There are functions you need to understand A)
Promise.all and B)
A) the type definition of
Promise.all is a function:
all<T>(values: readonly (T | PromiseLike<T>)): Promise<T>;
B) the type definition of
Promise.then is a function that is a bit more complex:
then<TResult1 = T, TResult2 = never>(onfulfilled?: ((value: T) => TResult1 | PromiseLike<TResult1>) | undefined | null, onrejected?: ((reason: any) => TResult2 | PromiseLike<TResult2>) | undefined | null): Promise<TResult1 | TResult2>;
Promise.then's type definition is a lot but it can be broken down into small parts:
then<TResult1 = T, TResult2 = never> a function
then with 2 generics
TResult1, TResult2. The
< > means we can set and use values inside them later - they are called generics.
then function itself:
(onfulfilled?: ..., onrejected?: ...): Promise<TResult1 | TResult2>.
PromiseLike is a helper type and the same as
Promise (for an intro lesson).
onrejected are functions in the form of:
(value: T) => (TResult1 OR PromiseLike<TResult1>) OR
null. Notice the generic
T is used here.
PART 2 -
Promise itself has a generic interface:
interface Promise<T>. The
<T> is a/the generic.
So when you call
Promise.all<SomeCoolType>([a(), b(), c()]).then( value => doSomething(value) )
your generic is
SomeCoolType and in this example some cool type is
interface SomeCoolType = [A() => string, B() => boolean, C() => number]
Now remember that
A B C have to be Promises. And this makes it so your
.then( value => ... is going to the result of
SomeCoolType which for us is calling all those functions, the result is
[string, boolean, number].
Concretely, the array of function/promises you pass into you
Promise.all<T> are generics that are used in
.then(result => ...). The return/resolve value of those promises will become the value/type of
Promise.all<[Promise<() => string>]>([returnStringAsync()]).then(result => console.log(typeof result === "string")); # => true