Is it possible to restrict typescript object to contain only properties defined by its class?

Question

Here is my code

async getAll(): Promise {
    return await dbQuery(); // dbQuery returns User[]
}

class User {
    id: number;
    na         


        

Answer 1

Typescript uses structural typing instead of nominal typing to determine type equality. This means that a type definition is really just the "shape" of a object of that type. It also means that any types which shares a subset of another type's "shape" is implicitly a subclass of that type.

In your example, because a User has all of the properties of GetAllUserData, User is implicitly a subtype of GetAllUserData.

To solve this problem, you can add a dummy property specifically to make your two classes different from one another. This type of property is called a discriminator. (Search for discriminated union here).

Your code might look like this. The name of the discriminator property is not important. Doing this will produce a type check error like you want.

async function getAll(): Promise<GetAllUserData[]> {
  return await dbQuery(); // dbQuery returns User[]
}

class User {
  discriminator: 'User';
  id: number;
  name: string;
}

class GetAllUserData {
  discriminator: 'GetAllUserData';
  id: number;
}

Answer 2

Following up on GregL's answer, I'd like to add support for arrays and make sure that if you've got one, all the objects in the array have no extra props:

type Impossible<K extends keyof any> = {
  [P in K]: never;
};

export type NoExtraProperties<T, U extends T = T> = U extends Array<infer V>
  ? NoExtraProperties<V>[]
  : U & Impossible<Exclude<keyof U, keyof T>>;

Note: The type recursion is only possible if you've got TS 3.7 (included) or above.

Answer 3

The accepted answer, with a discriminator, is right. TypeScript uses structural typing instead of nominal typing. It means that the transpiler will check to see if the structure match. Since both classes (could be interface or type) has id of type number it matches, hence interchangeable (this is true one side since User is having more properties.

While this might be good enough, the issue is that at runtime the returned data from your method getAll will contains the name property. Returning more might not be an issue, but could be if you are sending back the information somewhere else.

If you want to restrict the data to only what is defined in the class (interface or type), you have to build or spread a new object manually. Here is how it can look for your example:

function dbQuery(): User[] {
    return [];
}
function getAll(): GetAllUserData[] {
    const users: User[] = dbQuery();
    const usersIDs: GetAllUserData[] = users.map(({id}) => ({id}));
    return usersIDs;
}

class User {
    id: number;
    name: string;
}

class GetAllUserData {
    id: number;
}

Without going with the runtime approach of pruning the fields, you could indicate to TypeScript that both classes are different with a private field. The code below won't let you return a User when the return type is set to GetAllUserData

class User {

    id: number;
    name: string;
}

class GetAllUserData {
    private _unique: void;
    id: number;
}
function getAll(): GetAllUserData[] {
    return dbQuery(); // Doesn't compile here!
}

Answer 4

I figured out a way, using built-in types available since TypeScript version 3, to ensure that an object passed to a function does not contain any properties beyond those in a specified (object) type.

// First, define a type that, when passed a union of keys, creates an object which 
// cannot have those properties. I couldn't find a way to use this type directly,
// but it can be used with the below type.
type Impossible<K extends keyof any> = {
  [P in K]: never;
};

// The secret sauce! Provide it the type that contains only the properties you want,
// and then a type that extends that type, based on what the caller provided
// using generics.
type NoExtraProperties<T, U extends T = T> = U & Impossible<Exclude<keyof U, keyof T>>;

// Now let's try it out!

// A simple type to work with
interface Animal {
  name: string;
  noise: string;
}

// This works, but I agree the type is pretty gross. But it might make it easier
// to see how this works.
//
// Whatever is passed to the function has to at least satisfy the Animal contract
// (the <T extends Animal> part), but then we intersect whatever type that is
// with an Impossible type which has only the keys on it that don't exist on Animal.
// The result is that the keys that don't exist on Animal have a type of `never`,
// so if they exist, they get flagged as an error!
function thisWorks<T extends Animal>(animal: T & Impossible<Exclude<keyof T, keyof Animal>>): void {
  console.log(`The noise that ${animal.name.toLowerCase()}s make is ${animal.noise}.`);
}

// This is the best I could reduce it to, using the NoExtraProperties<> type above.
// Functions which use this technique will need to all follow this formula.
function thisIsAsGoodAsICanGetIt<T extends Animal>(animal: NoExtraProperties<Animal, T>): void {
  console.log(`The noise that ${animal.name.toLowerCase()}s make is ${animal.noise}.`);
}

// It works for variables defined as the type
const okay: NoExtraProperties<Animal> = {
  name: 'Dog',
  noise: 'bark',
};

const wrong1: NoExtraProperties<Animal> = {
  name: 'Cat',
  noise: 'meow'
  betterThanDogs: false, // look, an error!
};

// What happens if we try to bypass the "Excess Properties Check" done on object literals
// by assigning it to a variable with no explicit type?
const wrong2 = {
  name: 'Rat',
  noise: 'squeak',
  idealScenarios: ['labs', 'storehouses'],
  invalid: true,
};

thisWorks(okay);
thisWorks(wrong1); // doesn't flag it as an error here, but does flag it above
thisWorks(wrong2); // yay, an error!

thisIsAsGoodAsICanGetIt(okay);
thisIsAsGoodAsICanGetIt(wrong1); // no error, but error above, so okay
thisIsAsGoodAsICanGetIt(wrong2); // yay, an error!

Answer 5

I don't think it's possible with the code structure you have. Typescript does have excess property checks, which sounds like what you're after, but they only work for object literals. From those docs:

Object literals get special treatment and undergo excess property checking when assigning them to other variables, or passing them as arguments.

But returned variables will not undergo that check. So while

function returnUserData(): GetAllUserData {
    return {id: 1, name: "John Doe"};
}

Will produce an error "Object literal may only specify known properties", the code:

function returnUserData(): GetAllUserData {
    const user = {id: 1, name: "John Doe"};
    return user;
}

Will not produce any errors, since it returns a variable and not the object literal itself.

So for your case, since getAll isn't returning a literal, typescript won't do the excess property check.

Final Note: There is an issue for "Exact Types" which if ever implemented would allow for the kind of check you want here.

Answer 6

Typescript can't restrict extra properties

Unfortunately this isn't currently possible in Typescript, and somewhat contradicts the shape nature of TS type checking.

Answers in this thread that relay on the generic NoExtraProperties are very elegant, but unfortunately they are unreliable, and can result in difficult to detect bugs.

I'll demonstrate with GregL's answer.

// From GregL's answer

type Impossible<K extends keyof any> = {
    [P in K]: never;
 };

 type NoExtraProperties<T, U extends T = T> = U & Impossible<Exclude<keyof U, keyof T>>;

 interface Animal {
    name: string;
    noise: string;
 }

 function thisWorks<T extends Animal>(animal: T & Impossible<Exclude<keyof T, keyof Animal>>): void {
    console.log(`The noise that ${animal.name.toLowerCase()}s make is ${animal.noise}.`);
 }

 function thisIsAsGoodAsICanGetIt<T extends Animal>(animal: NoExtraProperties<Animal, T>): void {
    console.log(`The noise that ${animal.name.toLowerCase()}s make is ${animal.noise}.`);
 }

 const wrong2 = {
    name: 'Rat',
    noise: 'squeak',
    idealScenarios: ['labs', 'storehouses'],
    invalid: true,
 };

 thisWorks(wrong2); // yay, an error!

 thisIsAsGoodAsICanGetIt(wrong2); // yay, an error!

This works if at the time of passing an object to thisWorks/thisIsAsGoodAsICanGet TS recognizes that the object has extra properties. But in TS if it's not an object literal, a value can always have extra properties:

const fun = (animal:Animal) =>{
    thisWorks(animal) // No Error
    thisIsAsGoodAsICanGetIt(animal) // No Error
}

fun(wrong2) // No Error

So, inside thisWorks/thisIsAsGoodAsICanGetIt you can't trust that the animal param doesn't have extra properties.

Solution

Simply use pick (Lodash, Ramda, Underscore).

interface Narrow {
   a: "alpha"
}

interface Wide extends Narrow{
   b: "beta" 
}

const fun = (obj: Narrow) => {
   const narrowKeys = ["a"]
   const narrow = pick(obj, narrowKeys) 
   // Even if obj has extra properties, we know for sure that narrow doesn't
   ...
}