UPDATED to reflect better recursive conditional type support
There are still, as of TS 4.7, no regular-expression-validated string types in TypeScript. Template literal types handle some, but not all, of the use cases for such regex types. If you have a situation like this where template literal types are insufficient, you might want to go to microsoft/TypeScript#41160 and describe your use case. The idea of a "string whose maximum length is N characters" for some N extends number would be easy enough to express with regex types, but is not easily achievable with template literals.
Still, let's see how close we can get.
A major roadblock stands in the way. TypeScript cannot easily represent the set of all strings less than N characters as a specific type StringsOfLengthUpTo<N>. Conceptually any given StringsOfLengthUpTo<N> is a large union, but since the compiler balks at unions with more than ~10,000 members, you can only describe strings of up to a few characters this way. Assuming you want to support the 95 characters of 7-bit printable ASCII, you will be able to represent StringsOfLengthUpTo<0>, StringsOfLengthUpTo<1>, and even StringsOfLengthUpTo<2>. But StringsOfLengthUpTo<3> would exceed the compiler's capacity, since it would be a union of over 800,000 members. So we have to give up on specific types.
Instead we can think of our type as a constraint used with generics. We need a type like TruncateTo<T, N> which takes a type T extends string and an N extends number and returns T truncated to N characters. Then we can constrain T extends TruncateTo<T, N> and the compiler would automatically warn on too-long strings.
It used to be that shallow recursion limits would prevent us from writing TruncateTo<T, N> for N greater than about 20 or so, but TypeScript 4.5 introduced support for tail recursion elimination on conditional types. That means we can write TruncateTo<T, N> by adding some extra accumulator arguments like this:
type TruncateTo<T extends string, N extends number,
L extends any[] = [], A extends string = ""> =
N extends L['length'] ? A :
T extends `${infer F}${infer R}` ? (
TruncateTo<R, N, [0, ...L], `${A}${F}`>
) :
A
This works by having an A accumulator to store the string we're building up, and an L arraylike accumulator that keeps track of how long that A string is (string literal types don't have a strongly typed length property, see ms/TS#34692 for the relevant request). We build up A one character at a time until we either run out of the original string, or until we reach a length of N. Let's see it in action:
type Fifteen = TruncateTo<"12345678901234567890", 15>;
// type Fifteen = "123456789012345"
type TwentyFive = TruncateTo<"123456789012345678901234567", 25>;
// type TwentyFive = "1234567890123456789012345"
We can't directly write T extends TruncateTo<T, N> as TypeScript complains that this is a circular constraint. But we can at least write a helper function like this:
const atMostN = <T extends string, N extends number>(
num: N, str: T extends TruncateTo<T, N> ? T : TruncateTo<T, N>
) => str;
and then you could call atMostN(32, "someStringLiteral") and it would either succeed or warn based on the the length of the string literal argument. Note that the str input is of a weird conditional type, whose sole purpose is to avoid the circular constraint. T is inferred from str, and then checked against TruncateTo<T, N>. If it succeeds, great. Otherwise, we give str the type of TruncateTo<T, N>, and we'll see an error message. It works like this:
const okay = atMostN(32, "ThisStringIs28CharactersLong"); // okay
type Okay = typeof okay; // "ThisStringIs28CharactersLong"
const bad = atMostN(32, "ThisStringHasALengthOf34Characters"); // error!
// -------------------> ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
// '"ThisStringHasALengthOf34Characters"' is not assignable to parameter of type
// '"ThisStringHasALengthOf34Characte"'.
type Bad = typeof bad; // "ThisStringHasALengthOf34Characte"
Is it worth it? Maybe. The original answer here had to do some unsavory things to get even a fixed-length check. The current one isn't so bad, but it's still a bunch of effort to get a compile-time check. So you might still have a use case for regex-validated string types.
Playground link to code
