Powerful and easy runtime type checking
What if you could just write TypeScript, and get runtime validation for free?
Basically, a lot of equivalent libraries have weird naming and syntax. We already know TypeScript, and that knowledge already does so much for us, but to take the concept a little bit further, and extend our type checking to the runtime, it kind of feels like having to learn another dialect, with all of its subtle differences. Succulent's main goal is to make it feel like you're just writing TypeScript, and for the necessary differences to feel obvious quickly.
Some examples...
- the type
string
is represented by the schema$string
- the type
bigint
is represented by the schema$bigint
- the type
Date
is represented by the schema$Date
- the type
ArrayBuffer
is represented by the schema$ArrayBuffer
Getting more complex...
- the type
T[]
/Array<T>
could be represented by the schema$Array($T)
(assuming$T
is a schema) - the type
Map<K, V>
could be represented by the schema$Map($K, $V)
(assuming$K
and$V
are schemas) - the types
any
andnever
can be represented by the schemas$any
and$never
respectively
import { guard, $string } from "succulent";
/**
* Takes untrusted user input!
*/
export default function (x: unknown): string {
guard(x, $string);
// x now has type `string` and can be treated as such
return x;
}
import {
guard,
hasMaxLength,
matches,
Type,
$Array,
$Date,
$interface,
$optional,
$string,
} from "succulent";
// Use your schema definition to automatically generate TypeScript types.
// Either one of the following should work. The choice is mostly a matter of style.
export type User = Type<typeof $User>;
export interface User extends Type<typeof $User> {}
// Easily define a reuseable way to validate input from untrusted sources
// By convention, schemas are named after the type they represent, prefixed with `$`.
export const $User = $interface({
id: $string.that(matches(/[A-Za-z0-9_-]{24}/)),
name: $string.that(hasMaxLength(50)),
emailAddresses: $Array($string.that(matches(/[A-Za-z0-9_-]{1,}\@hey\.com/))),
meta: $optional(
$interface({
lastSeen: $optional($Date),
}),
),
});
export default function (user: unknown) {
// You can specify a compatible generic type to use instead of the generated type!
// Mostly helpful for getting nicer editor hints
guard<User>(x, $User);
// x now has type `User`
// ...
}
import { guard, inRange, lazy, Schema, $Array, $int, $interface, $string } from "succulent";
type Friend = {
name: string;
happiness: number;
friends: Friend[];
};
// Specifying `Friend` here as a generic ensures that our $Friend schema is
// compatible with the `Friend` type. If they get out of sync, TypeScript will throw
// a compilation error to let you know.
const $Friend: Schema<Friend> = $interface({
name: $string,
happiness: $int.that(inRange(0, 10)),
// We need to use `lazy` here because $Friend is not yet defined. A little unfortunate,
// but there isn't really a be better way to do this. (unless you know of one, then tell me!)
friends: $Array(lazy(() => $Friend)),
});
export default function (person: unknown) {
try {
guard(person, $Friend);
// person has type `Friend` now!
// ...
} catch (error) {
// Do something with the error, like probe the heirarchy of where errors came from!
}
}