This is forked ts-brand https://github.com/kourge/ts-brand
The aim of this fork is to adapt and publish it for Deno.
ts-brand
With ts-brand, you can achieve
nominal typing
by leveraging a technique that is called "type branding" in the TypeScript
community. Type branding works by intersecting a base type with a object type
with a non-existent property. It is closely related in principal and usage to
Flow's opaque type aliases.
Installation
npm install --save ts-brandMotivation and Example
Let's say we have the following API:
declare function getPost(postId: number): Promise<Post>;
declare function getUser(userId: number): Promise<User>;
interface User {
id: number;
name: string;
}
interface Post {
id: number;
authorId: number;
title: string;
body: string;
}We want to leverage this API to write a function that, given a post's ID, can retrieve the user who wrote said post:
function authorOfPost(postId: number): Promise<User> {
return getPost(postId).then((post) => getUser(post.id));
}Do you spot the bug? We're passing post.id to getUser, but we should have
passed post.authorId:
function authorOfPost(postId: number): Promise<User> {
return getPost(postId).then((post) => getUser(post.authorId));
}Nominal typing gives us a way to avoid conflating a user ID with a post ID, even though they are both numbers:
import { Brand } from "ts-brand";
declare function getPost(postId: Post["id"]): Promise<Post>;
declare function getUser(userId: User["id"]): Promise<User>;
interface User {
id: Brand<number, "user">;
name: string;
}
interface Post {
id: Brand<number, "post">;
authorId: User["id"];
title: string;
body: string;
}We have:
- Defined the ID types in terms of branded types with different branding types
- Substituted ad-hoc
numbertypes with a lookup type, thus designating the interface as the centerpiece - Retained the same runtime semantics as the original code
- Made our original buggy example fail to compile
There is one more risk left. If someone else were to define a different kind of
Post, and also wrote Brand<number, 'post'>, it would still be possible to
conflate the two accidentally. To solve this, we can take advantage of the fact
that TypeScript interfaces can be recursive:
interface User {
id: Brand<number, User>;
name: string;
}
interface Post {
id: Brand<number, Post>;
authorId: User["id"];
title: string;
body: string;
}By defining the ID type in terms of the interface surrounding it, we have made
it such that the only way an ID can be treated like a Post['id'] is if its
branding type matches the structure of Post exactly.
API
This module exports four type members and two function members.
type Brand<Base, Branding, [ReservedName]>
A Brand is a type that takes at minimum two type parameters. Given a base type
Base and some unique and arbitrary branding type Branding, it produces a
type based on but distinct from Base. The resulting branded type is not
directly assignable from the base type, and not mutually assignable with another
branded type derived from the same base type.
Take care that the branding type is unique. Two branded types that share the same base type and branding type are considered the same type! There are two ways to avoid this.
The first way is to supply a third type parameter, ReservedName, with a string
literal type that is not __type__, which is the default.
The second way is to define a branded type in terms of its surrounding interface, thereby forming a recursive type. This is possible because there are no constraints on what the branding type must be. It does not have to be a string literal type, even though it often is.
The third way is to define a branded type using an empty enum. In TypeScript, enums are nominally typed: two structurally identical enums are not considered the same type. This prevents two enum-branded types from ever being conflated for one another.
Examples:
type Path = Brand<string, "path">;
type UserId = Brand<number, "user">;
type DifferentUserId = Brand<number, "user", "__kind__">;
interface Post {
id: Brand<number, Post>;
}
enum TimeTag {}
type Time = Brand<number, TimeTag>;type AnyBrand
An AnyBrand is a branded type based on any base type branded with any branding
type. By itself it is not useful, but it can act as type constraint when
manipulating branded types in general.
type BaseOf<B extends AnyBrand>
BaseOf is a type that takes any branded type B and yields its base type.
type Brander<B extends AnyBrand>
A Brander is a function that takes a value of some base type and casts that
value to a branded type derived from said base type. It can be thought of as the
type of a "constructor", in the functional programming sense of the word.
Example:
type UserId = Brand<number, "user">;
// A Brander<UserId> would take a number and return a UserIdfunction identity<B extends AnyBrand>(underlying: BaseOf<B>): B
A generic function that, when given some branded type, can take a value with the
base type of the branded type, and cast that value to the branded type. It
fulfills the contract of a Brander.
At runtime, this function simply returns the value as-is.
Example:
type UserId = Brand<number, "user">;
const UserId: Brander<UserId> = identity;function make<B extends AnyBrand>(): Brander<B>
Produces a Brander<B>, given a brand type B. This simply returns identity
but relies on type inference to give the return type the correct type.
Example:
type UserId = Brand<number, "user">;
const UserId = make<UserId>();
const myUserId = UserId(42);Complete Example
We can form a cohesive, intuitive API definition by leveraging several features at once, such as namespace merging, type inference, and lookup types:
import { Brand, make } from "ts-brand";
export interface User {
id: Brand<number, User>;
name: string;
}
export namespace User {
export type Id = User["id"];
export const Id = make<Id>();
}
export interface Post {
id: Brand<number, Post>;
authorId: User.Id;
title: string;
body: string;
}
export namespace Post {
export type Id = Post["id"];
export const Id = make<Id>();
}
declare function getPost(id: Post.Id): Promise<Post>;
declare function getUser(id: User.Id): Promise<User>;