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I'm having an issue with a simple Haskell program. It's supposed to factor a number n-1 into the form (2^r)s where n is a Carmichael number. This isn't really pertinent to my question, but it's what the following set of functions aims to do.

divides::Int->Int->Bool
divides x y = not $ y `mod` x == 0

carmichaeltwos::Int->Int
carmichaeltwos n
    | not $ divides 2 n =0
    | otherwise = (+ 1) $ carmichaeltwos (n/2)

carmichaelodd::Int->Int
carmichaelodd n
    | not $ divides 2 n = n
    | otherwise = carmichaelodd (n/2)

factorcarmichael::Int->(Int, Int)
factorcarmichael n = (r, s)
    where
        nminus = n-1
        r = carmichaeltwos nminus
        s = carmichaelodd nminus

When I try to load this into GHCi, Haskell spits up:

No instance for (Fractional Int)
  arising from a use of `/'
Possible fix: add an instance declaration for (Fractional Int)
In the first argument of `carmichaelodd', namely `(n / 2)'
In the expression: carmichaelodd (n / 2)
In an equation for `carmichaelodd':
    carmichaelodd n
      | not $ divides 2 n = n
      | otherwise = carmichaelodd (n / 2)

I know that the function / has type (/)::(Fractional a)=>a->a->a, but I don't see how to fix my program to make this work nicely.

Also, I realize that I'm basically computing the same thing twice in the factorcarmichael function. I couldn't think of any easy way to factor the number in one pass and get the tuple I want as an answer.

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2  
jwodder has explained the best solution in their answer, but it's worth noting that you can use fromIntegral to convert an instance of Integral into an instance of Fractional, and round/floor/ceiling/truncate to convert an instance of RealFrac (like Float, Double, Rational, etc.) into an instance of Integral. –  ehird Mar 25 '12 at 19:10
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1 Answer

up vote 5 down vote accepted

To divide two Ints when you know, as in this case, that the dividend is divisible by the divisor, use the div or quot function, i.e., div n 2 or quot n 2. (div and quot differ only in their handling of negative operands when the "true" quotient isn't an integer.)

Also, why are you defining divides as not $ mod y x == 0? Unless you're using a nonstandard meaning of "divides," you should be using just mod y x == 0x divides y iff y modulo x is zero.

As for combining carmichaeltwos and carmichaelodd, try using the until function:

factorcarmichael n = until (\(_, s) -> not $ divides 2 s)
                           (\(r, s) -> (r+1, div s 2))
                           (0, n-1)
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2  
Oops. I'm a wee bit hungover. You're right about divides. –  Josh Infiesto Mar 25 '12 at 19:10
3  
@Josh Additionally, for divisibility by 2, there are even and odd. –  Daniel Fischer Mar 25 '12 at 20:19
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