Arrays have O(1) indexing. The problem is that each element is calculated lazily. So this is what happens when you run this in ghci:

```
*Main> :set +s
*Main> let t = 100000
(0.00 secs, 556576 bytes)
*Main> let a = fibArray t
Loading package array-0.4.0.0 ... linking ... done.
(0.01 secs, 1033640 bytes)
*Main> a!t -- result omitted
(1.51 secs, 570473504 bytes)
*Main> a!t -- result omitted
(0.17 secs, 17954296 bytes)
*Main>
```

Note that lookup is very fast, **after** it's already been looked up once. The `array`

function creates an array of pointers to thunks that will eventually be calculated to produce a value. The first time you evaluate a value, you pay this cost. Here are a first few expansions of the thunk for evaluating `a!t`

:

```
a!t -> a!(t-1)+a!(t-2)-> a!(t-2)+a!(t-3)+a!(t-2) -> a!(t-3)+a!(t-4)+a!(t-3)+a!(t-2)
```

It's not the cost of the calculations *per se* that's expensive, rather it's the need to create and traverse this very large thunk.

I tried strictifying the values in the list passed to `array`

, but that seemed to result in an endless loop.

One common way around this is to use a mutable array, such as an STArray. The elements can be updated as they're available during the array creation, and the end result is frozen and returned. In the vector package, the `create`

and `constructN`

functions provide easy ways to do this.

```
-- constructN :: Unbox a => Int -> (Vector a -> a) -> Vector a
import qualified Data.Vector.Unboxed as V
import Data.Int
fibVec :: Int -> V.Vector Int64
fibVec n = V.constructN (n+1) c
where
c v | V.length v == 0 = 0
c v | V.length v == 1 = 1
c v | V.length v == 2 = 1
c v = let len = V.length v
in v V.! (len-1) + v V.! (len-2)
```

**BUT**, the `fibVec`

function only works with unboxed vectors. Regular vectors (and arrays) aren't strict enough, leading back to the same problem you've already found. And unfortunately there isn't an Unboxed instance for `Integer`

, so if you need unbounded integer types (this `fibVec`

has already overflowed in this test) you're stuck with creating a mutable array in `IO`

or `ST`

to enable the necessary strictness.

`IO(U)Array`

and`ST(U)Array`

do not look that monolithic... – n.m. Apr 19 '12 at 10:56`[a]`

is a singly linked list; types like Data.Array.Array are closer to actual arrays. – huon-dbaupp Apr 19 '12 at 11:04