I am finishing a program that translates a higher-order language to another and I am having trouble dealing with the interface I am trying to implement.

The idea is that it asks the user for a number to be chosen, then checks whether it is a number, if it is, it follows with a line asking to write the given term to be translated.

If the number is 4, it has an additional line asking for the term to be substituted, thus the translating function takes 2 args instead of 1. Therefore I'd like to have 3 lines of input for the user to complete depending on the previous answer, however my code asks for a number and then prints the next question and returns directly to the beginning, printing the first lines again.

I have noticed that it does not test the validity of the Char taken from the input**(isDigit num)** and always chooses the path of *if(ord num /= 4)* equals to True, even when I key the number 4!

I have tried several paths to sort this out but I am at a lost. I am more than happy to change my interface code completely if you know of any better approaches, because I cannot think of any other.

I am quite amateur at Haskell by the way.

```
main :: IO ()
main = do
putStrLn "Choose a definition to be implemented:\n 1 - Def 1 dealing with a Generalised class of CRS terms without permutations,\n 2 - Def 2 which is an extension of Def 1 with permutations,\n 3 - Def 4 which takes a closed nominal term-in-context, returning a closed CRS (meta)term,\n 4 - Def 6 which extends on Def 4 by adding a ground nominal substitution to the arguments.\n Definition number: "
num <- getChar
unless (isDigit num) (return ())
def num
main
def :: Char -> IO String
def num = do
putStrLn "write a nominal term-in-context: "
hFlush stdout
str <- getLine
case num of
'1' -> (return . readExp1) str
'2' -> (return . readExp2) str
'3' -> (return . readExp4) str
'4' -> do
putStrLn "write a nominal term and the variable it substitutes:"
sub <- getLine
let term = readExp6 str (readSub sub)
return term
{- reads and ouputs type TrmCxt ((atm,Var),Trm) -}
readExp1 :: String -> String
readExp1 s = case (inputL parseT s) of
Left err -> "error: " ++ err
Right (fc , t) -> show $ translate1 [] fc t
```

I have added to the snippet the function *readExp1* which parses the input and calls the translating function for you to understand what it does and what it returns. The others are equivalent in their return type.