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I define my own version of concat, myConcat:

module Eh where

myConcat []          = []
myConcat ([]:os)     = myConcat os
myConcat ((x:xs):os) = x : myConcat (xs:os)

(!!!)  :: [a] -> Int -> a
xs     !!! n | n < 0 = error "negative index"
[]     !!! _         = error "index too large"
(x:_)  !!! 0         = x
(_:xs) !!! n         = xs !!! (n-1)

If I do myConcat <some huge list> !! n in the GHC interpreter, it steals my memory at 300MB/s, and I have to kill it before it can summon the OOM killer. Note here that I load Eh as "interpreted", I don't compile it before loading it.

code run in the GHC interpreter        space leak?
myConcat (repeat [1,2,3,4]) !! (10^8)  Yes
concat (repeat [1,2,3,4]) !! (10^8)    No
myConcat (repeat [1,2,3,4]) !!! (10^8) No
concat (repeat [1,2,3,4]) !!! (10^8)   No

Now if I compile Eh (ghc --make -O2 Eh.hs), and then load it in the interpreter and re-run these tests, none of them space leak. Same if I compile each test case instead of running them in the interpreter.

What's going on?

I'm running GHC 6.12.3.

share|improve this question
not that much... – FUZxxl Oct 10 '11 at 1:25
"What's going on?" - well, optimization (-O2), for one thing. :) – Dan Burton Oct 10 '11 at 3:32
why is there even a space leak in the first place? – L̲̳o̲̳̳n̲̳̳g̲̳̳p̲̳o̲̳̳k̲̳̳e̲̳̳ Oct 10 '11 at 3:37
I could reproduce it, and it is not only optimization – if I compile the file with -O0, it does not leak, while running ghci with -O2 does not help. My guess would be that the garbage collector does not run correctly for some reason that is not clear to me. But luckily the bug is fixed in later versions :-) – Joachim Breitner Oct 13 '11 at 14:30
I don't know either what causes the leak, but it seems to be a bug present only in 6.12. I tested with 6.10.4, 6.12.3, 7.0.2, 7.0.4 and 7.2.1, the only version exhibiting the leak was 6.12.3. Trying to diagnose it by running ghci with +RTS -hT made it run in constant memory (but much higher than the other versions, ~120MB). – Daniel Fischer Oct 27 '11 at 0:29

The issue here is strictness. Evaluation in Haskell is non-strict, so computations are usually performed only if their results are really needed. Instead, a so-called thunk is created that represents the not-yet-performed computation.

In certain cases the compiler can however detect that the result of the computation will be needed anyway and therefore replaces the creation of thunks by the actual computation.

The Haskell Wiki probably explains this better.

To fix your myConcat function you have to make sure it doesn't create millions of thunks by manually forcing strict evaluation. One (not very pretty looking) way of doing this could be:

myConcat []          = []
myConcat ([]:os)     = myConcat os
myConcat ((x:xs):os) = ((:) $! x) myConcat (xs:os)
share|improve this answer
I don't think that's the issue here. The leak occurs only with ghc-6.12 and only with interpreted code. If it were just strictness, the leak should also occur with other versions, and also in (unoptimised) compiled code. Looks more like a corner-case bug in 6.12's byte-code generator to me. – Daniel Fischer Oct 28 '11 at 9:04
Maybe, but why does my version of myConcat work then? The only change is the strict apply. – bseibold Oct 28 '11 at 15:14
Yes, of course laziness has a part in it, and by introducing the right strictness annotations, the leak can be avoided. What I meant is that normally, the byte-code generated by ghci treats the original definition well, so the manifestation of the leak points rather to a problem in 6.12's byte-code generator than to a problem with the non-strictness of the definition per se. – Daniel Fischer Oct 28 '11 at 15:37

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