# In haskell how would you go about generating a list of all prime numbers upto a number say x?

so the function would be something like `primesearch::Int -> [Int]`. For example, `primesearch 4 = [2,3,5,7]`. Would you need to use the sieve function somehow? or is there another way of doing it?

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–  Will Ness Jul 2 at 1:24

To generate the first `k` prime numbers, or the prime numbers `<= n`, I recommend a sieve. Which kind of sieve depends on how many primes you want. For small numbers of primes, a monolithic Eratosthenes bit sieve is simple and fast. But if you want large numbers of primes, a monolithic sieve would need too much memory, so a segmented sieve is then the better option. For very small numbers of primes (the primes `<= 100000`, say), a trial division is even easier, but still sufficiently fast.

If you want to earnestly use primes, there are already packages on hackage which provide prime generators, for example arithmoi and NumberSieves. There are others, but as far as I know, all the others are significantly slower.

If it's for homework or similar, which method is the most appropriate depends on what the exercise shall teach.

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Check out this link. It shows several approaches, ranging from simple to understand to efficient.

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I'm learning and playing around with Haskell, specifically learning List Comprehension, so I tried to come out with one which represents "all" prime numbers.

I came out with this:

``````[x | x <- 2:[3,5..], and( map (\y -> 0 /= x `mod` y) (take (x`quot`4-1) [3,5..]))]
``````

And the first N primes could be retrieved using the "take" function:

``````take N [x | x <- 2:[3,5..], and( map (\y -> 0 /= x `mod` y) (take (x`quot`4-1) [3,5..]))]
``````

which works without infinite loops thank to lazy evaluation of the infinite ranges.

The meaning is: It is a List Comprehension of all "odd numbers plus the number 2"

``````[x | x <- 2:[3,5..], ... ]
``````

With a condition that for each number in the list "shall always be true"...

``````and( ... )
``````

...that "it is not 0 the remainder" of the number applied to all...

``````map (\y -> 0 /= x `mod` y)
``````

...the "first half" which are lesser than the candidate number...

``````take (x`quot`4-1)
``````

...from the set of "all odd numbers".

`````` [3,5..]
``````

I'm to beginner of Haskell to evaluate efficiency for real application (probably good only for small numbers), but I find cool that in Haskell it is possible to express a list of primes in this way

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Another fun article is http://www.cs.hmc.edu/~oneill/papers/Sieve-JFP.pdf. It is referenced by qrl's link, but is worth checking out on its own. It provides better explanations than qrl's link, but does not provide nearly as many implementations.

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