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I have generalized the existing Data.List.partition implementation

partition :: (a -> Bool) -> [a] -> ([a],[a])
partition p xs = foldr (select p) ([],[]) xs
    -- select :: (a -> Bool) -> a -> ([a], [a]) -> ([a], [a])
    select p x ~(ts,fs) | p x       = (x:ts,fs)
                        | otherwise = (ts, x:fs)

to a "tri-partition" function

ordPartition :: (a -> Ordering) -> [a] -> ([a],[a],[a])
ordPartition cmp xs = foldr select ([],[],[]) xs
    -- select :: a -> ([a], [a], [a]) -> ([a], [a], [a])
    select x ~(lts,eqs,gts) = case cmp x of
        LT -> (x:lts,eqs,gts)
        EQ -> (lts,x:eqs,gts)
        GT -> (lts,eqs,x:gts)

But now I'm facing a confusing behaviour when compiling with ghc -O1, the 'foo' and 'bar' functions work in constant-space, but the doo function leads to a space-leak.

foo xs = xs1
    (xs1,_,_) = ordPartition (flip compare 0) xs

bar xs = xs2
    (_,xs2,_) = ordPartition (flip compare 0) xs

-- pass-thru "least" non-empty partition
doo xs | null xs1  = if null xs2 then xs3 else xs2
       | otherwise = xs1
    (xs1,xs2,xs3) = ordPartition (flip compare 0) xs

main :: IO ()
main = do
    print $ foo [0..100000000::Integer] -- results in []
    print $ bar [0..100000000::Integer] -- results in [0]
    print $ doo [0..100000000::Integer] -- results in [0] with space-leak

So my question now is,

  1. What is the reason for the space-leak in doo, which seems suprising to me, since foo and bar don't exhibit such a space leak? and

  2. Is there a way to implement ordPartition in such a way, that when used in the context of functions such as doo it performs with constant space complexity?

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1 Answer 1

up vote 5 down vote accepted

It's not a space leak. To find out whether a component list is empty, the entire input list has to be traversed and the other component lists constructed (as thunks) if it is. In the doo case, xs1 is empty, so the entire thing has to be built before deciding what to output.

That is a fundamental property of all partitioning algorithms, if one of the results is empty, and you check for its emptiness as a condition, that check cannot be completed before the entire list has been traversed.

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Thanks, but I've got a bonus question then which still confuses me: If I have a baz function with the definition baz xs = (xs1,xs2) where (xs1,xs2,_xs3) = ordPartition (flip compare 0) xs, why does that need to hold on to the value of _xs3 (when foo and bar didn't need to?) –  hvr Feb 1 '12 at 11:34
It doesn't. Since the result depends in no way on _xs3, that can be forgotten. It may happen that the selector thunk optimisation doesn't fire and there's a reference to _xs3 through the tuple kept alive, but that's an accident. The thing in doo is that xs1 is needed to find out what the result is. Until that question is answered, nothing can be dropped because it might be needed. And if, as in the example, that question cannot be answered before everything has been processed, everything potentially needed for the result must be kept. –  Daniel Fischer Feb 1 '12 at 11:44
It seems in fact to be a non-fired optimization (in the case of baz); if I change the (,) constructor to a (++) application, or if I add bang-patterns to xs1 and xs2 the thunks I'm seeing are avoided... Is this worth being reported as a ghc bug-report? –  hvr Feb 1 '12 at 12:11
Better too many reports than unreported bugs. But there are already some tickets concerning that, so you may search and see if it's better to respond to an existing ticket. However, if it's a regression, do open a new ticket. –  Daniel Fischer Feb 1 '12 at 12:19
@hvr Does that optimisation work with -O2? –  is7s Feb 1 '12 at 13:28

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