# Get the middle of an Ix range in O(1) time in Haskell

I was playing around with this code kata in Haskell, and I came across the question in the topic.

It's trivial to find the midpoint of an array whose indexes are a single numerical value, but Haskell's array indexes can be any instance of the Ix typeclass, including, for example, the tuple (Int, Word, Card) where card is an instance of Ix but not of Num.

One way to get the midpoint of the array is to query its length, query the list of indexes, and drop half that list, but this requires O(n) time.

Does anyone know of a way to index to do it in constant time? I feel like there should be one, since an Ix range is supposed to biject with an integer range.

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If there really does exist a bijection, then why not map to integers, calculate the mid-point and then take the inverse to map it back to your index type? I've no idea what kind of mechanism would permit this in Haskell, but it seems possible? –  Gian Sep 8 '10 at 14:28
The function `index` in the `Ix` class is one part of the bijection, mapping indices to integers, but the other one is missing, as far as I can tell. –  yatima2975 Sep 8 '10 at 14:51

`Ix` typeclass requires only injection from values of type `i` to that of `Int`. `index` together with `range` can give us inverse mapping:

``````index' :: (Ix i) => (i, i) -> Int -> i
index' b x = range b ! x
``````

As you can see `index'` evaluates at least in linear time. Also we can't have an idea of how long `range b` works. It is evaluated in the way that user has defined in instance definition. So the optimization needed in your case (get midpoint of an array) can take place if and only if we have some kind of `index'` that works in constant time. As `Ix` typeclass doesn't give us constant time mapping from `Int` to `i`, we should ask user for that. Consider next code:

``````midpoint :: (Ix j) => (Int -> j) -> Array j e -> e
midpoint f a = a ! f middle
where middle = rangeSize (bounds a) `div` 2
``````

Now complexity of taking midpoint of array depends on complexity of user-defined `f`. So if values of our index type `i` can be in constant time evaluated from `Int` values and vice versa -- we get midpoint in constant time.

Also consider `ixmap` function from `Data.Ix`:

``````ixmap :: (Ix i, Ix j) => (i, i) -> (i -> j) -> Array j e -> Array i e
``````
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