Maybe generic TypeScript question. Consider such a simple filtering code:

interface User {
  id: number;
  name?: string;

const users: User[] = [
  { id: 1, name: 'aaa' },
  { id: 2  },
  { id: 3, name: 'bbb' },

  .filter(user => Boolean(user.name))
  // Object is possibly 'undefined'... why?
  .map(user => console.log(user.name.length));

I have filter out undefined in the filter block, but compiler persist says Object is possibly 'undefined'.

Could someone explain why TypeScript behave such things? Any good workaround of this.

NOTE: I want to use strictNullChecks option.



TypeScript is not smart enough to infer that your filter implies that user.name now cannot be falsey.

Apparently, there's a specific overload for Array#filter that deals with type guards:

// From lib.es5.d.ts
interface Array<T> {
  // ...
  filter<S extends T>(callbackfn: (value: T, index: number, array: T[]) => value is S, thisArg?: any): S[];
  // ...

Which means that if you pass a type-guard function to filter, the resulting array will be of the narrower type!

interface ConfirmedNameUser extends User {
  name: string; // no ?

// snip

  .filter((user): user is ConfirmedNameUser => Boolean(user.name)
  // no longer errors, type of user is ConfirmedNameUser and not User
  .map(user => console.log(user.name.length));

Playground Example

Alternatively, a less involved solution is to tell it to trust you that it's not undefined using the ! non-null assertion operator:

.map(user => console.log(user.name!.length));

Note that you should use the ! operation sparingly and only when you are 100% sure that TypeScript is being overzealous and that "you know better". The ! merely silences the warning, it does not do any sort of runtime check (as opposed to the proposed ?. and ?? operators).

Using ! where you should not might lead to runtime TypeErrors.

  • Yeah, using ! Is one of the quick fixes for that, though. I used to have a terrible experience with this, so now I'm looking for a different solution. – mitsuruog Mar 25 at 12:51
  • Your only other solution, (AFAIK) is to actualy check that user.name is not defined. – Madara Uchiha Mar 25 at 12:57
  • @mitsuruog It seems like I was wrong and that type narrowing via custom guards works with filter! I've edited my answer to reflect that. – Madara Uchiha Mar 25 at 14:48
  • I could finally have an excellent solution. Thanks! – mitsuruog Mar 26 at 12:13

Another solution is to use a type guard as your filter callback (put arg is T as the return type of the function), so that calls after the filter have the correct input type:

  .filter((user): user is Required<User> => !!user.name)
  .map(user => console.log(user.name.length));

In this case you can use the built-in mapped-type Required<T> since only the name is optional. But you could also use a type like { name: string } if you prefer.

  • I love this short name solution. – mitsuruog Mar 26 at 12:14

Another way to go here is to inform the compiler that your filter acts as a type guard:

interface NamedUser extends User {
  name: string;

  .filter((user: User): user is NamedUser => Boolean(user.name)) //annotated callback
  .map(user => console.log(user.name.length)); // okay now

I've introduced a type called NamedUser which is the same as User but where the name property is definitely present. Then I've annotated the callback to users.filter() as a type guard. This causes the compiler to select the following overload of filter() defined in the standard library:

interface Array<T> {
  filter<S extends T>(
    callbackfn: (value: T, index: number, array: T[]) => value is S, 
    thisArg?: any
  ): S[];

So the return value of users.filter() is now NamedUser[] instead of just User[]. And therefore the subsequent map() call works as expected.

There is a suggestion to have the compiler recognize boolean-valued callbacks like x => !!x or x => Boolean(x) as type guards. If that suggestion or something like it is ever implemented, your original code might be able to compile with no warning as-is. But for now you have to annotate it manually.

Hope that helps; good luck!


If you have some code that uses named users, I suggest to create a type for them:

type NamedUser = Required<User>

Then, you could use this kind of code:

const namedUsers = users.filter(user => Boolean(user.name)) as NamedUser[]
namedUsers.forEach(user => console.log(user.name.length));

Or with the type guard suggested by Aaron and jcalz:

function isNamedUser(user: User): user is NamedUser {
    return Boolean(user.name)

  .forEach(user => console.log(user.name.length));

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