Good job, you've discovered
foldr on your own! (I hope that doesn't sound mocking or anything, it's not meant that way; most people find folds unnatural and have to think really hard to understand it!)
The way I would suggest you handle these situations is to try writing the function you want on your own, and figuring out the type, and then searching for that type in Hoogle to see if there already exists such a function.
In this case, you could try writing your function this way. We'll call it
-- If we see an empty list the result should be u
foo u f  = u
-- If we're given a a non-empty list we recurse down the list to get a partial
-- result, then "add on" to it:
foo u f (x:xs) = f x (foo u f xs)
Once you define this function, you can load it into
ghci and use its
:t command to find its type:
*Main> :load "../src/scratch.hs"
[1 of 1] Compiling Main ( ../src/scratch.hs, interpreted )
Ok, modules loaded: Main.
*Main> :t foo
foo :: t1 -> (t -> t1 -> t1) -> [t] -> t1
Now we can search Hoogle for the type
t1 -> (t -> t1 -> t1) -> [t] -> t1. The top result is
foldr, which has the type
(a -> b -> b) -> b -> [a] -> b—the same as
foo but with the variables renamed and the argument order flipped. The search result also tells us that the function is in the
Prelude module—the module that's loaded by default by Haskell. You can click on the result to find its definition in the documentation, which describes it with this equation:
foldr f z [x1, x2, ..., xn] == x1 `f` (x2 `f` ... (xn `f` z)...)
They're using the
f function as an infix operator, which I hope doesn't confuse you, but just in case we can rewrite this to:
foldr f z [x1, x2, ..., xn] == f x1 (f x2 ... (f xn z) ...)
Which is exactly the behavior you want.
Why did I make such a big deal out of
foldr above? Because
foldr is actually the most fundamental function for taking lists apart. Look at the type this way:
foldr :: (a -> b -> b) -- ^ What to do with a list node
-> b -- ^ What to do with the empty list
-> [a] -- ^ A list
-> b -- ^ The final result of "taking the list apart."
It turns out that a lot of list functions can be written easily in terms of
map f = foldr step 
where step x rest = (f x):rest
-- | Append two lists
xs (++) ys = foldr (:) ys xs
-- | Filter a list, keeping only elements that satisfy the predicate.
filter pred = foldr step 
where step x rest | pred x = x:rest
| otherwise = rest
-- | Find the first element of a list that satisfies the predicate.
find pred = foldr step Nothing
where step x r | pred x = Just x
| otherwise = r