You might use `catch`

from Control.Exception as in

```
import Prelude hiding (catch)
import Control.Exception
main = do
print answer `catch` errorMessage
where
errorMessage :: SomeException -> IO ()
errorMessage = putStrLn . ("error: " ++) . show
```

Catching `SomeException`

is sloppy, and the output is messy:

[error: No cycle

It got partway through printing an array but ran into the exception. Not very nice.

Another answer has covered the fine approach of using the `Maybe`

monad for representing computations that can fail. An even more general approach is `MonadError`

:

```
{-# LANGUAGE FlexibleContexts #-}
import Control.Applicative
import Control.Monad.Error
detec2 :: (MonadError String m, Eq a) => [a] -> Int -> m Int
detec2 ys n | 2*n >= (length ys) = throwError "No cycle"
| t == h = return (2*n - n)
| otherwise = detec2 ys (n+1)
where
t = ys !! n
h = if n == 0 then ys !! 1 else ys !! (n*2)
```

(Notice this also fixes the bug in your first guard that allows `!!`

to throw exceptions.)

This permits similar but more flexible use, for example:

```
answer2 = f2 <$> [1/x | x <- [1..100]]
f2 x = detec2 (show x) 0
main = do
forM_ answer2 $
\x -> case x of
Left msg -> putStrLn $ "error: " ++ msg
Right x -> print x
```

Now the first few lines of the output are

error: No cycle
error: No cycle
2
error: No cycle
error: No cycle
3
6
error: No cycle
2

Keep in mind this is still a pure function: you don't have to run it inside `IO`

. To ignore the no-cycle errors, you might use

```
cycles :: [Int]
cycles = [x | Right x <- answer2]
```

If you don't care about errors messages at all, then don't generate them. A natural way to do this is with lists where you return the empty list for no cycles and condense the result with `concatMap`

:

```
detec3 :: (Show a) => a -> [Int]
detec3 x = go 0
where go :: Int -> [Int]
go n
| 2*n >= len = []
| t == h = [2*n - n]
| otherwise = go (n+1)
where t = ys !! n
h | n == 0 = ys !! 1
| otherwise = ys !! (n*2)
len = length ys
ys = show x
main = do
print $ concatMap (detec3 . recip) [1..100]
```

Finally, you may be interested in reading 8 ways to report errors in Haskell.