Use object literal as TypeScript enum values
Solution 1:
TypeScript supports numeric or string-based enums only, so you have to emulate object enums with a class (which will allow you to use it as a type in a function declaration):
export class PizzaSize {
static readonly SMALL = new PizzaSize('SMALL', 'A small pizza');
static readonly MEDIUM = new PizzaSize('MEDIUM', 'A medium pizza');
static readonly LARGE = new PizzaSize('LARGE', 'A large pizza');
// private to disallow creating other instances of this type
private constructor(private readonly key: string, public readonly value: any) {
}
toString() {
return this.key;
}
}
then you can use the predefined instances to access their value
:
const mediumVal = PizzaSize.MEDIUM.value;
or whatever other property/property type you may want to define in a PizzaSize
.
and thanks to the toString()
overriding, you will also be able to print the enum name/key implicitly from the object:
console.log(PizzaSize.MEDIUM); // prints 'MEDIUM'
Solution 2:
Update: find @Javarome's answer below, which is more elegant. I suggest using his way.
If you need to use Type, try adding some code.
usage: getPizzSizeSpec(PizzaSize.small).value
enum PizzaSize {
small,
medium,
large
}
interface PizzaSizeSpec {
key: number,
value: number
}
function getPizzaSizeSpec(pizzaSize: PizzaSize): PizzaSizeSpec {
switch (pizzaSize) {
case PizzaSize.small:
return {key:0, value: 25};
case PizzaSize.medium:
return {key:0, value: 35};
case PizzaSize.large:
return {key:0, value: 50};
}
}
Solution 3:
As of Typescript 3.4, you can use a combination of keyof typeof
and const
assertions to create objects that can have the same type safety as enums, and still hold complex values.
By creating a type
with the same name as the const
, you can have the same exhaustiveness checks that normal enums have.
The only wart is that you need some key in the complex object (I'm using value
here) to hold the name of the enum member (if anyone can figure out a helper function that can build these objects in a typesafe way, I'd love to see it! I couldn't get one working).
export const PizzaSize = {
small: { value: 'small', key: 0, size: 25 },
medium: { value: 'medium', key: 1, size: 35 },
large: { value: 'large', key: 2, size: 50 },
} as const
export type PizzaSize = keyof typeof PizzaSize
// if you remove any of these cases, the function won't compile
// because it can't guarantee that you've returned a string
export function order(p: PizzaSize): string {
switch (p) {
case PizzaSize.small.value: return 'just for show'
case PizzaSize.medium.value: return 'just for show'
case PizzaSize.large.value: return 'just for show'
}
}
// you can also just hardcode the strings,
// they'll be type checked
export function order(p: PizzaSize): string {
switch (p) {
case 'small': return 'just for show'
case 'medium': return 'just for show'
case 'large': return 'just for show'
}
}
In other files this can be used simply, just import PizzaSize
.
import { PizzaSize } from './pizza'
console.log(PizzaSize.small.key)
type Order = { size: PizzaSize, person: string }
Also notice how even objects that are usually mutable can't be mutated with the as const
syntax.
const Thing = {
ONE: { one: [1, 2, 3] }
} as const
// this won't compile!! Yay!!
Thing.ONE.one.splice(1, 0, 0)
Solution 4:
I think to get to what you want, something like this will work
interface PizzaInfo {
name: string;
cost_multiplier: number;
}
enum PizzaSize {
SMALL,
MEDIUM,
LARGE,
}
const pizzas: Record<PizzaSize, PizzaInfo> = {
[PizzaSize.SMALL]: { name: "Small", cost_multiplier: 0.7 },
[PizzaSize.MEDIUM]: { name: "Medium", cost_multiplier: 1.0 },
[PizzaSize.LARGE]: { name: "Large", cost_multiplier: 1.5 },
};
const order = PizzaSize.SMALL;
console.log(pizzas[order].name); // "Small"
Solution 5:
Object.freeze makes it read only and prevents more properties being added:
const pizzaSize = Object.freeze({
small: { key: 0, value: 25 },
medium: { key: 1, value: 35 },
large: { key: 2, value: 50 }
})