In TypeScript, I'd like to use a pattern that looks something like this:
All FooBar<T>
are also of type Bar<T>
, and I want to express this in the type system. However, I'd also like to be able to write static methods like Bar.create<T>(...)
and FooBar.create<T>(...)
, with no relationship between those functions. Adding a property to the Bar<T>
type should force all FooBar<T>
to also include that property, but adding a method to the static Bar
should not force that method to appear in FooBar
.
In C#, I'd simply have interface IBar<T>
and static class Bar
, but in keeping with TypeScript's naming convention I'd prefer the names as shown, unless there is no other option.
Here was my first attempt, which resulted in the error "All declarations of 'Bar' must have identical type parameters":
interface Bar<T> {
readonly x: T;
}
class Bar {
static create<T>(x: T) : Bar<T> {
return { x: x };
}
}
Classes would also be acceptable here, so my second attempt was this:
class Bar<T> {
static create<T>(x: T) {
return new Bar(x);
}
static barOnly() { }
constructor(public readonly x: T) { }
}
class FooBar<T> extends Bar<T> {
static create<T>(x: T, y: T) {
return new FooBar<T>(x, y);
}
constructor(x: T, public readonly y: T) {
super(x);
}
}
Unfortunately it looks like FooBar
attempts to inherit even the static members of Bar
, so not only do I end up with the undesirable FooBar.barOnly
, but it doesn't even compile since "Class static side of 'typeof FooBar' incorrectly extends base class static side 'typeof Bar'" because the types of create
are incompatible.
Is there any way to have the "interface-side" inherited, without the "static-side"? I suspect there must be, because TS seems very good at being able to capture all the odd things people do in JavaScript, and I can get what I want in raw JavaScript. The following code has all the properties I want, except, of course, the strong typing from TypeScript:
function Bar(x) {
this.x = x;
}
Bar.create = x => new Bar(x);
Bar.prototype.getX = function () {
return this.x;
}
function FooBar(x, y) {
Bar.call(this, x);
this.y = y;
}
FooBar.create = (x, y) => new FooBar(x, y);
FooBar.prototype = Object.create(Bar.prototype);
FooBar.prototype.getY = function () {
return this.y;
}