1

I understand the definition of >>= in term of join

xs >>= f = join (fmap f xs)

which also tells us that fmap + join yields >>=

I was wondering if for the List monad it's possible to define without join, as we do for example for Maybe:

>>= m f = case m of
    Nothing -> Nothing
    Just x  -> f x
6

Sure. The actual definition in GHC/Base.hs is in terms of the equivalent list comprehension:

instance Monad []  where
    xs >>= f             = [y | x <- xs, y <- f x]

Alternatively, you could try the following method of working it out from scratch from the type:

(>>=) :: [a] -> (a -> [b]) -> [b]

We need to handle two cases:

[] >>= f = ???
(x:xs) >>= f = ???

The first is easy. We have no elements of type a, so we can't apply f. The only thing we can do is return an empty list:

[] >>= f = []

For the second, x is a value of type a, so we can apply f giving us a value of f x of type [b]. That's the beginning of our list, and we can concatenate it with the rest of the list generated by a recursive call:

(x:xs) >>= f = f x ++ (xs >>= f)
  • and that is exactly as it was given in the Reasoned Schemer! (only, in Scheme; without ever mentioning the "M" word). They even had two different "binds" there. – Will Ness Feb 18 '18 at 1:56

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