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While coding some algorithm problems, I've used these functions, and I wonder if there are any standard library analogues implementing their functionality:

Maps a list of functions to one value:

mapX :: a -> [a -> b] -> [b]
mapX _ [] = []
mapX x (f:fs) = [f x] ++ (mapX x fs)

Maps a binary function to two lists:

map2 :: (a -> b -> c) -> [a] -> [b] -> [c]
map2 _ [] [] = []
map2 f (ax:axs) (bx:bxs) = [f ax bx] ++ map2 f axs bxs

To me, it's kinda weird that all [] == True :(

all' :: (a -> Bool) -> [a] -> Bool
all' _ [] = False
all' f l  = all f l

Does the ^ operator implement fast exponentiation?

fastPow :: Int -> Int -> Int
fastPow x 0 = 1
fastPow x a
    | even a     = exp2 * exp2
    | odd a      = exp2 * exp2 * x
        exp2 = fastPow x (div a 2)
share|improve this question
Consider the expression all f xs && all f ys. Would you expect this to be equivalent to all f (xs ++ ys)? This requires all _ [] = True. The more general concept (and intuitive justification) is that True is the identity for (&&). This is the same reason an empty product is 1 (e.g., 0!, x^0) and an empty sum is 0 (e.g., x * 0). – C. A. McCann Jul 5 '11 at 23:19
thx, now I see there's a point :) – karlicoss Jul 5 '11 at 23:24
Consider all [] == True in another language; you may implement it as for item in list { if !item: return false }; return true – Daenyth Jul 6 '11 at 0:35
The Haskell Prelude (^) does the exponentiation with fewer multiplications than yours (on average). Just count how many you need for, e.g., an exponent of 8. (^) uses 3 multiplications. – augustss Jul 6 '11 at 1:10
Besides what camccann said, which is totally right, were you using all in a particular context, where all' felt more appropriate? Or just explore the libraries, and you thought it was kind of weird? – MatrixFrog Jul 6 '11 at 5:28
up vote 14 down vote accepted

Maps a list of functions to one value:

map ($x) fs

$ is the function application operator, so ($x) is a function that applies its argument to x.

Maps a binary function to two lists:

zipWith. You can find this even if you don't know the function name by searching for the type signature on Hoogle.

Does ^ operator implement fast exponentiation?


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