formattedPrivateKey += part.replace(/\\n/g, '\n').replace(/\s+/g, '\n'); } else { formattedPrivateKey += part.replace(/\\n/g, '\n').replace(/\s+/g, '\n'); } } }); return formattedPrivateKey; } /** * @TECH_DEBT Explore replacing with handlebars */ export function getResolvables(expression: string) { if (!expression) return []; const resolvables = []; const resolvableRegex = /({{[\s\S]*?}})/g; let match; while ((match = resolvableRegex.exec(expression)) !== null) { if (match[1]) { resolvables.push(match[1]); } } return resolvables; } /** * Flattens an object with deep data * * @param {IDataObject} data The object to flatten */ export function flattenObject(data: IDataObject) { const returnData: IDataObject = {}; for (const key1 of Object.keys(data)) { if (data[key1] !== null && typeof data[key1] === 'object') { if (data[key1] instanceof Date) { returnData[key1] = data[key1]?.toString(); continue; } const flatObject = flattenObject(data[key1] as IDataObject); for (const key2 in flatObject) { if (flatObject[key2] === undefined) { continue; } returnData[`${key1}.${key2}`] = flatObject[key2]; } } else { returnData[key1] = data[key1]; } } return returnData; }