# Haskell script running out of space

I'm using project Euler to teach myself Haskell, and I'm having some trouble reasoning about how my code is being executed by haskell. The second problem has me computing the sum of all even Fibonacci numbers up to 4 million. My script looks like this:

``````fibs :: [Integer]
fibs =  1 : 2 : [ a+b | (a,b) <- zip fibs (tail fibs)]

evens  :: Integer -> Integer -> Integer
evens x sum | (even x)   = x + sum
| otherwise  = sum

main = do
print (foldr evens 0 (take 4000000 fibs))
``````

Hugs gives the error "Garbage collection fails to reclaim sufficient space", which I assume means that the list entries are not released as they are consumed by `foldr`.

What do I need to do to fix this? I tried writing a tail-recursive (I think) version that used accumulators, but couldn't get that to work either.

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A good idea actually. I've gone through many of the problems already, but I've wanted to teach myself Python. P.E. would be a good way to do so. –  user85109 Apr 29 '09 at 23:35

A number of observations / hints:

• the `x + sum`s from even aren't getting evaluated until the very end
• You're taking the first 4,000,000 fibs, not the fibs up to 4,000,000
• There is an easier way to do this

Edit in response to comment

I'm not going to tell you what the easier way is, since that's the fun of Project Euler problems. But I will ask you a bunch of questions:

• How many even fibs can you have in a row?
• How long can you go without an even fib?
• If you sum up all the even fibs and all the odd fibs (do this by hand), what do you notice about the sums?
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I started off with x + sums, but the 4M Fibonacci numbers are an even bigger problem! Hi Markus! –  Norman Ramsey Apr 10 '09 at 2:22
Thanks... but what's the easier way? –  Gabe Moothart Apr 10 '09 at 14:03
Look up prelude functions "filter" and "sum". –  Paul Johnson Apr 10 '09 at 21:38

Firstly, you shouldn't use hugs. It is a toy for teaching purposes only.

GHC, however, is a fast, multicore-ready optimizing compiler for Haskell. Get it here. In particular, it does strictness analysis, and compiles to native code.

The main thing that stands out about your code is the use of foldr on a very large list. Probably you want a tail recursive loop. Like so:

``````import Data.List

fibs = 0 : 1 : zipWith (+) fibs (tail fibs)

evens x sum | even x    = x + sum
| otherwise = sum

-- sum of even fibs in first 4M fibs
main = print (foldl' evens 0 (take 4000000 fibs))
``````

Besides all this, the first 4M even fibs will use a fair amount of space, so it'll take a while.

Here's the sum of the first 400k even fibs, to save you some time (21s). :-)

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I was using hugs b/c GHC's startup time is abysmal, but thanks. Turns out I misunderstood the problem, but thanks for the suggestions –  Gabe Moothart Apr 10 '09 at 14:02
A fast compiler that generates optimal code won't make up for a failure to understand the problem, which is what was happening here. You should be able to work this one out with a pen and a piece of paper. –  MarkusQ Apr 10 '09 at 23:00
Re: GHC startup time: you don't need to restart GHCi, just type `:r` and it will reload the current file from disk. –  nominolo Apr 11 '09 at 0:00

You understood the problem wrong. The actual problem wants you to sum all the even Fibonacci numbers such that the Fibonacci number itself doesn't exceed 4 million (which happens to be only the first 33 Fibonacci numbers).

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You are evaluating four million elements of `fibs`. Those numbers grow exponentially. I don't know how many bytes are required to represent the millionth Fibonacci number; just the one-thousandth Fibonacci number has 211 decimal digits, so that's going to take 22 32-bit words just to hold the digits, never mind whatever overhead `gmp` imposes. And these grow exponentially.

Exercise: calculuate the amount of memory needed to hold four million Fibonacci numbers.

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