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So I'm quite the newb in haskell and questions abound. I've been reading through a couple books and trying to do a few things on my own, can someone please explain to me why this is complaining that the literal doesn't implement eq, I understand why eq is necessary- but I don't understand why this is seen as a literal rather than a num or how I change that.

generateListOfRandoms :: a -> b -> c -> d -> [(d, (a, b))]
generateListOfRandoms _ _ 0 _ = []
generateListOfRandoms rangeStart rangeEnd numberOfRandoms randGenerator =
    (randGenerator, (rangeStart,rangeEnd))  : generateListOfRandoms rangeStart rangeEnd (numberOfRandoms-1) randGenerator

I'm sure my function is going to fail in other ways when I try giving it an IO function as some of you could guess, but I'm confused right now why I get this error:

    No instance for (Eq c)
      arising from the literal `0'
    In the pattern: 0
    In an equation for `generateListOfRandoms':
        generateListOfRandoms _ _ 0 _ = []
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I also tried using a guard instead and it just complained that the literal 0 didn't implement Eq just the same –  Jimmy Hoffa Jun 11 '12 at 0:40
Your type signature says that the third argument can be of any type, but surely you want to restrict it only for numeric types (otherwise you can't use 0 as a pattern). In Haskell, you'd express that as (Num c) => a -> b -> c -> .... –  Vitus Jun 11 '12 at 0:47

1 Answer 1

up vote 8 down vote accepted

If you use a numeric literal, the type of the corresponding argument must belong to the Num class. Also, since you are pattern-matching against a numeric literal, you need the type to belong to the Eq class. You have to add these constraints to your type signature,

generateListOfRandoms :: (Num c, Eq c) => a -> b -> c -> d -> [(d, (a, b))]

If you're not using GHC-7.4, the Eq constraint is implied by the Num constraint, that has recently been changed, so now you have to state both explicitly if you use both.

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Thanks! I tried both of these constraints before but not together. This is why it was missing. –  Jimmy Hoffa Jun 11 '12 at 0:57
Num is a subclass of Eq, so just Num c => ... is sufficient –  newacct Jun 11 '12 at 6:36
@newacct Num is no longer a subclass of Eq in ghc 7.4, as Daniel points out. –  dave4420 Jun 11 '12 at 8:36

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