How the TypeScript ReturnType Type works
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The ReturnType
in TypeScript is a utility type which is quite similar to the Parameters Type. It let’s you take the return output of a function, and construct a type based off it.
The ReturnType Utility Type
The ReturnType
utility type is very useful in situations where the output of a specific function needs to be taken in by another function. In that scenario, you might create a new, custom type, that the output of a function constrains itself to.
Let’s look at a silly example to put it into context. Below, we define a new type, which has two properties, a
, and b
, both of which are numbers. A function then turns all numbers on this object into strings, and returns a new type. We define a custom type, called Data
, which expects a
and b
to be strings.
function sendData(a: number, b: number) {
return {
a: `${a}`,
b: `${b}`
}
}
type Data = {
a: string,
b: string
}
function consoleData(data:Data) {
console.log(JSON.stringify(data));
}
let stringifyNumbers = sendData(1, 2);
consoleData(stringifyNumbers);
Since consoleData
expects data to be of format Data
, TypeScript throws an error if a
or b
are numbers. Our sendData
function fixes that, by converting a
and b
to strings.
The issue with this setup is if we added or changed sendData
, or our input data, then Data
would need to be updated too. That’s not a big deal, but it’s an easy source of bugs. As such, we can instead use ReturnType
to simplify our type declaration. Our Data
type can be written like so:
function sendData(a: number, b: number) {
return {
a: `${a}`,
b: `${b}`
}
}
type Data = ReturnType<typeof sendData>
// The same as writing:
// type Data = {
// a: string,
// b: string
// }
Since sendData
returns data in type { a: string, b: string }
, Data
becomes that type. It means we don’t have to maintain two copies of the output from sendData
- instead we have one, inside the function, and a type that conforms to that, simplifying our code.
More Tips and Tricks for Typescript
- How TypeScript Conditional Types Work
- Type Casting in TypeScript
- How keyof works in Typescript
- How the TypeScript Required Type Works
- How the TypeScript Parameters Type Works
- TypeScript Optional Parameters
- The Difference between TypeScript Interfaces and Types
- Typescript Tuples, and how they work
- How the TypeScript Partial Type Works
- How Intrinsic Type Manipulations work in TypeScript