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Suppose I want to make all numbers an instance of Monoid. Instead of having to create an instance for each Num like this:

instance Monoid Int where
  mappend = (+)
  mempty = 0

instance Monoid Float where
  mappend = (+)
  mempty = 0.0

-- etc

Is there something like this?

instance Num t => Monoid t where
  mappend = (+)
  mempty = 0

Edit

Some are answering with GHC extensions and warning about the potential issues; I found that informative, but I think I will stick with Sum, Product and whatever coerce does.

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  • 6
    what you are looking for is already there - but there are more than one possible Monoids for numbers - that's why it's there for Sum and Product(see Data.Monoid)
    – Random Dev
    Sep 24, 2015 at 19:21
  • 1
    @Carsten So now that I know about Sum, I can do this: mconcat ([1,2] :: Sum Int), which is nice, but I can't do mconcat ([1,2] :: Sum Float), nor mconcat ([1,2] :: Sum Fractional). What is the proper way to use Sum for Floats and Doubles?
    – Lay González
    Sep 24, 2015 at 20:03
  • I have no clue how you got the first to work - but mconcat ([1,2] :: [Sum Float]) works fine for me ;)
    – Random Dev
    Sep 24, 2015 at 20:30
  • btw: Fractional is no type, it's a class, so Sum Fractional makes no sense here (Sum wants something of kind * as it's first parameter, but Fractional is * -> Constraint)
    – Random Dev
    Sep 24, 2015 at 20:33
  • Oops, yes I meant :: [Sum Int] in the first example not :: Sum Int. And what I couldn't get to work was mconcat ([1.0, 2.0] :: [Sum Float]); mconcat ([1, 2] :: [Sum Float]) works fine.
    – Lay González
    Sep 24, 2015 at 20:35

2 Answers 2

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21

I'm interpreting this as asking about a general premise, rather than specifically about Monoid and Num.

Maybe you could get what you wrote to work, by enabling language extensions FlexibleInstances, UndecidableInstances, and using overlapping instances.

But you probably wouldn't want to: it seems like instance Num t => Monoid t where ... is saying

"If t is an instance of Num, here's how to make t an instance of Monoid..."

Unfortunately, that's not right. What it's actually saying is more like

"Here's how to make t an instance of Monoid. First, it's necessary that t be an instance of Num. Next..."

Thus, if you write an instance declaration like this, you can't write any other instance declarations. (At least not without OverlappingInstances, which would bring its own issues.)

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6

GHC allows your definition with some language extensions enabled

{-# LANGUAGE FlexibleInstances, UndecidableInstances #-}

instance Num t => Monoid t where
  mappend = (+)
  mempty = 0

This makes 2 <> 3 result in 5.

But this overlaps with other Monoid instances, so trying to evaluate "Hello" <> "World" results with an error: Overlapping instances for Monoid [Char]

So, I think that the short answer is: no.

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