I was attempting to implement a Haskell algebraic datatype linked list (or perhaps more accurately something linked list-like since I don't know of any way to do memory addressing using Haskell) as well as helper functions for converting to and from Haskell's naive list type and wrote the following:

``````data LinkedList a = Nill | Node a (LinkedList a) deriving Show

hlistToLinkedList x:[] = Node x Nill

``````

I get the following compiler error:

``````@5:1-5:21 Parse error in pattern: hlistToLinkedList
``````

I'm not sure what's wrong with my function. Would someone please explain?

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The regular Haskell list type is as likely to be a linked list as your type. –  augustss May 18 '14 at 22:32
I'm pretty sure that it is. –  GBXWA May 18 '14 at 22:56
Haskell doesn't promise anything about representation, so I was being cautious. :) –  augustss May 18 '14 at 23:48

The minimal change needed to make it compile is to simply add some parentheses to the patterns for non-empty lists; e.g.

``````hlistToLinkedList (x:xs) = ...
``````

By requiring parentheses for complex patterns, the compiler need not know how many arguments each constructor takes; an important trick for reducing the context sensitivity and promoting separate compilation.

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Daniel is right, but i think the case, that the list only have on element should be:

``````hlistToLinkedList [x] = Node x Nill
``````

And why you don't you recursion for hlistToLinkedList? I think

``````hlistToLinkedList (x:xs) = Node x (hlistToLinkedList xs)
``````

Would be a better way to do this :)

Another point is, it's better to use the cons operator instead of concatenation cause in most cases ++ has efficiency of n^2 and : is only n

``````linkedListToHlist (Node a b) = a : linkedListToString b
``````
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