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 import Data.Vector hiding((++))
 import System.Environment 
 d = generate 1000000 (\z->case z of
                      0 -> 2
                      1 -> 3
                      2 -> 5
                      otherwise -> if odd z then (d ! (z-1)) +2 else (d ! (z-1)) + 4)
 algorithmA _ _  1 pt  = pt
 algorithmA t k n pt = let dk = d ! k
                       q = div n dk
                       r = mod n dk
                      in if r /=0 then
                            if q>dk then
                              algorithmA t (k+1) n pt
                            else (n:pt)
                             algorithmA (t+1) k q (dk:pt)

main = do
        let n = read (args !! 0)
        if (floor(sqrt(fromInteger n))) > Data.Vector.last d  then error ("The square  root of number is greater than " ++ show (Data.Vector.last d))
         print (algorithmA 0 0 n [])

When I compile the above program and give for example in the command line test1 2222 I take the message "Stake space overflow: current size ... use +RTS -Ksize -RTS to increase ... ". But when I delete the if in the main function then the program works without problem. Also if I give the command Data.Vector.last d in the ghci the value is calculated without problem. So why this message is printed? When I increase the stack size to 20M the program plays without problem. The test1 is the name of executable.


share|improve this question
What happens if you make algorithmA strict in t and k? – Daniel Wagner Apr 13 '13 at 19:50
Can you tell me how to do that? – Dragno Apr 13 '13 at 20:05
@DanielWagner I did the following algorithmA !t !k n pt = ... and I compiled with ghc -O2 -XBangPatterns test1.hs I run the program and I took the same message. – Dragno Apr 13 '13 at 20:13
You don't need a vector when a simple function will do: define d' 0 = 2 ; d' 1 = 3 ; d' z | odd z = 3*z-2 | otherwise = 3*z-1 and replace d ! k with d' k. And algorithmA doesn't appear to do anything substantive with its t parameter... – dave4420 Apr 13 '13 at 22:03
up vote 9 down vote accepted

The problem is that your code is being too lazy when constructing d. Remember that Data.Vector.Vector is a boxed vector type - that is, it is represented internally as an array of pointers to heap objects (which are either values or unevaluated thunks). So when you're populating d with generate, you are actually creating a vector of thunks. In your example, when the thunk at position n is accessed, it triggers the evaluation of thunks at positions n-1 and n-2, which in turn triggers evaluation of thunks n-3, n-4, n-5 and so on. So evaluating the last element causes the previous 1000000 - 1 elements to be evaluated, causing the stack to grow. This is why you get the stack overflow error.

An easy way to fix this without modifying your code is to fully evaluate the whole vector before accessing the last element. In that case all thunks are evaluated in order and there is no stack overflow (since once a thunk has been evaluated, it's replaced with the value of the expression it represented, so when you're evaluating element n after having already evaluated elements n-1 and n-2, only those two elements have to be accessed and the cascading evaluation of all previous thunks is not triggered):

import Control.DeepSeq (($!!))
let l = V.last $!! d


$ ghc -O2 Test.hs
[1 of 1] Compiling Main             ( Test.hs, Test.o )
Linking Test ...
$ ./Test 2222    

Alternatively, you can use unboxed vectors (flat arrays of Ints):

d :: U.Vector Int
d = U.create $ do
  v <- dSize
  go 0 v
      dSize = 1000000
      go i v | i >= dSize = return v
             | otherwise = do
               val <- case i of
                 0 -> return 2
                 1 -> return 3
                 2 -> return 5
                 _ -> if odd i
                      then (+2) <$> ( v (i-1))
                      else (+4) <$> ( v (i-1))
               M.write v i val
               go (i+1) v
share|improve this answer
OK it worked, thanks for your answer. I would like if you can some more clarification. So if I understand the problem is that in my code the evaluation of the vector is done in reverse order forcing Haskell to use the stack and in your version , the vector is evaluated in the right order, is that so? Another question, why this does not happen when I write in ghci last d and it happens in the compiled version of the code?In addition the second solution, uses Ints not Intgers as the first solution. And it has some overflow errors for example test1 2222222222 gives [-1036372537,2]. – Dragno Apr 14 '13 at 12:10
@Dragno Yes, I changed it to use Ints. Changing back to Integers is not hard: – Mikhail Glushenkov Apr 14 '13 at 12:18
@Dragno ghci has a larger stack limit (512M) than compiled programs (8M). If you run ghci with +RTS -K8M, you'll see a stack overflow. For more on this, see this thread: – Mikhail Glushenkov Apr 14 '13 at 12:20
@Dragno Yes, the solution was to change the order in which the elements of the vector are evaluated. Once a thunk has been evaluated, it's replaced with the value of the expression it represented, so when you're evaluating element n after having already evaluated elements n-1 and n-2, only those two elements have to be accessed, which does not trigger cascading evaluation of all previous thunks. – Mikhail Glushenkov Apr 14 '13 at 12:32
I mean the second (unboxed) solution uses Ints not the first (boxed) version. If I understand well, the boxed version is polymorphic while the unboxed version can use only the so-called "primitive" types, and Integer is not primitive type. Am I right? – Dragno Apr 14 '13 at 13:23

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