Continuing from the previous question:

I am trying to write the power series in Haskell,

``````e^x = 1 + x + x^2/2! + x^3/3! + ...
``````

such that it will output

``````[1,1,1/2,1/6,...]
``````

I already have a function here which works without the '/ (factorial y)'

``````factorial :: (Integral a) => a -> a
factorial 0 = 1
factorial n = n * factorial (n - 1)

powerSrs x = 1 : powerSrsFunc[1..] where
powerSrsFunc ( p: xs ) =
p : powerSrsFunc[  (x^y)%(factorial y)   | y <-xs ]
``````

However I am getting an error when I run

``````>take 5 (powerSrs 1)

<interactive>:34:9:
Ambiguous type variable `a0' in the constraints:
(Fractional a0)
arising from a use of `powerSrs' at <interactive>:34:9-16
(Integral a0)
arising from a use of `powerSrs' at <interactive>:34:9-16
(Num a0) arising from the literal `1' at <interactive>:34:18
Probable fix: add a type signature that fixes these type variable(s)
In the second argument of `take', namely `(powerSrs 1)'
In the expression: take 5 (powerSrs 1)
In an equation for `it': it = take 5 (powerSrs 1)
``````

So again, it is a type error, which I do not understand.

I was told by @eakron to use the Data.Ratio package, but the (%) will print a ratio as so:

``````2%3
``````

but I want

``````2/3
``````

Could someone explain the type errors?

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Your approach is a bit cluttered and slow. A smarter way is `e x = map fst \$ iterate (\(t, n) -> (t * x / n, n+1)) (1, 1)`. The idea is that to find a term in the series it is enough to know its index and the term before it. –  Karolis Juodelė Oct 21 '12 at 17:28

After the first round of generator of `powerSrsFunc`, the input to the `powerSrsFunc` is not [2, 3..] anymore. Instead the input will become [1%2, 1%6, ..]. Obviously it can't be the input of `factorial`.

Why not rewriting the `powerSrc` to simpler one?

``````powerSrs x = [ (x^y) % (factorial y) | y <- [0..] ]
``````

No nested infinity generator. Easier to understand.

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