I am trying to write a function that computes ex (for the first 10 terms) given an integer `x.
The series expansion for ex is given by
1 + x + x2/2! + x3/3! + x4/4! + ....
The function itself was fairly easy to write, but I can't seem to understand Haskell type rules for division, i.e I want to divide an integer by a larger integer and get a floating-point result:
Here is what I have so currently
_eToX :: (Fractional a, Integral a) => a -> a -> a _eToX x 0 = 1.0 _eToX x 1 = x _eToX x n = ( fromIntegral(x^n) / fromIntegral(factorial n) ) + _eToX x (n - 1)
What I am doing above here makes sense to me, compute two integer results (
factorial n) then evaluate them in a Floating point context using
/. This function however returns this error:
1. Could not deduce (a ~ Integer) from the context (Fractional a, Integral a) bound by the type signature for _eToX :: (Fractional a, Integral a) => a -> a -> a at /run-r4AWbVU9Fyph0OVhK3Dm/solution.hs:9:10-50 `a' is a rigid type variable bound by the type signature for _eToX :: (Fractional a, Integral a) => a -> a -> a at /run-r4AWbVU9Fyph0OVhK3Dm/solution.hs:9:10 In the return type of a call of `factorial' In the second argument of `(/)', namely `factorial n' In the first argument of `(+)', namely `(x ^ n / factorial n)' 2. No instance for (Integral Double) arising from a use of `f' Possible fix: add an instance declaration for (Integral Double) In the expression: f In the second argument of `($)', namely `f $ map (read :: String -> Double) $ lines inputdata' In the second argument of `($)', namely `map show $ f $ map (read :: String -> Double) $ lines inputdata'
I am running the function with this main function:
main = do n <- readLn :: IO Int -- n doesnt really matter here because of getContents inputdata <- getContents mapM_ putStrLn $ map show $ f $ map (read :: String -> Double) $ lines inputdata