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So I keep having this small problem where I have something like

func :: a -> b -> [a]  -- # or basically any a-> ...-> [a] where ... is any types  ->
func x y = func' [x] y -- '# as long as they are used to generate a list of [a] from x

func' :: [a] -> b -> [a] 
func' = undefined -- # situation dependant generates a list from
                  -- # each element and returns it as one long list

should I keep it like this?

should I use func' hidden by a where?

should I only use the [a] -> b -> [a] version and leave the responsibility of passing [variable] to the callee?

I might well need to compose these functions and might want to mess around with the order so I'm leaning towards option 3. What do you think?

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Just out of curiosity, can you give an actual example of where this is needed? – Chuck Jun 9 '10 at 5:40
func' reminds me of (>>=) and (>>); func x = func' [x] or func = func' . return – Thomas Eding Jun 9 '10 at 6:10
Is your question about variable-length arguments to a function ? – David V. Jun 10 '10 at 9:51

2 Answers 2

up vote 2 down vote accepted

It looks like you are trying to reinvent concatMap:

concatMap :: (a -> [b]) -> [a] -> [b]
concatMap f = concat . map f

So the "map" bit takes each element of the input list applies "f" to it. "f" takes a single "a" and returns a "[b]". These individual lists are then concatenated into a single list.

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As Paul noted, func' can be replaced with concatMap and func.

And func itself reminds me of unfoldr from Data.List:

unfoldr :: (b -> Maybe (a, b)) -> b -> [a]

It is used to generate a list of a from b.

By the way, func and func' are unfortunate names for such functions.

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