TypeScript generic types

dailydevtips1

Chris Bongers

Posted on February 26, 2022

TypeScript generic types

When working with types in TypeScript, we assume that we know what kind of type we will be working with.

For instance to define this log function:

const logAndReturn = (input: string): string => {
  console.log(input);
  return input;
};
Enter fullscreen mode Exit fullscreen mode

In this simple function, we expect a string, return a string, and that's it.
But why should this be limited to just strings?
What if we try to pass a number?

Number type error

Hmm, that's a bit silly. We can't pass numbers to this function.
And it makes total sense.

One possible way of solving this would be to use any as the type.

const logAndReturn = (input: any): any => {
  console.log(input);
  return input;
};
Enter fullscreen mode Exit fullscreen mode

But using this makes it impossible to identify the type from outside.
It's basically as if you didn't use TypeScript at this point.

By the use of outside, I mean wherever we call this function, you should see what type it is being cast to like so:

TypeScript any type

So what then?

TypeScript generic type

This is precisely where generic types come in handy. They can be used to identify that specific called function as a type.

Making the function itself unaware of which type it's working with.

To identify a generic type, you must prefix the function with <Type> where Type is the generic variable.

Note: We often use T for generic types. However, it's not limited to any name.

Let's redo the above function as a generic typed function.

const logAndReturn = <T>(input: T): T => {
  console.log(input);
  return input;
};
Enter fullscreen mode Exit fullscreen mode

Now, if we want to use this function and pass a string, we can do the following:

logAndReturn<string>('a string');
Enter fullscreen mode Exit fullscreen mode

And on inspection, it states the following:

Generic string type

And if we want to convert this to our number, we can change the generic type used.

logAndReturn<number>(123);
Enter fullscreen mode Exit fullscreen mode

Generic type number cast

As you can see, this is super powerful as we don't need to know the type upfront, but keep the reference to the correct types.

This method is not limited to these existing types. We can even define a custom interface that we want to use.

interface User {
  firstname: string;
  lastname: string;
}

logAndReturn<User>({firstname: 'Chris', lastname: 'Bongers'});
Enter fullscreen mode Exit fullscreen mode

And in that case, our function will expect the User type.

Conclusion

I hope you got an excellent first look at Generic types and how we can use them.
I'll go deeper into specific use-cases that will shed a broader light on them in the following articles.

Thank you for reading, and let's connect!

Thank you for reading my blog. Feel free to subscribe to my email newsletter and connect on Facebook or Twitter

πŸ’– πŸ’ͺ πŸ™… 🚩
dailydevtips1
Chris Bongers

Posted on February 26, 2022

Join Our Newsletter. No Spam, Only the good stuff.

Sign up to receive the latest update from our blog.

Related

A Journey to Learn Typescript.
typescript A Journey to Learn Typescript.

November 7, 2024

TypeScript: JavaScript's Superhero Cape
typescript TypeScript: JavaScript's Superhero Cape

October 24, 2024

TypeScript Tagged Unions are OP
typescript TypeScript Tagged Unions are OP

October 9, 2024

npm run dev gives an error.
typescript npm run dev gives an error.

July 27, 2024