I think you're looking for is the '*Derived arrays*' section in the Data.Array documentation: http://hackage.haskell.org/packages/archive/array/latest/doc/html/Data-Array.html#5
which houses the function:

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

ixmap allows for transformations on array indices. It may be thought of as providing function composition on the right with the mapping that the original array embodies.

A similar transformation of array values may be achieved using fmap from the Array instance > of the Functor class.

The following code:

```
ixmap newBounds trans backingArray
```

would return an array with bounds `newBounds`

, and when indexed with `!i`

, the *index transformation function* is applied onto the index `i`

before being used to index `backingArray`

.

**Example** if you had the array "Hello World" (helloWorldArray below) and you want to only see "ell" as a derived *zero-based* (sub-)array:

```
> let helloWorldArray = listArray (0,length str - 1) str -- 0-based array
where str = "Hello World"
> let ellArray = ixmap (0,2) succ helloWorldArray -- also 0-based array
> ellArray ! 0
'e'
> ellArray ! 1
'l'
> ellArray ! 2
'l'
```

Here we say that our new array `ellArray`

has indices from `0`

through `2`

. Our index transformation is simply to add one (`succ`

), because we want to map the index range `[0..2]`

to `[1..3]`

in the original `helloWorldArray`

.

Of course, `ixmap`

is abstract enough to capture any index transformations: even as to view 2 dimensional arrays as 1 dimensional arrays and vice-versa. It's better to think of it as creating a 'view' onto array data *rather* than a 'sub-array' function.

For more examples you can look here: http://zvon.org/other/haskell/Outputarray/ixmap_f.html

`newArray_ (0,x) :: IO (IOArray Int Sub)`

:-P – sclv Apr 7 '11 at 18:46