Reputation: 2675
TypeScript Template Literal Type - how to infer numeric type?
// from a library
type T = null | "auto" | "text0" | "text1" | "text2" | "text3" | "text4";
//in my code
type N = Extract<T, `text${number}`> extends `text${infer R}` ? R : never
For the above piece of code N will be equivalent to "0" | "1" | "2" | "3" | "4". How can I convert that to a numeric type, i.e. 0 | 1 | 2 | 3 | 4?
Have already tried putting & number in some places, like infer R & number, but none of that works.
Upvotes: 20
Views: 13941
Answers (3)
Reputation: 716
A little addition to the @captain-yossarian-from-ukraine answer: you can skip extends any part and just write:
type ParseInt<T extends `text${number}`> =
(T extends `text${infer Digit extends number}`
? Digit
: never)
Upvotes: 0
Reputation: 33041
6 June 2022 UPDATE TS 4.8
Since TypeScript 4.8, it is possible without numeric union hack. See PR
//in my code
type ParseInt<T extends `text${number}`> =
T extends any
? (T extends `text${infer Digit extends number}`
? Digit
: never)
: never
// 0 | 1 | 2 | 3 | 4
type Result = ParseInt<"text0" | "text1" | "text2" | "text3" | "text4">
UPDATE
type MAXIMUM_ALLOWED_BOUNDARY = 999
type Mapped<
N extends number,
Result extends Array<unknown> = [],
> =
(Result['length'] extends N
? Result
: Mapped<N, [...Result, Result['length']]>
)
type NumberRange = Mapped<MAXIMUM_ALLOWED_BOUNDARY>[number] // 0.. 998
type ConvertToNumber<T extends string, Range extends number> =
(Range extends any
? (`${Range}` extends T
? Range
: never)
: never)
type _ = ConvertToNumber<'5', NumberRange> // 5
type __ = ConvertToNumber<'125', NumberRange> // 125
P.S. sorry for naming, I'm not strong in it.
Seems to be it is currently impossible but there is a workaround.
You can create Dictionary for numbers in range 0..42:
// from a library
type Texts<T extends PropertyKey> = T extends number ? `text${T}` : never
type T = null | "auto" | Texts<Enumerate<43>>;
type PrependNextNum<A extends Array<unknown>> = A['length'] extends infer T ? ((t: T, ...a: A) => void) extends ((...x: infer X) => void) ? X : never : never;
type EnumerateInternal<A extends Array<unknown>, N extends number> = { 0: A, 1: EnumerateInternal<PrependNextNum<A>, N> }[N extends A['length'] ? 0 : 1];
type Enumerate<N extends number> = EnumerateInternal<[], N> extends (infer E)[] ? E : never;
type Dictionary = {
[Prop in Enumerate<43> as `${Prop}`]: Prop
}
// 0 | 1 | 2 | 3 | 4 | 5 | 6 | 7 | 8 | 9 | 10 ... 33 | 34 | 35 | 36 | 37 | 38 | 39 | 40 | 41 | 42
type N =
Extract<T, `text${number}`> extends `text${infer R}`
? R extends keyof Dictionary
? Dictionary[R]
: never
: never
It might be possible to generate much longer range after Tail recursion PR will be merged
UPDATE - just like I promised
Try
type MAXIMUM_ALLOWED_BOUNDARY = 999
type Mapped<
N extends number,
Result extends Array<unknown> = [],
> =
(Result['length'] extends N
? Result
: Mapped<N, [...Result, Result['length']]>
)
// 0 , 1, 2 ... 998
type NumberRange = Mapped<MAXIMUM_ALLOWED_BOUNDARY>[number]
type Texts<T extends PropertyKey> = T extends number ? `text${T}` : never
type T = null | "auto" | Texts<NumberRange>;
type Dictionary = {
[Prop in NumberRange as `${Prop}`]: Prop
}
// 0 | 1 | 2 | 3 | 4 | 5 | 6 | 7 | 8 | 9 | 10 ... 998
type N =
Extract<T, `text${number}`> extends `text${infer R}`
? R extends keyof Dictionary
? Dictionary[R]
: never
: never
You can try above solution in TS playground with TS version 4.5 (nightly) The code is much simpler.
Here you have javascript representation of Mapped:
const Mapped = (N: number, Result: number[] = []): number[] => {
if (Result.length === N) {
return Result
}
return Mapped(N, [...Result, Result.length])
}
Nothing complicated. Tail recursion.
Upvotes: 40
Reputation: 217
Thanks for the answer, @captain-yossarian. I found you can also keep the tuple of Mapped<MAXIMUM_ALLOWED_BOUNDARY> and index using string index. Of course, Range must be a tuple.
type MAXIMUM_ALLOWED_BOUNDARY = 999
type Mapped<
N extends number,
Result extends Array<unknown> = [],
> =
(Result['length'] extends N
? Result
: Mapped<N, [...Result, Result['length']]>
)
type NumberRange = Mapped<MAXIMUM_ALLOWED_BOUNDARY>; // <- tuple [0, 1, 2, 3, ...]
type ConvertToNumber<T extends string, Range extends number[]> =
T extends keyof Range ? Range[T] : never;
type _ = ConvertToNumber<'5', NumberRange> // 5
type __ = ConvertToNumber<'125', NumberRange> // 125
Upvotes: 0
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