I've been trying to learn Haskell by building short programs. I'm somewhat new to the functional programming world but have already done a good amount of reading.
I have a relatively short recursive function in Haskell for using Newton's method to find roots of a function up to the precision allowed by floating point numbers:
newtonsMethod :: (Ord a, Num a, Fractional a) => (a -> a) -> (a -> a) -> a -> a newtonsMethod f f' x | f x < epsilon = x | otherwise = newtonsMethod f f' (x - (f x / f' x)) where epsilon = last . map (subtract 1) . takeWhile (/= 1) . map (+ 1) . iterate (/2) $ 1
When I interpret in GHCi and plug in
newtonsMethod (\ x -> cos x + 0.2) (\ x -> -1 * sin x) (-1), I get
-1.8797716370899549, which is the first iteration of Newton's method for the values called.
My first question is straightforward: why does it only recurse once? Please also let me know if you see any potential improvements to the way this code is structured or flagrant mistakes.
My second question, a little more involved, is this: is there some clean way to test parent calls of this function, see if it's failing to converge, and bail out accordingly?
Thanks in advance for any answer you can give!