[Update]

So I've changed my code to make it more readable. The function dpfsSat has two arguments, klauselMenge is a huge set with elements from X. During the recursion klauselMenge should be reduced through some functions.

``````import qualified Data.IntSet as Set
import qualified Data.IntMap as IntMap
import qualified Data.Vector as V

data X
= Xin !(Int,(Set.IntSet)) deriving (Eq,Show,Ord)

type Klausel = [Atom]
type KlauselMenge = [Klausel]

dpfsSat :: Int -> KlauselMenge -> Klausel
dpfsSat fset klauselMenge = dpfsSat' fset klauselMenge []
where
dpfsSat' :: Int -> KlauselMenge -> Klausel -> Klausel
dpfsSat' _ [] l = resolveDuplicateLiterals l
dpfsSat' f k l
| f `seq` k `seq` l `seq` False = undefined
| [] `elem` k = []
| ok1 = dpfsSat' f rTF l
| ok2 = dpfsSat' f (substituteSimilarUnits (atomToTupel v2) k) l
| ok3 = dpfsSat' f (resolveUnit1 v3 k ) ((Xin v3):l)
| ok4 = dpfsSat' f (resolvePureLiteral v4 k) ((Xin v4):l)
| otherwise = case (dpfsSat' f (resolveUnit1 minUnit k) ((Xin minUnit): l)) of
[] -> dpfsSat' f ( resolveUnit1 kompl k)  ((Xin kompl): l)
xs -> xs
where
rTF = resolveTrueFalse f v1 k
minUnit = findBestLiteral4 k
kompl   = (fst minUnit,Set.difference (Set.fromList [1..f]) (snd minUnit))
fTF = findTrueFalse4 f k
fSU = findSimilarAtomUnits f k
fU  = findUnit' k
fP  = findPureLiteral k
ok1 = maybeToBool fTF
ok2 = maybeToBool fSU
ok3 = maybeToBool fU
ok4 = maybeToBool fP
v1  = expectJust fTF
v2  = expectJust fSU
v3  = expectJust fU
v4  = expectJust fP

maybeToBool :: Maybe a -> Bool
maybeToBool (Just x) = True
maybeToBool Nothing  = False

expectJust :: Maybe a -> a
expectJust (Just x) = x
expectJust Nothing  = error "Unexpected Nothing"
``````

Since I'm not allowed to upload images, I do writing the output of the heap profile (-hy). The Heap is full of IntSet's.

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Are `A`, `B`, `C` and `D` supposed to be functions? Writing them in upper case makes them look like constructors instead. And how is `X` relevant? – dave4420 Feb 7 '12 at 16:29
Sorry for that. A, B, C and D are functions. Constructor X is needed for some possible other representation. – tomic84 Feb 7 '12 at 16:36
Since `a (c u) f l` is the result, its evaluation can only be forced from outside `a`. To identify the leak, we must see more code. – Daniel Fischer Feb 7 '12 at 16:47
now i've posted some more code. What do you mean the evaluation can only force from outside a? – tomic84 Feb 7 '12 at 17:13
Are you aware that case constructs like this can be written in a far less awkward fashion using pattern guards? And, in the code example as you have it there now, what is this `a (c u) f l`? – leftaroundabout Feb 7 '12 at 17:58

If `c` is something like `(1+)`, then this can cause a leak as you build up a chain of thunks `(1+(1+(1+...)))`. The way to avoid this is to use `seq`:

``````let k' = c u in k' `seq` a k' f l
``````

`seq` will force evaluation of `k'` before `a k' f l` can be evaluated, so this will handle the space leak in many cases.

However, `seq` is not a panacea, and you should read up on its proper use and avoid misusing it.

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in this case, function c calculates a new list, probably a smaller one – tomic84 Feb 9 '12 at 14:11
@tomic84: this can still cause a chain of thunks to build up `(c (c (c (c (c ... )))))` since the value of `u` is never forced before it's passed along.. – rampion Feb 9 '12 at 14:31
This makes sense to me, but trying to force the evaluation with seq is not changing the heap leak. – tomic84 Feb 9 '12 at 14:37