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please help me understand this:

I want to generate all prime-roots for a "quotient group" (I hope that's "prime Restklassengruppe" in english ;))

import Data.List (nub)  
primeroots rclass = filter (\(x,y) -> (18) == y) produceAllCandidates where
  produceAllCandidates = map makeOneCandidate [1..rclass] where
    makeOneCandidate elem = (elem,  (length (nub (map (\x -> (mod (elem ^ x) rclass)) [0..(rclass -1)]))))

Then I run this in ghci and get

> primeroots 19
> [(2,18),(3,18),(10,18),(13,18),(14,18),(15,18)]

but if I change the 18 in the first line to rclass - 1 (which should yield 18, and does this for all but 15 anyways):

primeroots rclass = filter (\(x,y) -> (rclass - 1) == y) produceAllCandidates where

and run it with the same Argument

> primeroots 19
> [(2,18),(3,18),(10,18),(13,18),(14,18)]

Why do I get different results when changing 18 to (rclass - 1) when I call it so, that rclass will be 19 (which then should make (rclass -1) 18?!

Thanks in advance

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thanks, I updated it – Dender Feb 8 '14 at 14:18
    
In the first case the type is Integral t => t -> [(t, Int)] and in the second the type is Int -> [(Int, Int)]. I'm not sure what your function is doing, but do you have some integer oveflow occurring somewhere? – Tom Ellis Feb 8 '14 at 14:35
    
If you replace (rclass - 1) == y with fromIntegral (rclass - 1) == y it will do what you expect. – Tom Ellis Feb 8 '14 at 14:40
up vote 5 down vote accepted

It seems to be a matter of types; forcing the output type to be Int makes a difference:

Prelude Data.List> primeroots 19
[(2,18),(3,18),(10,18),(13,18),(14,18),(15,18)]
Prelude Data.List> primeroots 19 :: [(Int, Int)]
[(2,18),(3,18),(10,18),(13,18),(14,18)]

Narrowing it down:

Prelude Data.List> let foo rclass elem = map (\x -> (mod (elem ^ x) rclass)) [0..(rclass -1)]
Prelude Data.List> foo (19 :: Int) 15
[1,15,16,12,9,2,11,13,5,18,4,3,7,10,17,8,6,5,9]
Prelude Data.List> foo (19 :: Integer) 15
[1,15,16,12,9,2,11,13,5,18,4,3,7,10,17,8,6,14,1]

Note that the last two elements are different. These are formed by mod (15 ^ 17) 19 and mod (15 ^ 18) 19, respectively, which overflow the Int type.

To do this correctly for small numbers, write some kind of powMod function, or be a bit wasteful and force the type to be Integer.

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