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I am trying to compute the next closest prime number after a number is entered with Haskell, I have coded 2 functions isPrime and nextPrime

Here is my code:

isPrime :: Int -> Bool
isPrime x   | x < 2          = False
        | otherwise      = prime (2:[3,4..(x-1)])
where 
    prime (y:z)
        | x < y ^ 2      = True
        | x `mod` y == 0 = False
        | otherwise      = prime z



nextPrime :: Int -> Int
nextPrime n | isPrime n == True = n
            | otherwise = nextPrime n
        where
            n = n + 1

The problem I have is that I get this error when I run it : * Exception: "<<"loop">>"

I don't know what's wrong, is it an infinite loop?

share|improve this question
    
Other people have answered the question about what's wrong, but just to be clear: Yes, <<loop>> indicates that your code has an infinite loop, and that the GHC runtime detected this. It can't do this for all loops, but it's pretty magical when it does. – Antal Spector-Zabusky Oct 5 '13 at 14:45
    
When you write 2:[3,4..(x-1)], do you mean 2:[3,5..(x-1)]? – chirlu Oct 6 '13 at 3:36

You cannot change the value of variables in Haskell. This means that you cannot execute

n = n + 1

since that would change the value of n. In Haskell, n is a name that always refers to the same value inside the function it is used. If n starts out as 3, n will always be 3. You could do,

next = n + 1

and then also change

| otherwise = nextPrime n

into

| otherwise = nextPrime next

This will not change the value of any variable, but instead create a new variable with the new value – something you often do in Haskell!

share|improve this answer
    
Good answer - beat me by a few seconds :) – Chris Taylor Oct 5 '13 at 14:24

Just change the definition of nextPrime to

nextPrime :: Int -> Int
nextPrime n | isPrime n = n   -- don't need to compare to True here
            | otherwise = nextPrime (n+1)

You generate an infinite regress when you try to define n = n + 1, as the runtime would attempt to expand this as

n =   n + 1
  =  (n + 1) + 1
  = ((n + 1) + 1) + 1
  = ...

Fortunately, the compiler is able to detect this kind of infinite regress and warn you about it!

share|improve this answer
    
It is working the only problem now is that if you enter a prime number, it returns the prime number and not the next one. i.e. if you enter 2, you get 2 - same for 3, 5, 7 ... What can I add to sort this out? – sachalondon Oct 5 '13 at 14:27
    
Well, one quick fix would be to rename the function you already have to nextPrime_helper and define a new function, nextPrime n = nextPrime_helper (n+1). Pretty ugly, but it works! – Chris Taylor Oct 5 '13 at 14:36
    
Isn't there a neater way of doing this, without defining a new function. – sachalondon Oct 5 '13 at 14:43
    
@sachalondon You could do, for example, | isPrime next = next | otherwise = nextPrime (next+1). This will always check "one number ahead" so if you give it 2, it will first try with 3 and then continue to 4 and so on. – kqr Oct 5 '13 at 15:13
    
@kqr I have tried what you've said, so I have : nextPrime :: Int -> Int nextPrime n | isPrime next = next | otherwise = nextPrime (next + 1) where next = n + 1 But it does not work when I try it out it gets stuck and does not give an answer.. – sachalondon Oct 5 '13 at 15:18

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