The way to 'hide' the IO monad is to write `isPrime`

(and any other functions that use the list of prime numbers) as a pure function, and only introduce IO as late as you possibly need. The fact that you are using a list of pregenerated prime numbers and reading them from a file is just an implementation detail that is irrelevant to general functions dealing with prime numbers.

Here's a simple implementation of a pure `isPrime`

that takes an integer to test and a list of prime numbers. Notice that it doesn't care where the list of primes came from, just that it's a list of integers.

```
isPrime :: Integer -> [Integer] -> Bool
isPrime n ps = n `elem` ps
```

Now let's introduce a function that will read the prime numbers from disk. Its return type must be in the IO monad because, well, we're performing I/O.

```
readPrimesFromFile :: String -> IO [Integer]
readPrimesFromFile filename = ...
```

Now we can use this function in combination with our `isPrime`

function. Once we start using `readPrimesFromFile`

we are forever 'trapped' in the IO monad.

```
main :: IO ()
main = do
primeList <- readPrimesFromFile "primes.txt"
let result = isPrime 123 primeList
print result
```