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I am looking for a idiomatic way of doing

moveMaybeCreature Nothing world = world
moveMaybeCreature (Just creature) world = moveCreature creature world

Or in other words

if isJust c
    then doSomething (fromJust c) w
    else w

I thought I could to it this way:

moveMaybeCreature c w = foldr moveCreature w (maybeToList c)

Can I do it without having to convert Maybe Creature to [Creature]?

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3 Answers 3

up vote 10 down vote accepted

You can do this as long as type of world and moveCreature (fromJust c) world are same. You can use maybe from Data.Maybe.

 moveMaybeCreature = maybe id moveCreature

Your first way of doing where you pattern match should also work just fine.

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That's the very first function described on the doc for Data.Maybe, and I somehow missed it. Thanks! –  Niriel Oct 26 '12 at 4:37
As a side note, there's also the equivalent for Either: either in Data.Either. –  David Oct 26 '12 at 11:21
Your precondition on the types is pretty much guaranteed if moveMaybeCreature typechecked in the first place... –  Ben Millwood Oct 26 '12 at 12:48
@BenMillwood Yeah I know that it will be asserted by the typechecker. I just wanted to specify that you can not do this if you wanted to return different types for Nothing and Just c. –  Satvik Oct 26 '12 at 13:10
But there's no way to do that regardless of what method you use, so it's a redundant condition. –  Ben Millwood Oct 26 '12 at 13:31

I second the recommendation to use the maybe function. You were right to ask this question because of this general rule of thumb (not just for you, but for any newcomers reading it): functions with types like Maybe Foo -> Bar or Maybe Foo -> Maybe Bar that are defined directly are a code smell in Haskell. You almost never want to write a function that takes Maybe Foo as an argument; you want a function that takes just Foo, and use a higher-order function to adapt it to Maybe Foo.

Suppose you have a function f' :: Maybe Foo -> Maybe Bar. This can usually be refactored into either:

  1. f :: Foo -> Bar and fmap f :: Maybe Foo -> Maybe Bar;
  2. f :: Foo -> Maybe Bar and (>>=f) :: Maybe Foo -> Maybe Bar

First case works because this is the Functor instance for Maybe:

instance Functor Maybe where
    fmap f Nothing = Nothing
    fmap f (Just x) = Just (f x)

-- or this:
--     fmap f = maybe Nothing (Just . f)

Second case works because this is the Monad instance for Maybe:

instance Monad Maybe where
    return = Just
    Nothing >>= f = Nothing
    (Just x) >>= f = f x

-- or this:
--     mx >>= f = maybe Nothing f mx
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.... and as Satvik said, if you have a function of type Maybe a -> b like yours, you can use the maybe function to refactor it. –  AndrewC Oct 26 '12 at 21:51
Interestingly, if you're writing a function like perhaps :: a -> b -> Maybe c -> Maybe d -> Maybe e -> Maybe f, you can use Applicative and write the pure bit assuming all the maybe data is available, and define perhaps = purebit a b <$> c <*> d <*> e. –  AndrewC Oct 26 '12 at 21:55

Here's another option, closer to your original code:

import qualified Data.Foldable as F

moveMaybeCreature = flip (F.foldr moveCreature)
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