# Define a function without using the fact that it is in Show class

Not using the fact that the Integer type belongs to the Show class define a function

``````integerTostring :: Integer -> String
``````

Hint: use the function

``````unfoldr :: (b-> Maybe(a,b))->b->[a])
``````

from the List module, defined by the formula

``````unfoldr f b=
case f b of
Nothing -> []
Just (a,b) -> a : unfoldr f b

where
**data Maybe a = Nothing| Just a deriving (Eq, Ord, Read, Show)**
``````

The Char module exports the function

``````intToDigit :: Int -> Char
``````

the standard prelude offers the following method of the class Enum:

``````fromEnum :: (Enum a) => a -> Int
``````

and the Integer type belongs to the Enum class...

What I did is:

``````   import List, Char
integerToString :: Integer -> String
integerToString = reverse.unfoldr(\a -> if a>0 then Just(IntToDigit\$fromEnum\$a'mod'10,a'div'10)else Nothing
``````

Is that what i had to do? if not then what to do ?

-
The easiest way to tell whether you got it or not, is to just try it out in the interpreter. –  hammar May 9 '11 at 16:17
If you are in doubt about the requirements of an assignment, it's best to consult with the one who will grade it. –  Dan Burton May 9 '11 at 20:03
If you would alter your condition |if a>0| you could also handle negative values. –  Alessandro Vermeulen May 23 '11 at 7:15
Wouldn't want you to cheat, but the Haskell Report has showInt which "extends" showIntAtBase. Pretty solid math, but mostly out of scope for you. Now, if you want to see some insane arithmetic, check out showFloat. –  eternalmatt Jul 8 '11 at 15:44
integerToString == flip replicate \$ "1" -- Base 1 –  Theo Belaire Aug 29 '11 at 17:40

Yeah, that's a good solution, although you forgot to handle negative integers and 0. Also, I suggest using the `divMod` function instead of using `div` and `mod` seperately.