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I have the following function:

type Coordin = (Int,Int)

data Grid = Open
          | Taken Int

myOwn :: Coordin -> Grid -> Bool
myOwn (x,y) grid  
    | ((board)!!(y)!!(x)) == Taken n           = True
    | otherwise                                = False

I would like n to mean any number (as Int is specified as such in Data Grid for that particular type) but the thing just won't work!! I thought about using a where clause but if there are any other ideas it would be much appreciated. Thanks.

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3 Answers 3

up vote 4 down vote accepted

With inspiration form camccann's solution:

type Board = [[Grid]]

isTaken :: Grid -> Bool
isTaken (Taken _) = True
isTaken Open      = False

myOwn :: Coordin -> Board -> Bool
myOwn (x,y) board = isTaken (board !! y !! x)
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Any way to combine isTaken and myOwn into a single function? –  maclunian May 25 '11 at 19:48
3  
@maclunian Yes, but it's nice to split things up into small functions. –  augustss May 25 '11 at 19:53
1  
@maclunian, Think twice my friend. What if you later need isTaken again? If you merge the two functions you won't have any isTaken. Now, Imagine you reuse isTaken a couple of times, and 3 months later you change data Grid = to also include a constructor ReTaken Int. Then you must update isTaken only at one place in your code. This is modularity, and the reason why we love haskell. :) –  Tarrasch May 25 '11 at 20:12

The expression after a guard is a boolean predicate, not a pattern binding. So you can't match Taken n with the computed value and bind a value to n.

Essentially, the guard is equivalent to this:

myOwn (x,y) grid = if board !! y !! x == Taken n
                   then True
                   else False

Aside from the superfluous if statement, it should be obvious that you can't bind n in this context.

To do what you're trying for, you'd need another pattern match:

myOwn (x,y) grid = case board !! y !! x of
                       Taken n -> True
                       ...

But, since you're not actually using the value of n here, you'd be better served by writing a separate function:

isTaken (Taken _) = True
isTaken Open = False

...then guarding with that, instead.

Incidentally, on a stylistic point, you have a lot of ugly superfluous parentheses in your guard expression; you should remove those.

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Is there a way I could combine isTaken and myOwn into a single function? –  maclunian May 25 '11 at 19:45
    
@maclunian: You'd want to define myOwn using isTaken, most likely, as in what @Tarrasch wrote. But there's no reason to have a single definition because isTaken and indexing the grid are conceptually different operations, and it's more readable with isTaken separated out. –  C. A. McCann May 25 '11 at 20:19
myOwn (x,y) grid = not (board !! y !! x  == Open)
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1  
I hope you don't mind the critique, but while this answer isn't fundamentally wrong it's less than ideal. Grid has no Eq instance, and while it could be given one currently, it's unnecessary here. Imagine that a later refactoring adds a third constructor PartlyTaken (Int -> Grid) that defines what happens when adding something to a location; this prevents deriving Eq, but shouldn't prevent writing an isOpen predicate, just like isNothing doesn't need Eq. In summary, it's always better to avoid (==) when what you really want is case analysis. –  C. A. McCann May 25 '11 at 21:54
    
not an efficient way to do it with regard to what I'm after –  maclunian May 25 '11 at 22:21
    
I'm not sure why this was downvoted. It's not the best solution, but it still does what the function in the question was supposed to do in a reasonably straightforward fashion... –  C. A. McCann May 26 '11 at 19:49

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