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I have the following code that implements the Sieve of Eratosthenes:

primes :: [Int]
primes = primes' [2..]

primes' :: [Int] -> [Int]
primes' [] = []
primes' (p:ps) = p:(primes' [p' | p' <- ps, not (p' `isMultiple` p)])

a `isMultiple` b = (a `mod` b) == 0

main = print (sum (primes' [2..100000]))

I would like to change main to something like

main = print (sum [p | p <- primes, p < 100000]))

Not surprisingly, this hangs because it must compare p against every element of the infinite list primes. Since I know that primes is in increasing order, how do I truncate the infinite list as soon as I find an element that exceeds my upper limit?

p.s. In theory, primes' filters the input list to return a list of primes. I know there will be some issues if I start the list at something other than 2. I'm still working on how to address this issue on my own, so please no spoilers. Thanks ;-)

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By the way, this is not the true Sieve of Erastosthenes. Check [this cool article](www.cs.hmc.edu/~oneill/papers/Sieve-JFP.pdf) out. –  hugomg Jun 7 '12 at 19:49
    
Thanks for the article. I haven't finished reading it yet, but it looks interesting so far. –  Code-Apprentice Jun 8 '12 at 0:26

1 Answer 1

up vote 12 down vote accepted

In cases like this where you know that once the predicate returns false for an element, it won't ever return true for a later element, you can replace filter with takeWhile, which stops taking elements as soon as the predicate returns false for the first time.

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Thank you. I will look into that. –  Code-Apprentice Jun 7 '12 at 17:34

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