import type { IExecuteFunctions, IDataObject, INodeExecutionData, INodeType, INodeTypeDescription, } from 'n8n-workflow'; import { NodeConnectionType, deepCopy } from 'n8n-workflow'; import get from 'lodash/get'; import set from 'lodash/set'; import unset from 'lodash/unset'; interface IRenameKey { currentKey: string; newKey: string; } export class RenameKeys implements INodeType { description: INodeTypeDescription = { displayName: 'Rename Keys', name: 'renameKeys', icon: 'fa:edit', iconColor: 'crimson', group: ['transform'], version: 1, description: 'Update item field names', defaults: { name: 'Rename Keys', color: '#772244', }, inputs: [NodeConnectionType.Main], outputs: [NodeConnectionType.Main], properties: [ { displayName: 'Keys', name: 'keys', placeholder: 'Add new key', description: 'Adds a key which should be renamed', type: 'fixedCollection', typeOptions: { multipleValues: true, sortable: true, }, default: {}, options: [ { displayName: 'Key', name: 'key', values: [ { displayName: 'Current Key Name', name: 'currentKey', type: 'string', default: '', placeholder: 'currentKey', requiresDataPath: 'single', description: 'The current name of the key. It is also possible to define deep keys by using dot-notation like for example: "level1.level2.currentKey".', }, { displayName: 'New Key Name', name: 'newKey', type: 'string', default: '', placeholder: 'newKey', description: 'The name the key should be renamed to. It is also possible to define deep keys by using dot-notation like for example: "level1.level2.newKey".', }, ], }, ], }, { displayName: 'Additional Options', name: 'additionalOptions', type: 'collection', default: {}, placeholder: 'Add option', options: [ { displayName: 'Regex', name: 'regexReplacement', placeholder: 'Add new regular expression', description: 'Adds a regular expressiond', type: 'fixedCollection', typeOptions: { multipleValues: true, sortable: true, }, default: {}, options: [ { displayName: 'Replacement', name: 'replacements', values: [ { displayName: 'Be aware that by using regular expression previously renamed keys can be affected', name: 'regExNotice', type: 'notice', default: '', }, { displayName: 'Regular Expression', name: 'searchRegex', type: 'string', default: '', placeholder: 'e.g. [N-n]ame', description: 'Regex to match the key name', hint: 'Learn more and test RegEx here', }, { displayName: 'Replace With', name: 'replaceRegex', type: 'string', default: '', placeholder: 'replacedName', description: "The name the key/s should be renamed to. It's possible to use regex captures e.g. $1, $2, ...", }, { displayName: 'Options', name: 'options', type: 'collection', default: {}, placeholder: 'Add Regex Option', options: [ { displayName: 'Case Insensitive', name: 'caseInsensitive', type: 'boolean', description: 'Whether to use case insensitive match', default: false, }, { displayName: 'Max Depth', name: 'depth', type: 'number', default: -1, description: 'Maximum depth to replace keys', hint: 'Specify number for depth level (-1 for unlimited, 0 for top level only)', }, ], }, ], }, ], }, ], }, ], }; async execute(this: IExecuteFunctions): Promise { const items = this.getInputData(); const returnData: INodeExecutionData[] = []; let item: INodeExecutionData; let newItem: INodeExecutionData; let renameKeys: IRenameKey[]; let value: any; const renameKey = (key: IRenameKey) => { if (key.currentKey === '' || key.newKey === '' || key.currentKey === key.newKey) { // Ignore all which do not have all the values set or if the new key is equal to the current key return; } value = get(item.json, key.currentKey); if (value === undefined) { return; } set(newItem.json, key.newKey, value); unset(newItem.json, key.currentKey); }; const regexReplaceKey = (replacement: IDataObject) => { const { searchRegex, replaceRegex, options } = replacement; const { depth, caseInsensitive } = options as IDataObject; const flags = (caseInsensitive as boolean) ? 'i' : undefined; const regex = new RegExp(searchRegex as string, flags); const renameObjectKeys = (obj: IDataObject, objDepth: number) => { for (const key in obj) { if (Array.isArray(obj)) { // Don't rename array object references if (objDepth !== 0) { renameObjectKeys(obj[key] as IDataObject, objDepth - 1); } } else if (obj.hasOwnProperty(key)) { if (typeof obj[key] === 'object' && objDepth !== 0) { renameObjectKeys(obj[key] as IDataObject, objDepth - 1); } if (key.match(regex)) { const newKey = key.replace(regex, replaceRegex as string); if (newKey !== key) { obj[newKey] = obj[key]; delete obj[key]; } } } } return obj; }; newItem.json = renameObjectKeys(newItem.json, depth as number); }; for (let itemIndex = 0; itemIndex < items.length; itemIndex++) { renameKeys = this.getNodeParameter('keys.key', itemIndex, []) as IRenameKey[]; const regexReplacements = this.getNodeParameter( 'additionalOptions.regexReplacement.replacements', itemIndex, [], ) as IDataObject[]; item = items[itemIndex]; // Copy the whole JSON data as data on any level can be renamed newItem = { json: deepCopy(item.json), pairedItem: { item: itemIndex, }, }; if (item.binary !== undefined) { // Reference binary data if any exists. We can reference it // as this nodes does not change it newItem.binary = item.binary; } renameKeys.forEach(renameKey); regexReplacements.forEach(regexReplaceKey); returnData.push(newItem); } return [returnData]; } }