I just started learning Haskell. I decided to set myself a goal of implementing an old algorithm of mine http://citeseerx.ist.psu.edu/viewdoc/download?doi=10.1.1.79.7006&rep=rep1&type=pdf
As a start I wrote the following code
phi  = [1..] phi (p:pl) = (phi pl) `minus` (map (p*) $ phi pl) primes x | x < 2 =  | otherwise = smallprimes ++ (takeWhile (<=x) $tail $ phi $ reverse smallprimes) where smallprimes = primes $ sqrt x minus (x:xs) (y:ys) = case (compare x y) of LT -> x : minus xs (y:ys) EQ -> minus xs ys GT -> minus (x:xs) ys minus xs _ = xs
This functions as expected, except that the list of primes comes as floating point! A little thought told me that since the signature of sqrt is
sqrt :: (Floating a) => a -> a
the Haskell compiler has decided that primes is returning a list of floats. However, when I tried to tell it that
phi :: [Integer] -> [Integer]
which is what I want, the compiler has a problem:
No instance for (Floating Integer) arising from a use of `sqrt` at ...
So how do I signify the phi takes as input a list of integers and as output produces an infinite list of Integers?