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How is an array created in haskell using the constructor array? I mean, does it create the first element and so on? In that case how does it read the associated list?

For example if we consider the following two programs:-

``````ar :: Int->(Array Int Int)
ar n = array (0,(n-1)) (((n-1),1):[(i,((ar n)!(i+1))) | i<-[0..(n-2)]])

ar :: Int->(Array Int Int)
ar n = array (0,(n-1)) ((0,1):[(i,((ar n)!(i-1))) | i<-[1..(n-1)]])
``````

Will these two have different time complexity?

-

That depends on the implementation, but in a reasonable implementation, both have the same complexity (linear in the array size).

In GHC's array implementation, if we look at the code

``````array (l,u) ies
= let n = safeRangeSize (l,u)
in unsafeArray' (l,u) n
[(safeIndex (l,u) n i, e) | (i, e) <- ies]

{-# INLINE unsafeArray' #-}
unsafeArray' :: Ix i => (i,i) -> Int -> [(Int, e)] -> Array i e
unsafeArray' (l,u) n@(I# n#) ies = runST (ST \$ \s1# ->
case newArray# n# arrEleBottom s1# of
(# s2#, marr# #) ->
foldr (fill marr#) (done l u n marr#) ies s2#)

{-# INLINE fill #-}
fill :: MutableArray# s e -> (Int, e) -> STRep s a -> STRep s a
-- NB: put the \s after the "=" so that 'fill'
--     inlines when applied to three args
fill marr# (I# i#, e) next
= \s1# -> case writeArray# marr# i# e s1# of
s2# -> next s2#
``````

we can see that first a new chunk of memory is allocated for the array, that is then sequentially filled with `arrEleBottom` (which is an `error` call with message "undefined array element"), and then the elements supplied in the list are written to the respective indices in the order they appear in the list.

In general, since it is a boxed array, what is written to the array on construction is a thunk that specifies how to compute the value when it is needed (explicitly specified values, like the literal `1` in your examples, will result in a direct pointer to that value written to the array).

When the evaluation of such a thunk is forced, it may force also the evaluation of further thunks in the array - if the thunk refers to other array elements, like here. In the specific examples here, forcing any thunk results in forcing all thunks later resp. earlier in the array until the end with the entry that doesn't refer to another array element is reached. In the first example, if the first array element that is forced is the one at index 0, that builds a thunk of size proportional to the array length that is then reduced, so forcing the first array element then has complexity O(n), then all further elements are already evaluated, and forcing them is O(1). In the second example, the situation is symmetric, there forcing the last element first incurs the total evaluation cost. If the elements are demanded in a different order, the cost of evaluating all thunks is spread across the requests for different elements, but the total cost is the same. The cost of evaluating any not-yet-evaluated thunk is proportional to its distance from the next already evaluated thunk, and includes evaluating all thunks in between.

Since array access is constant time (except for cache effects, but those should not make a difference if you fill the array either forward or backward, they could make a big difference if the indices were in random order, but that still wouldn't affect time complexity), both have the same complexity.

Note however, that your using `ar n` to define the array elements carries the risk of multiple arrays being allocated (if compiled without optimisations, GHC does that - just tested: even with optimisations that can happen). To make sure that only one is constructed, make it

``````ar n = result
where
result = array (0,n-1) (... result!index ...)
``````
-
But even if I write the array in the way you specified,i.e. ar n=result ...., still then haskell at first creates some expression for each element of the array by reading the list from left to right, but when it evaluates the expressions, how does it evaluate? I mean is the expression for the first element is evaluated first and so on? – Chandan Oct 27 '12 at 20:09
You get thunks written to the array. Here's not much space, so I'll put that in the answer, hang on a bit, I'm a slow typist. – Daniel Fischer Oct 27 '12 at 20:15
@Chandan Updated – Daniel Fischer Oct 27 '12 at 20:33
Thanks. I understand why the two programs have same time complexity. But just asking, if I want to print the output on the screen, is there some definite order in which haskell will evaluate the elements? – Chandan Oct 27 '12 at 20:51
Arrays are printed as an association list, with the list elements in index-order. So if the elements haven't been evaluated before, first the one at index 0 needs to be evaluated (to be `show`n), then the one at index 1 etc until index `n-1`. So in that case, the first example does all evaluation work to show just the first element (array!0 needs array!1 needs array!2 ... needs array!(n-1)), and the second does the evaluation piecemeal, for each element `show`n, only one thunk needs to be evaluated. – Daniel Fischer Oct 27 '12 at 20:56