# 99 questions/Solutions/31

### From HaskellWiki

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isPrime :: Int -> Bool | isPrime :: Int -> Bool | ||

isPrime p | isPrime p | ||

− | | p < 2 = error "Number too small" | + | | p < 2 = error "Number too small" |

− | | p | + | | p == 2 = True |

− | | p > 2 = all (\n -> p `mod` n /= 0) (getPrimes sqrtp) | + | | p > 2 = all (\n -> p `mod` n /= 0) (getPrimes sqrtp) |

− | where getPrimes z = takeWhile ( | + | where getPrimes z = takeWhile (<= z) allPrimes |

− | sqrtp = | + | sqrtp = floor . sqrt $ fromIntegral p |

</haskell> | </haskell> | ||

## Revision as of 03:30, 21 November 2010

(**) Determine whether a given integer number is prime.

isPrime :: Integral a => a -> Bool isPrime p = p > 1 && (all (\n -> p `mod` n /= 0 ) $ takeWhile (\n -> n*n <= p) [2..])

Well, a natural number p is a prime number iff it is larger than 1 and no natural number n with n >= 2 and n^2 <= p is a divisor of p. That's exactly what is implemented: we take the list of all integral numbers starting with 2 as long as their square is at most p and check that for all these n there is a remainder concerning the division of p by n.

However, we don't actually need to check all natural numbers <= sqrt P. We need only check the all natural primes <= sqrt P.

-- Infinite list of all prime numbers allPrimes :: [Int] allPrimes = filter (isPrime) [2..] isPrime :: Int -> Bool isPrime p | p < 2 = error "Number too small" | p == 2 = True | p > 2 = all (\n -> p `mod` n /= 0) (getPrimes sqrtp) where getPrimes z = takeWhile (<= z) allPrimes sqrtp = floor . sqrt $ fromIntegral p

Note that the mutual dependency of allPrimes and isPrime would result in an infinite loop if we weren't careful. But since we limit our observation of allPrimes to <= sqrt x, we avoid infinite recursion.

While the mutual dependency is interesting, this second version is not necessarily more efficient than the first. Though we avoid checking all natural numbers <= sqrt P in the isPrime method, we instead check the primality of all natural numbers <= sqrt P in the allPrimes definition.