I have generalized the existing `Data.List.partition`

implementation

```
partition :: (a -> Bool) -> [a] -> ([a],[a])
partition p xs = foldr (select p) ([],[]) xs
where
-- 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
where
-- 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
where
(xs1,_,_) = ordPartition (flip compare 0) xs
bar xs = xs2
where
(_,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
where
(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,

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? andIs 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?