TypeScript error during method overriding: Overriding vs Overloading

Question

I have 2 classes I am using as services in angular 9: class A and class B, class B extends A

class A{
 exportToCSV(data: any[], headers: any[]){
      ....
   }

}


class B extends A{
 exportToCSV(data: any[], headers: any[], metadata : any){
      ....
   }

}

It throws this error:

Property 'exportToCSV' in type 'B' is not assignable to the same property in base type 'A'. Type '(data: any[], headers: any[], metadata : any) => void' is not assignable to type '(data: any[], headers: any[]) => void'.ts(2416)

Based on the documents https://www.typescriptlang.org/docs/handbook/classes.html

this should work, but it doesn't. If I make the metadata optional however, it works (https://medium.com/@kevinkreuzer/typescript-method-overloading-c256dd63245a).

I am trying to override the method but instead it's overloading the method. Can someone explain why this is happening ?

Answer 1

This isn't a case of overloading, which in TypeScript means that a function or method may be called with multiple distinct call signatures, and whose (single) implementation must be compatible with all of them. Here your B class has a exportToCSV() method with a single call signature and implementation; no overloading here. This is just overriding (albeit an illegal override).

---

So you are overriding the exportToCSV() method from A with one from B. The problem is that the signature for B's method violates the contract from A. The basic principle involved in determining compatibility is substitutability (or the Liskov Substituion Principle): if B extends A is true, then you should be able to use a B in place of an A. If I ask for an A, and you hand me a B, I should be able to use it like an A without having anything blow up. Meaning the following line should be fine:

const a: A = new B(); // okay if B really extends A
a.exportToCSV([], []); // also okay if B really extends A

Things are a little murky because you've given the metadata parameter the intentionally unsafe any type, but if it were a regular type, it would be dangerous to do this. Like:

class B extends A {
    exportToCSV(data: any[], headers: any[], metadata: string) {
        metadata.toUpperCase();
    }
}

If metadata is a required parameter then the call a.exportToCsv([], []) would cause a runtime error. By changing metadata to an optional parameter, it is fixed because your implementation of the method in B knows that it can't rely on it being passed in:

class B extends A {
    exportToCSV(data: any[], headers: any[], metadata?: string) {
        metadata.toUpperCase(); // error, metadata might be undefined
        (metadata || "").toUpperCase(); // okay
    }
}

---

So, you should decide whether you really want B to be substitutable for A (in which case you need the methods to be compatible) or whether you want B's exportToCSV() method to require a third parameter (in which case you should think about refactoring so that B does not extends A... maybe both B and A can extend something else? Or maybe A could be made generic so B extends A<T> for some relevant T?). Anyway, hope that gives you some direction. Good luck!

Playground link to code