# how to represent `n` as a series of numbers

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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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
@maclunian Yes, but it's nice to split things up into small functions. –  augustss May 25 '11 at 19:53
@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