I've a lot of tables in Lovefield and their respective Interfaces for what columns they have.


export interface IMyTable {
  id: number;
  title: string;
  createdAt: Date;
  isDeleted: boolean;

I'd like to have the property names of this interface in an array like this:

const IMyTable = ["id", "title", "createdAt", "isDeleted"];

I cannot make an object/array based on the interface IMyTable directly which should do the trick because I'd be getting the interface names of the tables dynamically. Hence I need to iterate over these properties in the interface and get an array out of it.

How do I achieve this result?

  • @andnik Marked answers aren't always the best or correct answers but SELECTED answers that work for the OP. None of the answers worked for me when I asked this question. I haven't gone in such details afterward so please feel free to try these answers and upvote them so that other's can understand what's the most used answer. Thanks. Jul 12 at 8:04
  • 1
    This answer is the most correct in my opinion, unfortunately there's not easier way as mentioned: stackoverflow.com/questions/43909566/…
    – andnik
    Jul 12 at 13:00
  • @TusharShukla , hi, did you find the answer?
    – qwerty
    Sep 13 at 10:42

11 Answers 11


As of TypeScript 2.3 (or should I say 2.4, as in 2.3 this feature contains a bug which has been fixed in typescript@2.4-dev), you can create a custom transformer to achieve what you want to do.

Actually, I have already created such a custom transformer, which enables the following.


import { keys } from 'ts-transformer-keys';

interface Props {
  id: string;
  name: string;
  age: number;
const keysOfProps = keys<Props>();

console.log(keysOfProps); // ['id', 'name', 'age']

Unfortunately, custom transformers are currently not so easy to use. You have to use them with the TypeScript transformation API instead of executing tsc command. There is an issue requesting a plugin support for custom transformers.

  • Thanks for your response, i already saw and installed this custom transformer yesterday but since this uses typescript 2.4, this of no use to me as of now. May 12 '17 at 6:08
  • 29
    Hi, this library serves exactly my requirement too, however, I am getting ts_transformer_keys_1.keys is not a function when i follow the exact steps in the documentation. is there a workaround this? Aug 3 '17 at 9:44
  • Neat! Do you think it can be extended to take a dynamic type parameter (note 2 in the readme)?
    – kenshin
    Sep 5 '17 at 9:19
  • @HasithaShan look closely into docs - you have to use TypeScript compiler API in order package to work Feb 1 '18 at 3:45
  • 9
    Unfortunately, the package is broken, whatever I do I am always getting ts_transformer_keys_1.keys is not a function
    – fr1sk
    Jun 1 '20 at 17:47

Maybe it's too late, but in version 2.1 of TypeScript you can use keyof to get the type like this:

interface Person {
    name: string;
    age: number;
    location: string;

type K1 = keyof Person; // "name" | "age" | "location"
type K2 = keyof Person[];  // "length" | "push" | "pop" | "concat" | ...
type K3 = keyof { [x: string]: Person };  // string

Source: https://www.typescriptlang.org/docs/handbook/release-notes/typescript-2-1.html#keyof-and-lookup-types

  • 3
    Thanks for the answer but not sure if it helps someone to use statically created Types from interface. IMHO, we can use interfaces/types interchangeably in most of the cases. Plus this would require manual creation of types for multiple interfaces. However the solution looks good if someone just needs to get types out of an interface. Jun 22 '20 at 4:26
  • 40
    I downvoted because this does not solve the question as stated. The goal is to get a list of string[] out of a type; not to get the key-type with keyof MyType. Jun 1 at 23:04

I faced a similar problem: I had a giant list of properties that I wanted to have both as an interface (compile-time), and an object (run-time) out of it.

NOTE: I didn't want to write (type with keyboard) the properties twice! DRY.

One thing to note here is, interfaces are enforced types at compile-time, while objects are mostly run-time. (Source)

As @derek mentioned in another answer, the common denominator of interface and object can be a class that serves both a type and a value.

So, TL;DR, the following piece of code should satisfy the needs:

class MyTableClass {
    // list the propeties here, ONLY WRITTEN ONCE
    id = "";
    title = "";
    isDeleted = false;

// ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~

// This is the pure interface version, to be used/exported
interface IMyTable extends MyTableClass { };

// ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~

// Props type as an array, to be exported
type MyTablePropsArray = Array<keyof IMyTable>;

// Props array itself!
const propsArray: MyTablePropsArray =
    Object.keys(new MyTableClass()) as MyTablePropsArray;

console.log(propsArray); // prints out  ["id", "title", "isDeleted"]

// ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~

// Example of creating a pure instance as an object
const tableInstance: MyTableClass = { // works properly!
    id: "3",
    title: "hi",
    isDeleted: false,

(Here is the above code in Typescript Playground to play more)

PS. If you don't want to assign initial values to the properties in the class, and stay with the type, you can do the constructor trick:

class MyTableClass {
    // list the propeties here, ONLY WRITTEN ONCE
        readonly id?: string,
        readonly title?: string,
        readonly isDeleted?: boolean,
    ) {}

console.log(Object.keys(new MyTableClass()));  // prints out  ["id", "title", "isDeleted"] 

Constructor Trick in TypeScript Playground.

  • The propsArray is only accessible when you initialized the keys though.
    – denkquer
    Apr 12 '20 at 10:53
  • 1
    In my understanding a value is initialized when it has any value. Your "constructor trick" is misleading because you can't just replace the MyTableClass with the latter one and expect to receive keys in the propsArray as uninitialized vars and types are stripped at runtime. You always have to supply them with some kind of default value. I've found that initializing them with undefined is the best approach.
    – denkquer
    Apr 14 '20 at 10:59
  • 1
    @Aidin thank you for your solution. I'm also wondering if I can avoid the initialisation of the parameters. If I use the constructor trick I cant create an interface anymore that extends MyTableClass .. your constructor trick in typescript playground link is empty though
    – Flion
    Sep 11 '20 at 4:56
  • 1
    @Flion, thanks for noticing it. I just updated the playground link for the constructor trick. See if it works now.
    – Aidin
    Sep 15 '20 at 11:01
  • 1
    @MichaSchwab I believe that can be a separate question. In short, TypeScript is a compiler that turns your TypeScript code into JavaScript; and then it's the JavaScript that runs by Node/Browser at runtime. So, expecting a compile type thing (TypeScript type), find its way into runtime is kinda wrong in terms of the way of thinking. You can, however, use vanilla JavaScript's typeof operator at your convenience for RunTime type checking.
    – Aidin
    May 31 at 19:10

The following requires you to list the keys on your own, but at least TypeScript will enforce IUserProfile and IUserProfileKeys have the exact same keys (Required<T> was added in TypeScript 2.8):

export interface IUserProfile  {
  id: string;
  name: string;
type KeysEnum<T> = { [P in keyof Required<T>]: true };
const IUserProfileKeys: KeysEnum<IUserProfile> = {
  id: true,
  name: true,
  • 3
    Pretty cool trick. Now it's easy to enforce implementing all keys of IUserProfile and would be easy to extract them from the const IUserProfileKeys. This is exactly what I've been looking for. No need to convert all my interfaces to classes now.
    – Anddo
    Jul 29 '20 at 7:58

Safe variants

Creating an array or tuple of keys from an interface with safety compile-time checks requires a bit of creativity. Types are erased at run-time and object types (unordered, named) cannot be converted to tuple types (ordered, unnamed) without resorting to non-supported techniques.

Comparison to other answers

The here proposed variants all consider/trigger a compile error in case of duplicate or missing tuple items given a reference object type like IMyTable. For example declaring an array type of (keyof IMyTable)[] cannot catch these errors.

In addition, they don't require a specific library (last variant uses ts-morph, which I would consider a generic compiler wrapper), emit a tuple type as opposed to an object (only first solution creates an array) or wide array type (compare to these answers) and lastly don't need classes.

Variant 1: Simple typed array

// Record type ensures, we have no double or missing keys, values can be neglected
function createKeys(keyRecord: Record<keyof IMyTable, any>): (keyof IMyTable)[] {
  return Object.keys(keyRecord) as any

const keys = createKeys({ isDeleted: 1, createdAt: 1, title: 1, id: 1 })
// const keys: ("id" | "title" | "createdAt" | "isDeleted")[]

+ easiest +- manual with auto-completion - array, no tuple


If you don't like creating a record, take a look at this alternative with Set and assertion types.

Variant 2: Tuple with helper function

function createKeys<T extends readonly (keyof IMyTable)[] | [keyof IMyTable]>(
    t: T & CheckMissing<T, IMyTable> & CheckDuplicate<T>): T {
    return t

+ tuple +- manual with auto-completion +- more advanced, complex types



createKeys does compile-time checks by merging the function parameter type with additional assertion types, that emit an error for not suitable input. (keyof IMyTable)[] | [keyof IMyTable] is a "black magic" way to force inference of a tuple instead of an array from the callee side. Alternatively, you can use const assertions / as const from caller side.

CheckMissing checks, if T misses keys from U:

type CheckMissing<T extends readonly any[], U extends Record<string, any>> = {
    [K in keyof U]: K extends T[number] ? never : K
}[keyof U] extends never ? T : T & "Error: missing keys"

type T1 = CheckMissing<["p1"], {p1:any, p2:any}> //["p1"] & "Error: missing keys"
type T2 = CheckMissing<["p1", "p2"], { p1: any, p2: any }> // ["p1", "p2"]

Note: T & "Error: missing keys" is just for nice IDE errors. You could also write never. CheckDuplicates checks double tuple items:

type CheckDuplicate<T extends readonly any[]> = {
    [P1 in keyof T]: "_flag_" extends
    { [P2 in keyof T]: P2 extends P1 ? never :
        T[P2] extends T[P1] ? "_flag_" : never }[keyof T] ?
    [T[P1], "Error: duplicate"] : T[P1]

type T3 = CheckDuplicate<[1, 2, 3]> // [1, 2, 3]
type T4 = CheckDuplicate<[1, 2, 1]> 
// [[1, "Error: duplicate"], 2, [1, "Error: duplicate"]]

Note: More infos on unique item checks in tuples are in this post. With TS 4.1, we also can name missing keys in the error string - take a look at this Playground.

Variant 3: Recursive type

With version 4.1, TypeScript officially supports conditional recursive types, which can be potentially used here as well. Though, the type computation is expensive due to combinatory complexity - performance degrades massively for more than 5-6 items. I list this alternative for completeness (Playground):

type Prepend<T, U extends any[]> = [T, ...U] // TS 4.0 variadic tuples

type Keys<T extends Record<string, any>> = Keys_<T, []>
type Keys_<T extends Record<string, any>, U extends PropertyKey[]> =
    [P in keyof T]: {} extends Omit<T, P> ? [P] : Prepend<P, Keys_<Omit<T, P>, U>>
  }[keyof T]

const t1: Keys<IMyTable> = ["createdAt", "isDeleted", "id", "title"] // ✔

+ tuple +- manual with auto-completion + no helper function -- performance

Variant 4: Code generator / TS compiler API

ts-morph is chosen here, as it is a tad simpler wrapper alternative to the original TS compiler API. Of course, you can also use the compiler API directly. Let's look at the generator code:

// ./src/mybuildstep.ts
import {Project, VariableDeclarationKind, InterfaceDeclaration } from "ts-morph";

const project = new Project();
// source file with IMyTable interface
const sourceFile = project.addSourceFileAtPath("./src/IMyTable.ts"); 
// target file to write the keys string array to
const destFile = project.createSourceFile("./src/generated/IMyTable-keys.ts", "", {
  overwrite: true // overwrite if exists

function createKeys(node: InterfaceDeclaration) {
  const allKeys = node.getProperties().map(p => p.getName());
    declarationKind: VariableDeclarationKind.Const,
    declarations: [{
        name: "keys",
        initializer: writer =>
          writer.write(`${JSON.stringify(allKeys)} as const`)

destFile.saveSync(); // flush all changes and write to disk

After we compile and run this file with tsc && node dist/mybuildstep.js, a file ./src/generated/IMyTable-keys.ts with following content is generated:

// ./src/generated/IMyTable-keys.ts
const keys = ["id","title","createdAt","isDeleted"] as const;

+ auto-generating solution + scalable for multiple properties + no helper function + tuple - extra build-step - needs familiarity with compiler API


This should work

var IMyTable: Array<keyof IMyTable> = ["id", "title", "createdAt", "isDeleted"];


var IMyTable: (keyof IMyTable)[] = ["id", "title", "createdAt", "isDeleted"];
  • 28
    Not that it's wrong, but to be clear here you are just "enforcing the values of the array" to be correct. The developer still needs to write them down twice, manually.
    – Aidin
    Jan 19 '20 at 20:52
  • While what Aidin said might be true, for some cases, this was exactly what I was looking for, for my case. Thank you.
    – Daniel
    Mar 22 '20 at 19:46
  • 7
    This won't prevent key duplicates or missing keys. Like var IMyTable: Array<keyof IMyTable> = ["id", "createdAt", "id"];
    – ford04
    Mar 30 '20 at 12:32
  • For me it was also what I was looking for because I want to optionally accept the keys but nothing more than the keys defined in the interface. Didn't expect this to be default with the above code. I guess we would still need a common TS way for that. Thanks in any case for the above code!
    – nicoes
    Apr 26 '20 at 9:16

Instead of defining IMyTable as in interface, try defining it as a class. In typescript you can use a class like an interface.

So for your example, define/generate your class like this:

export class IMyTable {
        public id = '',
        public title = '',
        public createdAt: Date = null,
        public isDeleted = false

Use it as an interface:

export class SomeTable implements IMyTable {

Get keys:

const keys = Object.keys(new IMyTable());

You will need to make a class that implements your interface, instantiate it and then use Object.keys(yourObject) to get the properties.

export class YourClass implements IMyTable {


let yourObject:YourClass = new YourClass();
Object.keys(yourObject).forEach((...) => { ... });
  • Doesn't work in my case, i'd have to list those properties of the interface but that is not what i want? Name of interface comes dynamically and then i've to determine its properties May 11 '17 at 8:33
  • This produces an error (v2.8.3): Cannot extend an interface […]. Did you mean 'implements'? However, using implements instead requires manually copying the interface, which is exactly what I don't want. May 6 '18 at 11:44
  • @jacob sorry, it should have been implements and I have updated my answer. As @basarat has stated, interfaces don't exist at runtime so the only way is to implement it as a class.
    – Dan Def
    May 6 '18 at 20:04
  • You mean instead of an interface use a class? Unfortunately I cannot as the interface comes from a 3rd-party (@types/react). I manually copied them, but that's hardly future-proof 😪 I'm trying to dynamically bind non-lifecycle methods (which are already bound), but they're not declared on React.Component (the class). May 6 '18 at 20:41
  • No, I mean create a class that implements your 3rd party interface and get the properties of that class at runtime.
    – Dan Def
    May 8 '18 at 11:18

This was a tough one! Thank you, everyone, for your assistance.

My need was to get keys of an interface as an array of strings to simplify mocha/chai scripting. Not concerned about using in the app (yet), so didn't need the ts files to be created. Thanks to ford04 for the assistance, his solution above was a huge help and it works perfectly, NO compiler hacks. Here's the modified code:

Option 2: Code generator based on TS compiler API (ts-morph)

Node Module

npm install --save-dev ts-morph


NOTE: this assumes all ts files are located in the root of ./src and there are no subfolders, adjust accordingly

import {
} from "ts-morph";

// initName is name of the interface file below the root, ./src is considered the root
const Keys = (intName: string): string[] => {
  const project = new Project();
  const sourceFile = project.addSourceFileAtPath(`./src/${intName}.ts`);
  const node = sourceFile.getInterface(intName)!;
  const allKeys = node.getProperties().map((p) => p.getName());

  return allKeys;

export default Keys;


import keys from "./keys";

const myKeys = keys("MyInterface") //ts file name without extension


Can't. Interfaces don't exist at runtime.

A workaround:

Create a variable of the type and use Object.keys on it 🌹

  • 1
    Do you mean like this: var abc: IMyTable = {}; Object.keys(abc).forEach((key) => {console.log(key)}); May 11 '17 at 8:18
  • 4
    Nope, because that object has no keys on it. An interface is something that TypeScript uses but evaporates in the JavaScript, so there's no information left to inform any "reflection" or "interspection". All JavaScript knows is that there's an empty object literal. Your only hope is to wait for (or request that) TypeScript includes a way to generate an array or object with all the keys in the interface into the source code. Or, as Dan Def says, if you can use a class, you will have the keys defined in the form of properties in every instance..
    – Jesper
    May 11 '17 at 10:03
  • 22
    If this does not work, why there are upvotes on this answer?
    – dawez
    Jun 18 '19 at 15:50
  • 3
    downvote reason: no mention that it does not work for nullable values Oct 31 '19 at 19:18
  • 4
    It's ultimately not a great solution because you have to supply values. Probably better off just keeping a list of keys. Feb 21 '20 at 23:15
// declarations.d.ts
export interface IMyTable {
      id: number;
      title: string;
      createdAt: Date;
      isDeleted: boolean
declare var Tes: IMyTable;
// call in annother page
  • 1
    This code will not work as the typescript syntax is not available on run-time. If you check this code on typescript playground then you'll notice that the only thing that compiles to JavaScript is console.log(Tes.id) which of course would be error 'Uncaught ReferenceError: Tes is not defined' Oct 3 '19 at 8:10

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