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I am implementing a filter in Haskell, i.e. a program that I can call from the command-line as follows:

$ cat inputfile.txt | myFilter > outputfile.txt

When running the program on a file of about 80 MB, I get a stack overflow (Stack space overflow: current size 8388608 bytes.). I am using GHC Version 6.12.3 under cygwin.

I think the problem comes from the sort function that I am using in the program, but after I have been looking for the problem for three days I have no clue how to solve this so I would like if someone could give me a hint.

Here are the essential details about my program.

My filter program reads standard input into a string, splits it into lines and parses each line into a record of some type Event

data Event = ...

which is an instance of Ord

instance Ord Event where
    x < y = ...

so that I can sort events using the built-in sort function.

Splitting into lines and parsing the events (one event per line) is performed by a function

p :: String -> [Event]

which internally uses the standard function lines.

I also have a function g that groups events:

g :: [Event] -> [[Event]]

g uses some criteria that are not relevant here; each group can contain at most 4 events.

I sort each group of events (represented as a list) using sort (i.e., all events inside each group get sorted), and finally format the all event groups as a string using a function

f :: [[Event]] -> String

The main function looks as follows:

main = interact (f . (map sort) . g . p)

As said, running this program on a file of about 80 MB gives a stack overflow.

If I replace the sort function with the following function (a naive quick sort implementation):

mySort :: [Event] -> [Event]
mySort [] = []
mySort (e:es) = let h = [j | j <- es, j < e]
                    t = [j | j <- es, e < j]
                in
                  (mySort h) ++ [e] ++ (mySort t)


main = interact (f . (map mySort) . g . p)

I have no stack overflow!

If in the function mySort I replace the definition of t with the following:

                    t = [j | j <- es, e <= j]

i.e. I replace < with <=, the stack overflow is there again!

So I have no clue of what is going here. I cannot see that I have introduced any infinite recursion. My other hypothesis is that lazy evaluation can play a role here (does <= produce a bigger thunk than <?).

I have some experience with Haskell but I am no real expert so I would be glad to get some useful hint because I have been struggling to understand this for the past three days.

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I had posted this question on programmers.stackexchange.com and, since it is off-topic there, I have moved it to this site. Before I could delete the question from there I got a hint to read haskell.org/haskellwiki/Stack_overflow, which I am also doing right now. –  Giorgio Aug 30 '12 at 18:43

2 Answers 2

up vote 21 down vote accepted

The culprit is

instance Ord Event where
    x < y = ...

which is the wrong way to define an Ord instance. The minimal complete definition of an Ord instance defines one of compare or (<=). There are default definitions of compare in terms of (<=), and of all Ord member functions in terms of compare. So if you define (<), that's the only Ord member you can use, all others will loop infinitely when called, since they call compare, which calls (<=), which calls compare ...

The Data.List.sort function uses compare to determine the order, so it loops at the first comparison. Your custom quicksort only uses (<), so that works.

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+1: Thanks a lot for the answer. By implementing <= instead of < I get the correct result and no overflow. As a side note: my type Event is also an instance of Eq and so there is a == :: Event -> Event -> Bool; but this is not sufficient, one has to implement <= (or compare). –  Giorgio Aug 31 '12 at 8:19
    
I wish Eq, Ord, etc. just required some arbitrary method to be implemented (e.g: (==) and (<)) and had all the others be ordinary functions. This would give a standard way to define instances and avoid all the trouble. The only downside of not being free to define (>), (/=), or compare seems minuscule in comparison. Especially as long as Haskell has no static checking for the validity of the set of methods implemented. –  Peaker Sep 6 '12 at 7:56

Before trying out to profile the code and to get quick result - try to increase stack size.

Compile your program with enabling RTS and specify desired stack size.

http://book.realworldhaskell.org/read/profiling-and-optimization.html

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