I'm trying to build a simple editor. Currently the code looks like (relevant pieces only):

class Editor {
  private project: Project;

  private handlers = {
    // those will do something more meaningful
    'add-table': (project: Project, details: { name: string }) => project,
    'remove-table': (project: Project, details: { uuid: string }) => project,

  dispatch(action: { name: string, details: any }) {
    this.project = this.handlers[action.name](this.project, action.details);

Now I'd like to add type safety. So when I add a table, I have to call

editor.dispatch({ name: 'add-table', details: { name: 'MyNewTable' } })

So far the closest I could get was:

  N extends keyof Editor['handlers'],
  D extends Parameters<Editor['handlers'][N]>[1]
  action: { name: N, details: D }
) {
  // function body...

(if N is a key of handlers, then D is the type of second argument of a function that's stored in handlers under the key N).

How do I type this thing properly? If I can achieve type safety in a different way, I will accept such answer as well.

| |
  • What's exactly problem with your solution? – zhuber Aug 10 at 15:53
  • Argument of type 'D' is not assignable to parameter of type '{ name: string; } & { uuid: string; }'. One of the reasons is: Type '{ name: string; } | { uuid: string; }' is not assignable to type '{ name: string; } & { uuid: string; }'. – Paweł Lis Aug 10 at 16:01
  • And that error is happening... where? I can guess it's in the implementation, and you're probably just going to want to use a type assertion and move on, as these sort of "correlated" values, microsoft/TypeScript#30851 are not really well-supported – jcalz Aug 10 at 16:44
  • this was in the implementation. First line of dispatch was just const result = this.handlers[action.name](this.project, action.details). "details" was highlighted – Paweł Lis Aug 10 at 18:42

There's two sides of dispatch()... the call signature, seen by the caller, and the implementation, not seen by the caller. Your proposed solution should mostly work for the caller, right? It prevents callers from (easily) passing the wrong parameters.

But inside the implementation, it doesn't "work". This is a known limitation of TypeScript. The compiler does not maintain the correlation between action.name and action.details when it comes time to call the function. It (correctly) interprets this.handlers[action.name] as (a subtype of) a union of function types. It also (correctly) interprets action.details as (a subtype of) a union of parameter types to those functions. Unfortunately, it treats these unions as independent of each other, which they are not. The compiler is unnecessarily concerned that perhaps action.name will be from one handler and action.details will be from another. And there's no great way to fix this.

I've opened an issue about this, microsoft/TypeScript#30851, but mostly just as a way to make a note this limitation. I don't see any fix on the horizon; a naive "keep track of everything" approach would not be scalable. I had made a suggestion to allow developers to ask for extra control flow analysis in certain scopes (microsoft/TypeScript#25051), but that would be too complicated for developers to use.

For now, you have to work around it. You could write redundant code that walks through each possibility manually. But the easiest workaround is just to use a type assertion to tell the compiler to stop worrying:

this.project = this.handlers[action.name](this.project, action.details as any);

This is what I usually do; you can tailor your type assertion to be less unsafe than any, such as the intersection mentioned in the error message, but I rarely find that to be worth the effort.

As an aside, your call signature doesn't need to be generic to be safe from the caller's side. You could calculate the type of action as a union, like this:

type Handlers = Editor['handlers']
type Action = { [K in keyof Handlers]: { name: K, details: Parameters<Handlers[K]>[1] } }[keyof Handlers];

And then dispatch would just take an Action:

  dispatch(action: Action) {
    this.project = this.handlers[action.name](this.project, action.details as any);

Okay, hope that helps; good luck!

Playground link to code

| |
  • Could you provide a little more info, or a link, to this syntax? type Action = { [K in keyof Handlers]: { name: K, details: Parameters<Handlers[K]>[1] } }[ keyof Editor['handlers']]; The [keyof Editor['handlers']] part specifically. What is it doing, is it turning an object into union of it's values? Is that a good way to read that? – Paweł Lis Aug 10 at 18:41
  • I should have just written [keyof Handlers] since I defined type Handlers = Editor['handlers']... edited that above. – jcalz Aug 10 at 18:48
  • Now, for your question: the {[K in keyof Handlers]: {name: K, details: ...}} part is a mapped type. And if you have an object type T and a key K of that type (or union of keys) then T[K] looks up the property types (or union of property types) at that key. Combining those two takes a keylike union (keyof Handlers), maps it to an object and then gets the union of its value types. – jcalz Aug 10 at 18:52
  • If I have a union of keys KS and a type function F<> to apply to each of those keys you can use this syntax to distribute F over the union KS: {[K in KS]: F<K>}[KS]. You can also do that with distributive conditional types but it's a bit more cumbersome. – jcalz Aug 10 at 18:54

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.