In addition to the type error in `lessen`

you have a logic error in primes:

```
length [a| a <- [1..lessen(x)], mod x a /= 0] == x - 2
```

You're (rightly) only considering elements up to `lessen x`

. This has the consequence that the list will almost never have exactly `x - 2`

elements. As a consequence you'll get into an infinite loop when trying to get more than two elements out of that list (because there is no 3rd element for which the condition is true, but haskell doesn't know that so it iterates to infinity trying to find it).

Also note that taking the length of a list is an `O(n)`

operation and there's almost always a better way to achieve what you want.

As a style note, I would recommend defining a separate method isPrime. This will make your code look like this:

```
module Main where
main = putStrLn lastPrime
where
lastPrime :: String
lastPrime = show(last(take 10001 primes))
isPrime x = length [a| a <- [1..lessen(x)], mod x a /= 0] == x - 2]
primes :: [Int]
primes = [x| x <- [1..], isPrime x]
lessen :: Int -> Int
lessen a = ceiling(sqrt (fromIntegral a))
```

This IMHO makes the list comprehension much more readable. However it still contains the bug. To get rid of the bug, I'd suggest defining isPrime using a different approach. Going up to `lessen x`

is fine (except you should start from 2 because 1 cleanly divides everything), but instead of building a new list with all the divisors, you should just check whether any of the numbers in the range divides x. For this we can use the higher order function `any`

, so we get this:

```
isPrime x = not (any (\a -> mod x a == 0) [2 .. lessen x])
```