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I am given an array of Char and have to translate it to Moves (as shown below)

data Move = N | S | W | E | X
newtype Moves = Moves [Move]

createMoves:: [Char]-> Moves
createMoves (x:xs) =  if xs==[] then Moves [createMove(x)]
                      else Moves [createMove (x)] 

createMove:: Char-> Move
createMove (x) = if x=='N' then N
                 else if x=='S' then S
                 else if x=='W' then W
                 else if x=='E' then                      
                 else X

However, I am only succeeding in getting the first item of the list. I have tried a number of ways to make createMoves recursive but I can't get it right. Could you please guide me?

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you should format your code... –  Kru May 27 '11 at 16:05
Functions don't need parentheses in Haskell. You should just write "createMove x". –  amindfv May 27 '11 at 16:39
BTW, this [Char] is not an array. It is a list. –  FUZxxl May 27 '11 at 16:46
To elaborate, what amindfv said: You neither need them nor should write them, as they may introduce subtile changes to the meaning of your program. For instance createMove (x:xs) is different from createMove x:xs, as the : has a lower precedence than createMove. –  FUZxxl May 27 '11 at 18:29
@FUZxxl, that's the absence of parentheses which is causing problems, not presence. There is nothing wrong with putting redundant parentheses while you are not yet confident with operator precedence. –  Rotsor May 28 '11 at 8:22

5 Answers 5

Branches of your if statement are the same, so it does nothing.

When programming recursive functions, there are two cases. The basic one, you should declare createMoves [] = []. The recursive is a little more complicated; basically, for each x you create a move that is the first element appended to a list built using a recursive call on xs.

A simpler way is to use the map function. You can also look at its implementation. By the way, for createMove you could use pattern matching instead of many ifs.

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That's what I am trying to do, but it is interfering with the type signature. I am trying to implement it this way: createMoves:: [Char]-> Moves createMoves (x:xs) = if xs==[] then Moves [createMove(x)] else createMoves(xs): Moves [createMove(x)] –  Annabel May 27 '11 at 16:37
The reason you're having a problem with the type signature is that you're putting the "Moves" type constructor in the recursive function. If you didn't get type problems, the list would look like this: Moves [N, Moves E, Moves S]. You simply want Moves [N, E, S]. –  amindfv May 27 '11 at 16:51
Replace newtype Moves = Moves [Move] by newtype Moves = [Move], it will simplify your code and you won't need the constructor everytime you make a list of moves. –  Kru May 27 '11 at 17:00
@Chris - do you mean type Moves = [Move]? –  John L May 27 '11 at 17:07
@John: yep, forgot to remove the new –  Kru May 27 '11 at 17:11

Your problem seems to be centering on combining the result of the recursive call on xs with the result of createMove x. So, let's just introduce a helper function which is going to take care of that!

createMoves:: [Char]-> Moves
createMoves (x:xs) =  if xs==[] then Moves [createMove x]
                      else createHelper (createMove x) (createMoves xs)

Now, what should the type of createHelper be? Its first argument is a Move and the second is a Moves, and it should put the first argument in front of the list of Moves contained in the second, and 'repack' it in a value of type Moves. To get at the list of Moves you need to use pattern matching, like so:

createHelper :: Move -> Moves -> Moves
createHelper m (Moves ms) = Moves (m:ms)

That should do the trick, but all this matching on the Moves constructor and then reapplying it is a bit silly, and potentially inefficient. A better approach is to convert the [Char] one-by-one to [Move] and only at the end tacking the Moves constructor on. That leads to something like (still in keeping with your original idea):

createMoves :: [Char] -> Moves
createMoves cs = Moves (createMoveList cs)

createMoveList :: [Char] -> [Move]
createMoveList (x:xs) = if xs == [] then [] else createMove x : createMoveList xs

createMoveList is a pattern that comes up very often in Haskell, namely that of applying a function (in this case, createMove) to each element in a list. This is the essence of the map function (which I'm sure you'll get to very soon in your lessons, if you haven't already!).

If you use that, you can also get rid of the problem that createMoves fails when given an empty list. So the solution I would go with is:

createMoves :: [Char] -> Moves
createMoves cs = Moves (map createMove cs)


createMoves = Moves . map createMove

but that's another story!

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Great answer! +1 for not trying to fix anything that is not broken. :-) –  Rotsor May 28 '11 at 8:19

Your createMoves function only operates on one element of the list it's given.

Try using the map function. On other words, start your function with:

createMoves list = Moves (map 


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You may wish to use Guards (i.e. |) instead of if, then and else.

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First, you should remove the newtype statement; if you want the list to print, just have the Move type derive Show.

Next, you can remove the explicit recursion in the createMoves function by using map. For future reference, you can look for functions by name and type signature on Hoogle.

Finally, you can use pattern matching to eliminate all the equality tests against constants. An irrelevant example using the Move type is

isN :: Move -> Bool
isN N = True
isN _ = False

Note that the _ character means "ignore this value". If you haven't covered pattern matching yet, then guards might still be better than nested ifs.

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