`never`

is the type with 0 values.

Just as `boolean`

is either `true`

and `false`

, which means there are and only are 2 ways to construct a value of type `boolean`

, in TypeScript there are exactly 0 ways to construct a value of type `never`

.

But you may ask, "how is `never`

any useful then?"

In TypeScript, values are produced by *expressions*. Expressions have types too, which are the same as the type of the values they evaluate to. `parseInt("123")`

is type `number`

while `[1, 2, 3]`

is type `number[]`

. But not all expressions can be evaluated to values. Consider:

```
function f() {
return f()
}
```

An expression `f()`

will get you nowhere. `f()`

returns `f()`

which returns `f()`

and on and on and this recursion continues until maximal recursion limit is reached and the program crashes.

So `f()`

does not evaluate to any value anyway. But this expression still needs to have a type; which?

The answer is that any type would do. It won't give us a chance to use its return value after all (because it does not have one; also because it will run indefinitely) so we can write

```
function f(): number {
return f()
}
```

so that `f()`

is type `number`

; or even write

```
function f<T>(): T {
return f()
}
```

But usually, we write `never`

:

```
function f(): never {
return f()
}
```

So `never`

plays a new role here; it is a type that does not have values, so it marks that the expression is special, that it will cause the program to do something other than produce a value, such as keep running indefinitely.

More often, you will see `never`

with code that is sure to throw an error, or cause the program to terminate:

```
function throwSomeError(): never {
throw new Error()
}
function bye(): never {
process.exit(0)
}
```

These functions won't return any value either, so we could have chosen any type for their "return type" that actually, does not exist, but we usually use `never`

to signify that these functions are very special ones.