(++) are just specializations of
mappend; am I right? Why are they needed? This is useless duplication since Haskell has these powerful typeclasses and type inference.
Let's say we delete
(++) and rename
(+) for visual convenience and typing gain.
Coding would be more intuitive, shorter and more understandable for beginners:
--old and new 1 + 2 --result 3 --old "Hello" ++ " " ++ "World" --new "Hello" + " " + "World" --result "Hello World" --old Just [1, 2, 3] `mappend` Just [4..6] --new Just [1, 2, 3] + Just [4..6] --result Just [1, 2, 3, 4, 5, 6]
(It makes me dream.). Three, and maybe more, functions for the same thing isn't a good thing for a beautiful language who insists on abstraction and stuff such as Haskell.
I also saw the same kind of repetitions with monads:
fmap is the same, or nearly, as
I know there are historial reasons for
fmap, but what about monoids? Is the Haskell commitee planning something about this? It would break some codes, but I heard, though I'm not sure, there's an incoming version which will have great changes, which is a great occasion. It's too much a pity... At least, is a fork affordable?
In answers I read, there is the fact that for numbers, either
(+) could fit in
mappend. In fact, I think that
(*) should be part of
Currently, forgeting about the functions
mconcat, we only have
class Monoid m where mappend :: m -> m -> m
But we could do that:
class Monoid m where mappend :: m -> m -> m mmultiply :: m -> m -> m
It would (maybe, I haven't though enough about it yet) behave as follows:
3 * 3 mempty + 3 + 3 + 3 0 + 3 + 3 + 3 9 Just 3 * Just 4 Just (3 * 4) Just (3 + 3 + 3 +3) Just 12 [1, 2, 3] * [10, 20, 30] [1 * 10, 2 * 10, 3 * 10, ...] [10, 20, 30, 20, 40, 60, ...]
Actually 'mmultiply' would just be defined only in terms of 'mappend' so for instances of
Monoid there is no need to redefine it! Then
Monoid is closer to mathematics; maybe we could as well add
(/) to the class!
If this works, I think it would solve the case of
Product as well as the functions duplication:
(+) and the new
mmultiply is just
Basically I suggest a refactoring of code with a "pull up".
Oh, we would need as well a new
We could abstract these operators in a class
MonoidOperator and define
Monoid as follows:
class (Monoid m) => MonoidOperator mo m where mempty :: m mappend :: m -> m -> m instance MonoidOperator (+) m where mempty = 0 mappend = --definition of (+) instance MonoidOperator (*) where --... class Monoid m where -...
Well I don't know how to do this yet but I think there is a cool solution for all of this.