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I have the following:

data Alpha a = Beta a [Alpha a]
val = Beta 1 [Beta 2 [], Beta 5 [Beta 7 []]]

I'm trying to define a function that will move over a val of type Alpha Int and sum it. My desired approach is to extract all the Ints and then sum the resulting list, but I am struggling to extract all the Ints as I don't know what to do with the recursion...

a slight attempt:

checkAlpha :: Alpha Int -> [Int]
checkAlpha (Beta a []) = [a]
checkAlpha (Beta a b) = [a] ++ (map checkAlpha b)

Obviously this doesn't quite work but I can't see a solution in sight.

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In your function, b has type [Alpha Int]. Mapping checkAlpha over this list gives you [[Int]], but your signature says you want to return [Int]. That's why you have to "collapse" the list into one layer - i.e. (concat .) . map also known as concatMap. –  Vitus May 4 '12 at 22:56
    
the minimal fix is to insert concat $ between ( and map checkAlpha b) in your code, to flatten one level off of the list of lists. Then you notice that the first clause is an instance of the second, because map _ [] === []. Then you replace [a]++ with a: to arrive at Daniel's solution. So you were really close. :) –  Will Ness May 13 '12 at 12:44
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2 Answers

up vote 7 down vote accepted

If you used

concatMap :: (a -> [b]) -> [a] -> [b]

instead of map, it would work and be elegant enough.

You don't need to treat the case of an empty list as second component specially,

checkAlpha :: Alpha a -> [a]
checkAlpha (Beta a alphas) = a : concatMap checkAlpha alphas

does what you want, and is independent of the parameter type.

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You could consider using Tree instead of Alpha, which has many handy operations:

> flatten $ Node 1 [Node 2 [], Node 5 [Node 7 []]]
[1,2,5,7]
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