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I have a bit of code that would be more cleanly written if I could treat Monads as Nums (where applicable, of course). Easily enough done:

{-# LANGUAGE FlexibleInstances #-}

import Control.Monad (liftM, liftM2)
import Data.Char (digitToInt)

instance (Monad m, Num a) => Num (m a) where
  (+) = liftM2 (+)
  (-) = liftM2 (-)
  (*) = liftM2 (*)
  abs = liftM abs
  signum = liftM signum
  fromInteger = return . fromInteger

square :: (Monad m, Num a) => m a -> m a
square x = x * x

-- Prints "Just 9", as expected
main = putStrLn $ show $ square $ Just 3

But when I add the following function to the file …

digitToNum :: (Num a) => Char -> a
digitToNum = fromIntegral . digitToInt

… I receive the following error:

    Overlapping instances for Num (m a)
      arising from a use of `*'
    Matching instances:
      instance (Monad m, Num a) => Num (m a)
        -- Defined at monadNumTest.hs:6:10
      instance Integral a => Num (GHC.Real.Ratio a)
        -- Defined in `GHC.Real'
    (The choice depends on the instantiation of `m, a'
     To pick the first instance above, use -XIncoherentInstances
     when compiling the other instance declarations)
    In the expression: x * x
    In an equation for `square': square x = x * x

This doesn't make sense to me, because (1) digitToNum is never called and (2) Ratio isn't a Monad. So I'm unsure how or why that's a problem. Any tips around this would be appreciated.

This is GHC 7.4.2, using the Haskell Platform 2012.4.0.0.

share|improve this question
If you insist on doing something like this (though I'd also say it's not a good idea) then you should make it Applicative right away, not Monad. — BTW, there's no need to define square: for any Num type, (^2) will automatically do this. – leftaroundabout Dec 16 '12 at 10:20
square isn't real code; it was just there to have a minimal, complete example. – James Cunningham Dec 16 '12 at 18:44
I think an important conclusion to draw from this is that simply writing liftM2 (+), instead of making a Monad instance, can be significantly clearer and less error-prone for both human readers and the compiler. – Matt Fenwick Dec 17 '12 at 1:09
Well … that doesn't really scale to more complex arithmetic expressions. Usually better just to use do-notation in those situations, I suspect. – James Cunningham Dec 17 '12 at 1:49
up vote 8 down vote accepted

The key issue at play here is a principle in haskell that writing additional instances should not change the operation of existing code. This increases the robustness of haskell code, as code won't break or have different behaviour if a module it depends on adds a new instance.

For this reason, when choosing possible instances to use for a type, Haskell does not consider the context of the instances. For example, when matching checking if a type will match the instance instance (Monad m, Num a) => Num (m a) for the class Num, it will only check if it can match m a. This is because any type may later be made an instance of a class, and if instance choice used context information adding that instance would change the operation of existing programs.

For example, there is nothing stopping the following code being added either in your module, or in a module you depend on:

instance Monad Ratio where
   return = undefined
   (>>=) = undefined

Sure, such an instance is useless, but haskell has no way of judging that. It also is possible that there is a useful definition of Monad for Ratio (I haven't looked into that).

In summary, what you are trying to do isn't a good idea. You can stop these limitations using OverlappingInstances and IncoherentInstances, however for the reasons described above these flags are not recommended for mainstream use by most haskell programmers.

share|improve this answer
I think you mean "not recommended for mainstream use"? – Alexey Romanov Dec 16 '12 at 7:54
@AlexeyRomanov: Thanks, pretty important missing word there :/ – David Miani Dec 16 '12 at 7:55
Hm, that makes sense. I admit it feels a little odd that the presence of an unused function definition pulls in the Num instance for Ratio. FWIW, recommended or not, adding the mentioned flags doesn't solve the problem — I get almost the same error. – James Cunningham Dec 16 '12 at 18:34

As @nanothief explains, Haskell's typeclass are designed with the "open world assumption". The standard way to get around this problem is to use a newtype wrapper which makes the instance head less generic. e.g.

newtype WrappedMonad m a = WrapMonad { unwrapMonad :: m a }

instance Monad m => Monad (WrappedMonad m) where
   return = WrapMonad . return
   (WrapMonad a) >>= f = WrapMonad (a >>= unwrapMonad . f)

instance (Monad m, Num a) => Num (WrappedMonad m a)
   (+) = liftM2 (+)
   fromInteger = return . fromInteger
   -- etc.

Now you should be able to use it by first wrapping all the input, and only unwrapping at the very end:

unwrapMonad . sum . map WrapMonad $ [[1, 2], [10,20], [100,200]]
-- [111,211,121,221,112,212,122,222]

(Clearly there will be larger benefits for longer chains of arithmetic.)

It might be worth deriving Eq and Show etc on WrappedMonad to allow it to be an exact stand-in for any functionality of m a.

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